ML17039A610

From kanterella
Revision as of 23:58, 18 May 2018 by StriderTol (talk | contribs) (Created page by program invented by StriderTol)
Jump to navigation Jump to search
Davis-Besse Nuclear Power Station, Unit 1, Revision 31 to Updated Final Safety Analysis Report, Section 7.0, Instrumentation and Control
ML17039A610
Person / Time
Site: Davis Besse Cleveland Electric icon.png
Issue date: 11/21/2016
From:
FirstEnergy Nuclear Operating Co
To:
Office of Nuclear Reactor Regulation
Shared Package
ML17039A594 List: ... further results
References
L-16-322
Download: ML17039A610 (183)


Text

{{#Wiki_filter:Condu1t Hff" Conduit HSH Conduit *r Conduit "S" M1n1num Configuration Channel Ch1nnel Fmction Fmctlon Separation Horizontal x x C.l,P1,P2,P3 C,t,Pl,P2.P3 0-0 .. £SS X ESS Y C,l,Pl,P2 C,I,Pl,P2 O*O" 'oJ-P3 C,I,Pl,P2,P3 O*l" ab NON*ESS l NON-ESS Y C,l,Pl,P2,Pl C,I ,Pl,P2 ,Pl o*o* Jt(S) S(R) ESS Y C,I,Pl,P2 C,I,P1,P2,P3 0-0" (0-0") P3 C,l,Pl,P2,P3 0-0" (D*l") Vertical x x C,I,P1,P2,P3 C,I,Pl,P2,P3 o-o* Rts>O.J... ESS X ESS Y C,I,Pl C,l,Pl o-o* 0 . P2,P3 C,I,Pl,P2,P3 D*l" so>ITT NON-ESS X NON*ESS Y C,l,Pl,P2,P3 C,l,Pl,P2,P3 0*0" D,OQ) ESS Y C,I,P1 C,I,P1,P2,Pl 0-0" (D-0") PZ,PJ C,I,Pl,P2,P3 o-o* (O-t-) Crossing x x C,l,Pl,P2,P3 C,l,Pl,P2,P3 o*o* J OR(S) ESS X ESS Y C,1,Pl C,l,Pl o-o* D PZ C,l,Pl,P2 o-11s* T& a S(R) Pl C,l,Pl,PZ,PJ o-r tcOH*ESS X NON*ESS Y C,t,P1,P2,P3 C,l,P1,P2,P3 o-o* -;ob ESS Y C,l,Pl *C,l,Pl,P2,P3 o-o* (O*O*) P2 C.I.P1,P2,Pl O*O. 0 S(R) (0-118*) Pl C,l,Pl,P2,P3 0-0 R(S) (0-1*) Notes: 1. l 1111ans conduit channel (1.e., 1,2,3,4,A,8,C). 2. Y .. ans conduit channel (t.e ** 1,2,3,4,A,8,C) different fl'Oll conduit x. 3. Mf nt11a separ*t1ons 1clent1f1ed 1n parentheses apply when Non-Ess conduit brfdges ESS redundant conduits. Only one end of the bridge lftUSt satisfy separation, the separation 1111y bl zero at the other end. '* C **ns Control. s. r ... ns lnstrunentat1on. 6. Pl means Power (Size c 12 AWG). 7. P2 llHnS Power (S1ze > 12 AWG but not 13.8 KV. 4.16 KV, 480 v Sub). 8. P3 means Power (13.8 KV. 4.16 KV, 480 V Sub). DAVIS-BESSE NUCLEAR POWER STATION GUIDE TO CONDUIT TO CONDulT SEPARATION FIGURE 7 .1-1 REVISION 20 DECEMBER 1996 DB 11-18-96 DFN=/OBNPS2/RASDGN/UFIG711.DGN/I

'IO .... llD _. __ .._ ___________________________________________ ....... +------' P!!R ., ,,,, me -...... -----._.-.... 11..S c-...ta --*--**---f ----.-.. ---*-.. , ----Lr-um:-E$--**-0-...--*---© ,._,_raw-.*---0 IS --© =:" ... "':..'"': :.: -.&Ill ____ .,.,. 7749-M-536-1 -:t-J* DAVIS-BESSE NUCLEAR POtta STAT[OH REACTOR PROTECTCON SYSTEM*< M-536-1 FlGURE 7.2-t REVISION 21 NOYOOER 1998 MARGINAL QUALITY DOCUMENT BEST COPY AVAILABLE L

MANUAL { TRIP R I 10 CH. 2 TSll2 ISEE NOfE 21 I FROM CHANNELS 1, l, 4 TSIJJ CONT A tAOIA TI ON fSll4 i 1 i 2 i l j4 ;;1 ::g, :;1 :XI £.rl I I I I I I I I I I I I I I I '--.,--' SAME AS CHANNEL NO. I ,: . .,.,.! TD BLOCK I TO CH.2 CV PURCE & Slof'L VLV ISO SYS '<ri2,....j3,...,j4 *I *I *I *I 6:1 Q:1 :i:I :i:J I I I I I I I I I I I I I CH.l I I I '--.,--' SAME AS CHANNEL NO. I ISEENDTE 211 FROM CHANNELS 2, l,4 TS212 TS21l TS214 CURRENllVOUACE SOURCE CHANNEL LOCATl!Xi INSTRUMENT NO. I C5762C PSH7528A 2 C5l55C PSHl529A I C57630 PSH7530A /f 0 --, ELEM. OWG. i PRZR HTR E-528 51167 HVCF!A E*52B SH27 HVCFIB E-518 SH27 2 C51560 PSHl531A HVOHI IE & E-528 SH24 PRZR HTR & SHGl I I l L_ _____ ______ i TS312 ISEE NOTE 21l FROM CHANNELS 2, l,4 TSJ!l TSll4 i1 il i3 j4 o:: o:: I I I I I I I '--.,--' SA!£ AS CHAHN[L NO. I BISTABLE .-----ADJ. VOLIACE MAN TEil STATION VARIABLES BORATED UN'i I FYFI '* ----s>>i8iil---li[iAi(ciiiCu-11s *-* -* -* -*--, I lin.n TO SYSIEM LOGIC T *-TYPICAL FOR N.O. ANO N.C. PUSHBUTTONS I i i I MEMORI WITH MANUALIMI

  • MATICIAI RES[! I ! I i i i i il i2 j3 j4 JiQilli I. THIS DRAWING IS MEANT AS AN ATTACHMENT TO S.'ECIFICATION 7l4Hl0 'SAFETY FEA!URES AClUAl l!Xi SYSTEM'. 2. !HIS DRAWING INDICATES CHANNEL NO. I THE ARRANG[NEN!S OF CHANNEL N0.1 lHRU NO. 4 ARE THE SA!£. TYPICAL EX!ERNAL DUlPUl CONNECTICXiS WITH lNlERllE BETW£EN lHE CHANNEL OUTPUTS AS SHOWN JN FIGURE !. I l. THE LOGIC IS SHOWN IM A FAIL-SAFE MOOE -ENERGIZED INCLUDING OUTPUT RELAY. THE CONTACTS ARF SHOWN DE-lNERGIZED. 4. BRIDGE "OR' '<HEN OUTPUT IS NOT SEOUENCEO. SEE SHEET 1-REFERENCE DRAWING !ITEMS I, l IHRU 121. s. VALUE OF RESISTANCE SHALL BE SELECTED 10 MAINTAIN 1oor. LIGHT OUTPUT WITH ONE CONTACT CLOSED, ANO 70r. LICHT OUTPUT WITH BOTH COOT ACTS OPEN. 6. PROVIDE ONE 111 OUTPUl RELAY FOR EACH PROTECTIVE EDUIPMENT ITEM TO BE ACTUATED !SEE SHEET 2-REFERENCE DRAWING I ITEMS I, 7 THRU J2). 7. UNUSED INPUTS SHALL BE BRIDGED WHEN THE ACTJACTION LOGIC CIRCUIT IS EMPLOHO FOR S2, Sl, S< AHO SS. 8. FOR NOMENCLATURE OF THE ANALOG ANO DIGTAL SIGNALS SEE LECENO ON DRAWING El6 SH.2.IUSAR FIGURE 7.3-21. 9. PROVl!l: ONE! ll 14JNl10RING RELAY FOR EACH ACTUATED EOUJPMENT ITEM EXCEPT FOR ACfUAlED EOUJPMENT WITH REMOTr MONITORING CONTACT AS SPECIFIED ON DWG. E!lR. JO. PROVIDE ONE 111 SAFETY ACTUATION KlNllORING ISAMI LIGHT LOGIC FOR EACH ACTUATEO EQUIPMENT. DIAGRAM ANO DOCS NCl I CONTINUED SHE(! 2 I REPRESENl ACTUAL WIRING CONFIGURATIONS moo LOGIC FUNCTION
  • ANO *OR $ $A 0---NOT ON DELAY OFF DELAY BISTABLE HIGH IL.. LO*t I AUTOMATIC OR MANUAL RESEii ISIUTINC OR BUFFER IDIGITAU ISOLATING OR BUFFER AIJl'LIFIER IANALOGl lESTICALIBRAllNG !£ANS -0 ALARM !REMOTEl -0 OATA LOGGER !REMOTE! --n -INDICATING LIGfil R
  • REMOTE 0-INDICATING INSTRUMENT MMNTARI MANUAL SWITCH C11 PUSHBUTTON MAINTAINED MANUAL SWITCH OR PUSH6UTTON TERMINAL WITH INTERCONNECTION BEl>HN CABINET;; lERMINAL WITH CONNECTION TO/FROM CABINET ----{>-* RELAI DRIVER AMPLIFIES TTBS TEST TRIP BYPASS SWITCH REFERENCE DRAWINGS: SEE SHEET 2 __ . ______ __ _ j1s11Jfu1i ! i K 11 nr* nr 14 DAVIS-BESSE NUCLEAR POWER STATION SAFETY FEATURES ACTUATION SYSTEM LOGIG DIAGRAM E -16 SH. 1 FIGURE 7.3-1 REV IS ION 31 OCTOBER 2016 OB 06-06-16 OFN*I:/ELEC/EIGSHl.OGN DESCRIPTION INPUT SIGNAL FROM STATION VARIABLES TRIP BISTABLE SYSTEM LOGIC CIRCUIT SYSTEM LOGIC NO. COHTAINM[NT VESSEL RAOIATIDN S[NSOR GROUP I CONTAINMENT VESSEL PRESSURE SENSOR GROUP l t.. L,,. L,,,, L,,,, CPI ! CPJ CP2 ! CP4 ! ! ! ! IS\ I I lSl IJ TSl 12 TSll4 H PSH1000A i :TSJ\I ! ! ! RCPI PSLRC01B4¢ TS211 ! ! i l.m ! i ! ! ! ! 11 I II ! 11 i I ilmfimti§ili1 I i1 I 1 I , II l i1 I l Ufilft§fi§=fili1 I 1 I i1 I I 214 I 214 I 214 I 214 I 214 I 114 1!1 114 214 I 214 I 214 I 114 I 214 11 214 214 I 214 I 114 I 114 I 214 214 I 114 I 214 I 214 I 214 I 214 1! !I 214 I 214 I 114 I 114 I I 214 I 214 1!1,....21.._4...,l,......_21""4....,..2 ... 14.....,_l .. 1'-'14 ... ;=l""'-'i-1'"'2 ... 14 ... .......,12 ... 14...,l'l,....21 ... 4""1,.....21.._4.,l ... 2.._1'"'4 ... 1 .... 2'"'14......=1 I 114 I 214 11 214 I 114 I 114 I 114 I I 114 I 114 I I I II I 1 Lill 1 ll21 rn l\13 1 L!1l 111 L\12 1 Ll22 1 Ll\4 1 L\24 r ii L111 1 L221 1_1 L291 111 L2\J L223 1 1 L293 rn L212 1 l222 1 1 L291 11 L214 1 L2Z4 1 1 L294 1 L_ ___ [\ ___ [fl:":J1___ : .. *r ___ 1*::::*_ .... t_I __ --: ......... L _ "i _ _ '. *:* *: ... g LJ1 _l!_ _ '.*:r __ 00"_1'* ::*! _ -.. . L'.:*f ____ r* *r . *_*1 __ SAFETY ACTUATION SIGNAL t < < ------: : : ---------------------------H-t H++H+Ht+.._ ______________ -:_:_ __ -:J._:_ __ :._..::. ________________ *I+ ---l+ ---++H-l § § E i.--------------------SAFETY ACTUATION INCIDENT NO.\ --------------------0-----------------------SAFETY ACTUATION INCIDENT N0.1----------------------OCSCRIPTJ()l INPUT SIGNAL FROM STATION VARIABLES REACTOR COOLANT PRESSURE SENSOR GROUP N0.2 r* --------*----**--*-.. -*--**-**-**r** **-**-**-----*-*--.. -.. -------*i-** ----*-**-.. -------*------*--*-,-------**--*----**-*---*----*--** : CHANNEL NO. I : CHANNEL HQ, J : CHA\>tlEL NO. 2 : CHANNEL N0.4 I I I I TI NUATI ON l ! RCP I ! RCP3 RCP1 RCP 4 SEE CORO. A-11 I 1 \ 1 \ I I I THIS owG. ¢""""'" ¢,.,,,,, TRIP BISTABLE :rs221 ITRLK T511J ITRL! TS222 ITRlK TS224 ITRLK PRZR HTR HVCF\B HVCFIA HYOHI I PRZR NTR ! ; i i FAIL-SAFE RELAY 'ANO' GATE CPI TS321 CPl ..**. TSl23 BORATED WATER STORAG£ TANK LEVEL SENSOR GROUP N0.4 THIS OWG. IS INTENDED Al A SYSTEM LOGIC DIAGRAM ANO DOES NOT REPRESENT ACTUAL WIRING CONf IGURATJONS ANAi QG SIGNAi S CR I -CHANNEL "'[__CONTAINMENT VESSEL RADIATION CP -CONTAINMENT VESSEL PRESSURE RCP -REAC!OR COOLANT PRESSURE ..,_ -BORATED WATER STORAGE TANK LEVEL QI(j!TAI SIGNAi S TRIP SIGNAL TS221 BISTABLE NO. Of SENSOR GROIJ' SENSOR GROUP LOGIC NUllJER ll21 SYSTEM INCIDENT NOTE: SAFETY SIGNAL I Sl ANO SAFETY ACTUAfl ON SICNAl ISAl NUMBERS ARE SIMILAR TO LOCH: NUMBERS A,B,C ... ARBITRARY OIJTPUT SIGNAL SEQUENTIAL LETTERS. FAIL-SAFE R!:LIY 'AND' GATE AS SHO'lN ON FIGURE I, SHEET \. NOTES: iJHEFT I CONTIN!JfO) II. TO BE PROVIDED IN CH.I & CH.2 ONLY. 12. REACTOR COOLANT PRESSURE INDICATION OUTPUT FOR CH.J AND CH. 4 ONLY. \J. WIDE RANGE PRESSURE SIGNAL TO NNI: OWG. m9-E-GDJA SH. 9 IFOR CHANNEL 2 ONL Yl 14. SIGHOL OUTPUT USED ON CH. I & CH.2 ONLY. 15. ALL ANNUNCIATOR ANO COMPUTER OLARMS ARE NOT 0. 16. OUTPUT SIGNAL 10 PSH7528B AND PSH7531B IN CH. I & CH. 4 RESPECTIVELY. \8. DELETED. 19. REACTOR COOLANT WIDE RANGE PRESSURE SIGNAL TOT-SAT METER !N ALL FOUR CHANIUS, BUFFEREO OUTPUT SIGNAL TO BE I 10 5 VOLTS D.C. 10. REACTOR COOLANT WIDE RANCE PRESSURE SIGNAL TO IE I-SAT METER JN ALL FOUR CHANNELS. 21. INPUT LOGIC WIRING SEQUENCE FROM CHANNELS 11,2,l & 4l IS SHOllH DIAGRAMAT\CALL T ANO MAY NOT REPRESENT THE ACTUAL WIRING SEQUENCE CONFIGURATION. THE INPUT FROM THE ASSOC IATEO CHANNEL 11.E. THE INPUT rROM THE Cl!ANtH I TRIP BISTABLE INTO THE CHANNEL I OIJTPUT MODIJLEI ALWAYS COMES INTO GATES SHOWN FOR CHANNELS I OR 2. 11. M & IE EOUIPMENT JS USED AS THE INDICATOR UTILIZING TEST JACKS PROVIDED ON THE CABINET PANEL. NOTES; \SHEET 21 FOR CHANllEL BYPASSES OPERATING 8YP4SSES, CHANNEL FAILURE SURVEILLANCES, SEQUENCERS ANO BUHER CIRCUITS, SEE LOGIC DIAGRAM owe. E-16 SH.I IUSAR FIG. 7.3-11. REFERENCE QRAW!NG I. E*ITB \SHEET 71 "SAFETY FEATURES ACTUATION SYSTEM ACTUATED EOUIP\£NT TABUL4l\ON LEGEND, S\GIUL DESCR\Pl\ON NOTES" IUSAR FIG. 7.l-31. 1. COOSOUDATEO CONIR11S CORPORATlllll owe. S9N\6-I THRU 4 ()749-EJO-ll THRU 16,1l THRU JO,Jl THRU l8,4T & 48l IFSAR APPENDIX 7-BI l. 1749-E-760 BLOCK DIAGRAM, SFAS REMOTE POSITION SWITCH MONITORING 4. 1749-E*76\ BLOCK DIAGRAM, INTERCOHNECTINC CABLES 5. 7749-E-761 BLOC! DIAGRAM, SFAS MISC. CIRCUITS 6. 7749*[*540 CONNECTION DIAGRAM, SFAI 7. E-17B \SHEET 11 'SAFETY FEATURES ACTUATION SYSTEM ACTUATEO EOUIPJUT TABULATIOO" (USAR FIG. T.J-3AI. 8. E-178 \SHEET 21 "SAFETY FEATURES ACTUAT!Oll SYSTEM ACTUATEO EOIJ\PMENT TABll.AlJOO" IUSAR FIG. T.J-41. 9. E-17B !SHEET ll "SAFETY FEATURES ACTUATION SYSTEM ACTUATED EOIJIPMENT TABULATIOO' IUSAR FIG. l.J-5l. 10. E-ITB !SHEET 41 "SAFETY FEATURES ACTUATION SYSTEM ACTUATED El)JJPMENT TABULAl!OO" IUSAR FIG. 7.l-6l. \I. E-118 !SHEET 51 'SAFETY FEATURES ACTUATION SYSTEM ACTUATED TABULATION' IUSAR FIG. T.J*7l. 11. E-17B !SHEET GI "SAFETY FEATURES ACTUATION SYSTEM ACTUATED EOUIPMENT TABULATION" IUIAR FIG. T.l-81. DAVIS-BESSE NUCLEAR POWER STATION SAFETY FEATURES ACTUATION SYSTEM SIGNAL DIAGRAM E -16 SH. 2 FIGURE 7.3-? REVISION 31 OCTOBER 2016 08 06-06-16 OFN°! :/HEC/£ 16SH2.0CN l) LEGEND A ***** ALARM/PERMISSIVE I ..... INTERLOCK F ***** FUNCTION ST ***** START SH ..... START HALF SPEED SP *.... STOP 0 .**.* OPEN c ..... CLOSE T ***** TRIP RC ..... RELAY CONTACT CLASSIFICATION (NOTE 2) NOTES: 1. THIS DRAWING IS MEANT AS AN ATTACHMENT TO DRAWING 7749-E16. 2. THE RELAY CONTACTS ARE CLASSIFIED TO ACTUATE THE CONTROL DEVICES AS FOLLOWS: RC 1 ... 4. 16 KV & 480 V SWGR RC 2 ... 480 V STARTER SIZE ONE SAFETY ACTUATION SIGNAL DESCRIPTION SA4 l l A LETTER ACTUATION CHANNEL SYSTEM INCIDENT SAFETY ACTUATION SIGNAL *ACTUATED EQUIPMENT WITH REMOTE MONITORING CONTACT (SEE NOTE 9 OF DWG. 7749-E-16, SH. 1) RC 3 ... 480 V STARTER SIZE FOUR, EXCEPT FOR Cl-1, c_ Cl-2 AND Cl-3 WHICH USE POTTER BRUMFIELD TYPE MOR RELAY RC 4 ... 125 V DC SOLENOID VLV SEE SECTION 10.6.2.3 OF SPEC 7749-E30 3. BLOCK SIGNAL TO SYSTEM LOGIC WILL AUTOMATICALLY RESET ON AN UNDERVOLTAGE CONDITION. 4. SA511A/B AND SA512A/B PROVIDE A PERMISSIVE SIGNAL TO VALVES DH7A/B AND DH9A/B TO ALLOW THE OPERATOR TO REPOSTION THE VALVES AFTER BLOCKING SFAS LEVEL 2. IN ADDITION, SA511A/B AND SA12A/B INITIATE THE CONTROL ROOM ANNUCIATOR TO ALERT THE OPERATOR TO PERFORM THIS FUNCTION. 5. SURVEILLANCE, SAM LOGIC, AND PUMP JUMPER MODULE DEFINITIONS: lX -MOTOR OPERATED VALVE MODULE 2I -SOLENOID OPERATED VALVE MODULE -INTERNALLY WIRED CABINET MODULE 2F -SOLENOID OPERATED VALVE MODULE -FIELD WIRED CABINET MODULE 3X -PUMP, FAN AND DIESEL GENERATOR MODULE 4I -SAM RELAY BOARD -NEEDED ON INTERNALLY WIRED CABINET ONLY SX -PUMP JUMPER MODULE ** -3X MODULES USED FOR DEISEL GENERATOR CIRCUITS MUST HAVE JUMPER INSTALLED AS SHOWN ON VENDOR DRAWING E-30-343. DAVIS-BESSE NUCLEAR POWER STATION SAFETY FEATURES ACTUATION SYSTEM ACTUATED EQUIPMENT TABULATION SHEET 7 OF 7 E-17B SH. 7 F I GURE 7. 3-3 REVISION 24 JUNE 2004 ACTUATED EQUIPMENT TABULATION EQUIPMENT EQUIPMENT SA SIGNAL SURVEILL SAM LOGIC PUMP JMPR ITEM NO. DESCRIPTION NO. FUNCTION MOO TYPE MOO TYPE MOO TYPE 1(2)/3(4) 1(2)/3(4) \(2)/3(4) c 30-1 EMER VENT FAN 1 SA 11 lA ST lX lX 4I HV 5439 ECCS RM 105 HV & A/C ISO VLV SA 1118 c 1X IX 41 HV 5440 ECCS RM 105 HV & A/C ISO VLV SA 111C c 1X IX 41 HV 5024 EMER VENT FAN t VLV FRM AUX. BLDG. SA 11 ID c IX 1X 41 sv 5716 ECCS RM 115 ISO DMPR. SA 11 IE* c 2F 21 c 30-2 EMER VENT FAN 2 SA 112A ST IX IX 41 HV 5441 ECCS RM 115 HY & A/C ISO VLV SA 1128 c lX 1X 41 HV 5442 ECCS RM 115 HY & A/C ISO VLV SA l 12C c IX IX 4I HV 5025 EMER VENT FAN 2 VLV FRM AUX. BLDG. SA 1120 c 1X tX 4I sv 5715 ECCS RM 105 ISO DMPR. SA 112E* c 2F 2I SPARE SA 121A HV 5008 CTMT PURGE OUT ISO VLV SA 1218* c 2F 2I HV 5011A CTMT AIR SAMPLE ISO VLV SA 121C* c lX tX HV 50118 CTMT AIR SAMPLE ISO VLV SA 121D* c 1X 1X HV 501 lC CTMT AIR SAMPLE ISO VLV SA 121E* c IX lX HV 50110 CTMT AIR SAMPLE ISO VLV SA 121F* c 1X 1X HV 5006 CTMT PURGE IN ISO VLV SA 12lG* c 2F 21 HV 5009 MECH PENT RMS 2 & 4 PURGE VLV SA 121H* c 2F 2I HV 5016 MECH PENT RMS 1 & 3 PURGE VLV SA 121 I* c 2F 2I HV 5011E CTMT AIR SAMPLE RET ISO VLV SA 121J* c tX IX SPARE SA 121K sv 5301 CTRM AIR HANDL VLV 1 SA 12 ll* c 2F 21 SPARE SA 122A HV 50100 CTMT AIR SAMPLE ISO VLV SA 1228* c lX IX HV 5004 MECH PENT RMS 1 & 3 PURGE VLV SA 122C* c 2F 2I HV 5021 MECH PENT RMS 2 & 4 PURGE VLV SA 1220* c 2F 21 HV 5005 CTMT PURGE IN ISO VLV I SA 122E* I c 2F 21 I I HV 5007 I CTMT PURGE OUT ISO VLV I SA 122F* I c I 2F 2I I I HV 5010A CTMT AIR SAMPLE ISO VLV I SA 122G* c IX lX I HV 50108 CTMT AIR SAMPLE ISO VLV SA 122H* c 1X IX HV 5010C CTMT AIR SAMPLE ISO VLV SA 1221* c lX 1X HV 5010E CTMT AIR SAMPLE RET ISO VLV SA 122J* c 1X 1X SPARE SA 122K sv 5311 CTRM AIR HANDL VLV 2 SA 122L* c 2F 2I p 58-1 HP INJ PMP t SA 21 IA* ST 3X 3X 5X 5X HV HP2C HP INJ 1-1 VLV SA 2118 0 1X tX 4I HV HP2D HP INJ 1-2 VLV SA 211 C 0 lX 1X 4I SPARE SA 2110* SEO. SCHEME STEP RC DWG. NO. 1 2 E58B-8 1 2 E60B-5 1 2 E60B-5 t 2 E58B-11 A&B 1 4 EGOB-23 1 2 E58B-8 1 '2 E60B-5 I 2 £608-5 1 2 E58B-1 l A&B 1 4 E60B-23 1 3 1 4 E58B-7 A&B 1 2 E58B-14 A-C 1 2 E58B-15 A&B 1 2 E58B-14 A-C 1 2 E58B-t 5 A&B 1 4 E58B-6 1 4 E58B-7 A&B 1 4 E58B-7 A&B 1 2 E58B-14 A-C 1 2 1 4 E60B-14 A-0 ' 3 1 1 2 E588-14 A-C 1 4 E58B-7 A8<8 1 4 E58B-7 A&B I 1 I 4 E58B-7 A&B I 1 I 4 E58B-6 1 2 E58B-15 A&B 1 2 E58B-14 A-C 1 2 E58B-15 A&B 1 2 E58B-14 A-C 1 2 1 4 E60B-14 A-0 2 1 E52B-5 A&B 2 2 E52B-26 A&B 2 2 E52B-26 A&B 2 4 VDWG. NO. VDWG. NO. CH. ]( 2) CH. 3( 4) E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 I E-30-24 I E-30-28 I E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-24 E-30-28 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 E-30-14 E-30-35 DAVIS-BESSE NUCLEAR POWER STATION SAFETY FEATURES ACTUATION SYSTEM ACTUATED EQUIPMENT TABULATION SHEET 1 OF 1 E-17B SH. 1 FIGURE 7. 3-3A REVISION 25 JUNE 2006 DB 03-13-06 DFN=I :/ELEC/E17BSH1.0GN ACTUATED EQUIPMENT TABULATION EQUIPMENT EQUIPMENT SA SIGNAL SURVEILL SAM LOGIC PUMP JMPR ITEM NO. DE SCRIPT ION NO. FUNCTION MOD TYPE MOD TYPE MOO TYPE 1(2)/3(4) 1<2)/3(4) 1<2)/3(4) p 58-2 HP INJ PMP 2 SA 212A* ST 3X 3X 5X 5X HV HP2A HP I NJ 2-I VL V SA 2128 0 IX IX 41 HV HP2B HP INJ 2-2 VL V SA 212C 0 IX IX 41 SPARE SA 2120* c 1-1 CTMT CLR FAN 1 SA 221A SH IX IX 41 c 1-3 CTMT CLR FAN 3 SA 2218 SH IX IX 41 SPARE SA 221C SPARE SA 2210* c 1-2 CTMT CLR FAN 2 SA 222A SH IX IX 41 c 1-3 CTMT CLR FAN 3 SA 2228 SH IX IX 41 SPARE SA 222C SPARE SA 2220* p 43-1 CC PUMP I SA 231A* ST 3X 3X 5X SX p 43-3 CC PUMP 3 SA 2318* ST 3X 3X 5X 5X HV 5070 CTMT VACM RLF ISO VLV SA 231C c IX IX 41 HV 5071 CTMT VACM RLF ISO VLV SA 2310 c IX IX 41 HV 5072 CTMT VACM RLF ISO VLV SA 231E c IX IX 41 HV 5073 CTMT VACM RLF ISO VLV SA 231F c IX IX 41 HV 5074 CTMT VACM RLF ISO VLV SA 231G c IX IX 41 LY 6453 SG AUTO LVL CTRL SA 231H T IX IX 41 p 43-2 .CC PUMP 2 SA 232A* ST 3X 3X 5X 5X p 43-3 CC PUMP 3 SA 2328* ST 3X 3X 5X 5X HV 5075 CTMT VACM RLF ISO VLV SA 232C c IX IX 41 ( HV 5076 CTMT VACM RLF ISO VLV SA 2320 c IX IX 41 HV 5077 CTMT VACM RLF ISO VLV SA 232E c IX IX 41 HV 5078 CTMT VACM RLF ISO VLV SA 232F c IX IX 41 HV 5079 CTMT VACM RLF ISO VLV SA 232G c IX IX 41 LY 6454 SG AUTO LVL CTRL SA 232H T IX IX 41 p 3-1 SW PUMP I SA 241A* ST 3X 3X 5X 5X p 3-3 SW PUMP 3 SA 2418* ST 3X 3X 5X 5X TV 1424 SW FROM CC HX I ISO VLV SA 241C* 0 21 2F TV 1429 SW FROM CC HX 3 ISO VLV SA 2410* 0 21 2F SPARE SA 241E p 3-2 SW PUMP 2 SA 242A* ST 3X 3X 5X 5X p 3-3 SW 3 SA 2428* ST 3X 3X 5X 5X TV 1434 SW FROM CC HX 2 ISO VLV SA 242C* 0 21 2F SEO. SCHEME STEP RC DWG. NO. 2 1 E52B-5 C&D 2 2 E52B-26 A&B 2 2 E52B-26 A&B 2 4 5 3 E58B-1 A&B 5 3 E58B-2 A&B 5 2 5 4 5 3 E58B-1 A&B 5 3 E58B-2 C&D 5 2 5 4 1 1 E50B-3 C&D 1 1 ESOB-4 A-F 1 2 E58B-10 A&B 1 2 E58B-I 0 A&B 1 2 E58B-10 A&B 1 2 E58B-10 A&B I 2 E58B-10 A&B 1 2 E44B-24 1 1 E50B-3 A&B 1 1 E50B-4 A-F 1 2 E588-10 A&B I 2 E588-10 A&B 1 2 E58B-10 A&B 1 2 E58B-10 A&B 1 2 E58B-10 A&B 1 2 E44B-24 4 I E488-6 A&8 4 1 E488-1 I A-0 4 4 E488-30 4 4 E488-31 A&B 4 2 4 I E488-6 C&D 4 1 E48B-11 C-F 4 4 E48B-30 VDWG. NO. CH. I< 2) E-30-24 E-30-24 E-30-24 E-30-24 E-30-14 E-30-14 E-30-14 E-30-14 E-30-24 E-30-24 E-30-24 E-30-24 E-30-14 E-30-14 E-30-14 E-30-14 E-30-14 E-30-14 E-30-14 E-30-14 E-30-24 E-30-24 E-30-24 E-30-24 E-30-24 E-30-24 E-30-24 E-30-24 E-30-14 E-30-14 E-30-14 E-30-14 E-30-14 E-30-24 E-30-24 E-30-24 VDWG. NO. CH. 3C 4) E-30-28 E-30-28 E-30-28 E-30-28 E-30-35 E-30-35 E-30-35 E-30-35 E-30-28 E-30-28 E-30-28 E-30-28 E-30-35 E-30-35 E-30-35 E-30-35 E-30-35 E-30-35 E-30-35 E-30-35 E-30-28 E-30-28 E-30-28 E-30-28 E-30-28 E-30-28 E-30-28 E-30-28 E-30-35 E-30-35 E-30-35 E-30-35 E-30-35 E-30-28 E-30-28 E-30-28 DAVIS-BESSE NUCLEAR STATION SAFETY FEATURES ACTUATION SYSTEM ACTUATED EQUIPMENT TABllATION E-t 78 SH. 2 FIGURE 7. 3-4 REVISION 22 NOVEMBER 2000 DB 11-15-00 DFN=I :/ELEC/E17BSH2.DGN ACTUATED EQUIPMENT TABULATION EQUIPMENT EQUIPMENT SA SIGNAL SURVEILL SAM LOGIC PUMP JMPR ITEM NO. DESCRIPTION NO. FUNCTION MOD TYPE MOD TYPE MOD TYPE 1(2)/3(4) 1(2)/3(4) 1(2)/3(4) TV 1429 SW FROM CC HX 3 ISO VLV SA 2420* 0 21 2F SPARE SA 242E HV 1530 CS 1 ISO VLV SA 251A 0 IX IX 41 SPARE SA 2518 SPARE SA 251C* HV 1531 CS 2 ISO VLV SA 252A 0 IX IX 41 SPARE SA 2528 SPARE SA 252C* K 5-1 EMER DG I SA 261A* ST 3X** 3X** 5X sx SPARE SA 2618 SPARE SA 261C* K 5-2 EMER DG 2 SA 262A* ST 3X** 3X** 5}( 5X SPARE SA 2628 SPARE SA 262C* HV MU2A RC LETDOWN DELAY COIL OUT VLV SA 271A c IX IX 41 SPARE SA 2718 SPARE SA 271C* HV 2012A CTMT NORM SUMP ISO VLV SA 2710 c IX IX 41 HV 240A RC PRZR SAMPLE VLV SA 271E c IX IX 41 HV 1399 SW ISO VLV TO CLNG WTR SA 271F c IX IX 41 HV 1773A RC OT HOR ISO VLV SA 271G* c 21 2F HV 1719A CTMT VENT HOR ISO VLV SA 271H* c 21 2F HV 607 SG 1 SAMPLE ISO VLV SA 2711* c 21 2F SPARE SA 271J* HV 235A PRZR ONCH TK SAMPLE ISO VLV SA 271K* c 21 2F HV 1544 CF TK I H20 & N2 FILL ISO VLV SA 271L* c 21 2F HV MU3 RC LETDOWN HI TEMP VLV SA 272A* c 21 2F SPARE SA 2728* HV 20128 CTMT NORM SUMP ISO VLV SA 272C c IX IX 41 HV 2408 RC PRZR VAPOR SAMPLE VLV SA 2720 c IX IX 41 HV 1542 CF TK VENT ISO VLV SA 272E* c 21 2F HV 1395 SW ISO VLV TO CLNG WTR SA 272F c IX IX 41 HV I 7738 RC OT HOR ISO VLV SA 272G* c 21 2F HV 17198 CTMT VENT HOR ISO VLV SA 272H* c 21 2F HV 598 SG 2 SAMPLE iSO VLV SA 2721* ,.. ... T 2F \, Ll SPARE SA 272J* SEO. SCHEME STEP RC DWG. NO. 4 4 E488-31 A&8 4 2 I 2 E528-21 A&8 I 2 1 4 I 2 E528-21 A&8 I 2 I 4 E648-1 A-F 1 2 NOTE 3 I 2 1 4 E64B-2 A-F 1 2 NOTE 3 1 2 1 4 I 2 E498-18 I 2 1 4 I 2 E568-24 A&B I 2 E52B-t5 1 2 E488-9 A&8 I 4 E528-39 1 4 E528-39 I 4 E468-23 A&8 I 4 1 4 E52B-32 1 4 E528-29 A&B 1 4 E49B-22 A-C 1 4 1 2 E56B-25 A&B 1 2 E528-16 A&B 1 4 E528-29 A&B 1 2 E48B-9 A&B 1 4 E52B-40 1 4 E52B-40 t 4 E46B-23 A&B I 1 4 VDWG. NO. CH. J( 2> E-30-24 E-30-24 E-30-15 E-30-15 E-30-15 E-30-25 E-30-25 E-30-25 E-30-15 E-30-15 E-30-15 E-30-25 E-30-25 E-30-25 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 VDWG. NO. CH. 3( 4 > E-30-28 E-30-28 E-30-36 E-30-36 E-30-36 E-30-29 E-30-29 E-30-29 E-30-36 E-30-36 E-30-36 E-30-29 E-30-29 E-30-29 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 DAVIS-BESSE NUCLEAR POWER STATION SAFETY FEATURES ACTUATION SYSTEM ACTUATED TABULATION E-178 SH. 3 FIGURE 7.3-5 REVISION 22 NOVEMBER 2000 DB 11 00 DFN=I :/ELECIE17BSH3.DGN ACTUATED EQUIPMENT TABULATION EQUIPMENT EQUIPMENT SA SIGNAL SURVEILL SAM LOGIC PU.4P JMPR ITEM NO. DESCRIPTION NO. FUNCTION MOD TYPE MOD TYPE MOD TYPE 1<2)/3(4) 1<2)/3(4) 1(2)/3(4) HV 2358 PRZR ONCH TK SAMPLE ISO VLV SA 272K* c 21 2F HV 1541 CF TK 2 H20 & N2 FILL ISO VLV SA 272L* c 21 2F HV DH9B CTMT EMER SUMP VLV SA 281A c IX IX 41 DELETED DELETED DELETED DELETED SPARE SA 281F HV DH7B BWST OUT VLV SA 281G 0 IX IX 41 HV 236 N2 CTMT ISO VLV SA 28 IH* c 21 2F HV 229A PRZR ONCH TK OUT ISO VLV SA 2811* c 21 2F SPARE SA 281J* DELETED DELETED DELETED SPARE SA 281N* HV 232 PRZR QNCH TK IN ISO VLV SA 282A* c 21 2F HV 2298 PRZR ONCH TK OUT ISO VLV SA 2828* c 21 2F DELETED HV 1545 CF TK SAMPLE VLV SA 2820* c 21 2F HV DH9A CTMT EMER SUMP VLV SA 282E c IX IX 41 DELETED HV DH7A BWST OUT VLV SA 282G 0 IX IX 41 HV 2011 CTMT INSTR AIR ISO VLV SA 282H* c 21 2F HV 2010 CTMT SERV AIR ISO VLV SA 2821* c 21 2F SPARE SA 282J* DELETED SPARE SA 282L HV 5090 CTMT H2 DILUTION IN ISO VLV SA 291A c IX IX 41 SPARE SA 2918 HV 6831A RCP STOP DEMIN WTR ISO VLV SA 291C* c 21 2F SPARE SA 2910* HV 5038 CTMT H2 DILUTN OUT ISO VLV SA 291E c IX IX 41 SPARE SA 291F SPARE SA 291G SPARE SA 292A HV 5065 CTMT H2 DILUTION IN ISO VLV SA 2928 c IX IX 41 HV 68318 RCP STOP DEMIN WTR ISO VLV SA 292C* c 21 2F SPARE SA 2920* HV 5037 CTMT H2 DILUTN OUT ISO VLV SA 292E c IX IX 41 SEO. SCHEME STEP RC OWG. NO. 1 4 E52B-33 1 4 E52B-29 A&B I 2 £528-19 A-C I 2 I 2 E52B-t9 A-C I 4 £628-5 1 4 [528-34 1 4 I 4 [30-16 1 4 E528-36 1 4 E528-35 1 4 £528-29 A&8 1 2 £528-19 A-C 1 2 E52B-t9 A-C 1 4 E62B-4 1 4 E628-4 1 4 I 2 I 2 E58B-5 A&8 I 2 1 4 E498-20 I 4 I 2 E588-5 A&B I 2 I 2 1 2 1 2 E58B-5 A&B 1 4 E 498-19 AS!B 4 I 2 E58B-5 A&8 VDWG. NO. CH. 1<2> E-30-25 E-30-25 E-30-16 E-30-16 E-30-16 E-30-JG E-30-16 E-30-16 E-30-16 E-30-26 E-30-26 E-30-26 E-30-26 E-30-26 E-30-26 E-30-26 E-30-26 E-30-26 E-30-16 E-30-16 E-30-16 E-30-16 E-30-16 E-30-16 E-30-16 E-30-26 E-30-26 E-30-26 E-30-26 E-30-26 VDWG. NO. CH. 3< 4 > E-30-29 E-30-29 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-30 E-30-30 E-30-30 E-30-30 E-30-30 E-30-30 E-30-30 E-30-30 E-30-30 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-30 E-30-30 E-30-30 E-30-30 E-30-30 DAVlS-BESSE NUCLEAR POWER STATlON SAFETY FEATURES ACTUATION SYSTEM ACTUATED EQUIPMENT TABll.ATION E-178 SH. 4 FIGURE 7.3-6 REVISION 22 NOVEMBER 2000 DB 11-15-00 DFN=I :/ELEC/E17BSH4.0GN ACTUATED EQUIPMENT TABULATION EQUIPMENT EQUIPMENT SA SIGNAL SURVEILL SAM LOGIC PUMP JMPR FUNCTION MOO TYPE MOD TYPE MOO TYPE ITEM NO. DESCRIPTION NO. 1(2)/3(4) 1(2)/3(4) 1< 2)/3( 4) SPARE SA 292F SPARE SA 292G p 42-1 DH PMP I SA 311A* ST 3X 3X 5X 5X SPARE SA 31 IB HV 1467 CC FROM OH CLR 1 OUT VLV SA 31 IC* 0 2F 21 HV 2733 DH PMP I SUCT VLV FROM BWST SA 31 ID 0 IX IX 41 HV OHl4B DH CLR I OUT VLV SA 311E* 0 2F 21 HV OHl3B DH CLR I BYPASS VLV SA 311F* 0 2F 21 p 42-2 DH PMP 2 SA 312A* ST 3X 3X 5X 5X SPARE SA 3128 HV 1469 CC FROM DH CLR 2 OUT VLV SA 312C* 0 2F 21 HV 2734 OH PMP 2 SUCT VLV FROM BWST SA 3120 0 IX IX 41 HV OHl4A DH CLR 2 OUT VLV SA 312E* 0 2F 21 HV OHl3A OH CLR 2 BYPASS VLV SA 312F* 0 2F 21 HV 1495 CC AUX EQUIP IN VLV SA 321A* c 2F 21 SPARE SA 3218 HV 1460 CC VLV TO MAKE UP PUMP SA 322A* c 2F 21 SPARE SA 3228 D SPARE SA 331A SPARE SA 3318 SPARE SA 331C* SPARE SA 331D* HV MU59A RCP 2-1 SEAL RET VLV SA 331E c IX IX 41 HV MU59B RCP 2-2 SEAL RET VLV SA 331F c lX IX 41 HV MU59C RCP 1-1 SEAL RET VLV SA 331G c IX IX 41 HV MU590 RCP 1-2 SEAL RET VLV SA 331H c IX IX 41 SPARE SA 331 I* HV MU66B RCP 2-2 SEAL IN ISO VLV SA 331J* c 21 2F HV MU66C RCP 1-1 SEAL IN ISO VLV SA 331K* c 21 2F SPARE SA 332A SPARE SA 3328 SPARE SA 332C* SPARE SA 3320* HV MU6GA RCP 2-1 SEAL IN ISO VLV SA 332E* c 21 2F HV MU38 RCP SEAL RET ISO VLV SA 332F* c 21 2F HV MU660 RCP 1-2 SEAL IN ISO VLV SA 332G* c 21 2F p 56-1 CS PMP 1 SA 411A* ST 3X 3X 5X 5X SPARE SA 41 IB p 56-2 CS PMP 2 SA 412A* ST 3X 3X 5X 5X SPARE SA 4128 SEO. SCHEME RC STEP OWG. NO. 1 2 1 2 3 I E52B-6 A&B 3 2 3 4 E50B-1 I 3 2 E52B-23 A&B 3 4 E52B-25 A&B 3 4 E52B-25 A&B 3 1 E52B-6 C&D 3 2 3 4 E50B-1 I 3 2 E52B-23 A&B 3 4 E52B-25 A&B 3 4 E52B-25 A&8 1 4 E50B-l 5 A&B 1 2 I 4 E50B-12 A&B I 2 1 2 1 2 I 4 1 4 I 2 E52B-30 A&B I 2 E52B-30 A&B 1 2 E52B-30 A&B I 2 E52B-30 A&8 1. 4 1 4 E52B-18 A&B 1 4 E52B-18 A&B 1 2 1 2 1 4 1 4 1 4 E52B-18 A&B 1 4 E49B-19 A,B&C 1 4 E52B-18 A&B 5 1 E52B-7 A&B 5 2 5 1 E52B-7 A&8 5 2 VOWG. NO. CH. I< 2> E-30-26 E-30-26 E-30-14 E-30-14 E-30-14 E-30-14 E-30-14 E-30-14 E-30-24 E-30-24 E-30-24 E-30-24 E-30-24 E-30-24 E-30-15 E-30-15 E-30-25 E-30-25 E-30-15 E-30-15 E-30-15 E-30-15 E-30-16 E-30-16 E-30-16 E-30-16 E-30-16 E-30-16 E-30-16 E-30-25 E-30-25 E-30-25 E-30-25 E-30-26 E-30-26 E-30-26 E-30-15 E-30-15 E-30-25 E-30-25 VOWG. NO. CH. 3< 4) E-30-30 E-30-30 E-30-35 E-30-35 E-30-35 E-30-35 E-30-35 E-30-35 E-30-28 E-30-28 E-30-28 E-30-28 E-30-28 E-30-28 E-30-36 E-30-36 E-30-29 E-30-29 E-30-36 E-30-36 E-30-36 E-30-36 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-37 E-30-29 E-30-29 E-30-29 E-30-29 E-30-30 E-30-30 E-30-30 E-30-36 E-30-36 E-30-29 E-30-29 DAVIS-BESSE NUCLEAR STATION SAFETY FEATURES ACTUATION SYSTEM ACTUATED EOUIPtlNT TABllATION E-178 SH. 5 FIGURE 7.3-7 REVISION 22 NOVEMBER 2000 DB DFN=l:/ELEC/E17BSH5.0GN ACTUATED EQUIPMENT TABULATION EQUIPMENT EQUIPMENT SA SIGNAL SURVEILL SAM LOGIC PUMP JMPR FUNCTION MOO TYPE MOO TYPE MOO TYPE ITEM NO. DESCRIPTION NO. 1(2)/3(4) 1(2)/3(4) 1(2)/3(4) HV 141 IA CC IN ISO VLV TO CTMT SA 421A c IX IX 41 HV 1407A CC OUT ISO VLV FROM CTMT SA 4218 c IX IX 41 HV t567A CC IN ISO VLV TO CRD SA 421C c IX IX 41 HV 1328 CC CRD BOOSTER PMP 1 SUCT VLV SA 4210 c IX IX 41 SPARE SA 421E* HV 141 IB CC IN ISO VLV TO CTMT SA 422A c lX IX 41 HV t407B CC OUT ISO VLV FROM CTMT SA 4228 c lX IX 41 HV 15678 CC IN ISO VLV TO CRD SA 422C c IX IX 41 HV 1338 CC CRD BOOSTER PMP 2 SUCT VLV SA 4220 c IX IX 41 SPARE SA 422E* SPARE SA 431A* SPARE SA 43 tB SPARE SA 431C SPARE SA 4310 SPARE SA 431E* SPARE SA 431F SPARE SA 432A* SPARE SA 432B SPARE SA 432C SPARE SA 4320 SPARE SA 432E SPARE SA 432F HV DH98 CTMT EMER SUMP VLV SA 51 IA A IX IX 41 HV OH78 BWST OUT VLV SA 5118 A IX IX SPARE SA 51 IC* SPARE SA 51 ID* HV DH9A CTMT EMER SUMP VLV SA 512A A IX IX 41 HV DH7A BWST OUT VLV SA 5128 A IX IX SPARE SA 512C* SPARE SA 5120* SEO. SCHEME RC STEP DWG. NO. 1 2 E50B-23 A&B I 2 E50B-9 A&B 1 2 ESOB-7 A&B 1 2 E50B-8 A&B I 4 1 2 E50B-24 A&B I 2 E50B-I 0 A&B I 2 E50B-21 A&B 1 2 E50B-8 A&B 1 4 1 4 1 2 I 2 1 2 I 4 1 2 1 4 1 2 1 2 1 2 I 4 1 2 E52B-19 A-C I 2 NOTE 4 I 2 E52B-l 9 A-C I 4 NOTE 4 1 4 E52B-19 A-C I 2 NOTE 4 I 2 E52B-19 A-C I 4 NOTE 4 I 4 VDWG. NO. CH. t< 2) E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-15 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-25 E-30-16 E-30-16 E-30-16 E-30-16 E-30-26 E-30-26 E-30-26 E-30-26 VDWG. NO. CH. 3< 4) E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-36 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-29 E-30-37 E-30-37 E-30-37 E-30-37 E-30-30 E-30-30 E-30-30 E-30-30 DAVIS-BESSE NUCLEAR POWER STATION SAFETY FEATURES ACTUATION SYSTEM ACTUATED EOUIPtENT TABULATION E-178 SH. 6 FIGURE 7. 3-8 REVISION 22 NOVEMBER 2000 DB 11-15-00 DFN=l :/ELEC/E17BSH6.0GN 51 n, HTPICAll NITROOEN FILL CtNIECtlON I .. " ll.ASINE EL£CTAOK'tDAAtA..IC Cl>>ITAOI.. S't'STEM r**-----------------------------------, : ! ! ! ! ! 1 ... ,,, .. 196 17 18 10 COAE FL.OOOING SYS'FtM r**-**-**-**-**-**-**-**-----*-**-**-**-**-**-------**-*------*-**-LOCAL LIOUIO ........ NITROGD4 FILL CON*C110N " LllJUID VITtCJRAVAI.. LINE -----1-.. ......... BLDG COIL ! ! !

! i ATM VAPOA:IZ£R ... ELECTRIC HEATER nm*ic[] HEATER L---**-**-*-----------**-**-**-**-**-**-**-**-*---*-----*-**-**-**-**--*-**-**-**-**-**-**-**-**-**-**-**-**--*-**--*-**-**-.. 10 STUM GENERATOR 1-1 " STEAM OU£RATOA 1-2 10 STEAM GENERATOR 1*1 ELECTRICAL PUETllATIONS ELECTRICAL P£1r*TRAllOllS OUTSIDE I U61QE CQNTAUtMEMTJCll\ITAINMENT " ,. WASTE CiAS OECAY TANCS f'Ui 1-1.J-1 115 67 10 .. ..... .. , 386* TO Ml5C 1-------!FIG 11.2*3 NOTE 21 TO WAS1E [YAPQAAT(lt 0----.... --Po\CICAGE "" !FIG 11.2*3 NOTE 21 10 MISC lo\STE MONITOR "'* 10 MISC WASTE DRAIN TANK 10 DETERGENT WASTE DRAIN ,_ ..... 10 11 10 PllESSllllZEfl Ol£NCW TAI<< FIG 9.1-2 " 109 ,. CLEAN WASTE tOtlTOR Tit' 1*1 FIG H.2-2 ,. C1.E411 WASTE NONITOll: TIC 1-2 *o RESIN f'IU. 1ANC 1-2 ,. ........ f'IG 9.l-16 ,. Cf'IG 9.3-161 ,. 1----------..... Cf'ICi 11.2-21 *o " 1---.-+.--o"-J,_ _ PACICAOE 1-2 1FIG 11.2-2 MOTE 21 " IORIC ACIO PACKAGE 1-1 '-... "' " ,. " AESIN FILL TAHICl-1 H.2-2 ,. 1*ATING SYSTEM COMPRESSION TAHIC FIG 9.*-7 10 AUll a:llLER FIG 10.1*2 " ,._ _____ .,..,. ___ .. 10 15 16 17 1. ALL VALVES ARE PREFIXED WITH "NN"' UNLESS NOTED. 2. FOR VALVES SHOWN ON THIS FIGURE. ACTUAL POSITIONS ARE CONTROLLED BY PLANT VENT RESIN t-------------ST(JtAO[ 1Afr<< lf'IG 11.2-21 TYPICAL ELECTRICAi.. PENETRAtlON NITROGEN SU'PL Y HEADER EAST ELECTRICAL PENETRATION ROOM CSE£ 1'PICAL ZONE G-121 ,. ""I""" COOL.Utf MAltil ,. .. f'IG S.1-2 ,. CONC£NTAA TES TMAOEU.NCl-1 THE CN CHANGE FOR THIS FIGURE WAS TO REPRINT IT TO SHOW CORRECT LINE WEIGHT AS REQUIRED BY DBBP-CM-1002. ATTACHMENT THERE WAS NO PHYSICAL OR TECHNICAL CHANGES MADE. WHOLE DRAWING NOT CLOUDED FOR CLARITY. REMOVE THIS NOTE AT NEXT UPDATE. u ** -NITROGEN SU'PLY HEADER WEST ELECTRICAL PEMETRAllON ROOM cSIE TYPICAL ZONE G-121 DAVI S*BESSE NUCLEAR POWER STATION UNIT NO 1 12 13 " REVISION 30 OCTOBER 2014 15 -e TKE TOLEDO EDISON COltFANY FUNCTIONAL DRAWING

  • NITROGEN SUPPLY SYSTEM FIGURE NO REY F [()URE 7. 3-9 4 16 17

' " MOTOR GENERATOR BF 211 __:4.::.;80:......:..:VA""'C,_, -=3-'P"""H"'"AS_E_ : A ___ Bus "A" 1 IE TRIP IE TRIP 1----i TRANSFORMER 96 VAC 6 PHASE ""1 BREAKER BREAKER '-----' I I I I I I I I I I I I I I I I I IE IE REACTOR PROTECTION SYSTEM (RPSI IE IE VOLTAGE REDUNDANT POWER BLISSES TO SINGLE ROD POWER SUPPL! ES I I B D REGULA TOR BUS "B" 480 VAC, 3 PHASE BUS "B" IE TRIP BE 211 BREAK ER 1----i BREAK ER : I I I I I I I I I L _____________ ---' ELECTRONIC TRIP SCR GATE TRIP SIGNALS NON IE NON IE ------------ELECTRONIC TRIP C ELECTRONIC TRIP D DSS A DSS B '-------DIVERSE SCRAM SYSTEM " " 122 SINGLE ROD POWER SUPPLY MODULES ( 2 PER CRDMI A B " " CRDM MOTOR DC POWER 16 PHASESJ .. 61 CRDM MOTORS ( TYPICALI c BB /'II.._/ cc I-----_. DC SUPPLY PHASES POWER SUPPLY TRIP INPUTS CRDM MOTOR DC RETURN CURRENT " REVISION 31 OCTOBER 2016 " " " .. " .. " INC. Ol 14-21111 -!IC. I.DI 98-oaaJ ' " ' ' IS!IEll FIJI I&: ' " ' ' lll!YISICINI *--=-= -*-DAVIS-BESSE NUCLEAR POWER STATION UNIT NO 1 Tiii IDISet.I C-AICI' FIG. 7.4-1 2 -e "" " " *--** IFll*Dl-.vl111'11.IDlllDI ' \ l'Sl-4930l ll'Sl-ftllA) M.4RGINAl QUALITY DOCUMENT BEST COPY AVAILABLE PSl.*ffiel IPSl.-493111 llS-SOU 1HIS-S99AI 11$-SOU IHIS*599AJ CLOSE C5106 !C5709> 11$-c(ll( IHIS*m£1 l'Oll£I (lff C5106 IC5199> IJS*lO&A INIS*11J1AI Q.050 llS"'40! lllS-i4!1ll1 11111. 1111 C5101 1$*311A 1Rs-312Al 11$-105.W 111$-IOHBI' kOCI C51G& IC5109> RS-lllA IR$*112A> llS-IO&A lllS*11J1A> kOCI C510fi ICSJO!I> RS*1118 IRS-11211 11$*3'10 lllS-3112> llS*105E lllS*llJ1E > Q.05£ C5106 IC57091 Rs-211A IRS-t12A> llS*IOIU 111$-101£11' RS-411A IRS-41ZAI Q.ost C5106 1(5109> Q.ost CS1G& IC5l09> llS*l8H lllS*llTI I Cf[ll C5705 !C5l091 RS*lll( IR$*112CI 11$*""8 lllS*ll1181 llOOl C5105 ICSTOS> llS*l8H lllS*lln I Q.05[ ICSlOtl RS*lllC IRS*312CI 11$"40! lllS._1* -llllT C5101 ZS*ICSJIE IZS*ICSSll .,, GOJ '11.Y FRJ.r a.oso ZS-5119A IZS-51191> AFPT llllll SIEM llUT ISO lllUE N.U Q.OSED 12\ml ZS-illS IZS-5991 fall Ol'OI zs.-. <ZS-599A> RUT llPO a.ost: L__ ZS-iOt IZS-599> 1Z:m1 I rRJ.r a.oso r.. ZS-106 IZS*!Oll 111$*!071 faJ.T Cll'Ell lllMO'fi llS*** fllJ.T U.OSO Q.ost: ZS-106 IZS-101> GPEll ZS-3110 IZS-31121 N*:sll10 IN*:sllnl faJ.T Cll'Ell (51116 IC5T091 11 IC5JO!ll (2'005) IZOIO> II C51116 1-----'ZS"-*-'-31_10"-'<ZS'"-*-'-31'1?'-'->-+--< II C5111& IN*:sllnl faJ.J CLOSO Ol'£ll ZS*lOlA !Z$-llJ1AI }':-< C51116 IC5T091 Q.ost: llS-*-111$-IOUI ZS*IOlA !ZS*107AI faJ.T CLOSOI r.c: L J 1------------c cs104 <SV-5Ntl> I I Ul$"'5nt8J -., __ Uf'*3111J 1------n-*_:stM __ __ ">';< CS11l6 l'S.l.T Q.OS[O )..:..{ lllS-520l C510S ll-ICH lll-<<CZ_,I A HIS-ICN lllS-ta-t> PSl.-49218 ll'Sl HIS-1382 IHIS-13'31 Cll'Ell C51ZI HIS*Ul21 lllS*l31311 ll(llOlf. (l630 HIS*1382A lllS*13'3AI Cll'Ell Cl'3C) HIS*l3121 lllS*13131> LOCAL (3630 HIS-1312& lllS*UllAI a.ost: (3630 11$*13'2 111$*13831 Q.ost tslZI llS"'453 lllS-6454> LOii tsnt SAZ31H 1$A232111 ZS*3110 IZS-31121 faJ.T Clost:O RI.LY Q.OSEI LIC"'452 !LIC"'451 I MITO C5106 151091 REFEREMCE DRAV I NG 1 !OS[C ll*ICS.m C5106 ICSTOtl --le $0.[C'IS LOii $[1POlllT$ ..,._5!1 NOTES: I.TIE LOGIC SIOll M OWllSlll'l.lfltATIOll l1f 11* JCTM. LOGIC. almQ. SlllTCIES .1110 lll1EllOCIS. 11110! MIC IMlllit ¥111

  • AS'IERISl l*I llf. 1'"'5 TO
  • 5flCS Mii l'llOCUU IY 1'lt: SFllCS-.. TIElfllll[ IRE PMT Of 11* ASSCICIATED SFllC$ OITPIT SICIUI.. 11($[ CCllllll SVITO£S JM> lll1Ell<<IS llf. SllOlll fCll QJIUn OU. t. F* 1M111. lllTIATIClll llf llAll STEM Liii[ 1 Mii f'UDllA'IER Lil* ...,_ c.nllOL STS'ltllo $[[ lGelC II.Oil! £-11. ], Ol'Ell CllQIT ICES llOT SOL IL LOCATICll TABLE CS121 llAll CQITlla. PMfl. CS105 llAll CQITlla. PM!!. csm CSnT llAlll PNe. C5109 llUll CQITlla. l'Ml:l. .WXIL IMT S1111Wi11 ,Mil. 1. 8 llllW $1[.lllLll* **I* F£tllll&TEHll* U'1IJIE Cllllllll. SYSTDI LGelC. 0 2. £*11 51.1,2 I 3 STUii i IUDllATER Lii( ll.Pl1.ll£ CClll1llCll STSlf.11 LO&IC tlMiRM. :S. [-118 SIL I I 2 STEM I IUDllATER Lit( ll.Pl1.ll£ CClll1llCll 0 ClllfVTtl POllT Of£ll ZS*1:!12 IZS*1313> ,::;m, Fm.ll OPEii Cl.OSI ZS*1312 IZS*l3U> .::::m, ftil a.oso ll*lm.F lll*t<SJal 11-KSJm !IL-KSJ911 ll*KSlll 11l*JCS9.11 -,...,, C51116 IC5l091 -...TE n-64$2 1n-MS*1 DAVIS-BESSE NUCLEAR POWER STATION AUXILIARY FEEOWATER PUMP TURBINE START CONTROL SYSTEM LOGIC M-051 FIGURE 7.4-2 REVISION 24 JUNE 2004 STS1tll .ctUATED E*ll'IOT TaaaATICll. 4. TI49+t03A. I. t llAIW STEM .. IEKAT STSTOL PS*lo&A. I. C. t } *lloMT llJl9111E I 121 IPS*llJ1A. I. C. ti lllJI $1(M Ill.ET Lii( S. TI49-IHOTA. I STUii GEIEllATill SlS19L SVIT<IES CIE!lt .WXlllMT *t1.t111G llOCll lOC HIS*10t IHIS-1001
  • N I HIS*l94 IHIS*llSI t IJ'EN CSIOI HIS-194 IHIS-J1SI t CLOSE CSIOI HIS*UOJ <HIS-64041
  • 11111. INll CSIOI RS*itll IRS-61281 Hls-611 IHIS:jO.ll ll'EN C5l'Cf IC5l'IO! NOTE& HIS*ill IHIS-60ll CLOSE CSTOI IC51101 HIS*ICSllD IHIS*ICSllCJ t ILOCI CSIOI EIEROllE r v-** 1lv-Jm 0£-E>ERO IZ£ L _J .irn;, I -. I Us*10tD 1ZS*10001 JfiWOiEN C5JOI FILL 1 ll'E* >.::-{ ZS*J94 IZS*JISI flO.LT CLOSED C5108 1CSl101 FULLY ll'f.N >.::-{ CSIOI ICSTIOI FULLY CLOSED ).::,{ ,_ ____ __, SV*ICSlllU -IC$111 0£-EIERCIZE -i CLOSE 1SY*ICSt1AI I t1CS11AJ PIC*ICS118 IPIC*ICSI 1AI csliO --, ' L -csv-1cs1u.11I I 11cs1u.1 D£-£NEROIZE I I ----1.c.s. IZ959J ----{ 1 csioe -----..-------+-----t D£-£1ERGIZE r I -i -tSV*SP6821 ...._ SV*SPIA2 I NS *SP6AI * !ESE! C5l,2N IC5162NI Ol'£H CSIOI NOi[ 6 RS*64AA IRS-648.\1 HIS-190 CMIS-171> moe !WI. N ' :p C5112 ENERGIZE r -i 1$Y*Sf'llt> r SY*SPIAI l _J CSY-SP6A21 I *I I ..... t'lJlllllllE r*JP e C51ot zs-i0t *t czs-100-11 Fil.LI Cl.OSCO i---;ZS=-*'-"10"-1*,;,,I ---1.i C570I FILL! OPEN >.::-{ zs-110 m-m1 R CSIDll FILLY ll'Elf JCS ICS ZS*llO 1ZHl91
  • C51ot HUI fiOS!D © CSIOI D£-£NElltOIZC nv-101c1 SY-IOOC RS-6l24A IRS-6313"1 D£-E>E*CllE r --------------+---<"'f fSY*IOlDI SY-1000 RS.-=:...:-C.;.:l22A:=.;...1---RS"--6l..:c..;_tl:;.;Al __ -+--------<-t0(-EIEIOIZE I -1sv-1011.1 S'f-100* HSY 100 HSY IOt NSV IOOE HSY 10!£ CSIOI CSl'OI C5110 C5112 0 1DE*£HUCIZ£r SY-101A cSY-tOOU 1 DE-EIERCIZE r sv-1011 1sv-1ooe1 LOCATION TABLE LOCAL C<INIROL S IAJl(Jj LOCAL C<INIROL SIAl((Jj LOCAL C<INIROL SfATllll LOCAL C<INIROL SIAJl(Jj !llllN CGITllCI. PNIL IMIM CGITllCI. PNIL !MIN CGllllGL PAlll. !11111 CGllllGL PAIEI. Clllf'Ul[JI l'UINI ZS-101[ IZS-100£1 flO.LI CLOSED OTESt . fOR NOTES Mil RlFEllE!IC! DRAWIN::S SEE IJWC, 1115(1). DAVfS-BESSE NUCLEAR POWER STATION MAfN STEAM LINE AND MAfN FEEDWATER LIN[ RUPTURE CONTROL SYSTEM LOGf C M-050A FIGURE 7.4-3 REVISION 22 NOVEMBER 2000 (..(N I: lf'I0';1N(f,O.& . lil,lo

( ________________________ .,., Hm2 'zs-c12czs-co11 OPEN C:S71 7 I NV*I01 I FULLY 0P£H llOTE 6 :m NI *114 IN .u* llAN. INIT C570T IN/Al RS 4A NIS*Sl'7All I MIS-SI',., ILOCK C5712 RS-64All IRS-64A111 HIS*SP7 IHI -sl'718> R£S£T csnz HIS*SP7A8 IHIS*S'7118> RESET C5l12 HIS*SP7C9 IHIS*SP7DI> RESU csnz HIS*Sl'T IHIS-51'1091 IESIET CSTIZ PSl.*101A ll'SL*100A> IL.oat .----1-------+--oa---i. C5712 C5717 *'121ZS-C01 I IHV-iiOI l FUU..Y CLOSED SV-51'713 ------£11£110I ZEJ-1$V*SP7A31 I I I I DE -£JIEJIOI ZEJ-I J----t--t-----------91 SV-51'185 --I --I SV*SP7AS I I L __ L ___ _ -oERCIZEJ-SV*SP782 ---f" --ISV*SP7A21 L __ 8LOCl t---11-----11-t-+--oo---1. CS712 OE-ENEllCI ZEJ-SV*SP784 -----CSY*Sl'7A41 t-------:p-cs*-s'u' 1 ----L --1---; -:p-1sv-si>1u1I CllES£T I I * ,r--,-C571Z I ENERGIZE L _j I ** --:1 11-:p-I I I I I I . I I ' L -_I_ t J r---....---. ISY*Sl'TAZI I I I RESET I I I * ,=if:JJ&:,1 I I C5T12 I I L -_II _ _j _l _ ISY*Sl'7A4l I L L ___ :p--SY*IOIA cSY*IOOAIDEENERGIZED IT'll'.l PSL*IOll ll'SL*10Gll SY*IOll cSY*tOOll I PSI. *101 CI PSl. *I 00C lsY*101CI SY*IOOC I '51..*I OtD l l'SL *I 000 ISY*IOIOI SV*1000 FV*SP71 -I a.ou I IFV*Sl'7U FIC ICS*llll IFIC ICS*l3A> m,2---*--i -I L -f f fiii?W ; ICS Cf\l*SP7Al IFY-51'7Al I I NOTES: --REFERENCE DRAWINGS: z,£*11 SN. I ,2 a l J,[*198 SH,1 I 2 4*12501-N-oolA,loC !lo ?74t-M-007A I I 7 .12501 -N-GSOA ..... 8'"* AUXILIARY FEEDvATER l'UllP TUltlllNE START CONTltOL SYSTEM LOGIC* lrMI LOOIC DIAGRAM* STEAM I FEEDW&mt LIHE llUl'TUR£ CONTllOI.. SYSTEM ACTUATED £QUl,...,T TAllUL&TION. W.IN SlEAM AHO REHEAT SYSTbc. STtAlt GENERATOR SECON)AftY $Y$T£M, ANTICIPATIIRY 11£.\CTOR TRIP SYSTEM LOGIC Dl&GllAN ltAIN STEAM LINE I llAIN FE£0VA ml LIN£ IWPJUllE CONTROL. SYSTEM LOOIC MARGINAL QUALITY DOCUMENT BEST COPY AVAILABLE DAVIS-BESSE NUCLEAR POWER STATION MAIN STEAM LINE ANO MAIN FEEOWATER LINE RUPTURE CONTROL SYSTEM LOGIC M-0508 FIGURE 7.4-3A REVISION 21 NOVEMBER 1998 llS* lllC .... UClll -llS-llS* -lflC *** TB." I ------i SG*2 ll'S*-1 1151-t<llJ Ull

  • ILOCllll SO*I SG*2 luu.-1 tw-1 lllSl-l CRS!-1'11 I -l--lo':. I I llr --*-'atll¥L I lfW IWllAL lNlTlATION _J -l-M oe-nw -w ,.. .. , _,.. --------------i IFIC$ AC1U11BI E<<llMICI LIST ACUTIGI -I -... --** ... US * ... ---ITS 0 *** --llSIRCS ' ::: m t ... u:a WtillY Ar a A ,., lllllD --M!Cfllllf.Mt M fOIO SIUIS$ * ... -r1t-1E SO*I SG*Z (@-IPWI 1151-1 115MtD SG*I SG*2 SIM SG-2 SCi-1 SG*Z [§ill C!!El 1iiiii!J !u111-soul , ... .....,, , ... _,1 llSl .. ,UJ CISMIJI CRSl .. 711 CISl-1 1151-IBI CllSl-Glll 1151-t!lll 1151...il .,. * *t:t.\,,.,, ***--... -s ... ..c*1r-c11 s ....... *w-vs 1 ........ **-1 ,_ ...... <<VJ SG-1 50*2 llSl-05!1 UISl-1 1811.!. i*** I ::: , 11u111111-1 T..-...... T.. --11:1111.:r __ _ -Id-.. 't' ... llliai DAVIS-BESSE NUCLEAR POWER STATION SFRCS LOGIC DIAGRAM LOGIC CHANNELS I AND 3 AND ACTUATION CHANNEL t E-18 SH. l FIGURE 7. 4-4 REVISION 27 JUNE 2010 DB 04-02-10 DFN=l:/ELEC/EISSHl.OGN SG-2 I PS-MIA I CISl"'3t> 50*2 lPS*llllEl CISl-8141 SG*I I PS*llllC I CISl-1121 SG*I SG-2 fLILL-l ll.S.L-l CISl-1 1151*1111 '1l--* I 1141 Wiii+/- M = rmc * *DUlll(I. 1 flfY MANUAL lNlTlATION _j ....1... '-' ..,.., -_., ---------------iSlllCSICRMlEl&llNllUST.ltlla!Ul-Z -llEllt * *** OJllE * ... -. -cmuns o ... --IEtllrAl:s ' ;::
  • ff" .. tflllll I ... II.Ill -ILllY AT 1111 A ... lftlQ All-tAIE Wiii C!IGIEBD lllML NIU SGIG P ... -ric*-a* SCH SG*2 CISl-1 dlSMMJ 1-zt 1151-1121 SG-1 SG-2 !L!H-* !1>>1PM1l QISl-tlll CISl-GUI I, & lllP .M.Gllflll'lll Clll'l(M.1 -----s.,.IH*-****-*IH SG-1 SG-2 SG-2 SG*I , ... ll'llS*Wt lPOS--l CISl .. ?41 11151_, dl51-1521 CISl-tal -== ..* ., ..... , ***-.£-t115iJt. SG-2 Sil-I !fm-1 Ins--! CISE-1541 CMl-1 I I I FLASllllll -** Ullll UHZI --111111!. u: ::: I g:::lr. I ... .
  • ISIUI! 111*2 *T..--* *T.. __ ._IE 11111 ----*T..-niAlll-11A!E niA ... F* 1111', --AU -fCll ... llEll-SIE9GTJ. mi --J -11£EJ I 1111PMJDH* ...,,.n iz a 1'Zati¥i*CLLM*M1.t1M*1 J
  • f' Mill!* ILLM*M UIM*t 4
  • I 5
  • lall'ZllLLll*llUIGRIP 1111PI
  • PClll'ZGRIJllllP DAVIS-BESSE NUCLEAR POWER STATION SFRCS LOGIC DIAGRAM LOGIC CHANNELS 2 AND 4 AND ACTUATION CHANNEL 2 E-18 SH.2 FIGURE 7.4-4 REVISION 27 JUNE 2010 08 04-02-10 DFN=l:/ELEC/El8SH2.0GN T SEllSINO -* I LOGIC CllMMLt I ,l L __ T I 5Elf511111 I T I SlllSING ,-2 I LOCIC 01Atf£1.2 I ,l L __ T I SENSINll CHAlllEL 4 I IJIGIC QWllEL4 I ,l L __ LT-SP!IBI TS-51'!88 LSLL-51'!119 LSU-51'!86 SG-t SG-1 SG-t SG-1 LSlllMllll9 LSHH-5P!86 SG-2 LT-SP'IA6 TS*SP9MI SG-2 LSLL.;;i>9A7 SG-2 tT-SPW 15-SPW LSLL*SMAa SG-2 U*SP9A9 TS-SMA9 LSllH-SPMT I I _ 2_ J SC LE'IEL !NSTRUMENTAHON L L U*SP!lll8 KEY SWITCH KS*! BYPASS TOGGLE SWITCH 58041 SG*2 PS-168!10 (R -04\J SIM'l lfIEO INPUT 250n 250n 250n DETAILED lff'UT JY-SP'i1B8 I SOL\ LY-SP9B8-2 I I I I LSHli-SP9B8 I I I I I I I I I I I I I I JL I I IVES I I Pf'Ell WITH y SWITCH PER I lOGlC ClfANNEL ANO ONE 11 I INDIVlDUAL BYPAS$ TOGGL!: SWITCH PER DIGITAL INPUT. I I I I I I I I I I I I JL i Si CE:]C@::]QOCE:] I I L I I L tO LCH-1 PONER ON RIISE! CIRCUIT K50
  • 48 voe TO LCll*l TO LCH-2 POWER ON PMR ON RESET CIRCUIT RESET CIRCUIT 82 POWER ON RESET I NP UIS LCH-1 _.J__ LCH*3 I ZS voe I I RETURN
  • MAN. INil. CIRCUIT NOT SHOWN CRSJ-1241 INPl/I JUl'ERED IRSJ-130 INPlll Jllll'ERED TO LCH*4 Pllitll ON RESET CJRCUIT 48 VDC 82 A 182 22 100 KHO t 48 voe RETURN A JSUl.ATillN RELAY I I I I 1 I I I I I JL I l I I I I I I I I I I I I I I I I JL SI LCH-1 _.J__ LCH*l I ""--mp/
  • MAN. !NIT. WHERE COHTACTS 48 voe APl'L !CABLE RETURN AAHTI-CYCLE CIRCUITS 0.0SE SIGIW. TO NCC 48 VDC RETURN !ill:.lli CL()S( !ill:.lli OPEN K55" NOT SHOWN LCH-1 _.J__ LCH-3 I I I I ffi-I 26 186 K86 RETURN RETURN LCH-1 _.J__ LCll-3 I I Rl:Tlll!< RETURN LCH-1 _.J__ lCH-3 I I I 125 YDC KSG' 48 VDC RETURN TTAl TTAI 83 K23 RE111RN
  • NAN. lNIT. ClRCUJT NOT SHOWN TTA3 83 Fl T-G TRIP A LEGEND SYMBOL *v 1V 11{4* ' !-$--s-1 *
  • LOGIC FUNCTION OR NOT RELAY ORrVER IBUFF£R£DI ALARM OUTPl/f MOOULE 181.fFfREOI COKTACT SIGNAL BUFFER ISOLATOR !FJELD Bl.HERi !WITH LOGIC CHANNEL OESJGNATIONI LOOJC MODULE OUTPUT ,._ ____ __, Kl ! ill RELAY ISOLATOR. SIGNAL ISOLATOR 1%-0-1 48 voe RETURN + BLOCK CIRCUITS I -{!}-SINGLE SHOT DEVtC£ MOT SHOWll 1 J 48 voe I Kiii lli I I I I kl! I 51 K51 48 VllC RETOON lli:ill CLOSE 4& voe !83 KllO
  • 48 voe RETURN 1;M I I I JM* I I I rm 21 lllmSJ 1£CHAN!CAL FJELD SEHSDR !CONTACT SHOION IN SHELF P()SITIONI ELECTRONIC TRANSMITTER 14-211MI -ot; SIGNAL TEST PROVISION IFORDETAJLSEETIHSO';G.I COMPUTER Al.ARM Diil Y Al.ARM IAtffJMCIATOR COll'UTERI t,., DR*GATED Wllll R£DOOAKT ACTUATIOM CHANllEL JNOJCATlNG LIGHT, R ... RED, G ... GREEN, Y *** YEllml MAINTAINED TDGGl.E SWITCH DR PUSHBUTTON MONEKT ARY MANUAL SW!TCll OR PUSHBUTTON IfrtllICATING lNSTRUMENT
  • R *** REMOTE OfF DELAY ON DELAY cmmNUATlON Of LOGlC CHANNEL 3 UJENTICA L TO LOGIC CHANNEL I. SANE APPLIES TD AND LCH-2. 8JSTAIU LOW IAlfTO Rl:SETI WITH CONTACT OUTPUT; COOACT TO OPEN OH LOW HllGH> COM)JTION. L. ** LOW, li *** HJGH I. 2* i'frli\Acfc 1' J. 2 4. SHEET 3 Of TIHS OllAWING INDICATES TH! SFRCS NW.OG CIRCUITS BISIABLES FDR All FWI 5. 4 SEPARATE ESSEllT JAL CABINETS. C5T92A ,,, csm ... DGJCCltANllEl.l*l ltET, LOGIC OfAfff:L I &: 3 CHANNEL 2
  • 4 LOGIC CHANNEL 2 & 4 s. FOR MISC. NON THE FlX.LOWING ARE PROVJDEO: IAL SFRCS INTERFACE CABINETS C5762Z ..
  • CHANNEL A C5792Z , *
  • CHANNEL B 6. THE LOGIC ANO ALL OUTPUT TRIP RELAYS SHALL BE Pmt'ER FAIL IOE-£NERGIZ£ TO TRIPI. J, ALARM CIRCUIT COKTACTS SHALL OPEN TO ALARM, WITH THE COIL CIRCUIT I IN GENERALI DE-ENERGIZED TO ALARM. i* THE INPlll SENSOR CONTACTS ARE CLOSED UNDER NORMAL INO TRJP) OPERATING CONDITIONS. 9* COKTACT OPEN TO ALARM. 10. SfRCS OUTPlllS TO ARTS: LOGIC CHANNEL I THRU CHANNEL 4 ARE CDNNECTED TO ARTS CHANNEL I Tlf!U CHANNEL 4 RESPECTIVELY. 11. INPl/f S!GIW.S FROM MAIN FEEDWATER PRESSURE DifFEREKTJAL SWITCHES ARE TO BE TINE DELAYED BY TOI BEFORE ACTUATING LOOIC. SEE NOTE 12 FOR SETTING. 12. MAX[Ml.IM TUE ARE INl7TE* THESE ECTIYE Of MAXJWUM PROi:tlREMEKT UES. SEE NOTE II*
  • rn1 .** a. or. . !02 ... 2. 01. V .!03 ... 5. 01. -3. THIS DtlAWJNG IS !KTENOEO AS A SYSTEM LOGIC DIAGRAM AND DOES NOT Rl':PRESENT ACTUAL WIRING CONFIGURATION. t4. ON 15* °" SEE SHEET I DAVIS-BESSE NUCLEAR POWER STATION SFRCS LOGIC DIAGRAM MISCELLANEOUS CIRCUITS E-18 SH.3 FIGURE 7.4-4 REVISION 27 JUNE 2010 OB 04-02-10 DFN,l: /ELEC/E 1 BSH3. OGN SFRCS ACTUATED EQUIPMENT TABULATION EQUIPMENT p & ID OPERATIONAL EQUIPMENT SIGNAL ELEMENTARY SF RCS SF RCS ITEM NO. NO. SCHEMATIC OE SCRIPT ION NO. DWG. NO. OWG. NO. FUNCTION SV-101A M-003A OS-008 SH. t MN. STM. LINE I ISO VALVE RS-6213A E-468 SH. ID SF-0038 SH.9 DE-ENERGIZE SV-1018 M-003A OS-008 SH. 1 MN. STM. LINE 1 ISO VALVE RS-621 IA E-468 SH. IA SF-0038 SH.9 DE -ENERG-I ZE SV-1 OlCID M-003A OS-008 SH. 1 MN. STM. LINE 1 ISO VALVE RS-6324A E-468 SH. IF SF-0038 SH.8 DE-ENERGIZE SV-IOIE M-003A OS-008 SH. I MN. STM. LINE I ISO VALVE RS-6322A E-468 SH. IE SF-0038 SH.8 DE-ENERGIZE SV-1 OOA M-003A OS-008 SH. 1 MN. STM. LINE 2 ISO VALVE RS-6224A E-468 SH. ID SF-0038 SH.10 DE-ENERGIZE SV-1008 M-003A OS-008 SH. I MN. STM. LINE 2 ISO VALVE RS-6322A E-468 SH. IA SF -0038 SH. 10 DE-ENERGIZE SV-1 OOC/D M-003A OS-008 SH. I MN. STM. LINE 2 ISO VALVE RS-6313A E-468 SH. IF SF -0038 SH. 7 DE-ENERGIZE SV-!OOE M-003A OS-008 SH. I MN. STM. LINE 2 ISO VALVE RS-6311A E-468 SH. lE SF -0038 SH. 7 DE-ENERGIZE MS-I 06 M-003C OS-0178 AFPT-1 MN. STM. 1 IN ISO VALVE RS-tit A E-468 SH.54A/8 SF-0038 SH.13 CLOSE MS-106 M-003C OS-0178 AFPT-1 MN. STM. I IN ISO VALVE RS-311 A E-468 SH.54A/8 SF-0038 SH. 13 OPEN MS-I 07 M-003C OS-0178 AFPT-2 MN. STM. 2 IN ISO VALVE RS-I 12 A E-468 SH.4A/8 SF-0038 SH.14 CLOSE MS-107 M-003C OS-0178 AFPT-2 MN. STM. 2 IN ISO VALVE RS-312 A E-468 SH.4AIB SF-0038 SH.14 OPEN AF-3870 M-0078 OS-017A AFPT-1 DISCH. TO SG-1 VALVE RS-lit B E-448 SH.20 SF-0038 SH. 5 CLOSE AF-3870 M-0078 OS-017A AFPT-1 DISCH. TO SG-1 VALVE RS-311 8 E-448 SH.20 SF-0038 SH. 5 OPEN AF-3872 M-007B OS-017A AFP-2 DISCH. TO SG-2 VALVE RS-112 8 E-448 SH. 15 SF-0038 SH.6 CLOSE AF-3872 M-0078 OS-017A AFP-2 DISCH. TO SG-2 VALVE RS-312 8 E-448 SH.15 SF-0038 SH.6 OPEN AF-3869 M-0078 OS-017A AFP-1 DISCH. TO SG-2 VALVE M( C E-448 SH. 14Al8 SF-0038 SH.3 CLOSE AF-3869 M-0078 OS-017A AFP-1 DISCH. TO SG-2 VALVE RS-111 E-448 SH. 14A/8 SF-0038 SH. 3 OPEN AF-3871 M-0078 OS-017A AFP-2 DISCH. TO SG -1 VAL VE RS-312 C E-448 SF-0038 CLOSE AF-3871 M-0078 OS-017A AFP-2 DISCH. TO SG-1 VALVE RS-112 C E-448 SH. 14Al8 SF-0038 SH.4 OPEN SV-SP6AI M-0078 OS-012A SH.2 MN. FW. 2 CTRL. VALVE RS-65AIA E-448 SH.9 SF-0038 SH.29 DE-ENERGIZE SV-SP6A2 M-0078 OS-012A SH.2 MN. FW. 2 CTRL. VAL VE RS-65A3A E-448 SH.9 SF -0038 SH. 29 DE-ENERGIZE SV-SP7Al/3 M-0078 OS-012A SH.2 MN. FW. 2 SU. CTRL. VALVE RS-65A38 E -4 48 SH. 2 IB SF-0038 SH.31 DE-ENERGIZE SV-SP7A5 M-0078 OS-012A SH.2 MN. FW. 2 SU. CTRL. VALVE RS-65A 1B E-448 SH.21C SF-0038 SH.31 DE-ENERGIZE SV-SP7A2 M-0078 OS-012A SH.2 MN. FW. 2 SU. CTRL. VALVE RS-64848 E-448 SH.21A SF-0038 SH.34 DE-ENERGIZE SV-SP7A4 M-0078 OS-012A SH.2 MN. FW. 2 SU. CTRL. VALVE RS-64828 E-448 SH.21D SF -0038 SH. 34 DE-ENERGIZE FW-780 M-0078 OS-012A SH.2 SG-1 MN. FW. ISO. VALVE RS-64A A E-448 SH.5 SF-0038 SH. 27 CLOSE sv-101-1 M-003A OS-008 SH. I MN. STM. LINE 1 WU. ISO. VALVE RS-611 A E-468 SH.32A SF-0038 SH.11 DE-ENERGIZE SV-ICSl lBl/2 M-007A OS-008 SH. I SG-1 ATM. STM. VENT VALVE RS-611 0 E-468 SH. 78Al8 SF-0038 SH.23 DE-ENERGIZE SV-394 M-003A OS-008 SH. 1 MN. STM. LINE 1 WU. DRAIN ISO. VALVE RS-611 8 E-468 SH.3 SF-0038 SH. 17 DE-ENERGIZE FW-612 M-0078 OS-012A SH.2 MN. FW. I STOP VALVE RS-611 E E-448 SH.4Al8 SF-0038 SH.25 CLOSE MS-611 M-0078 OS-008 SH. 1 SG-1 DRAIN VALVE RS-611 C E-468 SH.33/A SF-0038 SH. 19 CLOSE SV-5889A M-003C OS-0178 AFPT-1 MN. STM. IN I SO. VALVE RS-511 A E-468 SH. 71 SF-0038 SH.21 DE-ENERGIZE SFRCS OUTPUT TRIP SIGNAL DESCf IPTION

REFERENCES:

RS-4213C E-18 SFRCS LOGIC DIAGRAM -LOGIC CHANNELS I & 3 SIGNAL FAN-OUT LETTER (A-El AND ACTUATION CHANNEL 1 LOGIC CHANNEL (OMITTED IF COMBINED SIGNALlCl-4l ACTUATION CHANNEL (J,2,A,8l E-18 SH.2 SFRCS LOGIC DIAGRAM -LOGIC CHANNELS 2 & 4 AND ACTUATION CHANNEL 2 TRIP CONDITION FAN-OUT (1-6l E-18 SH.3 SFRCS LOGIC DIAGRAM -MISCELLANEOUS CIRCUITS UNIQUE TRIP CONDITION (1-6) SF-003 SERIES SFRCS INTERNAL SCHEMATIC DIAGRAMS RUPTURE CONTROL SYSTEM TRIP OUTPUTS BLOCK SWITCH NO. NIA NIA N/A NIA NIA NIA NIA N/A HIS-106A8 HIS-106A8 HIS-107A8 HIS-! 07A8 HIS-38708 HIS-38708 HIS-38728 HIS-38728 HIS-38698 HIS-38698 HIS-38718 HIS-38718 N/A NIA HIS-SP788 H IS-SP788 HIS-SP7DB HIS-SP7D8 N/A NIA HIS-ICSI ID NIA HIS-612A HIS-6118 N/A MANUAL INIT REMARKS SWfTCH NO. HIS-6403 } CLOSE MS-101 HIS-6403 NIA } CLOSE MS-I 01 NIA HIS-6404 } CLOSE MS-I 00 HIS-6404 N/A } CLOSE MS-I 00 NIA N/A HIS-6401/3 NIA HIS-6402/4 NIA HIS-6401/3 NIA HIS-6402/4 HIS-6401/3 NIA HIS-6402/4 NIA N/A } CLOSE FW-SP6A N/A NIA } CLOSE FW-SP7A N/A HIS-6404 } CLOSE FW-SP7A HIS-6404 HIS-6403 HIS-6403 CLOSE MS-I 01-1 HIS-6403 CLOSE ICSI 1B HIS-6403 CLOSE MS-394 HIS-6403 HIS-6403 HIS-6401/3 OPEN MS-5889A DAVIS-BESSE NUCLEAR POWER STAT[ON SAFETY FEATURES ACTUATION SYSTEM ACTUATED EOUlPMENT TABULATION Q E-198 SH. 1 FIGURE 7.4-5 REVISION 26 JUNE 2008 OB 02-28-08 DFN=I :/ELECIE19BSH1 .DGN SFRCS ACTUATED EQUIPMENT TABULATION

  • EOOIPll'.NT P *ID CffRA T UJIM. EOOIPIOT ITEll NO. NO. SCHEMATIC DESCRIPTl<Jt AATS-1 I/A NIA ANTICIPATORY REACTCJI TRIP SYSTEM-I ARTS-3 I/A NIA ANTICIPATORY AEACTCJI TRIP SYSTtM-3 SY-SPel *0018 OS-012A SH.2 Ill. FW. 1 CTRt.. VAL VE M-OG18 OS-012A SH.2 NN. FW. I CTRl. VALVE SV-SP181/3 M-0018 OS-Ol2A SH.2 ttt. FW. I SU. CTRl.. VAL VE SV-:>P185 M-0018 OS-012A SH.2 ttt. FW. l SU. CTRl.. VALVE SV*SP182 M-0018 OS-012A SH.2 ttt. FW. 1 SU. CTRl. VAL YE SV*SPl84 *0078 OS-012A SH.2 Ill. FW. 1 SU. CTRl.. VALVE FW-7'19 M-0078 OS-012A SH.2 SG-2 ... A. ISO. VALVE sv-100-1 *OOJA OS-008 SH. I ttt. STM. LINE 2 W. ISO. VALVE IAl/2 M-007A OS-008 SH. I SG-2 ATM. STM. VENT VALVE SY-375 M-OOJA OS-008 SH. I alt. STM.. LINE 2 W. DRAIN ISO. VAL VE flf-601 M-0078 OS-012A SH.2 MN. FW. 2 STOP VALVE MS-603 *0078 os-ooa SH.1 SG-2 DAAill STOP VALVE SY-588 M-003C OS-0178 AFPT 2 ** STM. IN. ISO VAL YE ARTS-2 MIA NIA ANTICIPATCJIY TRIP SYSTEM-2 ARTS-4 I/A NIA TRIP SYSTtM-4 MS-106A M-003C OS-0178 AFPT-1 ** STM. 2 IN. ISO. VALVE MS-106A M-003C OS-0178 AFPT-1 ** STM. 2 IN. ISO. VALVE MS-107A N-003C OS-0178 AFPT-2 ** STM. I IN. ISO. VALVE MS*J07A N-003C OS-0178 AFPT-2 ** STM. I JN. ISO. VALVE TTA II/A NIA TIRJUE rRJP-A TTB NIA NIA T\RSINE TRIP-8 SFRCS OUTPUT TRIP SIGNAL DESCRIPTION REFER£NCES1 SEE E-198 SH. I FAN-<llT lETTtR <A-£> lOGIC CHANNEL UIUTTEO IF COIUNEO SIGIULH 1-4> ACTUATION CHMNEl C1, 2,A,B> TRIP COOITICll FAN-OUT Cl-6) llllll£ TRIP CCJl>ITIC* CJ-6) RlPTW C<*TRCl. SYSTEM TRIP CllTPUTS --SIQtAl. ELEIENTARY SF RCS SF RCS NO. NO. NO. FUNCTION RS-521 ll E-658 SH.to SF -0038 SH. J5 TRIP E-658 SH.10 SF -0038 SH. 35 TRIP RS*6582A E-4-tl SH.9 SF-0038 JO DE-ENERGIZE RS-6584A E-448 SH.9 SF-0038 SH.30 DE-ENERGIZE RS*64A38 E-448 SH.218 SF-0038 SH. JJ DE-ENERGIZE RS-64At8 E-448 SH.21C Sf-0038 SH. 33 DE-EHERGIZE RS-658-i& E-448 SH.21A SF'-0038 SH. 32 DE -EH£RC IZE RS-65828 E-448 SH.210 SF-0038 SH.32 DE -EHERG I ZE RS-648 A E-448 SH.5 SF-0038 SH. 28 CLOS£ RS-612 A E-468 SH.J2A Sf -0038 SH. 12 DE-ENERGIZE RS-612 0 E-468 SH. 79A/8 Sf-0038 SH. 24 DE-EUERGIZE RS-612 8 E-468 SH.3 SF-0038 SH. 18 DE-ENERG!ZE RS-612 E E-448 SH.4A/8 SF-0038 SH. 26 CLOSE RS-612 C E-468 SH.33/A Sf-0038 SH. 20 Cl.OS£ RS-512 A E-468 SH. 71 SF -0038 SH. 22 DE-ENERGIZE RS-S222A E-658 SH.to Sf-0038 SH. 36 TRIP RS*5224A E-658 SH.to SF -0038 SH. 36 TRIP RS-211 A E-468 SH.46AIB SF-0038 SH.15 OPEN RS-411 A E-468 SH.46A/8 Sf-0038 SH. 15 CLOSE RS-212 A E-468 SH.4WB Sf-0038 SH. 16 OPEN RS-412 A E-468 SH.46A/8 SF-0038 SH. 16 CLOSE RS-SJA A E-428 SH.53 Sf-0038 SH. 37 TRIP RS-538 A E-428 SH.53 Sf-0038 SH. 38 TRIP BLOCl MAJIJAL. INIT SWITCH ti>. SWITOI NO. NIA HIS-6401/l NIA HIS-6401/l NIA Nil N/A NIA HIS-SP7A8 HIS-6403 HIS-SP7A8 HIS-6403 HIS-SP7C8 NIA HIS-SP7C8 NIA NIA HIS-6404 NIA HIS-6404 HIS-1CS11C HIS-6-404 NIA HIS-6404 HIS-601A HIS-6404 HIS-6038 HIS-6404 NIA HIS-640214 N/A HIS-640214 NIA HIS-6<40214 HIS-l06EB NIA HIS-106£8 NIA HIS-107£8 NIA HIS*I07EB NIA NIA HIS-640113 N/A HIS-640214 REMARIS } TRIP } CLOSE fl*SP68 } a.OSE fl-SP78 } a.OSE fl*SP78 CLOSE MS-100-1 CLOSE ICSllA CLOSE MS-375 OPEN MS-58898 } TRIP REACTOR TRIP TleINE TRIP TlelNE ;-: . I . J; .* * ... -* .... -* -. ... -.. ;-; .. *-.. ..: DAVIS-BESSE NUCLEAR POWER STATION SFRCS -ACTUATED EQUIPMENT TABULATION El9B SH. 2 FIGURE 7.4-6 REVISION 12 JULY 1990 CllANNEl. 2 INPUTS CllAIMl 3 INPUTS CllANIEL '4 INPUTS I!!: e. .: ... !Q g ----, :-----------... i le m t; !!i I ... *i :!!i I i I_ z: i I I 11 I I I. II I I 11 l'ODIT A 'I I I 11 TO Cll.2 1 ' TO Cll.3 i I 11) I ! ! I I I, 11 i5i5i5 i5i5i5 ... i5 5<55 i5i5i5 555 I I Ill II Ill I I I I I I . ,.L-....L.-L-1..--..._.L....._S ... YS-lEM--LOG..._lC..._..._..._ _ _...__,'----'L.-, I I SYSTEM LOGIC I I SYSTEM LOGIC I I CHAl'IEL z I I CllAHf£l. 3 I I CHAJDEI. 4 LI I ------------------I ------------------I -------------------------------------, I ______ __J 1IWI. { 1 TRIP I R I I I I SVAffiWiOGIC L I <TYPICAL I I 'illlE TRIP*---lllll--+ tlll1'M' I lliff'O ronn 1111531 1IOIE 1 I DR!'& I l ____________________ _J 0 WTfUf AEUJS-TO camn ROO IJllI\IE llRE.IWI TRIP R }EET I I L -----------------------------------------------_j ANJICIPATQRY REACTOR TRIP SYSTEM !ARTS! I, DESIGN CRJ"TE!UA A. 1llE DESIGN Mil (Jl£JIA7ICll IF TIE *ARW llll 1111 DEGIWIE TIE llEUJID..ITT IF T1£ 11'5 Oii SFICS, I. SEPMATI* SIW.L ll llAm.UllD llETl&ll llEllUllMIT l£ C1W1E.S .. llMEI I( 18 IOI IE au.LS. SEPWTJM CllllERIA Slllll l&T Tl( llEWlll001S IF IW 219-1911 PCEPT Fiii Tl£ PllRJIQf Of 1l1E Sl'SIDI 111 11'$ -.1ai llETS TIE llEGllllEBllS l&E 219-1951. C. 1llE sm&I SIMU. IE fllll TtST.8.E. D. llD SllllU FAD..lll: W1ll Nl'IEllSELY AFFECT l1IE ll'EJll.TIIM If 11£ Sl'Sla E. LOSS IF coma. POEI Ol IEllVM. IF A 11111.E ml C.lllSE 71£ ASSOCU.lBI CIUllE. 1ll lRIP. F. 1llE STSlEll WIU llE Clllil.IF!ED Me DIST.ti.LEI Yllll 111£ Dm'TII* CJ 11£ FR£SSJ£ SICNLS flllll lllE 1111811£-<0ERATill Me TIE MADI Fm Piii' 1IJl&DIE$. 11£ COMelTS USO> Mil All CMll.ES ASSllCUTtD Wlllf ll£SE CDIQJ!TS SllAU. BE !llSTAl.1.Ell AS IE srsmcs. llBllEWBI, lUSlUC CRmJIJA 11LL lllT M'ft.T IG.VlllllG 11£ oVll lllSTALLATllll Of 1IE IEVICES UlC.UED WITIIDI 'M 1\RillE 81111..DIS -.JOI ts Niil I> SElSlllt CAT. I S111JC1111[. 6. 11£ llESl'CllSE TIIE Of 1HE SYSllll S1W.L IE l.ESS TUI art ElllM. 10 511 ll!lUSECOlllS. H. IDfU!Elll-.CIATlll 'lMl6 SllAll IE PlllMID to IOllTill at 1NPllTS lll1l'Ul' mr ctmITT, CAllllET LOSS IF l'Olt1I -CABINET l -l<<IT [}-4 -Tm/CALillllt.nll8 IEJllS -AL.\1111 (IBCJrEl R -llOllTE llJIDTM!'I IU. SWJTDI fXl l'USHIUTTIJI --<>--lDll1lW. 'llTll COll*CUCH TMICll CM. -i>--RWY llAMR AM'l.lflER l1BS -JEST lRIP llYl'ASS SllJTOI )::::(
  • IMOICATllllO l!GllT + -JSa.ATillG Oii IUffR *UHER ¢ -BISTMI.£ LOI -INDICATIN8 IllSIRllEIT SYleOL DETAIL CIRCUIT I -...:UTQR <SEE lll1E 31 f'IDWlilEll LlllE 1llPRR COlll1d. Sl'S1Ell LOGIC OIMilUM SfllCS-ACTIIAlEI mlll'IQT TMllUTICll TI.ft-E-6511 llSC. SFAS Mii SF1ICS ClllCUm Sll.J0-12 DAVIS-BESSE NUCLEAR POWER STATION ANTICIPATORY REACTOR TRIP SYSTEM LOGIC DIAGRAM E-28 FIGURE 7.4-8 REVISION 25 JUNE 2006 C3630 DEVICE LOCATIONS ISEE NOTE 8J ... I I (FW.L-IEll I I ---------1----------,. ,.Ir. -"fr* .. -f---+---I+ BOO 'IYz* s* .. 00 0 0 00 0 + + + + :.. :. l I l ! i I ! J ____ 11.P, Clllllll'. LEJ1[ll $U[ OICIA'lllllf llo. SIZE FllST LlllE stcoie Liii: 111111 Liii: .. ,. -* t.£Tltl Silt .. SIZE FIRST LlllE I I ,. I'll* 1'11211 2t I ,. 1-1 :s* ,. ($(( llJI[ 2131 2 I ,. 1*1 :s* laCRll CllClMI >> 1 %' 1'13' SOWIC[ 11111 3 I ,. 1'1 3* S1bll ICmnT<<t Y*'\ )1 4 I 1* 1'1 :s* -JZ I I 'f.* ¥.-11¥.* 11$6455 ,., 5 I 1* 1'1,. QIGlMT :SS 1 v.* %'111* lllCIM ' I ,. 1*1 :s* S1bll GOU J4 1 %" %*111* Tl llCl82 1 I 1* 1'1 :s* PR2R 11R JS 1 %" %'1tl* Pl '3ell
  • I ,. r1 r jfpJ I GOW1lYCOIT
  • 1 'f.* %'111* ISP111S , I 1* 1*1 :s* l'llZlm J1 I .,.. Vo 11* Pl SP1211 10 I 1* 1*1 ,. .lfl'T 2 GOii lo\.V CtllT
  • I IJ.* v,*1 ,,. LlllCIN 11 I %' 1*13* J9 I ., .. %'X 11' Tl llClM 12 I %' 1*1 :s* jfpJ I GOW COllT stl.£CT 40 I .,.. %*111-Pl 63'5oU 13 I %' 1*1 :s* jfpJ I GOW SPI COIT 41 t v.* %'1 ll' LI Sl'9AS 14 I %' 1*1 J* l'llZlmClll. 42 I %' %'X11' Pl SPIZAI 15 I %' 1*1 J* jfpJ 2 GOW COIT SELECT G t %" %*12* a CGlllll1. I' I %' 1*1 :s* jfpf2GOWSPllCOIT 44 I %' ,,, ** 2* CllllCCilmlll.. 11 I '!." 1*1 :s* l'llZlm CTIL stl.£CT 45 I %" ir,*12* SCOllllll. " I 1* 1*1 :s* SPMt: <SU llOlt 2131
  • I %* ,,, ** 2* ClllltGllllll. 1' I 1* 1*1 :s* SPiii[ <SU llllT£ 213> 47 1 v.* Vo 11* llSllCH 20 I 'ft* 1*1 :s* SDIYIC[ WIR ISO 11.Y .. I v.-%*111* llS l<Sla 21 I 'f.* 1'1 :s* Al'lllm CTIL stl.£tT 41 I v.* %*111* llS ICS. 22 I ,. 1*1 J* SPllll[ <SU llOlt 2'31 50 I %' %*111* llSllCM 2l I 1* 1*1 :s* SPMt: <SU llOTE 2'31 51 I .,.. %'1 ll' llSICSlto\ 24 I 'ft* 1'1 :s* mtlCl W1R ISO 'LY 52 I '!.' %'XII' llS ICS3M 25 I 1* 1*1 :s* -<SU llllT£ 2131 " I .,.. ir,*111* llS llC2*T 2' I 1* 1*1 :s* ,. <SU 11111[ 2131 54 I .,.. %'1 ll' llS IOlll 21 I %' 1*1 :s* -IClmt ISO ElCT !115 1 v.-%'X ll' llS "'8 ZI I 1* 1*1 :s* -($(( llOT[ 2'31 5' I v.* ,,, ... ,. llS llCA ISU. 11111[ ti C3630 FROllT LAYOUT CiiD ITiD Ciifii] CiW CiiD [iii) [iii] [iii] CiiiJ CiW CiiD Ciiil .. = = 0 0 I I 1 ___ _ EllliRAYllllf stCGlll LlllE 111111 LlllE .. , . .... t.£TTO SIZE BGIAYlll; ... Silt FIRST LlllE stCOlll LlllE 1111111 LlllE Fc.rmtllll: 51 1 \ti' v,*111* llSllC2 .. ISll S8.£CT 51 1 \ti" %*111* IS I01I 5' 1 v.* v,*x11* IS S99I '° I v.-,,, .. ,,. IS lllJA ISO: ll01E ti '1 1 v.* %'Ill' ISIOll ISO: lllJIE:SI '2 I \ti" %'Xll' ISfGIO ISUll01E31 " I \ti' l'i'Xll' llS 13121 M I 14* v,*x 11* IS 1ort ISU llllE JI Qi I \ti' v,*x11* *IS ,,. 1sa llllE " I v.* VJ*111* llS 13'S 51 " " I %' l'I 2' 1111 SIC *I 10 1 %' 1'12' 1111 SIC <1 11 1 LI 14 1i*x 2%* SFllCS-sA 12'4 11 lllH llP M Cll UO II VllH 11P I of u ... y. 12 I J ... 1i*x 2%* SFllCS-0 SA -4911lllHIEP1-1 Cll !115 IK VIII llP H T3 I 1 14 ll'l 2%' SFllCS*SA 12'1 II lllH llP 1 *Z Cll UO II VllH 11P 1-1 u ... Yo T4 I 14 11-12%* sncs-asa 4' 11lllHIEP1*2 Cll S5 Ill 1111llP1-1 u ... Yo 15 I VJ* l'I J* 11-1 " t ,,,. t'I 3' IM n I 14* %'X 1ir,* l-wJt-1 11 t \ti' %*11%* l-WJC-1 19 I v.* v,*11v,* l-w>>-1 IO I v.* %'X !VJ' l.Wlo\-1 .. I v.-Vt-*,. s 12 1 \li' l'r'l I' s I] 1 %' ir,*11* SS 14 t %' l'r"l I' SS I 4"-0* I KB IFIQITI PUN VIEW IN.T.S. I CUTOUT DETAIL FOO T.10 lllSCll lteltATOllS lmll& Slit: IT SllJ( aPl'LICMll.£1'1111* F11-w>lD-t 4:*1 nl-m>Jl-1 ISA*I MARGINAL QUALITY DOCUMENT BEST COPY AVAILABLE t. EGUIPllEllT llEOllllllC llMl.ln -1$ IDOITIFllD 111 llLL (If" llllEllUL, -., 2. VllllED VITI ORIGI-S. =lff",!JF£lJs\ ':&11.;_ .. f/l IEGll-'°us. -. Gii ,_ ........ l. £T1S LIGKl'S *J -*6 -12SWC JU. 0-ME 120VAC. lo .,.-llC ,_ LA'IGUT FOR IEYICI IESl-TQI$. ** -.a11 IS LOCAllD QI TW flF SltTOI. 10. ........ '"-.... Oii.OR -AS nl.l.llllSL t -ti I 154 *111 $UllFME,MJICI COllE a. 19 ---**lllt: tal£ Tt*H t1. -.a11 -'IU AS FGU.Ollh UPT l'OSITIGllt WI ltllllttl'OSITICINt 502 DAVIS-BESSE NUCLEAR POWER STATION AUXILIARY SHUTDOWN PANEL (ASP) M-592 FIGURE 7.4-9 REVISION 24 JUNE 2004

4SOV B._._ .... __ '34> 60H! c.....i._ ............. 9 __ -+ _ __, '---_.,oj ....... (SEE NOTE B WO! I ¥W021 .c. I.SQ 6 W031 D2 W041 a XI TOL OL 1 10& 20 ' SA m NOTE.4fS) 'TR.31 VRX I?> Si 14 *---£ 0 12 ZS Cj> STEM -J_33 ZS-ZSDHllA MOUNTED -rac (SEE NOTE 8) ZS 0 TO INTLK SH. 67 & v----..,._---oM, .... -!J Cl.21 CL2. ??.l cu ?1. CL2 M .. m-11 {.Ut NOTt 4. S) iA ZS Cj> STEM _L33 ZS-ZSDH11A MOUNTED Tac (SEE NOTE 8) ZS O PART OF [Q694J SEE SH. 248 P8 )(l,i'Q .a1 _ .... CL ,C.L.Z. Rl,Gt, . CU.f XI TR !n T12l Cl.'2., XZ. . (t} ,6rff: TOINTLI(. SHG.7 M 13* 33 bC fj { Z.S-1:.'M I 1) lS -r1, T2, T!,T2,T3 T3 WO! I, W04 I B ('A\ G',W"'CL21,C.:.l.,'JCI, TR. -rru1. J(-\,,C., )(l t SP (L) ( F) Tlllt, Trw, ........... __ 'CE>' c ( J) *---XA.1, XA2, W02,1, W031, SP SL.. OC I< OIAGRA M FOP.. 1CHE.ME. N*. AND NOTE.' iE.E. S.H. 2.4&. DAVIS-BESSE NUCLEAR POWER STATION DECAY HEAT NORMAL SUCTION VALVE SHEET I OF 4 E-528 SH. 24A F I GURE 7. 6-1 REVISION 27 JUNE 2010 DB 04-15-10 DFN=J/RASDGN/E52BSH24A.DGN/CIT '"1 .SCMEME W02E . MCC s.u.r MO c. C.D l30 F=\lA 4J 2 b$.4 H ISb\.\ \\0 C.5704 C.D F\\"--1

  • xa.4 Xl ?Pe. XL ti z ca <C( c;J :c RI QI {>pe, ... d Crl Id :z z CD;RI A *A Gl1@ 0 cJ 7 OS 8 DS di 0 CD CD ... R ' / ' c. ::) R di , ' d. t z -cJ 0 WOI WO RC-RC3702 ZS-ZSDHl\A c-C5704 PC-PAC3E. .JT-JT3702 E.GUlPME.NT NUM5ERS e M PA 5F\\o0 MVDHl\0 P2PSF "PSH ISO OESCR\PTlC'N P& RC. I P2C.SG c*p-.;c..o Rc.3701. PiiH7.55lA t-1ISDH1\A DH *s.&JCT LINE VLV . NO-rES 2. s. 4 FOR GEWE.RAL NOTES S&'& OWG INDEX £. '26 13 FOA SWITCH DETAIL!* 6EE DW<:a e.aoa 5M1 FIG'7* EC)f\ "LlMlT""-'WITC\\ DWG. '&!OB SH. SA r1G.C. .-( se £ NGT£ l\ i\\\5 SHEEi l . . . = !>MONN A"T HIGH kE.1,C.TOR. COOLMt PREt>>COURE OR OF POWl.f AT SAAS CA81N&1' S. F'OI\ &A. t.E.E DWQ. 7749-E-.S0-27 '* DELETED 7. DE LE.TE 0 9. IS A STEM -MOUN"T E.C> LIMIT C:.W!TCH. 9. FOR OETAtLS ISOLAllOtJ SWli(H (BLUE lNOIC.ATORLtGllT. Se f DW6 E-303 SH 17 Fie .... I JO OVERLOAD REPLACED B-'V BAR. JI. f\ELO TO W\\\-\ SW\lC..\\ 51\\Q.U 8 10 ACTUAlE WHtN ... V£. RE.At.\\£.<:. zocro. *s 01 -o to 12. F\ELD 10 ADJUST R01DR *4 SO -n&Ai LIMIT SWITCH CON,.AC.TQ 15, I" ClOSE AND UMfT CONTJCi 13 CPENS WHEN VALVE IS FUU."Y CLOSEO. F\E:LD TO Ab.JUST *3 SUCH "THAT If. WILL PF\OVIOf SPECIFIED TARGE'T THRUST ON SEATING. DAVIS-BESSE NUCLEAR POWER STATION DECAY HEAT NORMAL SUCTION VALVE SHEET 2 OF 4 E52B SH. 248 FIGURE 7.6-2 REVISION 20 DECEMBER 1996 4&0V l f 6o0 Hl ,.. _____ _ ,......,.....,. __ _ c. ..... _.,._ ___ _ I I I )---)---1si 480-120V ll bo B. TR at W021 9.l C 6 ?I_ '!LiNb W031 121:°: Q2 13 OS TR2.I XI )(I ft-l 12 (SEE NOTE 9) CO tL2.I
  • Tl T2. T.\ ?fA Tl' T2 T.a !IA W041 8 3f; Cl.II I ----NEUTR.AL. Y'-C.LO'ti CL.I . 4go. 4 DSt CJ2 CL 2'4Qi. .l..4to. asJ1c. X2,W01L FOi\ S.t.HttAt NO. f NOTtS. &tt .S.HE.LT !40 c ( J) tD 1Gi,W011CLl,CL.ll. rP.t, 'T"n ,SP, SP ( Gl 1,wo,cL.a1, PB , x 1 a * (H) CLa.P.1.eaa1 sP, )(t __. .......... M RI.QI SP ,Cl.2.1,lt, Tl,T2.,Tl TR31, W04 I (I) (F) CL.XI ,TA;rP.2.1, (cJ XA,X&, x12 ,CLa X 12 ,TQl,CL2.,Xl (a) 13f! [zl26] (Z£DHl2) Tl,T2.,T3 PA ZS 9 STEM -J_ 33 ZS-ZSDH 12A zs_1 STEM -33 ZS-ZSDH12A MOUNTED T"ac (SEE NOTE 8) ZS 6 TO INTLK SH. 67 DB 04-15-10 MOUNTED T" ac (SEE NOTE 8) ZS 6 PART OF [Q695J SEE SH. 240 DAVIS-BESSE NUCLEAR POWER STATION DECAY HEAT NORMAL SUCTION VALVE SHEET 3 OF 4 E-52B SH. 24c FIGURE 7.6-3 REVISION 27 JUNE 2010 DFN=J/RASDGN/E52BSH24C.DGN/CIT ti % '° <it 0 :c I:? i ..,, t; w z z 0 u !!! Q !c .,, ::> co . tn % ..... <.) < ;> 0 e-.1 ..... 14 Na. PSHX R.C.2&4 MCC £lie. WOI s.u. ""t NI. CHANNEL PREFIX C-& c 49 I 0!>6 HISDMl2.0 C!;704 ' / R. / ' WO __. ________ .,__ ________________ CD-CDEllB-2 C-C5i04 'CS-lSDHIZA JT-Ji:.;701 PC-PBC20 co CDE.UPrf E.QUIPMENT &E.llSl IT * :.! l M PA PB F MVOHl2.0 PIP2.M PIC.2.L PSHP.C.2.&4 JT .t. ISO/OFF C c-=o--c --0--iJ-f N .. E!.' 1 .... * " (QS-DHi2) ISO DE.SCRI PTION 141SPHf2.A Off. NOP.MAL SUCTION LINE,; VA..LVE NOTE.&: I. FOR GE.NE.l\AL NOTES &E.E.. DWQ. INDEX E..S2.6. 2.. FOi\ &WITCH OE.TAIL.& oE.E. DWG. E306,&H.71 FIQ.7 3. FOR. VALVE. LIMIT ,W. S.U. DWG. E.lO&.IH.lfA Flfi.C i(SEE KUT'E K> SHcET}. 4. P$H SHOWH #\T LOW COOLANT PRtSSURE. 9 5. DELETED '* DELE\El> 7. 'ZS IS I\ STEM.-MOUl-&T!O LlMIT 6WlTGH. 8.FOR DETA\LS Cf' ISOLAl\ON SW\TCK AND BLUE. INDICA.TOR Ll'*HT SEE E-308 St\. \7, Fl'*-1
  • 9. HE"iER; REPLl!t\CEt> SY SHOl\TlNGt BARS. 10.AEU> TO AD7U&'T ROTOR *t. Wlnt SW,TC" S "'n\R\J 8 iD AC\UATE W"Et\I ... II. FIELD iO AbJ'UST Ral'oR*4' 50-rMT 5WITCK 14,IS,lb CLOSE ANO 13 ('r.iENS *WM&N 1'HE. VA\..'16 _fULL Y CLOSE.Dy 12. fl[lt> TO A[)JUS'i Pl>T°" ..-3 Sl.C.H iHAl COMTAC.T 12. . ) "* Will SPEC\tlED TARGETl"Rusr DN SEATING__} .. --*------------DAVIS-BESSE NUCLEAR PO\£R STATION DECAY HEAT NORMAL SUCTION VALVE SHEET 4 OF 4 FIGURE 7.6-4 REVISION 20 DECEteER 1996

UNIT LOAD DEMAND CDITRQ.. I r TURBINE BYPASS CONTRCl.. -, TURBINE CONT Ra.. 't STEAM CONTRCl.. 1 ' CONTRCl.. I. CCNTRCJ.. 15 FURNISt-£0 WITH THE ECJJIPh.E:NT. DAVIS-BESSE NUCLEAR POWER STATION INTEGRATED C°"TRCl_ SYSTEM CICS) FIGURE 7 . 7 -I REVISIO\J 16 JULY 1992 LEGEND H/A (%CTP) OAD H/A = HAND/AUTOMATIC CONTROL STATION MWth =MEGAWATT THERMAL TARGETL MWe =MEGAWATT ELECTRIC T= TRANSFER 1 I H= OPERA TOR ADJUSTABLE SETPOINT PROPORTIONAL+ -,CORE THERMAL POWER (CTP) CALCULATION INTEGRAL CONTROL (Pl) MWeTO IMWe GENERATED (ACTUAL) I -/MWth 1 I -' . LIMITER I I ' , I MWth TO MWe I MEGAWATT DEMAND (MWd) 1 I TO INTEGRATED MASTER CONTROL FUNCTION IN JCS LOAD TRACKING 1. SUBSYTEM IN MANUAL 2. LARGE ERRORS 3. REACTOR TRIP 4. TURBINE TRIP 5. GENERATOR BREAKERS TRIP JHl -'MAXIMUM LOAD LIMIT 1 ' ' JHl . -MINIMUM LOAD LIMIT ' -' --JHl -RATE LIMIT ' ---RUN BACKS 1. LOW DEAERATOR TANK LEVEL 2. HIGH MFP DISCHARGE PRESSURE 3. REACTOR COOLANT PUMPS AVAILABLE H 4. LOSS OF A FEED PUMP DAVIS-BESSE NUCLEAR POWER STATION UNIT-LOAD DEMAND (ICS) FIGURE 7.7-2 REVISION 29 DECEMBER 2012 na_n'1_1') ncto.1-1r111C'AD111crr77'1 nl"'t..11TTr ' , MWd MWe Ph l'hs EMw Eph PA EpA 6. PAS + LOSS Of CONDENSER VACUUM LEGEND

  • MEGAWATT DEMAND
  • ACTUAL MEGAWATT GENERATED
  • TURBINE HEADER PRESSURE
  • TURBINE HEADER PRESSURE SET POINT
  • MEGAWATT ERROR = TURBINE HEADER PRESSUR ERROR = STEAM GEN. OUTLET PRESSURE LOOP A
  • STEAM GEN. PRESSURE ERROR LOOP A = DIFFERENTIAL
  • STEAM GEN. PRESSURE SET POINT LOOP A
  • HAND/AUTO CONTROL
  • SIGNAL SOURCE FROM NON-NUCLEAR lNSTRUMENTATION SYSTEM CONTROLLER LIMITER CONTROLLER TURBINE CONTROL DEMAND TURBINE BYPASS VALVES LOOP A <TYPICAL> ATMOS VENT VALVE LOOP A (TYPICAL> MEGAWATT DEMAND FROM UNIT LOAD DEMAND CONTROL MWd / FEEOWATER DEMAND TO STEAM GENERATOR CONTROL LOW LEVEL LIMIT MEGAWATT DEMAND TO REACTOR CONTROL DAVIS-BESSE NUCLEAR POVER STATION INTEGRATED MASTER (ICS) FIGURE 7.7-3 REVISION 19 MAY 1995

. i FEEOWATER LOOP A * £TEAM GENERATOR DEMAND FROM-::> INTEGRATED MASTER CONTROL Wd CROSS LIMITER STEAM GENERATOR LOAD RATIO CONTROL FROM REACTOR CONTROL FEEOWATER --.... LOOP B .CONTROL H/A REACTOR COOLANT FLOW l I MITER CONTROL STATION MAIN FEEOWATER VALVE LOOP A l LOW SELECTOR WdA ,-----*'\.-------------' WdB EwA CONTROLLER STEAM GENERATOR LEVEL LIMITER SUM Wd CONTROLLER / .... / .... 1\ \!;/A JI \!;'A J& STARTUP FEEOWATER VALVE LOOP A MAIN FEEOWATER PUMP A MAIN FEEDWATER PUMP B EwB CONTROLLER STEAM GENERATOR LEVEL LIMITER STARTUP FEEOWATER VALVE LOOP B MAIN FEEOWATER VALVE LOOP B TO REACTOR CONTROL CROSS LIMITS LEGEND = FEEOWATER FLOW = AVERAGE REACTOR INLET TEMP <COLO LEGJ = DIFFERENTIAL

  • J = HANO/AUTO CONTROL STATION = FEEOWATER OEMANO -= REACTOR OUTLET TEMPERATURE <HOT LEG> Tm = FEEOWATER TEMPERATURE L =STEAM.GENERATOR LEVEL P = STEAM GENERATOR OUTLET PRESSURE .i6..P = OIFF PRESSURE ACROSS FEEOWATER VALVES ..D..Ps = DIFF PRESSURE SET POINT E.i6..P = DIFF PRESSURE ERROR Ew = FEEOWATER ERROR F = REACTOR COOLANT FLOW + = SIGNAL SOURCE FROM NON-NUCLEAR INSTRUMENTATION SYSTEM DAVIS-BESSE NUCLEAR POYER STATION STEAM GENERATOR CONTROL (ICS) FIGURE 7.7-4 REVISION 19 MAY 1995 LEGEND AVERAGE TOPERATURE SET POINT Tc = REACTOR COOLANT SYSTEM COLO LEG TEt.PERATURE Th = REACTOR COOLANT SYSTEM HOT LEC TEM'ERATURE T ., REACTOR COOLANT TEt.PERATURE Er = DEVIATION OF AVERAGE TEM'ERATURE FROM SET POINT = DIFFERENTIAL ----......., --H:-:-/A *HANO/AUTO CONTROL STATION:::::> --... .-Nd " REACTOR POt.ER LEVEL DEMAND N i
  • REACTOR POER LEVEL N
  • REACTOR POWER LEVEL ERROR MWd
  • IE:CAWATT DEMAND + " SIGNAL SOURCE FROM NON-NUCLEAR INSTRUIE:NTATION SYSTEM 0 = SIGNAL SOURCE FROM NUCLEAR INSTRUMENTATION SYSTEM MEGAWATT DEMAND FROM CNTECRATED MASTER CONTROL FROM SIDM GENERATOR CONTROL tEUTRON ERROR TO FEEOWA TER CONmot. FOR CROSS LIMITS MWd UMHS OEADBAND ROO CONTRrt. DEMAND SELECTm LOOP A AVERAGE LOOP 8 fe AVERAGE DAVIS-BESSE NUCLEAR POYER STATION REACTOR CONTROL (ICS) FIGURE 7.7-6 REVISION 19 MAY 1995

I D G STARllJ' OWN:LS R.V. llllEllLDCI Nl*Z ISOlmlWIG(I H. V. INIEll.Ga NM CIHl[Rl(l)IAl[ RANCE> *1-5 NI°' Nl-1 .... IATt NH-<9il Fl J SUl*ZDlll IAT£ Nl*4-<9il SUI_* 3 D/11---'l'--t l J;D LllUR POllER Nl*S TD RPS0 IJ*S6!{5A_FlltCTICll GOERATOll 0 e;fi> _____ 111 . }3.,plClllll .... (;(1£AATUl(.V L 11£.111 POIO NJ-I TORPS0 10 TlPICAL FOR NJ-I Ill Hl*l 'HIGH 'IU.TMI: QIT CJ'F' aT II r COOACTS FOi IZ IJ MARGINAL QUALITY DOCUMENT BEST COPY AVAILABLE c.o. ltlEJI *

  • 10% FP c.o. WEii a* tlr FP _ IDl'UIER DlllCllED MM.CIG SIQW. 0 -aJ1fU1£111111111TCll£D CGllJ&ClS 0 -LOCAllD Gii Uldllll. Cllll5a£ 0 -UICAllD LOCAi.Li ill OWllL /":\. -FOi Cllll1'JllllTICll SEE \:J c.536*\ t 14 1 Clll1lll. llOO l11-llll lllllllT I. 10 II REVISION 20 DECEMBER 1996 118 11-14*9' -e flH:TUJW. DRAWINC fUt.EAR IHSTRlJEHTATillt SYSTEM FIGURE T.8-J 12 e* .. .. ::.:;..;:::.::--.:* A I D 2 t o1 o 109 t 08 t 0 7 > c 106 .. x ::J LL. 1 os c 0 S-t 06 ...... ::J t 0 4 <D :z: L.. 1 oS 0 t o3 ...... 0 <D 104 ...... "O Q) t 02 c c 0 0 <D 1 o3 V> 10 L.. (l) a.. 102 U) ...... c ::J t 0-1 0 <....> 10 10-2 o. 1 NOTE: This figure depicts on Q) 0 <D approximate numerical '-en ::J c relationships between 00 (/') a:: detector neutron flux and the various instrument range indications. 1 o-3 10-4 N 125 .. 100 L.. U) t o-s <D L.. 0 <D a.. 10 a. E "O 0 t o-G <D ...... .. 0 ...... a:: c (I) 10-1 L.. L.. ::J <....> c 1 o-8 0 en t o-9 0 ....J urto t o-11 <D (j) c 0 a:: (I) ...... Q) 0 en ...... c "O 0 <D a:: E L.. L.. (I) ........ c 0 a.. DAVIS-BESSE NUCLEAR POWER STATION NUCLEAR INSTRUMENTATION-FLUX RANGES FIGURE 7.8-2 REVISION ZO DECEMBER 1996 DB 11-18-96
  • -NI *4 CIC ** NI* I UCIC l I -Y . .. 4 ... z LEGEND ;c -PROPORTIONAL -SOURCE RANGE DETECTOR CIC -COIPENSATED ION CHAMBER -INTERMEDIATE RANGE DETECTOR UCIC -UNCOIPENSATED ION CHAllER -POIER RANGE DETECTOR DAYIS*IESS£ llJCLEAR POIER STATION NUCLEAR INSTRUIENTATlmt -DETECTOR LOCAT I OMS FIGURE 7 .8-3 REVISION 0 JULY 1982

7 KORTH 1 -* I I I I I I I @ * * ...--,

  • I *
  • C.tl * * * * * * * * * * -* J
  • I '1' --* -* * .!..,..-*
  • I 1* * * * * * * -*1
  • I "lMEfNJCOll'LE AXIAL FLUX _/ SHAPE * * !-->-CORC LENGTH
  • TOTAL CORE MONITORS BASED ON 118 CORE SY!if((TRY
  • SYfff:lRl MONITORS Q COMBINATION TOTAL CORE AND SYMURY MlN JTORS BACKCROUND AVERAGE FlUX DETEC1'0R LOCAL FLUX DETECTOR DAVIS-BESSE NUCLEAR POVER STATION INCORE DETECTOR LOCATIONS FIGURE 7.9-1 REVISION 19 MAY 1995 INCOM INSTRUMENT -.. REMOVAL TANK ' . I DlYIS*BESSE NUCLEAR POIER STATION TYPICAL ARRANGEMENT -INCORE INSTRUMENT CHANNEL I I ! ELECTRICAL I CONNECTOR l ! 2500 SEAL I \I \\ FIGURE 7.9-2 REVISION 0. JULY 1982 IMS PtPING

I I I I PLANT PROCESS INSTRUMENTATION CLASS IE ISOLATION EQUIPMENT FOR SAFETY SYSTEM SIGNALS PLANT I MULTIPLEXER PLANT PROCESS COMPUTER DATA ACQUISITION ( A) . I DISPLAY ARCHIVE SYSTEM (Al

  • ACQUISITION NETWORK / I DATA ACQUISITION (8) DAVIS-BESSE ADM IN I START ION BLDG. .
  • PLANT DATA NETWORK I
  • TSC DISPLAYS DISPLAY ARCHIVE SYSTEM (8) I I CONTROL ROOM DISPLAYS EOF & ALTERNATE TSC DISPLAYS LINDSEY EMERGENCY RESPONSE FACILITY CONTROL ROOM DAVIS-BESSE NUCLEAR POWER STATION SPDS BASIC CONFIGURATION FIGURE 7. 14-1 REVISION 30 OCTOBER 2014 DB 10-03-14 DFN: G/USAR/UFIG7141.DGN}}