ML17277A604

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Forwards Three Listed Repts to Expedite Resolution of SER Outstanding Issue 13 Re Control Sys Failures,In Response to NRC Questions 031.135,137 & 138
ML17277A604
Person / Time
Site: Columbia Energy Northwest icon.png
Issue date: 06/10/1983
From: Bouchey G
WASHINGTON PUBLIC POWER SUPPLY SYSTEM
To: Schwencer A
Office of Nuclear Reactor Regulation
Shared Package
ML17277A605 List:
References
REF-SSINS-6820, REF-SSINS-6835, REF-SSINS-SSINS-6 G2-83-509, GO2-83-509, IEB-79-27, TAC-56674, NUDOCS 8306200243
Download: ML17277A604 (92)
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Text

REGULATOR~FORMATION DISTRIBUTION S UEM (RIDS)

ACCESSION NBR;8306200243 DOC ~ DATE: 83/06/10 NOTARIZED: NO DOCKET FACIL:50-397 NPPSS Nuclear Projecti Unit 2i Nashington:Public 'Powe 05000397 AUTH'AME AUTHOR AFF ILI ATION BOUCHEYiG ~ DE Washington Public Power Supply System "RECIPBNAME . RECIPIENT AFFILIATION SOHO'ENCERiA. Licensing Branch 2 Q lI

SUBJECT:

Forwards three listed vepts to expedite resolution of SER Outstanding Issue 13 re control sys failuresiin .res o se to NRC Questions 031 135 i 137 L 138 e

~

DISTRIBUTION CODE: BOOIS COPIES RECEIVED:LTR SIZE:

TITLE: Licensing Submittal: PSAR/FSAR Amdts 8 Related Govt espon ence NOTES!

RECIPIENT COPIES RECIPIENT COPIES IO CODE/NAME LTTR ENCL ID CODE/NAME LTTR ENCL NRR/DL/ADL 1 0 NRR LB2 BG 1 0 NRR LB2 LA 1 0 AULUCKiR~ 01 1 1 INTERVALe ELO/HDS2 1 IE FILE 1 IE/DEPER/EPB 36 IE/DKPER/IRB 35 1 IE/DEQA/QAB 21<< 1 NRR/DE/AEAB 1 NRR/OE/CEB 11 1 NRR/DE/KHEB 1 NRR/DE/GB 28 "2 NRA/OE/EQB 13 NRR/OE/MEB 18 1 NRR/OE/HTEB 17 1 NRR/OE/SAB 24 NRR/OK/SGFB 25 1 NRR/OE/SGEB 30 NRR/OHFS/HFEB40 1 NRA/OHFS/LQB 32 NRR/DHFS/iPSRB 1 NRA/OL/SSPB 1 NRR/DS I/AEB 26 1 NRA/OS I/ASB 1 NRR/DSI/GPB 10 1 NRA/DSI/CSB 09 1 NRR/DSI/ICSB 16 NRA/DSI/MKTB 12 NRR/DSI/PSB $ 9 NRR 22 1 NRR/DSI/RSB 23 1 G F E 04 1 RGN5 3

/MIB 0 EXTERNAL: ACRS 41 BNL(AMOTS ONLY)

DMB/DSS (AMDTS) FEMA REP DIV 39 LPOR 03 1 1 NRC POR , 02 NSIC 05 1 1 NTIS TOTAL NUMBER OF COPIES HEQUIRKDe LTTR 54 ENCL

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Washington Public Power Supply System P.O. Box 968 3000 George Washington Way Richiand, Washington 99352 (509) 372-5000 June 10, 1983 G02-83-509 Docket No. 50-397 Director of Nuclear Reactor Regulation Attention: Mr. A. Schwencer, Chief Licensing Branch No. 2 Division of Licensing U.S. Nuclear Regulatory Commission Washington, D.C. 20555 Dear Mr. Schwencert

Subject:

NUCLEAR PROJECT NO. 2 CONTROL SYSTEM FAILURES QUESTIONS, WNP-2 SER ¹3, OUSTANDING ISSUE ¹13 In order to expedite resolution of SER Outstanding Issue ¹13, enclosed

'are five (5) copies of the .following reports:

~ NRC Question 031.135, "Loss of Non-Class IE Instrumentation and Control Power System Bus During Power Operation (IE Bulletin 79-27)"

~ NRC Question,031.137, "Qualification of Control Systems (IE Infor-mation Notice 79-22)"

~ NRC Question 031.138, "Control System Failures" These reports have been prepared in response to the above NRC questions.

Internal Supply System review of these reports is not totally complete; however, we are confident that any changes to these reports will be minor.

We expect to provide our formal responses to Questions 031.135, 031.137, and 031.138 by June 17, 1983.

Very truly yours, G. D. Bouchey Manager, Nuclear Safety and Regulatory Programs GDB/jca cc: Auluck -

R HS Chin -

NRC BPA ~~el A Toth Site NRC

~s 830biD 830b200243 0500039T PDR ADOCK PDR

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8306200><>

1.0 ANALYSIS OMECTIVE 2.0 ANALYSIS METHODOLOGY

3.0 CONCLUSION

S APPENDICES AND ILLUSTRATIONS FIGURE 1 HANPORD COLD SHUTDOWN SYSTBS PATHS BUS SYSTEM CASCADE CHART APPENDIX A POWER BUS ANALYSIS TABLES 13-0174 1

1. 0 hNALYSIS OBJECTIVE The overall analysis objective was to determine vhether the loss of pover to any bus would jeopardize being able to briag the plant to cold shut-down.

This reviev vas conducted ia response to IE .Bulletia 79-27 which identi-fied specific actions to be taken in accomplishing the reviev. These actions are as detailed bclov:

1) Review the Class ]E and Non-Class 1E buses supplying power to safety and noa-safety related iastrumeatation aad contxol systems vhich could affect the ability to achieve a cold shutdown condition using existing plant operating. procedures or procedures developed for each bus in thc event of its failure.
2) Identify the instrument and coatrol system loads connected to the bus and evaluate the effects of loss of pover to these loads including the ability to achieve a cold shutdowa coadition.
3) Ideatify aad reviev the alarm aad/or indication provided ia the control room to alert the operator to the loss of power to thc bus.
4) Identify alternate indicatioa aad/or control circuits which may be powered from other Non-Class 1E or Class lE iastrumeatation and control buses.
5) Identify methods for restoring povex to thc buses.
6) Prepare emergency procedures or review existing oaes that will be used by coatrol room opexators, including procedures required to achieve a cold shutdown conditioa, upoa loss of pover to each Class 1E aad Noa-Class 1E bus supplying power to safety and non-safety related instrument aad control" systems.

13-0174 2

7) Describe any proposed design modifications or administrative controls to be implemented resulting from these procedures, and the proposed schedule for implementing the changes.

k comprehensive approach vas developed to analyze the consent@..nces of a bus failure during, cold shutdowa. Details of this approach are identified in the anlaysis methodology section. hlternate cold shutdowu paths, conclusions, and followup reconeendations are also discussed in their respective sections.

This report vith its appendices and illustrations vas prepared by the General Electric Company (GE) for Vashington Public Power Supply System (GPSS) . Significant technical contribution vas also provided by Burns and Roe, Inc. (BRI).

13-0174 3

2.0 ANALYSIS METHODOLOGY The infoaaation required to analyze the effect of a bus failure on cold ahutdo<<n <<as obtained free both GK and BRI.

The division of responsibility for the inforaation and analysis gathering

<<as as folio<<a:

ASSIGNED TO 2.1 Identify Required Syateas 2.2 Identify Required Devices 2.3 Identify Required Buses 2.4 Determine Sc Seanarize Normal 8 Alternate Shutdo<<n 2.5 Determine IE and Non-1Z Loads 2.6 Analyze Bus Loss During Shutdovn 2.7 Analyze Cascade Effect of Combined Bus Losses 2.8 Determine Bus Loss Annunciation 2.9 Revier Plant procedures to Verify Appropriate Steps During Bus Loss 2.10 Mify/Augment Plant procedures if Necessary 13 0174 4

2.1 IDENTIFY RE UIRED SYSTEMS This step established the systems required for plant shutdown to a cold shutdown state. h list of QNP-2 plant systems and subsystems was compiled and grieved to determine only those systems necessary to achiere a cold shutdown. These systems were grouped together (see Figure 1) in their required normal and alternate shutdovn paths. h detailed discussion of the methods used to develop Figure 1 is discussed in Section 2.4 of this report+

2.2 IDENTIFY RE UHKD DEVICES Since not all devices in a system are required for shutdovn only those devices the operator would manipulate in going to cold shutdovn vere evaluated. System operating procedures (PPM's) vere reviewed in con)unc-tion vith the plant shutdown procedure (PPM 23.2.6) to properly evaluate devices required. The devices required for cold shutdown, the associated aanunciators, and pover busses vere analyzed system by system.

2.3 IDENTIFY HE UIRED BUSES The devices discussed in Section 2.2 vere reviewed to determine their pover supply bus(es). Al.l pover supply buses vhich have cold shutdovn devices vere then arranged to show how they are interconnected. Annun-ciators and loss of pover alarms for the buses were reviewed to det~rmine if the operator vould be alerted on loss of a bus. Figure 2 shovs all required buses, breakers and annunciators for these buses.

2.4 DETERMINE AND SUMMARIZE NORMAL AND ALTERNATE SHUTDO'4N PATHS The shutdown paths are as identified in Figure I. The information re-quired to determine the three basic shutdovn paths vas obtained from plant procedures, PAID's and RiP-2 CESAR system descriptions.

Pith reference to Figure 1, the alphabetical indicator, located in paren-thesis in each system block, (e.g., (E); (7); etc.) represents the cross 13-0174 5

reference code to the system device table Appeadix "A". Although each system descriptioa block, is located in its ova rcspectivc shutdown path, the Figurc does not necessarily show the sequential use of a particular system duxiag thc cold shutdova operation. For example; ia the normal cool dova path N, feedvatex (Group (J)) is showa as the fifth (5th) system in line. Contxol of feedvater occurs to some degree, priox and during condensate and condeasor vacuum (Group (F)) operations.

In addition, the use of normal RHR cooling occurs as a last eveat irre-spective of the shutdown path selection (aad use). Because of this, the MB Shutdovn Cooling Mode (L), is shown as the last event in the Normal Cooldown Path, and is essentially duplicated by coatrol of RHR "A" or RHR "B" in the alternate shutdown cooling modes.

2.5 DETERSIVE 1E AND NON>>IE LOADS A revicv of the plant single linc diagrams identified the 1E or Noa-1E class status. These desigaators have been iacludcd in the "Povex Bus Aaalysis Tables", Appendix "A", uader the heading of "Essentiality Code".

2.6 ANALYZE BUS LOSS DURING SEJTDORf This step consisted of determining the affect of a bus loss oa the ability to coatinue in the particular shutdown path that vas being used at the time the bus loss occurred. Infoxmatioa presented in Figures 1 aad 2 provided the facts necessary to analyze the consequences of a bus loss.

The conclusion effect, of coatinuiag in the existing shutdova mode is elaborated on ia the affects coluraa of the. Appendix A document.

2.7 ANALYZE CASCADE EFFECT OF COMBINED BUS LOSSES This step ia the analysis is a continuation of Paragraph 2.6, where the consequences of an upstream bus loss vill affect the cold shutdown path.

In all cases, transfer to alternate pover or transfer to other shutdova modes vere possible.

13"0174 6

2.8 DETERMINE BUS LOSS ANNUNCIATION It is necessary when a bus loss occurs that the control room operating personnel are alerted to the fact. This step in the analysis determined.

what type of warning was relayed to the control room, i.e., annunciation or undervoltage relay triggering "control voltage lamps."

The identity of the alarm, indicator, or annunciator are shown in the appropriate column iu Appendix A. major bus annunciators are also identi-fied on the "Bus system cascade chart" Figure 2.

2.9 REVIEW PLANT PROCEDURES TO VERIFf APPROPRIATE STEPS DURING BUS LOSS This step must be accomplished as a result of this analysis report. WPPSS or their designated engineers should provide this review. The primary response is to restore power to the affected power bus(es). If this, is not possible, then shifting to an alternate cooldown path is required.

2.10 BODILY/AUGMENT PLANT PROCEDURES

~

If plant procedures require modification after the Paragraph 2.9 review, then WPPSS should make the necessary changes. When the affects" column in Appendix A indicates that an alternate shutdown path is required, existing procedures or new supplemental procedures should be identified or prepared.

13-0174 7

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. 3.0 CONCMSIONS

. 3.1 AITERNATE SElTDORi PATHS Analysis of the zeport information shows no situation where a single Bus Pover Failure vould prevent plant personnel from achievtag a Reactor Cold Shutdown condition. This conclusion is based primarily on the analysis results as shovn in Appendix "h", vhich delineates that no single bus supplies povez to all three shutdown paths. In most cases, single buses pro&de power to systems that are active in only one shutdovn path.

3.2 BUS PADIEE ANNUNCIATION Bus failure of a major bus (i.e., 6.9 kV thru 480 Volt) is annunci-ated in the control room, thus giving the operator the knowledge that bus power is lost,. The review and analysis of Appendix "A" and Figure 2. shovs conclusively that contzol room personnel vill have bxowledge of individual bus or circuit failures.

13-0174 8,

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1) THE LOSS OP BUS POWER XN THE hl PATH OP AFFECTING COLD SEJTDOWN REQUIRED THE CONSIDERATION OP TRANSFERRING TO THE SECOND ALTERNATE PATE A2 . THIS CONSIDERATION IS OBVIOUSLY DEPEJUJENT UPON THE TIME SEQUENCE OF BUS POWER LOSS (I E x XF THE hl SYSTEM HAS BEEN USED AND DROPPED'HEN TRANSFER TO THE A2 PATH IS NOT NECESSARY).
2) THE COMBINATION OP A SINGLE BUS POWER LOSS THAT AFFECTS DEVXCES IN TWO SHlJTDOWN PATHS (I.E. N AND hl . OR CN AKl C1 ) REQUIRES TRANSFERRING OP CONTROLS TO THE SECOND ALTERNATE SEJTDOWN PATH. (THIS IS NOT REQUIRED POR'AILURE OP Cl AS THIS ROUTE IS PAIL SAFE ON LOSS OF POWER.)
3) TRIS FEEDER BUS POWERS OTHER BUSSES THAT POWER DEVICES IN ALTERNATE SHIJTDOWN PATHS. TRANSFER OP THE SHUTDOWN MODE TO THE MEZT ALTERNATE PATH MUST BE ACCOMPLISHED IF BUS POWER CANNOT BE RE-ESTABLISHED.
4) LOSS OP h COMMON POWER BUS THAT AFFECTS A CORE SHUTDOWN PATH AND HEAT REMOVAL PATH REQUIRES h TRANSFER TO THE FIRST AVAILABLEALTERJATE. SZNCE BOTH PATES ARE NOT REQUIRED SIMULTANEOUSLY, FtlRTJKR ANALYSIS NOT NECES SARY.
5) THIS FEEDER BUS POWER OTHER BUSSES THAT POWER DEVICES IN THE SAME COLD SHUTDOWN PATHS. TRANSFER TO THE FIRST ALTERNATE SHUTDOWN PATH ZS NECES-SARY.
6) THE LOSS OP POSITION INDXCATION LAMPS FOR SEVJDVLL MOVS OR DEVICES IS INDICATIVE OF h POWER BUS PAIX,URE. UPON FAILURE OF ONE SET OP INDICATION LAMPS h REVIEW OF ADJACENT LAMPS WILL INDICATE POWER FAILURE OF THE RESPECTZVE BUS.
7) TRANSFER MUST BE INITIATED TO A2 13-0177 1

PROJECT: WHPP-2 COLD SH011lOWN POWER ANALYSIS APPENDIX 'h'HEET 1 0 AHN. TRIP OR POWER ESSEHTI ALITT PATH LOSS OF CHTL. AFFECT ON CONTINUING IN BDS HUHBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SlBlnOWN HODR PP-18"A NOH-ESS A AR - SPV'S (F) N NOTE 6 MUST TRANSFER TO AITERNATE TURBINE - TIJBN GEAR (G) COOLDOWH PATH hl OR FEEDWATER - COHTROL (J) h2 COND-FCV'S (F) H.S. - VALVE (K) TSW, TCV FOR RFPT lh (J) HC-1B 'OH-ESS h ClRC. WATER - HOVS {Il) N 0/L TRIP ANN. NOTE 5. COND - HOVS (F) HOTE 6 H.S. - MOVS (K) FEED TO PP")B"h HC-lh NON-ESS h TG-OIL PlNPS, EHP, EX (G) N D/L TRIP AHH. MUST TRANSFER TO ALTERNATE HS-HOVS (K) HOTE 6 COOLMWN PATlf hl OR A2 COND-MOVS (F) RFW -MOVS (J) SL-11 NON-ESS A FEED 'TO MCC'S MC-lh & MC-18 - BKR TRIP AHN. NOTE 5 AND PANEL PP-18-h HC-78-A ESS")E 1 RlfR MOVS {H) & (P) & (L) hl N MOV NETWORK PWR NOTE 7. MSS OP PWR TO RIOR UM LOSS/OL LIGHT. PRESS PRIHSSIVE RltR/LPCS Our OF SERV. ANH. HC-7B-8 ESS-)E 1 RllR MOVS (H) h) H RHR/IPCS OlE OF NOTE 7 LOSS OP PWR %9 HIGH IAM SERV. AHN. PRESS PEBHISSIVE )3-0)78 (1) PROJE  : MNPP-2 COLD SNUTlMMN POMER ANALYSIS APPENDIX 'h'llEET 2 0 ANN. TRIP OR POMER ESSENTIALITY PATll I.OSS OF CNTL. AFFECT ON CONTINUING IN BUS NlRIBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SHUTDOMN HODR HC-7B ESS-1E 1 SSM-HOV'S (H) N 0/L TRIP ANN. NOTE 4 SLCS PUMPS 6 HOVS (D) HOV NETMORK PMR RRA"11VAC"RCICo RllR (LoH>N) C2 LOSS/OL LIGllT. RCIC-PUMP (N) RllR/LPCS OUT OF FEED VO BUSSES He-7B-A 5 hl 'SERV. ANN. HC-7B-B >>RllR PUMP 2A ROOM llVAC OUT"OF SERVICE" >>RRA-FN-12 PMR LOSS" "RlIR PUMP RM"2 RRA-FC-2 TRIP>> >>RCIC DIV. l OUT" OF-SERVICE>> "DC HCC-RH ADA"AD-l2 INLET DAHPER CLOSE>> PP-7h-C"h A TSM-HOV (G) Nova 6. NOT REQUIRED CIRC WHt VALVES (H) PP-7A-C h TSM-HOV (G) N NOTE 6 FEED TO PP-7h"C-h PP-7A-Z NON-ESS h RECIRC CONTROL (h) P6O3 ANN. MUST TRANSFER TO ALTERNATE FMCSi PUMP GOV. (3) RFP B hv CONSTANT PATH Cl AND SEE NOTE 4. CIRC VCR FAN CONTROL (H) SPEED HAIN STEAM CONTROL (K) RPV HIGH MATER LEVEL TRiP RECIRC FCV'S LOCKUP FCV'S MOTION INHIBIT ALARM RFM TURBINE h STOPPED MASTER CNTLR OUTPUT SIGNAL ABNORMAL. FLUX CNTLR OllTPUT SIGNAL ABNORMAL NOTE 6 13-0178 (2) PR03ECT: WllPP-2 COLD SllUTDOWN POWER ANALYSIS APPENDIX 'h'HEE't 3 0 ANN. TRIP OR POWER ESSENTIALITY PATH LOSS OF CHTL. AFFECT ON CONTINUING IN BUS HlMBER CODE DIV AFfECTED DEVICES 'CODE SIGNAL EXISTING SHUTDOWN HODR PP-7CA"h NON-ESS h SM-SV (H) FROM RRA-FC-6 Al NOTE 6 NONE, OPERATION IS AVAILABLE FROM REHOTE SHUTDOWN PANEL IF REQUIRED. HC-7C NOH-ESS h RECIRC HYD. PWR. UNITS (A) CN P603 ANN. NOTE 4 REACTOR FM HOVS (3) RFP 8 AT CONSTANT FEED TO PANEL PP-7h-2 AND N SPEED PP-7A-C RPV HIGH WATER LEVEL TRIP RECIRC FCV'S LOCKUP FCV'S NOTION INl1 1 BIT ALARM R1% TURBINE h STOPPED HASTER CHTLR OUTPUT SIGNAL ABNORMAL. FLUX CHTLR OUTPUT SIGNAL ABNORHAL NOTE 6 SL"71 ESS-lE 1 FEED TO THE MC-7C 6 HC-7B BXR TRIP ANN. NOTES 2 AND 3 C72"P001 RPS h h RPS CONTROL (C) Cl REACTOR I%1 SCRAM IOSS OF RPS ( Cl PATH) (MG 'h') 6 ANNUNCIATION CREATES FAIL SAFE CONDITION. BUS h MlR CONTROL N TRANSFER TO hl OR A2. PP-7h-h ESS-lE 1 RX NANUAL CONTROL (B) LOSS OF VOLTAGE AFFECTS ROD BMCK; Cl SHUt" CONDENSATE VALVES (F) IND FOR PP-7A-h DOMN PATH SHOULD BE INITIATED. RX FEEDWATER (J) N OH BOARD - C TRAHSFER TO h2 . NOTE 6. AR CONTROL (K) H "SSM "A"-SVPV SYST SW - SUPR CONTROL (ll) Al TROUBLE" SSM - SPURP CONTROL (ll) hl "SSM "h""OUT-OF" SERVICE" "SSM PP HOUSE h, PRA-FN-h LOM FMW" 13-0178 (3) PROJE . MNPP-2 COLD SIJUTDOHN POMER ANALYSIS APPENDIX h SJJEET 4 0 ANN. TREF OR POMER ESSENTIALITY PATJl LOSS OF CNTL. AFFECT ON CONTINUING IN BlJS NUJJBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SJIUTDOMN HODR i 4 i i PP-7A ESS"1E 1 FEED TO INVERTER TJJAT FEEDS NOTE 3. PP"7h-h (ALSO FED FROJJ Sl-l) US-PP-A NON-ESS h RECIRC FLOM CONTROL (h) CH NONE, HOMEVER LOSS OF BUS REQUIRES TRANSFER" ROD BI.OCK RING TO Cl ALTERNATE PATll RJJCS CONTROL (B) CN INITIATED US-PP NON-ESS h TURBINE, DEH CONTROL CKT (G) LOSS OF VOLTAGE UNABLE TO COOLDOMN BY BLEEDING JJS, BYPASS VAEVE CONT (K) END ON BOARD-C. STEAJJ, NJST TRANSFER TO Al FEED TO US-PP-A N LOSS OF DIGITAL OR A2 CONTROL DP-S1-1h ESS-lE 1 RPS BACKlJP SCRAH VALVE (C) C) P601 RCIC PMR FAII.URE NOTE 1. RECIRC PlNP TRIP CKT (C) A1 LIGllT,RIlR LOGIC h PMR RCEC CONTROL (N) Al FAILURE ANN. SRV CONTROL (0) A1 LPCS/RIIR h PMR FAILURE RllR CONTROL (JJ) LIGJJT RllR/LPCS OlJT OF SERV.'NN. RCEC DIV 1 OUT OF SERV. ANN. 13-0178 (4) PROJRC' MHPP-2 COLD SIIUTINWN POWER ANALYSIS APPENDIX 'h'HEET'5 0 ANN. TRIP OR POWER ESSENTIALITY PATH LOSS OF CNTL. AFFECT ON CONTINUING IN BUS NIWBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SHUTDOWN HODR DP-Sl"1D ESS-1E 1 SSW-CONTROL (H) hl CB"SSM-lh OUT OF NOTE 1 RIIR CONTROL (H) SERV. RCIC CONTROL (N) SSW h OUT OF SERVICE CB-RIIR 2h OUT OF SERV. LIGllT RNR A/LPCS OUT OF SERV. ANN. P601 MOV NEDSRK PWR LOSS LIGIIT RCIC DIV 1 OUT OF SERV. ANN. LOSS OF P601 RCIC VALVE AND PUMP IND LIGHTS ADS h/C PWR FAILURE LIGIIT ADS h/C OllT OF SERV. ANN. P601 LOSS OF ADS VALVE IND LIGHTS HC-Sl"1D ESS"lE 1 RCIC HOVS (N) hl NOTE 6. NOTE 1. P601 HOV NETWORK PWR LOSS LIGHT RCIC DIV. 1 OUT OF SERV. ANN. LOSS OF P601 RCIC VALVE AND PUHP IND. LIGHTS Sl-1 ESS" 1E 1 FEED TO TIIE PRIOR 3 PANELS UNDERVOLTAGE ANN. NOTE 3. DP-Sl-lh, DP-Sl-lD).HC-Sl-lD HC-S2" lh ESS" 1E 1 RCIC-HOVS (N) RIIR-HOVS (L) hl NOTE 6. 'OTE 2. HC-82"18 NON-ESS A TG EMERG. OIL PUMPS (G) NOTE 6. NONE. l3-0178 (5) PR03 1 MJJPP-2 COLD SJSSOWN PO 0 ANALYSIS hPPENDIX 'A'HEET 6 6 AJJN. TRIP OR POMER ESSENTIALITY PATJJ LOSS OF CNTL. AFFECT ON CONTINUING IN BUS NUHBER CODE DIV AFFECTED DEVICES CODE SIGNAL - EXISTING SIJUTDOWN HODR S2-1 ESS-lE 1 FEED TO PRIOR 2 HCCS lJNDERVOLTAGE ANN. NOTE 3. HC"S2-lh, HC"S2-lB 6 IN-1 HC-7h-h ESS-lE 1 PRA"FN-IA, (H) hl PRA-FN-lh PMR LOSS NOTE l. SSM h OUT OF SERVICE "STDBY"SM-h SUPV SYST TROUBLE" NOTE 6 PP-7h-G RSS-lE SW-SUPV CONSOL (H) hl SUPV SYS TROUBLE NOTE 1. SM-SPV (H) SSW h 01K"OF-SERVICE "STDBY SM "h" SUPV SYST TROUBLE" HC-7A ESS-lE 1 SSM-HOV (H) ~ xi NOTE 1. CASs AIR COHP (-) "SSM h OUT-OF-SERVICE TSMs SV (-) "HOV NETMORK PQR FEED TO HC-7h-h, PP-7h-a LOSS/OL" PP 7hi S2 1) Sl 1 ~ IN 1 NOTE 6 O/L TRIP ANN. SL"73 ESS"lE 1 FEED TO PRIOR HCC-HC-7h BKR TRIP ANN NOTE 1. SH"75 NON-ESS h TSM, PUMP (G) BKR TRIP ANN. NONE. SH-7 ESS-1E 1 R)JR PUHP 'h'H) hl SH7 BUS TRIP AND NOTE 4. SSW PUHP 'h'H) UNDERVOLTAGE ANN. CRD PUHP 'h'B) CN SH-B UNDERVOLTAGE 'TRANSFER TO Cl AND h2 FEED TO IOAD CENTERS SL-71/ ANN. SL-73 AND SH"75 ESS-lE A CM. PUHP (Jl) N UNDERVOLTAGE NOTE 4. COND PUHP (F) BKR TRIP hNN. TRANSFER TO hl OR h2 COJJD. BOOSTER PIMP (F) BKR TRIP ANN. IFliG HTR 'h'A) CN FEED TO SMITCH GEAR SH"7/SL-ll NOTE 3.13-017S (6) PROJ  ! QNPP-2 COLD Sill)TDOMN PO ANALYSIS hPPENDIX h ., S)JERT 7 ANN. TRIP OR POMER ESSENTIALITY PATll LOSS OF CNTL. AFFECT ON CONTINllING IN BUS NUHBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SIIUTDOMN HODR PP-4A ESS-lE 3 SSM-SUPV CONTROL (R) h2 F601 LOSS OF VALVE NOTE l. llPCS CONTROL (R) POSITION LIG)lTS GEN 6 ENG ESS-lE 3 NPCS CONTROL (R) h2 LOSS OF GRN. NONE. AUX PANEL INDICATORS. HC-4A ESS-lE 3 ))PCS-SM PUHP (R) NOTE 6 NOTE l. l)PCS HOVS (R) P601 LOSS OF VALVE RRA-IlVAC (R) POSITION LIG))TS FEED TO PP4h AND GEN. AUX. "llPCS SM OUT-OF-SER-PNL. VICE" "))PCS OUT-OF-SERVICE" "llPCS PlMP ROOH ))VAC OUT-OF-SERVICE" "))PCS PlJHP RH"6 RRA-FC-4 TRIP" SM-4 ESS-lE 3 llPCS PUHP (R) h2 TWO BKR TRIP NOTE l. FEED TO HC-4A ANN. PP-2RA"B NON-ESS B BS~ NRVsS (E) NOTE 6 NONE. HS, TCVS (K) EXTR STH VALVE (E) HC-2R-h NON"ESS B COND. HOVS (F) N NOTE 6 NON, ALL MOVS FAIL AS IS. FEED TO PP-2RA-B ~0 PP-2R-B NON-ESS B RECIRC CONTROL (h) SYS B DRSKLL 1)IGH HUST TRANSFER TO Cl PRESS INTLK. FLOM CONTROL VALVE ALTERNATE PATH B ))YD PWR UNIT STARTUP INlllBITED HC-2R NON-ESS B AR HOV (F) 0/L TRIP TRANSFER TO Cl COND HOVS (F) NOTE 6 H.S. HOVS (K) EEED TO PP-2R-B AND HC-2R-h NOTE 6 13-01l'8 (1) PROD i ~ QHPP 2 COLD SllUIOMH PO ANALYSIS APPENDIX hi SllEET 8 AHH. TRIP OR POWER ESSENTIALITY PATH LOSS OF C}lTL. AFFECT ON COHTINUING IN BUS NUMBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SllUTDOMN HODR PP-2P-A HON-ESS B . AR-SPV'S (F) N HOTE 6 LOSS OF RFP-B HAY RESULT IN M.S. VLV (X) HEED TO SHIFT TO ALTERNATE RFM-TURBINE CONTROL (J) PATll hl OR h2 COND-FCV (F) TSM-TCV fOR RFPT-1B (J) HC-2P NON-ESS B CASo AIR COMPRESSORS Er VLV (") H 0/L TRIP ANH. OT11ER COMP- OPERABIS. LOSS FEED'MATER PUMP TURNIHG GEAR 6 OF 1 PUMP HAS No EFFECT. MOVS HOVS (J) FAIL AS IS. No TRAHSFER CIRC MATER MOVS (H) REQUIRED FEED TO PP-2P-h HC-29 HON"ESS B AR-EX (F) N 0/L TRIP ANH. AND NONE. CIRC MATER HOVS (H) NoTE 6.. COND. HOVS (F) RFM HOVS (J) M.s. Movs (x) a (F) HC-2C HOH-ESS B H.S. HOVS (K) H 0/L TRIP ANH. HONE. COND. HOVS (F) NOTE 6 RFW MOVS (J) TG-Ellp (G) HC-2B NOH-ESS B COND. HOVS (F) N NOTE 6 NONE. 0/L TRIP ANH. SL-21 HOH-ESS B FEED TO MC-2R, HC-2P, MC-2D, -, TMO BKR TRIP LOSS OF RFP B HAY RESULT IN HC-2C AND MC-2a. NEED TO SlllFT TO ALTERNATE PATil h1 OR A2 SH-2 HON-ESS B COND. PUMP 'B'F) H TMO BKR TRIP UNDER- TRANSFER TO hl OR h2 COND. BOOSTER PUMP (F) VOLTAGE C.M. PUMP (ll) FEED To SM-4 AND SL-21 HC-8C-B HON-ESS B HAI}1$TEAH-MOVS (K) N . NOTE 6 NOllE. 13-0178 (8) PRO  : MllPP-2 COLD SHUTDOMN POMEh ANALYSIS APPENDIX h SHEET 9 ANN. TRIP OR POMER ESSENTIALITY PATll LOSS OF CNTL. AFFECT ON CONTINUING IN BUS NUHBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SIIUTDOMN HODR PP-Sh"Z NON-ESS B SLCS ALARHS AND C2 RFT B TRIP ANN. DIV. h ALTERNATE RFM PUHP AND INDICATORS (D) BOND H LOSS OF FANS VALVE CONTROLS IS USED. RFM TURBINE B TRIP (J) STATUS LIGllTS TURBINE VALVES (G) BOARD B LOSS OF VALVE CM, FANS HOV-CONTROL (ll) POSITION IND. PP-Sh-C-h NON-ESS B TSM HOV (G) N NOTE 6. NONE. PP-ah-C NON-ESS B TSM-HOV (G) N NOTE 6. NONE. HC-SC NON"ESS B RECIRC NPU 8 HOV (h) CN 0/L TRIP ANN. TRANSFER TO ALTERNATE PATH Cl HAY NOT BE NEEDED. RFM, HOV (J) FEED TO HC>>BC-B, PP-Bh-C) NOTE 6 PP"Sh-Z AND PP-.SA-C-h HC-SB"B ESS-1E RllR HOVS (Q) h2 P6OI LOSS OF VALVES SYSTEH PREPARATION FOR N POSITION IND. PATH. NO TRANSFER REQllIRED. h2 ARE 'B'ALVE. ALTER-NATE SllUTDOWN PATH IS VIh 'h'ALVES. HC-SB-A ESS-1E 2 RllR HOVS (L)e (Q) AND (T) h2 RCIC DIV. 2 OUT OF USE lIPCS THEN TRANSFER SSM-HOV (Q) (N) SERV. ANN. TO A1 RCIC HOVS (N) h1 NOTE 6 HOV NETMORK PMR LOSS/OL. RllR B/C OUT OF SERV. ANN. "RllR 2B/C PUHP ROOM OUT-OF-SERVICE"13-017 B (9) PRO JE: MNPP-2 COLD SuuiDOW POA ANhLYSIS APPENDIX 'h'IIEET 1 ANN. TRIP OR POMER ESSENTIALITY PATll LOSS OF CNTL. AFFECT ON CONTINUING IN ~ BUS NUHBER COBE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SllUTDOMN HODR HC-SB ESS"1E 2 SI.CS PUHP AND HOVS (D) C2 0/L TRIP ANN. USE HPCS, TllEN TRANSFER TO RRA-lIVAC (Q) (N) hl h2 "RCIC PUMP RH-3 hl FEED TO HC-SB-B 8 HC-SB-h RRA"FC-6 TRIP" NOTE 3. RCIC PUHP RH HVAC OUT-OF-SERVICE "RCIC DIV 2 OUT" OF"SERVICE" "RlfR PUHP'RH-I/4 RRA-FC"3/1 TRIP" "RlOt B/C PUHP RH llVAC OUT-OF-SERVICE" SL-Sl ESS-1E 2 FEED TO HCC'S HC-SC/HC-SB BKR TRIP ANN. DP-Sl-2D ESS-1E 2 RllR CONTROL (Q) CB-RHR 2B OUT OF SERV. USE.llPCS THEN TRANSFER BACK TO LIGHT hl SSM-CONTROL (Q) (N) if A2 CB-$ 1R 2C LIGllT OUT OF SERV. RllR B/C OUT OF SERV. ANN. CB-SM1B OUT OF SERV. CB-SSM-B OUT OF SERV. DP-Sl-2h ESS-lE 2 RCIC CONTROL (N) Al LOSS OF RllR NOTE 1 AND 2. LOGIC ALARH RPS CONTROL (C) Cl B/C LOGIC PMR FAILURE LIGllT. SRV CONTROL (S) h2 RCIC DIV. 2 OUT OF SERV. ANN. RllR CONTROL (Q) h2 RllR B/C OUT OF SERV. ANN. HC-S 1 "2D ESS-1E 2 RCIC-HOV (N) hl P601 HOV NETWORK NONE. PMR LOSS LIGHT. RCIC DIV. 1 OUT OF SERV. ANN. 13-0178 (10) PROJECT: MHPP-2 COLD SllmDOMH POMER BUS ANhLYSIS hPPEHDIX 'h'llEET 11 16 ANN. TRIP OR POMER ESSENTIALITY PATll LOSS OF CNTI,. AFFECT ON CONTINUIHG IN BUS NUMBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SJOJTDOMN MODE Sl"2 ESS-lE 2 FEED TO MC-Sl"2D, DP"Sl-29 lJHDERVOLTAGE hNH. HOTE 3. AND DP-Sl-2A PP-SA-h'SS-lE 2 SLCS INDICATION (D) C2 POTENTIAL TRANSFER TO hLTER-NATE llEAT REMOVAL PATll. RPS INDICATION (C) Cl AIR REMOVAL CONTROL (K) EXTRACT. STEAM PT (E) RFM, FT (J) PP-Sh-F ESS-lE 2 SM-SUPV CONTROL (Q) (N) hl SSM B USE HPCS TIJEN TRANSFER BACK TO SUPV SYSTEM TROUBLE hl IHD. h2 SSM B OUT-OF"SERV. IND. "SSMPP HOUSE B PRA-FN-lB LOM FLOM" PP-SA ESS-lE 2 FEED TO PP-Sh-F AND IHVERTER NOTE TO PP-Sh-h 2.'OSS C72-POOl ESS"1E B RllR COHTROL (Q) (L) H REACTOR I/2 SCRAM OF RPS Cl PATll CREATES BUS B AND ANNUNCIATION FAIL SAFE CONDITION. RPS CONTROL (C) Cl TRANSFER TO hl OR A2 PP-Sh-2C-h NOH-ESS B CONDENSATE VALVE (F) N NONE. MC-Sh-2C NON-ESS B FEED TO PANEL PP"Sh-2C-h NONE. PP-Sh-G ESS-lE 2 SM-SUPV CONTROL (Q) (N) hl h2 "STDBY SM-"B"-SUPV USE HPCS OR RCIC TlfEN TRANSFER SYST TROUBLE TO hl OR N SM-SPV (Q) (N) Al A2 SSM B OUT-OF-SERV. PROJ  : MHPP"2 COLD SIIUTDOMN POMR ANALYSIS APPENDIX h SIIRET 12 6 ANH. TRIP OR POWER ESSENTIALITY PATIf LOSS OF CNTL. AFFECT ON CONTINUING IH ~ BUS NUMBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING fillUTDOWN HODR HC" SA-h ESS-1E 2 PRA-SM HVAC (Q) (N) Al h2 PRA"FH"1B PMR LOSS. USE HPCS OR RCIC THEN TRAHSFER SSM B OUT OF SERVICE. TO hl OR N h2 HC-SA ESS-1E 2 TSW, SV (-) HOV NETWORK PMR USE HPCS TllRN TRANSFER TO CAS, AIR COHP. 1B (") LOSS/OL. hl SSM HOV (Q) (N) hl h2 SSM B OUT-OF-SERV. FEED TO PP-SA) HC-Sh-2C) IND. HOTE 3 PP-SA-G, AHD HC-SA"A 0/L TRIP AHH. SL-83 ESS"lE- 2 FEED TO PRIOR PANEL BKR TRIP ANH. HOTE 3. SM-SS NON-ESS B ZSM, PUMP (G) BKR TRIP ANH. HONE, BACK"UP BY OTHER PUMP. SM-8 ESS"IE 2 RNR PUMPS 2B, 2C (Q) h2 TMO BXR TRIP AHD NOTE 4. UHDERVOLTAGE ANN. NOTE 3. CRD PUMP 1B (B) CN FEED TO Sl-Sl) SL-83 S SM-SS SSM PUHP 1B PP-38-B NON-RSS h RECIRC CONTROL (h) CN SYS h HIGH DRYMRLL POTENTIAL REACTOR SCRAM. PRESS INTLK IND. FLOW CONTROL VALVE h Ilm PMR UNIT STARTUP INIIIBIT VALVE A SERVO AHP INPUT CHTL SIGNAL ABNORHAL HC-3B NOH-RSS h M.S. HOVS (K) 0/L TRIP ANN. HOT ABLE TO USE H PATH MUST T.G. TURNIHG GEAR (G) GO TO ALTERNATE SNUIOMH AR HOVS (F) FEED TO PP-3B-B NOTE 6 HC-3C HOH-ESS h CIRC. MATER HOVS (Il) 0/L TRIP ANN NONE. HS HOVS (K) CONDENSATE MOVS (F) NOTE 6 13-017S (12) PROJECT: WNPP-2 COLD SllUTDOWN POWER ANALYSIS APPENDIX 'h'lEET 13 6. ANN. TRIP OR POWER ESSENTIALITY PATH MSS OF CNTL. AFfECT ON CONTINUING IN BUS NUMBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING filfUTDOWN MODE PP-3A-A NON"ESS h TSW, MD CONTROL (G) N 0/L TRIP ANN. TRANSFER TO hl OR h2 EXTRACTION STH. VALVES (E) HSR-TCV (K) NOTE 6 HC"3A NON-ESS A COND. MOVS (F) N 0/L TRIP ANN. TRANSFER TO hl OR A2 FEED TO PP"3A-h SL-31 NON-ESS A FEED TO HC 3hi MC 3Bi HC 3C TWO BKR TRIP NOTE 5. SH-3 NON-ESS h COND. PUMPS 1C AND 2C (F) H TWO BKR TRIP UNDER- TRANSFER TO ALTERNATE SHUTDOWN CIRC WATER PUHP 1C (ll) N VOLTAGE ANNUNCIATION IS NECESSARY. LFHG MOTOR 'B'h) CH LFHG 'A'S BACKUP. FEED TO SH-8 AND SL-31 NOTE 5. HC-6L NOH-ESS B CIRC WATER FANS (u) N HIGll VIBRATION NONE. 0/L TRIP ANN. HC-6N NON"ESS B CIRC. WFR HOVS (H) FAIL AS IS. HO TRANSFER REQUIRED. HC-6H NON-ESS B CIRC. WTR FANS (H) N MIGll VIBRATION NONE. 0/L TRIP ANN. SL-61 NON-ESS B FEED TO MC-6N/6L 6 6M BKR TRIP ANN. NOTE 5 DP-Sl"1C-1 NOH-ESS h TURBINE CONTROLS ROPE ASOBP N NOTE 6 NONE. (G) OIL PUHPS RFW TURB. PUHP (J) H 0/L IND. DP-Sl-1C NON"ESS A RECIRC CONTROL (h) CN RECIRC LFHG B TRANSFER TO hl OR h2 TRANSFER DISABLED RFW PUHP (J) N NOTE 6 COND. CONTROL (F) FEED TO DP"S1-1C"1 DP"Sl"2C-2 NON-ESS B STEAH BYPASS CONTROL (G) N NONE ALTERNATE PATH hl OR h2 13-01IB (13) PRO . WPP-2 COLD SlBJTDOMN POME ANALYSIS APPENDIX 'h'llEET 14 6 ANN. TRIP OR POMER ESSENTIALITY PATll LOSS OF CNTL. AFFECT ON CONTINUING IN BUS NU}SER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SllUTDOWN MODE DP-Sl-2C NON-ESS B RECIRC CONTROL (h) CN RECIRC LFMG h ALTERNATE PATH hl OR h2 TRANSFER DISABLED COND. CONTROL (F) H NOTE 6. VOLTAGE REGULATOR CONTROL (G) H DEll CONTROL REG. RFM PUMP (J) N REG. SUPPLY BKR OPEN FEED TO DP-Sl-2C"2 N DP-Sl-1B NON-ESS A COND. RELAYS (F) TRANSFER TO hl OR A2 LOSS OF CONDENSER VACUUM Sl"7 NOH-ESS FEED TO PRIOR 5 BUSSES UNDERVOLTAGE ANN. NOTE 4. MC-6B NON-ESS B FEED TO INVERTER Cl-7 0/L TRIP ANN. HONE. FEEDING Sl"7 (PRIOR 5 BUSSES) SL" 63 NON-ESS B FEED TO MC-6B BKR TRIP ANN. NOTE 3. Me-6P NON"ESS B CIRC. MIR FANS (H) N llIGll VIBRATIOH OTHER HALF MILL CONTROL FROM 0/L TRIP ANH. 'h'USSES BELOM. MC-6Q NON-ESS B CIRC. MN - FANS (ll) H HIGH VIBRATION OTHER HALF MILL CONTROL FROM 0/L TRIP ANN. 'h'USSES BELOM LP-6R"A NON-ESS B CIRC. MIR CONTROL (H) N NOTE 6 OTllER HALF MILL COHIOL FROM 'A'USSES BELOM MC-6R NON-ESS B CIRC. MIR MOVS (H) N BKR TRIP ANN. OT}lER llhLF MILL CONTROL FROM FEEDS LP-6R-h 'h'USSES BELOM SL-62 NON-ESS B FEED TO MC-6R/6P 6 /Q BKR TRIP ANN. OTHER HALF MILL CONTROL FROM 'A'USSES BELOM SH-6 NON-ESS B. FEED TO SL-61/SL"63 6i SL-62 - TMO BKR TRIP OTHER llhLF MILL CONTROL FROM 'h'USSES BELOM 13-0178 (14) A PROJECT: MHPP-2 COLD SllU'fOOMN POWER AHALYSIS hPPENDIX 'h'llEET 15 ANN. TRIP OR POWER ESSEHTIALITY PATil LOSS OF CNTL. AFFECT ON CONTINUING IN BUS HUHBER COM DIV AFFECTED DEVICES CODE SIGNAL EXISTING SIIUHNWH HODE HC-5N NON-ESS h CIRC. MATER HOVS (H) N 0/L TRIP AHN. FAILS AS IS. NO TRANSFER REQUIRED. OTllER BUS DIVISION IS SUFFICIENT TO COHTROL CIRC. MATER. HC"5L NON-ESS A CIRC. MATER FANS (ll) H HIGll VIBRATION FAILS AS IS. NO TRANSFER 0/L TRIP AHN. REQUIRED. OTllER BUS DIVISION NOTE 6 IS SUFFICIENT TO CONTROL CIRC. MATER. HC-5H HON-ESS h CIRC. MATER FANS (ll) N HIGH VIBRATION FAILS AS IS. NO TRAHSFER 0/L TRlP ANN. REQUIRED. OTllER BUS DIVISION NOTE 6 IS SUFFICIEHT TO CONTROL CIRC. MATER. SL-51 NON-ESS A FEED TO HC-5N/5L Es 5H BKR TRIP AHH. FAILS AS IS. NO TRANSFER REQUIRED. OTllER BUS DIVISION IS SUFFICIENT TO CONTROL CiRC. MATER. IP-5R-h NOH-ESS h CIRC. MATER CONTROL (ll) H NOTE 6 FAILS AS IS. NO TRANSFER REQUIRED. OTllER BUS DIVISION IS SUFFICIENT TO CONTROL CIRC. MATER. HC-5R NON-ESS A CIRC. MATER HOVS (ll) H BKR TRIP ANN. FAILS AS IS. NO TRANSFER REQUIRED. OTllER BUS DlVISIOH IS SUFFICIENT TO CONTROL CIRC. MATER. HC-SQ NOH-ESS A CIRC. MATER FANS Ol) H llIGH VIBRATION Fh'ILS AS IS. NO TRANSFER 0/L TRIP AHN. REQUIRED. OTllER BUS DIVISION IS SUFFICIENT TO CONTROL CIRC. MATER.13-017S (15) PROJE: MNPP-2 COLD SJHJTDOWH POME S ANALYSIS APPENDIX 'h'llEET 16 6 ANN. TRIP OR POMER ESSENTIALITY PATH LOSS OF CNTL. AFFECT ON CONTINUING IH BUS NUMBER CODE DIV AFFECTED DEVICES CODE SIGNAL EXISTING SHUTDOWN MODE MC-5P NON-ESS A CIRC. MATER FANS (Jo H )lIGll VIBRATION FAILS AS IS. HO TRAHSFER 0/L TRIP AHN. REQUIRED. OTJJER BUS DIVISION IS SUFFICIENT TO CONTROL CIRC. MATER. SL"52 NON-ESS h FEED TO MC-5Q/R 6 P BXR TRIP Aint. FAILS AS IS. NO TRANSFER REQUIRED. CrllER BUS DIVISION IS SlJFFICIEHT TO CONTROL CIRC. MATER. SH-5 NON-ESS h FEED TO SL-51) SL-52 TMO BKR TRIP FAILS AS IS. NO TRANSFER REQUIRED. OTllER BUS DIVISION IS SUFFICIENT TO COHTROL CIRC. MATER. 13-0178 (16) 'I ~>aP w ~' ~ ~ ~ 1 ~LCM3Ãl 2 APPENDIX B WPPSS NUCLEAR PLANT NU?GER 2 (WNPP-2 COLD SHlJTDOWN SYSTEM DEVICE TABLE NOTES:

  • 1) NOTES, AS DESCRIBED UNDER THE HEADING ~~ALARM POINT", COULD CONSIST OF ANNUNCIATOR ALOES OR ANY OTHER QSICATIONS OF POWER FAIlURE SUCH AS lOSS OF MULTIPLE POSITION INDICATOR LAMPS, ETC.
2) THE LOSS OF POSITION INDICATION LAMPS FOR SEVEfQL MOVS OR DEVICES IS INDICATIVE OF A POWER BUS FAIIURE. UPON FAIIURE OF ONE SET OF INDICATION LlQPS, h REVIE'W OF ADJACENT (IDENTIFIED) LAMPS WILL INDICATE POWER FAIIURE OF THE RESPECTIVE BUS.
3) OTHER DEVICES WITH INDICATION LAMPS ARE POWERED FROM THE SAME BUS AS THIS

~ ONE. VERIFY THE MATCHING GROUP OF DEVICES FROM THIS POWER BUS TO DETER-HBK THE PORYR LOSS. (NOTE 3 WILL ALWAYS HAVE A MATCHING GROUP REFERENCE, E.G. GROUP M, P, A, ETC. ) 13 0286 1 QHPP-2 COLD SllUTDOllN SYSTEMS - RECIRC FI.OM CONTROL APPENDIX B CROUP h SllEET I OF BUS BUS DEVICE DEVICE PRIHARY PRIHARY NUHRER DEU NUHDER DESCRIPTIOH EFFECT OH DEVICE EPPECT ON SYSTEM hLARH POINT DP-Sl-1C h I FMG IIAII CONTROL VOLTAGE TO INABILITYTO OPERATE TOThL LOSS OF "h" OR 1) RECIRC PUMP h LOW MOTOR BKR MOTOR BKR & RELAY LFMG "B" RECIRC CONTROL SPEED AUTO TRANSFER CONTROL CIRCUIT NOT AVAIL-125 VDC ABLE DP-Sl-2C B LFHG "B" CONTROL VOLTAGE TO INABILITYTO OPERATE TOTAL LOSS OF "h" OR 1) RECIRC PUMP B LOU HOTOR BKR & RELAY LFHG BII RECIRC CONTROL SPEED AUTO TRANSFER CIRCUIT NOT AVAIL-ABLE SM-1 h B35-SOOlh LFHG SET MOTOR DRIVE INABILITYTO OPERATE TOTAL LOSS OP "A" OR UNDER VOLTAGE ANNUllCI-LFMC "B" RECIRC CONTROL ATION SH-3 h B35-S001B LPHG SET HOTOR DRIVE INABILITYTO OPERATE TOTAL LOSS OP "h" OR UNDER VOLTAGE hHHUNCI-LFHG "B" RECIRC CONTROL ATIOH PP-7A-Z h 813-P 634 I,OOP h AND B PLOM INABILITYTO COHTROL LOSS OF RECIRCULATION I) "HASTER CONTROLLER lll3-P612 CHTL & HYDRAULIC RECIRC FLOM FLOM'ONTROL OUTPUT SIGNAL POMER UNIT. ABNORMAL" HASTER FLUX CHTL 2) PLUX CONTROLLER OUTPUT SIGNAL ABNORHAL US-PP-A A N13-F602 PLUX ESTIMATOR INDI- LOSS OP INDICATION LOSS OP RECIRCULATION LOSS OP SEVERAL NSSS CATORS PLOQ CONTROL SYSTEHS INCLUDING POMER RANGE FLUX MOH ITORING PP-3B-B A LFMG "h" LOSS OF VOLTAGE LOSS OF VOLTAGE CANNOT OPERATE LPHG ShME 3 POINTS AS VOLT. REG. REGULATOR CONTROL Ilhll PP-2R-B ONLY FOR VALVE A 13-0187 (1) MNPP-2 COLD SHUTDOWN SYSTEMS >> RECIRC Pf.OM CONTROL APPENDIX 'B~ CROUP h SHEET 2 OP BUS BUS DEVICE DEVICE PRIMARY PRIMARY HHHBER DIV HHHBER DESCRIPTION EFFECT ON DEVICE EPPECT ON SYSTEM ALARM POINT'P-2R-B B LFMG nBn LOSS OP VOLTACE LOSS OF VOLTAGE CANNOT OPERATE LPMG 1) nSYST B DRYMELL VOLT. REC. REGULATOR El BIB HIGH PRESS IHTLK

2) nFLOM CONTROL VALVE B HYD PWR UNIT START-UP INHIBITEDn
3) nVALVE B SERVO AMP INPUT CONTROL SIGNAL ABNORMALn PP-2R-B B IJYDRAULIC POMER UNIT LOSS OP CONTROL PMR 1) nSYS B DRYMELL HICH FOR RECIRC FLOM PRESS'NTLKn
2) nPLOM CONTROL VALVE PB HYD PMR UNIT STARTUP INlllBITEDn
3) nVALVE a SEKVO m INPUT CONTROL SIGNAL ABNORMALn B

LFMG nhn OlJTPUT LOSS OP LPMC SET nhn I SH-13 h LP2h LOSS OP 15 HZ RECIRC UHDER VOLTACE AND l (SM-1) BREAKER PUMP nhn OPERATION BREAKER TRIP ANNUNCI-ATION SH-14 B LP2B LFMQ nBn OUTPUT LOSS OF LPMC SET nln LOSS OP 15 HZ REC'IRC UNDER VOLTAGE AND (SM-3) BREAKER PIJMP nBn OPERATION BREAKER TRIP ANNUNCI-ATION MC-7C h PLOW CONT, HYDRAULIC POWER MUST LOSE BOTH MC-7C NONE, UNLESS ONE LOOP PLOW CONTROL VALVE h HYD PMR UNIT FOR RECIRC AND MC-BC TO LOSE ALREADY DOWH (SEE HYD POWER lJHIT START-UP UHIT FLOM CONTROL VALVE IIYD POWER UHITS MC-BC BELOM) INHIBIT RRC-V-67h RECIRC PUMP P DISH MOV VALVE PAILS AS REQUIRED TO BE SHUT LOSS OP VALVE POSITION VALVE IS FOR RHR/SD COOLINQ IHD. ON P602 MC-BC B PLOM CONT. HYDRAULIC POWER MUST LOSE BOTH MC-7C NONE, UNLESS ONE FLOM CONTROL VALVE B HYD POMER UNIT POR RECIRC AND MC-BC TO LOSE LOOP ALREADY DOWN HYD POMER START-UP UNIT FLOM CONTROl. VALVE HYD POWER UNITS INHIBIT 13-0187 (2) MHPP-2 COLD SllUTDOMN SYSTEMS <<RX MAH CHTL 6 CRD APPENDIX ~B~ GROUP B SHORT 3 OF BUS BUS DEVICE DEVICE PRIMARY PRIMARY NUBBER SM-7 DIV 1 N HEBER CRD-P-lh DESCRIPTION CRD PUMP "h" "B" EFFECT ON DEVICE STOPS PUMPING EFFECT OH SYSTEM ') LOSS OF RMCRD CONTROL IF OTHER PUMP IS INOPERABLE hLARM POIHT

1) BUS SM-7 UV AHHUN.

CB CRD-lh TRIP ANNUNC, SM-8 2 CRD-P-1B CRD PlMP STOPS PUMPING LOSS OF RMCRD CONTROl. 1) BUS SM-8 UV AHHUN, IF OTllER PUMP IS 2) CB CRD-1B TRIP INOPERABLE hNNUNC, US-PP-h h 120 VAC ROD SELECT LOGIC LOSS OF INDIVIDUAL ROD BLOCK SEE US-PP-h UNDER DISPLAY LOGIC ROD CONTROL CROUP h PP>>7A-A 1 120 VAC ROD POSITION LOSS OF IHDIVIDUhL ROD BLOCK LOS"> OF VOLTAGE IHD. IHDICATION CONTROL ROD COHTROL FOR PP-7h-h OH BD-C I** ~ r 2 I 13-0187 (3) MHPP-2 COLD SIIUTDOMH SYSTEHS - RPS SCRAH APPENDIX 'h'ROUP C SIIEET 4 OR BUS BUS DEVICE DEVICE PRIHARY PRIHARY NBNBRR DIN NIMIIRR DESCRIPTION EPFECT ON DEVICE EPFECT ON SYSTEM ALARM POINT C72-P001 C72-1070 SAPETY SYSTEMS SCRAH SCRAM SOLEHOIDS PhIL CONTROL RODS FULL hLL SCRAM ANNUNCIATION BACKUP TO CIIAHHELS & SCRAH OPEN (H.C.) IHSERT (SCRAM) TO MC SETS SOLENOIDS PP-SA-A 2 C72-1070 FEEDER TO SCRAM NO VALVE POSITION LOSS OP VALVE POSIT, DISCIIARGE VOLUME INDICATION VALVES IND. ON P603 POR TIIESE POS. IHDICATOR C12-F010 & C12-F011 VALVES LICIITS DP-S1>>1A 1 C72-1070 TRIP SYSTEM "h" DISABLES BACKUP SCRAH NO SCRAH BACKUP NONE BACKUP SCRAM VALVE, PllOA VALVE C12-P110h RECIRC PUMP TRIP "h" DISABLES RECIRC PUMP NO RPT RECIRC PUHP TRIP CIRCUIT "h" TRIP DP-Sl-2A 2 C72-1070 TRIP SYSTEM "B" DISABLES BACKUP SCRAM NO SCRAH BACKUP BACKUP SCRAH VALVE P110B VALVE C12-P110B RECIRC PUMP TRIP "B" DISABLES RECIRC PUMP NO RPT RECIRC PUHP "B" TRIP CIRCUIT TRIP MG SET h C72-1070 ALL OTHER RPS FAIL SAFE DE-ENERCI- REACTOR SCRAH ALL SCRAH. ANNUN. CIRCUITRY ZATION OP CIRCUITS 13-0187 (4) lSPP-2 COLD SllUTDOWN SYSTEMS << STANDBY LIQUID CONTROL hPPENDIX B CROUP D SllEET 5 0 ~ ~ BUS BUS DEVICE DEVICE PRIMARY PRIMARY NIINBER DIE IIBNBER DESCRIPTIOH EPFECT OH DEVICE EFFECT ON SYSTEM ALARM POINT MC-7B 1 C41-COOlh SLC PUMP h SLC PlJMP INOPERABLE NO LOOP h PLOW 1) E'SLC-P-lh PWR LOSS<< LIGHT

2) <<SLC DIV 1 OUT OP SERVICE AHNlJH.

C41-P004h SLC SQUIB VALVE SQUIB VALVE DIShBLED NO LOOP h PLOW 1) <<SLC-V-4h PWR LOSS" (HC) LIGHT

2) <<SLC DIV 1 OUT OP SERVICE<< AHNUN
3) LOSS OP SThTUS LIGHT ON P603 C41-POOlh SL MOV STORAGE TANK MOV PAILS hS IS (NC) NO LOOP h PLOW 1) <<SLC-V-lh PWR LOSS/

OUTLET LOOP h OL LIGllT

2) <<SLC DIV 1 OIJT OP SERVICERE ANHUN.
3) LOSS OP POS ~ IND.

OH P603 MC-SB 2 C41-C001B SLC PUMP B SLC PUMP INOPERABLE NO LOOP B PLOW 1) <<SLC-P-1B PWR LOSS" LIGHT

2) <<SLC DIV 2 OUT OP RE.l

.I SERVICE ANNUN. C41-F004B SLC SQUIB VALVE SQUIB VhLVE DIShBLED 1) <<SLC-V-4B PWR LOSSE'IGHT (NC)

2) <<SLC DIV 2 OA OP SERVICE
3) LOSS OP.SThTUS LIGHT ON P603 C41-F0018 SLC MDV STORAGE TANK MOV FAILS AS IS (HC) 1) <<SI.C-V-lB PWR OUTLET LOOP B LOSS/OL<< LICllT
2) <<SLC DIV 2 OUT OP SERVICE" ANHUN
3) LOSS OP POS. IND.

ON P603 >a-nJJJ7- (5) WNPP-2 COLD SHUTDOWN SYSTEMS ' STANDBY LIQUID CONTROL APPEl}DIX GROUP D SHEET 6 OF 66 'B'RIMARY BUS BUS DEVICE DEVICE PRIMARY lllJEBER DEB BIDIBER DESCRIPTION EFFFCT ON DEVICE EFFECT ON SYSTEM ALARM POINT PP-8A-A 2 H13-P601 SQUIB VALVE READY LOSS OF SOUIB VALVE NONE. NOTE 2 LIG}lTS POS. SWITCIIES READY LIGHT ON P603 FOR SLC-V-8 AND LOSS OF POS. IND. FOR SLC-V-31 SLC-V-8 AND SLC-V-31 PP-8A-Z B H13-P613 'hNK LVL ALARM, TANK LOSS OP INDICATIONS NONE. I) "TANK LEVEL HI/LOEB LVL l} PUMP PRESSURE ON P603 ANNUM. INDICATION NOTE 2. 13-nl87 (6) MHPP-2 COLD SIIUTDOMH SYSTEMS - EXTRACTIOH STEAM APPENDIX GROUP E SHEET 7 0 'B'RIMARY BUS BUS DEVICE DEVICE PRIMARY NUHBER DIE NUHBER DESCRIPTIOH EPFECT ON DEVICE EPFECT OH SYSTEM ALARM POINT PP-3h-h A BS-DV-6A RFW IITR DUMP VALVE LOSS OF POMER, VALVE HO EFFECT ON SHUTDOMN 1) SEVERAL HEATER HI FAILS OPEN MODE. AFPRCTS FM LEVEL TRIPS TEMPERATURE, 2) STEAM DUMP VALVES NOT PUI.LY CLOSED

3) LOSS OP POS. IND.

BS-DV-3hl RFM HTR DUMP VALVE LOSS OF POMRR, VALVE NO EFFECT ON SHUTDOMH 1) SEVERAL HEATER HI PAILS OPEN MODE. AFPECTS FM LEVEL TRIPS TEMPERATURE. 2) STEAM DUMP VALVES NOT FULLY CLOSED

3) LOSS OF POS. IHD.

BS-DV-4A RFM HTR DUMP VALVE LOSS OP POMRR ~ VALVE NO EFFECT ON SHUTDOMN 1) SEVERAL HEATER HI FAILS OPEN MODE. AFFECTS FW LEVEL TRIPS TEMPERATURE. 2) STEAM DUMP VALVES NOT PULLY CLOSED

3) LOSS OP POS, IND.

PP-3A-A A BS-V-BB NONE RETURN VALVES LOSS OP POMER, VALVES EFFECT FM TEMP AND 1) SEVERAL HEATER H} BS-V-10A CLOSE COHDRHSATE VACUUM LEVEL TRIPS BS-V-10B 2) STEAM DUMP VALVES BS-V-13A NOT FULLY CLOSED BS-DV-5A 3) LOSS OP POS. IND. BS-DV-2Al BS-DV-2A2 NOTE 2, BS-V-27 BS-V-48 BS-V-52A BS-V-52B PP-2RA-B B BS-DV-6B RFM llTR DUMP VALVE LOSS OP POMRRB VALVES NO EFPECT 1) STEAM DUMP VALVES FAILS OPEN NOT FULLY CLOSED"

2) LOSS OF VALVE POSIT.

IND. ON BD-T 13-0187 (7) MHPP-2 COLD SIIUTDOMH SYSTEMS - EXTRACTION STEAH PPEHDIX CROUP E SHEET 8 OF BUS BUS DEVICE DEVICE PRIMARY PRIMARY NDHBER DIV NNHBER DESCRIPTION EFFECT ON DEVICE EFFECT ON SYSTEM ALARM POINT PP-2RA-8 B BS-NRV'S NON RETURN VALVES LOSS OP POMER, VALVES HRV SUPPLYINC EITHER NOTE 2, CLOSED STEAM OR CONDENSATE 1) "STEAM DUMP VALVES NOT FULLY CLOSED" ANH.

2) "LP HEATER-1B IIICH LEVEL TRIP
3) DITTO FOR HTRS 2B, 3BN 4BN 1C 2C ~ 3C AND 4C PP-1B-h BS-SPVS SOLENOID PILOT BS-V-35h, 39h AND 64 NONE. LOSS OF VALVE POS IND.

VALVES - TANK OPEN LICllTS AND TANK LEVEL LEVEL IHD. OH BD-T PP-2P-A BS-SPV'S SOLENOID PILOT VALVES BS"V-39B AHD 68 OPEN HONE; LOSS OF POSITION IND. TANK LEVEL IND. LIGHTS AND TANK LEVEL ON BD-T PP-SA-A 2 ES-PI-1B STEAM EXHAUST PRESS. LOSS OF INDICATION NONE LOSS OR VOLTAGE INDICA-IND. POR RPT>>lB TION OH &0-C FOR PP-Sh-h PP-7A-A 1 ES-PI-1A STEAM EXHAUST PRESS. LOSS OF INDICATION NONE LOSS OF VOLTACE INDICA-IND. FOR RPT-1h TION ON BD-C FOR PP-7A-A 13-0187 (8) WHAP-2 COLD SlllJTDOWN SYSTEMS - EXTRACTION STEAM APPENDIX 'B'ROUP P SHEET 9 OP ~ ~ ~ ~ ~ ~ BUS BUS DEVICE DEVICE PRIHARY PRIHARY IIUHBRR UIU NUHBRR DESCRIPTIOH EFFECT OH DEYICE EFFECT OH SYSTEM ALARH POINT I SH-1 h'-lh COHDEHSATE PUMP lh LOSS OP PlJHP AT 40Z RX POWER ONE 1) BUS SM1 UV ANNUNC. r (1) CONDEHSATE PUMP 2) CB Clh TRIP ANHUNC, AHD ONE (1) BOOSTER P-2A CONDESHATE BOOSTER LOSS OP PUHP PUHP ARE SllUTDOWH. 1) ABOVE PUHP 2h IP TllE POWER FAILURE 2) CB C2h TRIP ANNUHC. ON OHE BUS IS PRIOR SM-2 B P-IB CONDENSATE PUMP 1B LOSS OF PUMP TO 40Z RX POMER THEH 1) BUS SM2 UV ANNUNC. COND SYSTEM IS LOST. 2) CB CIB TRIP ANNUNC. IP h SECOND BUS POMER 3) CB C2B TRIP ANNUNC. P-2B CONDENSATE BOOS'TER LOSS OP PUHP LOSS IS EXPERIENCED PUMP 2B PRIOR TO RX PRESSURE AT 300 PSIC TBEH COND SM-3 A P-1C CONDENSATE PUMP 1C LOSS OP PUMP SYSTEM IS LOST. NO 1) BUS SM3 UV ANNUNC. CONDEHSATE PUHPS ARE 2) CB C1C TRIP ANN. REQUIRED MHEH RX 3) CB C2C TRIP ANN. P-2C COHDEHSATE BOOSTER LOSS OP PUHP PRESSURE IS AT 100 PUHP 2C PSIC. HC-1A h COND-V-146A COND OUTLET PROM LP MOV PAILS AS IS N.O. NOHE. LOSS OP POSITION IHD. llTR 5A LOSS OF VALVE POSITION ON BD-T INDICATION COND-V-142A COND INLET TO LP HOV PAILS AS IS N.O. HONE. LOSS OP POSITION INDe llTR 5h LOSS OF VALYE POSITION ON BD-T INDICATION COND-V-134h COND OUTJ.ET PROM LP MOV PAILS AS IS N.O. NONE. LOSS OP POSITION IHD. llTR 2A 1.0SS OP VALVE POSITION ON BD-T INDICATION COND-Y-615h SEALIHG STEAH EVAP HOV FAILS AS IS H.O. NONE. NONE - NO POSITION BLOWDOMN TO CONDENSER LOSS VALVE POSITION IHDICATION IN TllE IHDICATION CONTROL ROOM MC-1B A COND-V-123h COND INLET TO LP HTR MOV FAILS AS IS N.O. NONE. LOSS OP YALYE POSITION 1A LOSS OF VALVE POSITION ON BD-T IHDICATIOH 13-0187 (9) lhlPP-2 COLD SIIUTDOMN SYSTEMS - EXTRACTION STEAM APPENDIX iB'ROUP P SIIEET 10 Bl)S BUS DEVICE DEVICE PRIMARY PRIMARY HBHBER DZV HIIHBER DESCRIPTIOH EFFECT ON DEVICE EFPECT ON SYSTEM ALARM POINT MC-1B h COND-V-149 RFP BYPASS VALVE HOV PAILS AS IS VALVE REQUIRED TO BE OPEH LOSS OP POSITION INDICAB-COULD BE OPEN OR FOR SYSTEM S/D TION OH BD-h CLOSED DEPENDENT ON OPERATIONS MC-2B B COND-V-140C COND OUTLET FROM LP MOV PAILS AS IS (N.O.) NONE. 0/L TRIP ANNUNCIATION IITR 4C LOSS OP VALVE POSITION OP FEED TO MCC'S AND INDICATION OH BD-T NOTE 2 COND-V-135C COND INLET TO LP lITR MOV PAILS AS IS (H.O.) NONE. 0/L TRIP ANNIJNCIATIOH 3C LOSS OP VALVE POSITION OF FEED TO HCC'S AND INDICATION OH BD-T NOTE 2 MC-2C B COND-V-146B COND OUTLET FROM LP HOV PAILS AS IS (H,O.) NONE. LOSS OF VALVE POSIT. )ITR 5B LOSS OF VALVE POSITION IND ON BD-T IHDICATION COND-V-157 COND PRESSURE CON- VALVE PAILS AS IS NONE. LOSS OP VALVE POSXT TROL VALVE INLET (H.O.) POSITION INDI- IND, ON BD-A CATION LOST COND-V-158 COND PRESS. CONTROL VALVE PAILS AS IS HONE. LOSS OP VALVE POSITB VALVE INLET (H.O.) POSITION INDI- IND. OH BD-h CATIOH LOST COND-V-159 COND PRESS'ONTROL VALVE PAILS AS 18 HONE, LOSS OP VALVE POSITB VALVE INLET (H.O.) POSITION 1NDI- IND. OH BD-h CATIOH LOST MC-2D B HS-V-11DA STEAM JET AIR HQV FAILS AS IS (N;0,) HONE. EJECTOR STEAM POSITION INDICATION LOST AR-EX-1B GLAND CONDENSER LOSS OF EXI)AUSTER NONE. EXIIAUSTER COND-V-114B COND-)IX-SB COOLING MOV PAILS AS IS (N.O.) NONE. LOSS OP VALVE POSIT. COND-V-111B MATER SUPPLY LOSS OF VALVE POSI- XND. ON BD-h TION INDICATIOH 13-0187 (10) MHPP-2 COLD SIIUTDOWH SYSTEMS EXTRACTIOH STEAM APPENDIX 'B'ROUP P SHEET ll 0 BUS BUS DEVICE DEVICE PRIHARY PRIHARY NIINBER DIV NIINBER DESCRIPTION EFFECT OH DEVICE EPFECT OH SYSTEH hLARM POINT COND-V-1238 COND INLET TO LP MOV FAILS AS IS {H.O.) HONE. LOSS OP VALUE POSIT. IITR 1B LOSS OP VALVE POSI- IND. ON BD-T TION 1NDICATION MC-2D B COND-V-123C COND INLET TO LP HOV PAILS AS IS (N.O.) NONE. LOSS OP VALVE POSIT. IITR IC LOSS OP VALVE POSI- IND. ON BD-T TION INDICATION CBP-AOP-1B BOOSTER PUMP 1B AUX PUMP DISABLED, NONE. LUBE OIL PUMP REQUIRED ONLY MIEN THE MAIH OIL PUMP IS DISABLED. B OG-V-125B OG DISCHARGE FROH VALVES PAIL AS IS ~ NONE. SEE PAGE 2 - MC<<2D OG-V-1498 EJECTOR CONDENSER LOSS OP POSITION 8B IHDICATIOH HC-2R B COND-V-142B COND iNLET TO LP MOV FAILS AS IS NONE. LOSS OP POSIT. IND, IITR 5B (N.O.) LOSS OP VALVE OH BD-T POSITION INDICATION COND-V>>134B COND OUTLET PROM HOV PAILS AS IS NONE. LOSS OP POSIT. IND. IITR 2B {H.O.) LOSS OP VALVE OH BD-T POSITION INDICATION COND-V-134C COND OUTLET PROH MOV PAILS AS IS NONE. LOSS OP POSIT. IND. IITR 2C (N.O.) LOSS OF VALVE ON BD-T POSITION INDICATIOH AR-V-3B HAIN CONDEHSER HOV PAILS AS IS NONE. VACUUM BKR VALVE (H.O.) LOSS OP VALVE POSITION INDZCATIOH HC-2R-A B COND-V-140B .COND OUTLET FROM MOVS FAIL AS IS LOSS NONE. LOSS OF VALVE POSIT. LP IITR 4B OF POSITION INDICATION IHD. LIGHTS ON BD-T COND-V-135B COND INLET TO LP MOVS PAIL AS IS LOSS NONE. LOSS OP VALVE POSIT. LP HTR 3B OP POSITION INDICATION 1ND. LZGIITS ON BD<<T 13-0187 (11) MNPP-2 COI.D SHUTDOlIH SYSTEMS - EXTRACTION STEAH APPENDIX iB'ROUP F SHEET 12 6 BUS BUS DEVICE DEVICE PRIHARY PRIMARY ll HEBER BIB NIIHBER DESCRIPTION EFPECT ON DEVICE EFFECT ON SYSTEM ALARH POINT HC-3h h COND-V>>)40A COND OUTLET PROM MOV PhIL AS IS LOSS HONE LOSS OP VALVE'POSIT. LP llTR 4h OF POSITION INDICATION IHD, ON BD-T MC-3A h COND-V-135h COND INLET TO LP MOV PAIL AS IS LOSS NONE LOSS OP VALVE POSIT. llTR 3h OF POSITION INDICATION IHD. OH BD-T HC-38 A AR-V-3A HAIN CONDENSER HOV FAILS AS IS NONE. LOSS OP VALVE POSIT. VACUUM BKR VALVE (H.C.) POSITION INDI- IHD. CATION LOST AR-V-3C HAIN CONDENSER HOV FAILS AS IS NONE. LOSS OP VALVE POSIT. VACUUM BKR VALVE (H.C) POSITIOH INDI- IHD. CATION LOST COND-V-141h COND HTR 3A,B,C HOV PAIL AS IS LOSS OP VALVE POSIT 4A,B,C BYPASS (N.C.) POSITION IND. ON BD-T LOST ON BD-T COND-V-141B COND HTR 2A,B,C HOV PAIL AS IS LOSS OP VALVE POSIT. COND-V-144 5A,B BYPASS (H.C.) POSITION IHD, ON BD-T LOST ON BD-T COND-V-609h COHD llTR lh, 1B MOV PhIL AS IS LOSS OP VALVE POSIT. COND-V-6D9C BYPASS (H.C.) POSITION IHD. ON BD-T LOST ON BD-T COND-V-184 STEAH EXAPORATOR NO EPFECT, NONE. LOSS OF VALVE POSIT. COND-V-187 ISO VALVES OH BD-h HC-3C h OC-V-125h OC DISCllARCE PROM VALVES FAIL AS IS, NONE, NOTE 2 AND 0/L TRIP OC-V-149h EJECTOR CONDEHSER Bh LOSS OF POSITION ANNUNCIATION INDICATION CBP-AOP-ih BOOSTER PUHP ih PUMP DISABLED. REQUIRED ONLY M'EN NOTE 2 AND 0/L TRIP AUX LUBE OIL PUMP THE MAIN OIL PUMP IS ANNUNCIATION DISABLEDE OR MIIEH STARTINC, STOPPING TllE BOOSTER PUMPS 13-0187 (12) MNPP-2 COLD SllUTDOWH SYSTEMS - EXTRACTION STEIN APPENDIX ~Bi CROUP P SHEET 13 ~6 BUS BUS DEVICE DEVICE PRIMARY PRIMARY HVHBRR DIV HRHBRR DESCRIPTION EPFECT ON DEVICE EFFECT ON SYSTEM ALARM POINT t ~ , ~ h AR-EX>>IA GLAND CONDENSER LOSS OF EXNAUSTER NONE. NOTE 2 AND 0/L TRIP I' EXHAUSTER ANNUNCIATION ~" I HC-3C A COND-V-114A COND-HX-Bh COOLING MOVS FAILS AS IS NONE. NOTE 2 AND 0/L TRIP COND-V-Illh MATER SUPPLY (H.O.) LOSS OP VALVE ANNUNCIATION POSITION INDICATION DP-S I-IC h 125 VDC BUS 4)60 CONTROL VOLTACE LOSS OP CLOSURE AND UNABLE TO TRIP AND LOSS OP BREAKER STATUS BKR HO. 4 TRIP VOLTAGE AT THE CLOSE PUMP BREAKERS LIGHTS ON BD-A. SWITCHCEAR POR .I COND-P-IA AND IC COND-P>>2A AND 2C I 125 VDC BUS 4160 CONTROL VOLTACE I.OSS OF CLOSURE AHD UNABLE TO TRIP AHD LOSS OF'BREAKER STATUS BKR NO. 5 TRIP VOLTACE AT THE CLOSE PUMP BREAKERS LIGHTS OH BD-A. SWITCHCEAR FOR COND-P-lh AND IC COND-P-2A AND 2C DP-81-2C B 125 VDC BUS 4160 COHTROL VOLTAGE LOSS OP CLOSURE AND UNABLE TO TRIP AND LOSS OP BREAKER STATUS BKR NO. 3 TRIP VOLTAGE FOR CLOSE PUMP BREAKERS LIGHTS ON BD-A. h CONP-P-IB AHD COND-P-2B PP-7A-A I COND-DPT-5 COND PCV-5 CONTROL COND-PCV-5 CLOSES 100X PLOW THROUGH THE LOSS OP HOST BOP SRV-21 LOOP CLAND SEAL STH 1.0SS OF DP INDICATION CLAND SEAL STEAM CON- ANALOG LOOPS. IN DIV I I COND BYPASS VALVE DENSER LOSS COND AHD DIV h. WITH ASSO- B BOOSTER PUMPS/RFM CIATED ALARMS AND LOSS OF CONTROL AND INDICAT. LOSS OP VOLTAGE IND. POR PP-7A-A ON BD-C, ~ I COND-FT-11 PILTER DEMIN BYPASS COND-LCV-11 CLOSES NOHE. LOSS OP HOST BOP 'P-7A-A SRV 17 VALVE COND-LCV<<II LOSS OF FLOW IHDICA- ANALOG LOOPS. IN DIV I COHTROL LOOP TIOH AND DIV h, WITH ASSO-CIATED ALARMS AND LOSS OP CONTROL AND INDICAT. LOSS OF VOLTACE IND. POR PP-7A-A ON BD-C. 13-0187 (I3) HHPP-2 CO)JJ SllUTDOMH SYSTEHS - EXTRACTION STEAM APPENDIX GRO)JP P SHEET 14 0 6 ~ 'B'RIMARY BUS BUS DEVICE DEVICE PRIHARY DDDBER DIV DIIHMR DESCRIPTION FFFECT ON DEVICE EFFECT ON SYSTEM ALARH POINT DP-S)-1B h RELAYS INTERLOCKS TO SPVS DEEHERGIZE AR>>V-1 AIR REMOVAL SYSTEH IS PRH-1 AR-SPV-1-) CLOSE ISOLATED. CONDENSER PRH-3 AR-SPV-1-2 LOSES VACUlJM SLOMLY. PP-IB-A h OC-V-129h DRAIN DISCHARCE OG-V-129A OPENS. LOSS NONE. NOTE 2, LOSS OP POSITION VALVE FOR EJECTOR LOSS OP POSITION INDICATION POR ALL CONDENSER Bh DRIP IHDICATIOH LISTED DEVICES POT AR-SPV-2A SPVS FOR AR-V-2h, SPVS DEENERGIZE AIR EJECTOR h LOST. NOTE 2 ~ LOSS OP POSITION AR-SPV-2B 28 FOR AIR EJECTOR AR-V-2h AHD 28 CLOSE. IF IH USE, CONDENSER INDICATION POR ALL h LOSS OF POSITIOH VACUUH LOST LISTED DEVICES INDICATIOH AR-SPV-1-1 SPVS FOR AR-V-1 ~ SPVS DEEHERCIZE AR-V-1 ENTIRE AIR REMOVAL NOTE 2 ~ LOSS OP POSITION AR-SPV-1-2 VACUUM LIHE FROH CLOSES. LOSS OF SYSTEH IS ISOLATEDD INDICATION POR ALL CONDENSER POSITION INDICATION CONDENSER SLOQLY LISTED DEVICES LOSES VACUUM. COND-FSVP COND. BOOSTER COND-FCV-15h AND C NONE. LOSS OF POSITION IND. 15h MINIMUM FLOM VALVES THROTTLES ~ LOSS OP OH BD-A. COND-PSVP POSITION IHDICATIOH 15C COND-SPV-40 CONTROL AIR TO LOSS OP ABILITY TO NONE. NOTE 2, LOSS OP POSI-COND-PCV-40 CONDENSE OPEN COND-PCV-40 TION INDICATIOH POR llOOD SPRAY VALVE MJICJ) IS NORMALLY - ALL LISTED DEVICES CLOSED COND-SPV-17 CONTROL AIR TO COND-V-17 CLOSES N)EN LOSS OP INDICATION NOTE 2 ~ LOSS OF POSI COND-V-17 CONDENSER/ COND-SPV-17 DEEHER- COND-V-17 TION INDICATIOH POR CST CROSS TIE VALVE GlZES ALL LISTED DEVICES )3-0)87 ()4) J I MHPR-2 COLD SllUTPOWH SYSTEMS - EXTRACTIOH STEAM APPENDIX ~B'ROUP P SHEET 15 0 6- ~ ~ I BUS BUS DEVICE DEVICE PRIMARY PRIMARY ~ ~ NUNBRR DIV NUNBRR DESCRIPTION EFFECT ON DEVICE EPFECT ON SYSTEM ALARM POINT PP-2P-A B COND-FSPV COND. BOOSTER PUMP COHD-PCV-15B TllROTTLES HONE LOSS OP POSITION IND. 15B MIHIMUM FLOP VALVE LOSS OP POSITION ON BD"AR IHDICATIOH AR-SP V-2C SPVS FOR AR-V-2C AND SPVS DEENERCIZE AIR EJECTOR B LOST. AR-SPV-2D 2D POR AIR E1ECTOR AR-V-2C AND 2D CLOSE, IF IH USE. CONDENSER B LOSS OP POSITION VACUUM LOST. INDICATION. PP-Bh-2C-A B COND-SPV-76 CONTROL AIR POR COND-V-76 OPENS MlEH PARTIAL BYPASS OP COHP-V-76, FILTER COND-SPV-76 DEEHER- FILTER DEMIHERALIZERS, DEMIH. BYPASS VALVE CIZES REDUCES SYSTEM PRIC-TION DROP - SOME ~ 'INCREASED PLOW IH ~ SYSTEM. PP-2P-A B OC-V-129B DRAIN DISCHARGE OG-V-129B OPENS. HOHE. HDTE 2. VALVE POR FJECTOR LOSS OF POS. IHD. r COND. BB DRIP POT. R I 13-0187 (15) MNPP-2 COLD SlluTDOMN SYSTEMS - HAIN TURB/STEAM BYPASS APPENDIX 'B'ROUP C SllEET 16 0 BUS BUS DEVICE DEVICE PRIHARY PRIMARY HUHBRR HEU NUHBER DESCRIPTIOH EFFECT OH DEVICE EFFECT OH SYSTEH ALAHM P01HT HC-lA h TC-BLP-1 BEARINC LIFT PUHP LOSS OP INDICATION REQUIRED FOR HAIN 0/L TRIP ANNUNCIATION LOSS OF BEARING LIFT TURBINE S/D AND NOTE 2. PUHP TG-BOP-1 BEARING OIL PUMP LOSS OF INDICATION REQUIRED FOR HAIN 0/L TRIP ANNUNCIATION 1.0SS OF BEARINC OIL TURBINE S/D AND NOTE Z. PUMP TG-SOBP SEAL OIL BACKUP PUMP LOSS OF INDICATION REQUIRED POR MAIN 0/L TRIP ANNUNCIATION LOSS OP SEAL OIL TURBINE S/D AND POTE 2. BACKUP PRlP TO-EX>>l TVRBIHE OIL VAPOR LOSS OP POWER AND OPERATOR MILL TRIP 0/L TRIP ANHUNCIATION EXTRACTOR INDICATIOH TURBINE PER PPM 2B5.7 AND NOTE 2 ~ TG-EllP-lb ELECTRO-llYDRAULIC LOSS OF POWERH CONTROL AUTO START OP EllP-1B 0/L TRIP ANNUNCIATION PUMP lh AND IHD. LOSE PUMP lh AND NOTE 2. HC-2C B TG-EllP-1B ELECT ROC-llYDRAULIC LOSS OF POWER, CONTROL AUTO START OF EllP-ih EH FLUID LOW PRESS ANN. PUMP 1B AND INDICATION (IP THIS IS TNE RUNNINC PUMP) HC-3B h TC-TNG-1 LOSS OP INDICATION DAMACE TO TURBINE IP REQUIRED FOR MAIN 1) T.C. PAILVRE ANNUNC. LOSS OF HAIN TURBINE SECURED TURBINE S/D 2) ZERO TURBIHE SPEED TURNING CEAR ANNUNC. SH-75 A TSW-P-lh PLANT SERVICE MATER LOSS OF POWER TO TSM-P-1B MILL AUTO 1) BREAKER TRIPPED PUMP .TSM-P-lh START ANNUNC.

2) BVS UV ANHVNC.

SH-85 B TSM-P-1B PLANT SERVICE 'WATER LOSS OP POWER TO TSM-P-lB MILL AUTO 1) BREAKER TRIPPED PUMP TSW-P-1B START ANNUNC.

2) BUS VV ANNUNC.

HC-S2-18 h TG-EOP-1 EHERC. OIL PUMP LOSE AUTO START ON NONE, AS LONC AS LOSS OP PUMP STATUS LOSS OP TC-BOP-1 MAIH OIL PVMP AVAIL- LICllTS ON BD-h ABLE {TC-BOP-1) 13-O1A7 {16) WNPP-2 COLD SllUTDOWN SYSTEMS - MAIN TURB/STEAM BYPASS APPENDIX sBs GROUP G SHEET 17 0 BUS BUS DEVICE DEVICE PRIMARY PRIMARY NIINBER DIV NUMBER DESCRIPTION EFFECT ON DEVICE EFFECT OH SYSTEM hLARM POINT MC-82-1B h TG-ASOBP-1B AIR SIDE BACKUP SEAL LOSE AUTO SThRT (OF NONE, AS LONG AS LOSS OF PUMP STATUS OIL PUMP TG-ASOBP-1B) ON IOSS MAIN OIL PUMP LIGIlTS ON BD-A OF MAIN SEAL OIL PUMP (TG-ASOP-1) IS AVAILABLE US-PP h AC PANEL VIThL AC POWER TO LOSS OF DEll CONTROLLER UHAB1.E TO CONTROL LOSS OF VOLTAGE INDI-AC-2 IN DEll CONTROLLER AFTER TURBINE TRIP PRESSURE DURING CATION ON BD-C FOR DEll CAB.00 SHUTDOWN US-PP PP-1B-A h TURNING GEAR TURNING GEAR LOSS OF MAIN TURBINE REQUIRED FOR MAIN LOSS OF INDICATION ON SOLENOID ENGAGE/DISENGAGE TURNING GEAR TURBINE S/D BD-B VALVES SOLENOID VhLVES PP-3A-A h MD-SPV-75 DRAIN VALVES VALVES FAIL OPEN REQUIRED TO OPEN ON DRAIH VALVES OPEN TO TllRU 87 NORMAL S/D DEH CONTROLLER ANNUN-CIATOR TSW-TE-8 PLANT SERVICE WATER TSW-TCV-8 WILL CLOSE TURBINE TRIP AHD LOSS "HIGH BEARING TEMP" TSW-MV/1-8B TCV TO MAIN TURBINE OF MAIN OIL COOLERS ANNUNC. TSM-1/P-8B OIL COOLERS TSW-TCV-8 PP-7A-C h TSW-V-53A TSW-P-1A DISCHARGE MO VALVE WILL PhIL AS NONE. VALVE (MOV) IS PP-8A-C B TSW-V-53B TSW-P-1B DISCllARGE MO VALVE MILL FAIL AS NONE VALVE (MOV) PP-Sh-2 B INTERCEPT CONTROL & INDICATIOH LOSS OF QUICK ISOLA- TURBIHE STILL TRIPS LOSS OF VALVE POSIT, AHD REIIEAT FOR IHTERCEPTOR AND TION AFTER LOAD REJEC- ON LOAD REJECTIOH -. 'INDICATION OH BD-B STOP VALVES REHEAT STOP VALVES TIOH NO EFFECT DP-S 1-1C-1 A TG-EOP-1 CONTROL & INDICATION STARTS ONLY ON LOSS NONE. 1) EMERGENCY OIL PUMP EMERG. OIL PUMP OF TG-BOP-1 OVERLOAD NOTE 2 DP-Sl-1C-1 h TG-ASOBP-lh CONTROL & INDICATION LOSS OF AIR SIDE NOHE IF TG-ASOP-1 IS 1) AIR 8IDE SEAL OIL SEAL OIL BACKUP PUMP BACKUP SEAL OIL PUMP AVAILABLE BACKUP PUMP OVERLOAD NOTE 2 13-n18 7 (17) MNPP-2 COLD SIIUTDOWN SYSTEMS - MAIN TURB/STEAN BYPASS APPENDIX EB GROUP C SHEET 18 0 BUS BUS DEVICE DEVICE PRIMARY PRIHARY HUHBER DIV NUHBER DESCRIPTION EFFECT ON DEVICE EFFECT OH SYSTEH ALARM POINT DP-S1-2C B CONT. CRT VOLT REG LOSS OF LOAD POLLOM- UNABLE TO PROPERLY 1) DEll CONTROL "REGU-ING CAPABIL'ITY UNLOAD TURBINE LATOR SUPPLY BKR OPEN"

2) POWER FhILURE ALARH TO DEN DP-S1<<2C-2 B 20/BV1 LOSS OF BYPASS VALVE UNABLE TO RESET BYPASS UNABLE TO CONTROL BV2 ~ BV3 RESET CAPABILITY VALVES AFTER TURBINE PRESSURE DURING NORMAL BV4 TRIP SHUTDOWN PP-7A-C-A. h RPMA-010,011 TSM-V-53h CONTROL HOV FAILS AS IS NONE, LOSS OF POSITIOH IND.

SPMA-010,011 TSW-P<<lh DISCllhRGE OPEN IF ASSOC. PUMP FOR TSM-V-53h ON BD-h TPMA-035,036, VALVE IS RUNNING 037 PP-SA-C-h B RPMh-010,011 TSM-V>>53B CONTROL MOV FhILS AS IS NONE. LOSS OF POS ~ IND, OH SPWA-010,011 TSW-P-1B DISCIIARGE OPEN IF ASSOC. PUMP BD-h TPWA-035,036, VALVE IS RUNNING 037 13-Ol87 (18) 0 MHPP-2 COLD SIIUTDOMN SYSTEHS CIRC MATER APPENDIX 'B'ROUP ll SIIRET 19 66 BUS BUS DEVICE DEVICE PRIHARY PRIMARY HDHBRR D1V HIIHBBR DESCRIPTIOH EFFECT OH DEVICE EFFECT ON SYSTEH ALARH POINT SH-1 A CMP-1A CIRC MATER PUHP LOSS OF PUMP UNTIL RX PRESSURE IS SRE SH-1 BELOM 100 PSIG MllEH GROUP P SIIEET 1 2 PUHPS CAN BE SHUT-. DOMH NEED ONLY 2 PUHPS SH-2 B CMP-1B CIRC MATER PUHP LOSS OP PUMP UNTIL RX PRESSURE IS SRE SH-2 BELOM 100 PSIG MIIEN SIIEET 1 2 PUMPS CAN BR SIIUT-DOMN NEED ONLY 2 PUHPS SH-3 h CMP-IC CIRC MATER PUHP LOSS OF PUHP UNTIL RX PRESSURE IS SEE SH-3 BELOM 100 PSIG MIIEN SHEET 1 2 PUHPS CAN BE SHUT-DOMN NEED ONLY 2 PUHPS MC-)B h CM-V-2A COHDEHSER INLET MOV PAILS IH POSITION NOHE. LOSS OF VALVES POSI-CM-V<<2C VALVE N.O. TION INDICATIOH ON BD-h HC-2D B CM-V>>3B CONDEHSER OUTLET HOV FAILS IN POSITION NOHE. LOSS OP VhLVES POSI-VALVE H.O. TION INDICATION ON BD-h HC-2P B CM-V-2B CONDENSER INLET MOV PAILS IH POSITION HONE. LOSS OP VALVES POSI>> VALVE N.O. TION INDICATION ON BD-h HC-3C h CM-V-3h CONDENSER OUTLET MOV PAILS IN POSITION HONED LOSS OP VhLVES POSI CM-V-3C VALVE N.O. TION INDICATION ON BD-h MC-5L h CM-FN-19 CIRC MATER FANS PAH MOTORS STOP NO RPPECT, NEVER LOSE 1) "III VIBRATION]OLVD CM-FN-20 HORE THAN Q OP 36 ANNUNC. ON BD-H CM-FH-21 TOTAL PANS 2) IHDICATION OF PANS CM-FH-22 STOPPED 13-0187 (19) MHPP-2 COLD SllUTDOQH SYSTEMS - CIRC MATER APPENDIX 'B'ROUP H SllEET 20 . 6 BUS BUS DEVICE DEVICE PRIHARY PRIMARY NIIHEER DIV NIIHEER DESCRIPTION EFFECT OH DEVICE EFFECT ON SYSTEM ALARH POINT HC-5M CM-PH-23 CIRC MATER FANS PAH MOTORS STOP NO EFFECT, NEVER LOSE 1) "HI VIBRATION/OLVD" CW-FH-24 MORE TNAH Q OP 36 ANHUHC. OH BD-H CM-FN-31 TOTAL FANS 2) INDICATION OP PANS CM-FN-32 STOPPED CM-FH-33 HC-5N CM-V-1h CIRC MATER PUMP DIS- MOV PAILS IN POSITION NONE. HO ALARH IN CONTROL CM-V-)C CllARGE MOV (H.O.) ROOM CM-V-10 COOLING TOWER BYPASS HOV PAILS AS IS NONE. NO ALARM IN CONTROL VALVE (N.C.) ROOM HC-5P CW-FN-25 CIRC MATER PANS FAN MOTORS STOP NO EPPECT, NEVER LOSE )) HI VIBRATION/OLVD's CW-FN-26 MORE T)1AH Q OP 36 ANNUNC. OH BD-H CM-FH-27 TOTAL PANS 2) INDICATIOH OP PANS CW-FH-2S STOPPED HC-5g CM-FH-29 CIRC WATER PANS PAN MOTORS STOP NO EFPECTN NEVER LOSE 1) HI V)BRATION/OLVD CM-FH-30 HORE TllhN Q OP 36 ANNUNC. ON BD-H CM-FN-34 TOTAL FANS 2) INDICATION OF FANS CM-FN-35 STOPPED CM-PN-36 HC-5R CW-V-7,8,11 COOLING TOWER 2AN 2B ~ MOV S PhIL AS IS NOHEH NO ALARH. 2C SUPPLY VALVES MAY BE OPEN OR CLOSED HC-6L CM-FN-1 CIRC MATER PANS FAN MOTORS STOP NO EFFECTN NEVER LOSE 1) COOLING TOWER 1h CM-FH-2 MORE THAN Q OF 36 PANS )>>6 llI VIB/OL CM-FH-3 TOTAL FANS 2) IHDICATIOH OP PAHS CM-FH-4 STOPPED MC-6H CM-PN-5 CIRC 'MATER FANS FAH MOTORS STOP NO EPPECT, NEVER LOSE 1) COOLING TOMER 1h FANS CM-FH-6 HORE TllhN Q OP 36 1>>6 NI VIB/OL CM-FN-13 TOTAL FANS 2) COOLING TOMER )C FANS CW-FH-14 13-18 HI VIB/OL CM-FH-15 13-0l87 (20) I MHPP-2 COI.D SIIUTDOMN SYSTEHS - CIRC MATER APPENDIX iB'ROUP II SIIEET 21 6 . BUS BUS DEVICE DEVICE PRIMARY PRIHARY HIIHBRR DIV HBHB RR DESCRIPTION EFFECT ON DEVICE EFFECT ON SYSTEH ALARM POINT HC-6P CM-FN-7 CIRC MATER FANS FAN MOTORS STOP HO EFPECT, NEVER LOSE 1) COOLING TOMER 1B PANS CW-FH-8 HORE TIIAH Q OP 36 7-12 NI VIB/OL CM-FH-9 TOTAL PANS CM-1'H-10 MC-6Q CM-FN-11 CIRC MATER PANS FAN HOTORS STOP NO EFPECT, NEVER LOSE 1) COOLING TOWER 1B PANS CM-FH-12 MORE TIIAN Q OF 36 7-12 HI VIB/OL CM-FN-16 TOTAL FANS 2) COOLING TOMER 1C FANS CW-FN-17 13-18 III VIB/OL CM-FH-18 MC-6R CM-V-4,5,6 COOLING TOWER 1AB 1BB HOV S PhIL AS IS NONE HO ALARM. IC SUPPLY MAY BE OPEN OR CLOSED HC-6N CM-V-1B CIRC. MATER PUMP B HOV PAILS AS IS NONE. HO ALARH. DISCHARGE HOV (H.O.) PP-7A-C-A TPMA 91B92 SUPERVISORY CIRCUIT HOV FAILS AS IS- NONE. LOSS OP POSITION IHD. RPWA 92,92 FOR CM-V-10 COOLING (N.C.) LOSS VALVE FOR CM>>V-10 ON BD-M SPWA 91,92 TOWER BYPASS VALVE POSITION IHDICATIOH PP-7A-Z RCWA 91,92 SUPERVISORY CIRCUIT HOV PAILS AS IS- NOHE. LOSS OF POSITION IHD. SCWA 91,92 FOR CM-V-10 COOLING (H.C.) LOSS VALVE POR CW-V-10 ON BD-H TCWA 91,92 TOWER BYPASS VALVE POSITION INDICATIOH RCFA 055 TO SUPERVISORY CIRCUIT HOV'S FAILS AS IS - HONE. LOSS OF POSITION IND. 060 FOR CM-V-7,8,11 WIIICII MAY BE OPEN OR FOR TIIESE VALVES OH SCEA 055 TO COOLING TOWER SUPPLY CLOSED. LOSS OF VALVE BD-M IN THE CONTROL 060 VALVES POSITION IHDICATIOH ROOM. TCEA 055 TO 060 TCEA 001 TO SUPERVISORY CIRCUIT LOSS OP PAN CONTROL. NO EFFECTS NEVER LOSE LOSS OP PAH STATUS 019 CM-FN-19 TO 34 FAN MOTORS STOP. LOSS MORE TIIAN Q OF 36 LIGIITS ON BD-M POR PANS RCEA 001 TO OF FAH OPERATION TOTAL PANS CM-FH-19 TIIRU CM-FN-36 019 IHDICATIOH SCEA 001 TO 019 13-OI87 (21) WHPP-2 COLD SllUTOOWN SYSTEMS - CIRC WATER APPENDIX GROUP ll Sl!EET'2 6 'B'RIMARY BUS BUS DEVICE DEVICE PRIMARY IIDHBER DIE HIIHBER DESCRIPTIOH EFFECT OH DEVICE EFFECT ON SYSTEM ALARM POINT TCRA 049 TO SUPERVISORY CIRCUIT LOSS OF PAN CONTROL. NO EFPRCT, NEVER LOSE LOSS OP PAN STATUS 054 CW-FH-35 AND 36 FAH MOTORS STOP. LOSS MORE TllAN Q OF 36 LIGHTS ON BD-M POR PANS RCRA 049 TO OF FAN OPERATION TOTAL PAHS CW-FN-19 TllRU CW-FH-36 054 INDICATION SCRA 049 TO 054 PP-Sh-Z B TCRB 001 TO SUPERVISORY CIRCUIT LOSS OP FAN CONTROL. HO EFFECT, NEVER LOSE LOSS OF FAN STATUS 048 CW-PH-1 TO 16 FAN MOTORS STOP. LOSS MORE TllhH Q OF 36 LIGHTS ON BD-M POR PANS RCRB 001 TO OP PAN OPERATION TOTAL FANS CW-FN-1 TllRU CW-FN-18 048 IHDICATIOH SCEB 001 TO 048 PP-SA-Z B TCRB 049 TO SUPERVISORY CIRCUIT LOSS OF FAN CONTROL. NO EFFECTS NEVER LOSE LOSS OP PAN STATUS 054 CW-FN-17 AND 18 PAN MOTORS STOP. LOSS MORE TllhH Q OP 36 LIGllTS ON BD-M FOR FAHS RCRB 049 TO OF PAH OPERATION TOTAL FANS CW-PH-1 TllRU CW-FH-18 054 INDICATION SGRB 049 TO 054 PP-Sh-Z B RCRB 055 TO SUPERVISORY CIRCUIT MOV'S FhIL AS IS - HOHE. LOSS OP PAH STATUS 060 POR CW-V-4,5,6 WHICH MAY BE OPEN OR LIGllTS ON BD-M FOR PANS SCRB 055 TO COOLING TOWER SUPPLY CLOSED'OSS OP VALVE CQ-FN-1 TllRU CW-FH-18 060 VALVES POSITION INDICATIOH TCEB 055 TO 060 13-0187 (22) MHPP-2 COLD SllUTDOMN SYSTEMS ' CIRC WATER APPENDIX 'a'ROUP N SllEET 23 0 BUS BUS DEVICE DEVICE PRIMARY PRIMARY DUBBER DIV HUHBER' DESCRIPTIOH EPFECT ON DEVICE EPFECT ON SYSTEM hLARM POINT LP-5R-h TEA 00) TO SUPERVISORY CIRCUIT LOSS OP FAN CONTROL NO EFFECT, NEVER LOSE NOTE 2 054 CM-FH-)9 TO 36 FANS CONTINUE TO MORE TIIAN Q OP THE REA 001 TO OPERATE IN TllE STATE TOTAL 36 FANS 054 PRIOR TO POWER LOSS SEA 001 TO OF PAN OPERATION INDI-054 CATION TEA-055 TO SUPERVISORY CIRCUIT MOV'S PhIL AS IS- NONE. NOTE 2 060 FOR CM V 7BSB11 MllICll MAY BE OPEN OR REA-055 TO COOLING TOMER SUPPLY CLOSED. LOSS OP POSI-060 VALVES TION INDICATION SEA-055 TO 060 LP-6R-A A TEB 00) TO SUPERVISORY CIRCUIT LOSS OP PAN CONTROL. NO EFFECT, NEVER LOSE NOTE 2 054 CM-FH-1 TO 18 FANS CONTINUE TO MORE THAH Q OP THE REB 001 TO OPERATE IH THE STATE TOTAL 36 FANS 054 PRIOR TO POMER LOSS SEB 001 TO OF PAN OPERATION INDI-054 CATION TEB-055 TO SUPERVISORY CIRCUIT MOV'S PAIL AS IS - NONE. NOTE 2 060 FOR CM-V-4 ',6" MllICll MAY BE OPEN OR REB<<055 TO COOLING TOMER SUPPLY CLOSED. LOSS OF POSI-060 VALVES TION INDICATIOH SEB-055 TO 060 )3-Ol87 (23) QlPP-2 COLD SHUTDOWN SYSTEMS - FEEDMATER hPPEHDIX iB~ CROUP 8 SHEET 24 OF BUS BUS DEVICE DEVICE PRIHARY PRIHARY NUHBER DIV NUHBER DESCRIPTION EPFECT ON DEVICE EFFECT ON SYSTEH hLARH POINT PP-7A-E A H13-P612 INSTRUMENT POMER FOR LOSS OF PEEDMATER LOSS OP FEEDWATER 1) ANNUNC. ON P603 120V INSTR. FEEDMATER CONTROL CONTROLLER SICNALS, CONTROL FOR RFM "TURBINE RPP CON-BUS POMER SYSTEM ALARH UNITS DEENER- TURBINES. REACTOR TROL SIGNAL PAILURE " GIZEyLOSS OF SIGNALS RECIRC GOES TO LOM 2) REACTOR llI WATER FORH INSTRUMENTS. FLOM MODE. LEVEL TRIP.

3) REACTOR LEVEL ill OR LO,
4) REACTOR PRESS llI,
5) VALVE CONTROL SIGNAL PAILURE.

PP-8A-P 2 SCS2-021 RECEIVER AHD RELAY LOSS OP LOW WATER NONE. BISZ B'SUPV SYS'I RCS2-021 PROM SW-LS-1B3 TRIP OP SM-P-1B TROUBI.E "SSM B OO5" MC-1A h SS-V-41 BYPASS VALVE AROUND MOV VALVE FAILS NONE. NOTE 2 ~ SS-V-39 (MOV) CLOSED. LOSS OP POSITION INDICATION. RFM-V-109-T IlP llTRS BYPhSS MOV PhIL hS IS (H.C.) NONE. LOSS OP POSITION IND. LOSS OP POSITION ON BD-T INDICATIOH RFM-V-112h- PM OUTLET PROH HP HOV PAILS hs IS NONE ALL VALVES LOSS OF POSITION IND+ h&T HTR 6A-HOV (N.O.) POSITION ALIGNED IN OPERATION ON BD-h AND BD-T INDICATION LOST RFM-V-108h-T PM INLET TO llP HOV PAILS AS IS HONE hLL VALVES LOSS OF POSITION IND. llTR 6A (H.O.) POSITION hLICNED IH OPERATION OH BD-T INDICATION LOST POSITION RFM-V-117h- CONDENSATE AHD FEED HOV VALVE PAILS hS HONE, LOSS OP POSITION IHD. h&T MATER CLEANUP REClR- IS (H.C.) POSITION ON BD-h AND BD-T. CULATIOH BLOCK INDICATION LOST VALVE MC-1B h SS-V-6h SEAL STEAM TO HOV VALVES PAIL AS IS NONE. NOTE 2 ~ SS<<V-7A RFM-DT-1A (H.O.) LOSS OF POSI-TION INDICATION 13-0187 (24) I 4 V, MNPP-2 COLD SllUTDOWN SYSTEMS - FEEDMA'E'ER APPENDIX 'Bi GROUP J SllEET 25 BUS BUS DEVICE DEVICE PRIMARY PRIMARY HUHRRR DIV HUHRRR DESCRIFTIOH EFFECT OH DEVICE EFFECT ON SYSTEM 'huRM POINT SS-V-SA SEAL STEAM BYPASS MOV VALVE FAILS AS IS NONE, HOTE 2. TO RFM-DT-1h (N.C.) LOSS OF POSI-TION INDICATION MD-P-1A MISC DRAIN PUMP 1.0SS OF POllER, CON- HONE, MD-P-1B MILL NOTE 2. TROL AND INDICATION START ON llIGN TANK LEVEL IF MD-P-lA LOSES POWER MD-V-lb MD-P-1h DISCllhRGE MOV FAILS OPEN AND NONE NOTE 2. VALVE LOSS OF POSITION INDICATION RFM-V-102h-A RFP h DISCllARGE MOV MOV FAILS AS IS (H.O,) HONE VALVE POSITION LOST P POSITION INDICATION ON BD-h LOST RFP-THG-1h RFP-h-TURHXNG GEAR INOPERABLE, LOSS OF REQUIRED AFTER FEED NOTE 2. IND. PUMP TURBINE TRIPS RFM-AOP-IA. AUXILIARY OIL PUMP PUMP XNOPERABLE, LOSS REQUIRED AFTER NOTE 2. FOR RFP TURBINE "A" OF IND. SECURING MAIN LUBE OIL PUMP RFP-MOP-1h MAIN LIHE OIL PUMP PUMP Ih INOPERABLE, TRIPS RFM TURBINE h NOTE 2. LOSS OF INDICATION MC>>2C B RFM-V-117B CONDENSATE AND FEED- VALVE FAILS AS IS NONE. LOSS OF VALVE POSIT. MATER CLEANUP RECIR- (N.C.) POSITION INDICATION ON BD-T CULATION BLOCK VALVE INDICATION LOST AND BD-h RFM-V-118 REACTOR STARTUP MOV VALVE FAILS AS IS HONE. LOSS OF VALVE POSIT, BYPASS VALVE BLOCK (H.O.) POSITION INDICATION OH BD-T VALVE INDICATION LOST AND BD-h MC-2C B RFM"V-1128 FM OUTLET FROM IlP MOV VALVE FAILS AS IS NONE LOSS OF VALVE POSIT. IITR 6B-MOV (N.O.) POSITION INDICATION ON BD-T INDICATION LOST AND BD-h 13-0187 (25) WNPP-2 COLD SttUTDOWN SYSTBfS - FEEDWATER APPEHDIX GROUP J SllEET 26 0 6 'B'RIMARY BUS BUS DEVICE DEVICE PRIHARY HUHBER DZV HUHBER DESCRiPTION . EFFECT ON DEVICE EFFECT ON SYSTEM BhLARH POINT RFW-V-108B FW INLET TO 11P llTR'lTR MOV VALVE FAILS AS IS NONE LOSS OF VALVE.POSIT. 6B-HOV (H.O,) POSITION INDICATIOH ON BD-T INDICATION LOST AND BD-.A SS-V-Ih SS EVAPORATOR HOV VALVE FAIL AS IS HONE. NOTE 2 SS-EV-Ih DISCHARGE (H.O ) LOSS OF POSI-Vhl.VE TION INDICATION SS-V-3B EXCESS GLAND SEAL MOV VALVE FAILS AS IS NONE NOTE 2 LEAKOFF VALVE (H.O.) LOSS OF POSI-TIOH IHDICATIOH HC-2D B RFW-V-102B RFP-B, DISCHARGE MOV FAILS AS IS, NOHE LOSS OF POSIT. IND. MOV (H.O.) POSITION IHDI- ON BD-h CATION LOST HC-2P B RFP-THG-IB RFP-B TURHIHC GEAR INOPERABLE, REQUIRED AFTER NOTE 2 LOSS OF IHD. TRIPPING RFP TURBINE RFW-AOP-IB AUXILIARYOIL PUMP PUMP IttOPERABLE REQUIRED AFTER SECUR- NOTE 2 FOR RFP TURBINE "B" LOSS OF IHD. ING MAIN LUBE OIL PUHP SS-V"6B SEAL STEAN TO HOV VALVES PhIL AS IS NOtiE LOSS OF VALVE POSIT. SS-V-7B RFW-DT- I B (N.O.) LOSS OF POSI- IHD, OH BD-h TION IHDICATIOH SS-V-8B SEAL STEAM BYPASS MOV VALVES FAILS AS IS NONE LOSS OF VALVE POSIT. TO RFW-DT-IB (N.C.) LOSS OF POSI- IND, OH BD-h TION IHDICATIOH MD-P-IB MISt'. DRAIN PUMP 1.0SS OF POWER, COHTROI. HONE, HD-P-Ih WILL LOSS OF POS ~ IHD, ON AHD INDICATIOtt START ON HIGtt TANK V~-T LEVEL IF MD-P-IB LOSES POWER }lC-2P B MD-V-IB HD-P-IB DISCIIARGE HOV FAILS OPEN AND NONE LOSS OF POS. IND. ON VALVE LOSS OF POSITION BD-T INDICATION I3-0187 (26) MHPP COLD SllUTDOMN SYSTEMS - PEEDMATER APPENDIX CROUP J SllEET 27 a 66 '8'RIMARY BUS BUS DEVICE DEVICE PRIMARY NUBBER DIV NUBBER DESCRIPTION EPPECT ON DEVICE EPFECT ON SYSTEH hLARM POINT RFP-MOP-)8 MAIN LUBE OIL PUMP PUMP INOPERABLE LOSS TRIPS RFW-TURBINE "8" SEE RFW-AOP-18 ON OF IHDICQTIOH SIIEET 3 MC-7C h RFW-V-65h RFM ISOLATION VALVE MOV PAILS AS IS NONE LOSS OP VALVE POSITION (H.O.) LOSS OF POSI>> IHD. OH P602 TIOH INDICATIOH HC-SC 8 RFM-V-658 RPM ISOLATION VALVE MOV PAILS AS is NONE LOSS OF VALVE POSITION (N.O.) LOSS OF POSI- IND. ON P602 TION INDICATION PP-8h-h 2 TT-Y-IB RFM TURBINE STOP RELAYS DEENERGIZE RFM-PCV-28 DOES NOT 1) SBE PP>>8h-h ON TT-Z-IBI VAI.VES RELAYS TO AND DEEHBRGIZB CLOSE ON TRIP OP CROUP K SllEET 4 RFM-PSPV<<28 RFW-PSPV-28 RPM-DT-18 BUT STILL 2) "RPP-18 TURBINE llhS TllROTTLING TRIP" CAPABILITY 3) "RFP-18 TURBINE ALARMS RFM-FT-28 RFM FLOW INDICATION RFW-FCV-28 MILL GO FEED PUMPS WILL 1) SEE PP-Bh>>h ON RFM-PIC-28 AND MIN PLOM CONTROL PULL OPEN AND LOSS IHCREASE FLOM TO ll5X GROUP K SHEET 4 OF PUMP "8" FLOW PLOM TO TRY TO HAIN<< 2) "RPP-18 TURBINE INDICATIOH TAIN FBEDMATER PLOW TRiP" . TO VESSEL REACTOR 3) "RPP-18 TURBINE VESSEL LEVEL MILL ALARHS DROP SLOWLY. PP-7A-Z h RPT-COV-IA RFM PEED PUMP LOSS OP POWER TO GOVERNOR CAUSES AUTOMATIC RPT-Ih TURBINE TRIP GOVERNOR TURBINE TRIP. ANNUNCIATOR PP-8A-Z 8 RFT-GOV-I 8 RFM PEED PUMP LOSS OP POMBR TO COVBRNOR CAUSES AUTOMATIC RPT-18 TURBIHE TRIP GOVERNOR TURBINE TRIP. ANNUNCIATOR DP-SI-IC h RF M-DT-IA RPM PEED PUMP LOSS OP POWER RFM FEEDMATER TURBiNE Ih TRIP CIRCUIT PAILURBn TURBINE TRIP CIRCUIT TRIPS ANNUNCIATION DP-SI-2C 8 RFW-DT-IB RFM PEED PUMP LOSS OP POMER RFM FEEDWATER TURBIHE IB "TRIP CIRCUIT PAILURE" TURBINE TRIP CIRCUIT TRIPS ANNUNCIATION 13-0187 {27) MHPP-2 COLD SHUTDOWN SYSTEMS - FEEDQATER APPENDIX 'B'ROUP J SHEET 28 0 66 BUS BUS DEVICE DEVICE PRIHARY PRIMARY HUHBER D1V HUHBER DESCRIPTIOH EFFECT ON DEVICE EFFECT OH SYSTEH ALARH POIHT DP-Sl-)C-) h RFW RFQ TURBINE EHER- LOSS OF EHERGENCY NONE LOSS OF PUHP STATUS CEHCY L.O. PUMPS CONTROLS FOR L.O, LIGHTS ON BD-A BOTll TURBINES PP-)B-A h TSQ-TE-14h PLAHT SERVICE MATER TSW-TCV-14h MILL OPERATOR SHOULD TRIP INCREASING TEHPERATURE TSW-MV/)- TCV TO RFQ TURBINE CLOSE RFM TURBINE lh ON AS INDICATED ON 142h OIL COOLERS HICN OIL TEHP ALARH. TSM-TI-14h ON BD-A. TSQ-1/P-142h TURBINE MILL EVEN-TS'Q-TCV-14A TUALLY TRIP ITSELF OH llICH VIBRATION. RFM-FSPV-2h RFM SPV FOR . RFM-FCV-2h MILL OPEN RFM-FCV-2h DOES NOT LOSS OF VALVE POSITB RFM-FCV-2h HIN AS FM FLOW DROPS OFF CLOSE ON TRIP OF ON BD-A FLOW RECIRC VALVE RFM-DT-)h BUT STILL llhS THROTTLING CAPABILITY 99 TIX-lh TURBIHE SPEED SQITCil TURBINE TRIP OF LOSE FM PUMP lh NOTE 2 RFW-DT-lh LOSS OF SPEED INDICATIOH PP-2P-A B RFW-FSPV>>2B RFQ SPV FOR RFQ-FCV-2B MILL OPEN RFM-FCV-2B DOES NOT NOTE 2 RFM-FCV-2B MIN FLOW AS FM FLOW DROPS OFF CLOSE ON TRIP OF RECIRC VALVE RFM-DT-1B BUT STILL HAS THROTTLING CAPA-BILITY 99 TIX-lB TURBINE SPEED SMITCH TURBINE TRIP OF LOSE FM PUHP 1B RFT TRIP MZTN ALL ASSOC, RFM-DT-)B LOSS OF SPEED INDICATION ALARMS'NCREASING PP-2P-A B TSM-TE-14B PLANT SERVICE MATER TSM-TCV-14B MILL CLOSE OPERATOR SHOULD TRIP TRIP AS INDI-TSQ-MV/)-)4B2 TCV TO RFM TURBIHE RFW TURBINE 1B ON CATED ON TSM-TI-14B ON TSM-1/P-14B2 OIL COOLERS llIGH OIL TEMP ALARH. BD-h TSW-TCV-14B TURBIHE MILL EVEN-TUALLY TRIP ITSELF ON llICll VIBRATION '3-0)87 (28) MNPP 2 COLD SllUTDOWH SYSTEMS - PEEDMATER APPENDIX 'B~ GROUP J S)IERT 29 0 66 BUS BUS DEVICE DEVICE PRIMARY PRIMARY NUMBER DIV NllHBER DESCRIPTIOH EFFECT ON DEVICE RPFRCT ON SYSTEM hLARM POINT PP-7A-A 1 RFM-PT-2A RPM-PLOM INDICATION RPW-PCV-2h WILL GO FRED PUMPS WILL 1) SEE PP-.7h-h ON RFM-PIC-2h AND MIH PLOW CONTROL FULL OPEN AND LOSS OP INCREASE FLOW TO 115Z GROUP P S)fERTS 5&6 PUMP "A" FLOW INDICA- FLOW TO TRY TO MAIN- 2) "RPT-lh TURBINE TIOH TAIH PREDMATER PLOW TRIP'I TO VESSEL, REACTOR 3) RFT-lh TURBINE VESSEL LEVEL MILL ALARMS DROP SLOWLY TT-Y-lh RPM-TURBINE STOP RELAYS DEEHRRGIZE RFM-FCV-2h DOES NOT )) SEE PP-7h-h ON TT-Z-lhl VALVES RELAYS TO AHD DEEHERGIZE CLOSE OH TRIP OP GROUP F Sl)EETS 5&6 RFM-FSPV-2h RFM-FSPV-2A RPM-DT-lh BUT STILL 2) "RPT>>lh TURBINE HAS THROTTLIHG ~ TRIP CAPABILITY 3) RPT-lh TURBINE ALARMS )3-0)87 (29) ~< NIPP-2 COLD SIIUTDOWH SYSTEMS - HAIN STEAH APPENDIX iB GROUP K SHEET 30 OP-BUS BUS DEVICE DEVICE PRIMARY PRIHARY MEMBER DIB MEMBER DESCRIPTION EFFECT ON DEVICE EFFECT OH SYSTEH ALARM POINT  ? MC-1A A HS-V-108h MAIN STEAH SUPPLY TO MOV VALVE PAILS AS IS, NONE. LOSS OP VALVB POSITION-SEAL STH EVAP. (H.O.) POSITION INDI- XNDXCATIOH ON BD-B ChTIOH LOST I HS-V-110A STEAH TO SJAE HOV VALVE PAILS AS IS, NONE. LOSS OP VALVE POSXTION (H.O.) POSITION IHDI- ? COND-IIC-8h IHDICATIOH ON BD-B CATION LOST HS-V-70h MSR TEMP CONTROL MOV FAILS AS XSD N.O. NONE+ LOSS OP VALVE POSITION INDICATION ON BD-B HS-V-146 HSR ISOL. VALVE HOV FAILS AS IS, N.O. NOHE. LOSS OP VALVE POSITION 1HDIChTION ON BD-B Im-V-19h STH EYAP TO LP HTR 5h MOV FAILS AS IS, N.O. NONE, HOTB 2 LOSS OF POSITION ItIDICATION MC-1B A MS"V-105A STEAH TO RPM-DT-1h MOV PAILS AS IS, H.O. NOHE, LOSS OF VALVE POSITION I LOSS OF POSITIOH INDICATION ON BD-h 'I lhDICATIOH MC-2C B HS-V-101B MSR SECOND STAGE VALVE FAILS AS IS, NONB. LOSS OP POST IND. ON SIIUTOPF VALVE 11.0. POSITIOH INDICA- BD-B TION LOST HS-V-70C HSR TEHP CONTROL MOU FAILS AS IS, H.O. NONE. LOSS OP POST IHDo ON BD-B MC-2D B HS-V-110B STEAH TO SJAE HOV PAILS AS IS, N.O. NONE. LOSS OP VALVE POSIT. IND, COND-lIC-89 ON BD-B MS-V-105B STEAM TO RB/-DT-IB HOV PAILS AS IS, H.O. NONE. LOSS OF VhLVE POSIT. IND. OH BD-h HC-2R B IID-V-23A STH EVAP TO LP IITR HOV FAILS AS IS ~ N.O. NONE. NOTE 2 58 LOSS OP POSITIOtt IHDICATIOH 13-0187 (30) WNPP-2 'OLD SHUTDOMH SYSTEMS HAIH STEAM APPENDIX iB'ROUP K SHEET 31 0 6 BUS BUS DEVICE DEVICE PRIMARY PRIMARY EllHEEE DIV NUHBEE DESCRIPTION EFFECT OH DEVICE EFFECT OH SYSTEM ALARM POINT MC-2R B HS-V-103B HSR SECOND STAGE MOV PAILS AS IS, NONE LOSS OP VALVE POSIT. IHD. SHUTOPP VALVE (H.O.) LOSS OF POSI- ON BD-B TION IHDICATZOH HS-V-70D MSR TEMP CONTROL MOV PAILS AS IS, NONE. LOSS OP VALVE POSIT, IHD, (H.O.) LOSS OF POSI-, ON BD-B TION INDICATION HC-3B h MS-V-103h HSR SECOND STAGE HOV FAILS AS IS, NONE. LOSS OP VALVE POSIT ZHD, SHUTOPP VALVE (H,O.) LOSS OP POSI- ON BD-B TION INDICATION HS-V-70B MSR TEMP CONTROL HOV PAILS AS IS ~ NONE. LOSS OF VALVE POSIT. IHD, (H,O.) ON BD-B HC-3C h HS-V-110h STEAM TO SJAE MOV FAILS AS IS ~ HONE. LOSS OP POSIT IND. ON COND-HX-SA (H.O.) LOSS OP POSI- BD-B TION INDICATION PP-IB-A A MS-SPV-12A CONTROL AIR TO HS-V-)2A FAILS CLOSED- NONE. LOSS OP POSIT. INDICATION HS-V-12A (H.C.) POR HS-V-12h; MS-PCV-llh; HS-V-13A FAILS CLOSED- HS-PCV-12h; HS-PCV-13h (H.C.) ON BD-B HS-SPV-16h STEAM TO SJAE HS-PCV-16h, 17h THROT- NONE, LOSS OP POSITION IND, MS-SPV-17A TLE THZS IS THEIR POR BOTH VALVES ON NORMAL POSITION BD-B PP-2P-A B MS-SPV-12B CONTROL AZR TO HS-V-12B PAILS CLOSED- HONE. LOSS OP VALVE POSITIOH MS>>V-12B (H.C.) INDo FOR MS PCV I lhy MS-V-13B PAILS CLOSED- 12h, 13h AHD HS-V<<12B (N.C.) ON BD-B HS-SPV-)6B STEAH TO SJAE MS-PCV-16B, 17B THROT- NONE. LOSS OP POSIT, IND. POR HS-SPV-17B TLE; THIS IS THElR BOTH VALVES ON BD"B NORHAL POSITION I3-OI87 (31) llNPP-2 COLD SNUTDOuN SYSTEMS - HAIN STEAH APPENDIX B GROUP K SllEET 32 0 6 BUS BUS DEVICE DEVICE PRIMARY PRIMARY NUHMR D1V NIINBER DESCRIPTION EFFECT ON DEVICE EFFECT ON SYSTEH ALARH POINT PP-3A-A A MS-SPV-115A CONTROL AIR TO HS-TCV-115h CLOSES LOSE HhJOR PORTION OF 1) MAIN STEAH BYPASS MS-SPV-115B MS-TCV-115A 2ND STAGE HEATING ON STRAINER llI AP MOISTURE SEPARATOR 2) LOSS OF VALVE POSITION REHEATERS )h 6 1B INDICATION CONTROL AIR TO HS-TCV-115B CLOSES LOSE HMOR PORTION OF 1) HAIN STEAM BYPASS . i HS-TCV>>115B 2ND STAGE HEATING ON STRAINER llI AP MOISTURE SEPARATOR 2) LOSS OF VALVE POSITION REllEATERS 1h 6 lB INDICATION PP-2RA-B B HS-SPV-115C CONTROL AIR TO HS-TCV-1150 CLOSES LOSE HAJOR PORTION OF 1) HAIN STEAH BYPASS MS-SPV-115D HS-TCV-115C 2ND STAGE HEATING ON STRAINER NI hP MOISTURE SEPARATOR 2) LOSS OF STEAM TRAP. RENEATERS lh 6 1B BYPASS VALVE IND. ON BD-T PP-7A-Z A MS-TC-l)5 CONTROLLER FOR VALVES GO CLOSED LOSE 2ND STAGE llEAT-MS-TCV-116h ING ON MOISTURE SEPARATOR RENEATERS CONTROLLER FOR 1h AND 1B HS-TCV-116B CONTROLLER FOR HS-TCV-116C CONTROLLER FOR HS-TCV-116D MC-SC-B B HS-V-1 REACTOR llEAD VENT LOSS OF POSITION NONE NOTE 2 ~ INDICATION ON P601 HOV FAILS AS ISi (N.C.) B HS-V-2 REACTOR MEAD VENT LOSS OF POSITION NONE NOTE 2, INDICATION HOV FAILS AS IS, (N.C.) HC-SC-B B MS-V-5 REACTOR HEAD VENT LOSS OF POSITION NONE NOTE 2 ~ INDICATION OF P601 MOV FAILS AS IS (N,C.) 13-0187 (32) WHPP-2 COLD SHUTDOWN SYSTEMS - MAIN STEAM APPENDIX 'B'ROUP K SHEET 33 BUS BUS DEVICE DEVICE PRIMARY PRIMARY NUHMR lllU NUHRRR DESCRIPTION EFFECT OH DEVICE EFFECT ON SYSTEM ALARM POIHT RPS A B22-F022 MAIN STEAMLINE IH FAILS CLOSED IP B01ll SCRAMS REACTOR 120 VAC A,B,CR& D BOARD AOV SOL POWER IS LOST RPS B B22-F022 HAIN STEAMLINE IN FAILS CLOSED IP BOTH SCRAMS REACTOR 120 VAC A,B,C,& D BOARD hov SOL POWER XS LOST RPS h B22-F028 HAIN STEAHLINE FAILS CLOSED IF BOTH SCRAMS REACTOR 120 VAC A,B,C,& D OUTBOARD AOV RPS BUSSES ARE LOST RPS B B22-F028 HAIN STEAMLINE FAILS CLOSED IF BOTH SCRAHS REACTOR 120 VAC h>>BUCR& D OUTBOARD AOV RPS BUSSES ARE LOST PP-7A-A 1 MS-Ff-25A FLOW DETECTION AND AR-V-2h AHD 2B OPEN. NORHALLY OPEN, XF LOSS OP HOST BOP ANALOG AIR REMOVAL ISOLA- LOSS OF CONTROL FOR THIS TRAIH IS OPERA- LOOPS XH DIV 1 AHD DIV h TION LOGIC THESE VALVES TING. NO EFFECT WITH ASSOCIATED ALARMS OTHERWISE AND LOSS OF COHTROL AND INDICATION LOSS OF VOLTAGE IND, FOR PP-7h-h ON BD-C. PP-SA<<A 2 MS-Ff-25B PLOW DETECTION AND AR-V-2C AND 2D OPEN. NORMALLY OPEH, IF I) LOSS OF MOST BOP AIR REMOVAL ISOLA- LOSS OF CONTROL FOR THIS TRAIN IS OPERA- ANALOG LOOPS IN DIV 2 TIOH LOGIC TllESE VALVES TING. NO EFFECT AHD DXV B WITH ASSO-CIATED LOSS OF CONTROL AND INDICATION

2) LOSS OP VOLTAGE INDICA-TION FOR PP-BA-A ON BD-C.

USS-PP h MS-V-160A HS BYPASS VALVE LOSS OP PRESSURE CON- OPERATOR UHABLE To LOSS OP VOLTAGE IHD. OH VIA DEH MS-V-16OB SERVO ACTUATORS TROL FUHCTION AFTER CONTROL PRESS/TEHP US-PP VOLTMETER OH BD>>C PWR DIST HS-V-160C TURBINE TRIP. (BYPASS RAHP DOWN RATE LOSS OF DIGITAL CONTROL PANEL AL-2 MS-V-160D VALVES STILL OPEN ON SYSTEM TURBINE TRIP) RRA-PN-12 DC MCC IM HVAC PAN LOSS OP POWER h COMP>> MSS OP VAC-S2-tA RG 1>>4'f BISI UNIV FOR PAN>> RCIC 4 RHR SHVTDNCi "RRA-FIf 12 PWR LOSS>> LOSS OR COMP>> RM 4 COOLING "RCIC ~P-SERVICE"DIV 0 LOCJLL INDICATION WOV NEXMORX ae MSS/OL>> RQA-SPV>>12 DC HCC RM DA11PER LOSS OP PCMER TO SOL, LOSS OP NORMAL ROC "DC MCC IM AGAN-12 OPElULTOR SOL, VLV, VLV. MllICH CLOSES AIR FOR IKC M IMZP 11AHPER CLOSE" 13-0187 (33) IlANPER MHPP-2 COI.D SIIVTDOMN SYSTEMS - RIIR SIIVTDOMN COOI.IHG HODE APPENDIX IB CROUP L SIIEET 3$ 0 6 BVS BUS DEVICE DEVICE PRIMARY PRIMARY NllNNER DIV NNNBNR DESCRIPTION EFPECT OH DEVICE EPPECT ON SYSTEH ALARH POINT HC-7B I E51-C003 MATER LEG PVHP LOSS OP PVHP NOHE. 1) "RCIC-P-3 PMR LOSS'IGHT

2) "RCIC DIV ) OUT OF SERVICE" AHHVHC.

MC-7B-A I E12-F006A RIIR PUHP "h" SIIVTDOMN HOV PAILS AS IS (HC) SUCTION TO "h" LOOP 1) "HOV NETWORK PMR COOLING SUCTION LOSS OP POS. IND. LOST LOSS/OL" LIGIIT VALVE 2) "RHR h/LPCS OVT OP SERVICE" ANNUN. E12-F0538 RIIR PUMP "B" S/D HOV PAILS AS IS (HC) LOSS OP LOOP "B" 1) "HOV NETWORK PMR COOLING DISCH. VALVE LOSS OF POS ~ IHD. LOSS/OL'N LICIIT

2) "HS4 DIV I OUT OF-SERVICE" AHNUN.

E12-P053h RIIR PVHP "h" S/D HOV PAILS AS IS (HC) I.OSS OP LOOP "h" 1) "MOV NETWORK PMR COOLING DISCH VALVE LOSS OP POS. IND. LOSS/OL'I LICIIT

2) "HS4 Div 1 OVT OF SERVICE" ANHVH.

HC-SB-h 2 E12-F009 RIIR S/D COOI.IHG SUC<<HOV FhILS AS IS (HC) LOOP h AND B LOST I) "HOV NETMORK PMR TION VALVE LOSS OF POS. IHD. PROM VESSEL LOSS/OL" LIGHT

2) "NS4 DIV 2 OUT OP SERVICE" ANHUN E12-P006B RIIR PVMP "B" S/D MOV PAILS AS IS (NC) SUCTION TO "S" LOOP I) "HOV NETWORK PMR COOLIHC SUCTION LOSS OF POS. IND. LOST LOSS/OLn LICIIT VALVE 2) "RIIR B AND C OUT OP SERVICE" ANHVN HC-S2-Ih I E12-F008 RIIR S/D COOLINC SUC- MOV PAILS AS IS (NC) LOOP h AND B LOST 1) "MOV NETMORK PMR TION VALVE LOSS OP POS. IND. PROM VESSEL LOSS/OL" LICHT
2) "HS4 DIV ) OUT OP SERVICE" ANNUN.

DP-SI-ID I EI2-F008 RIIR S/D COOLINC SUC- MOV PAILS AS IS (NC) LOOP h AND B LOST I) "MOV NETWORK PMR TION VALVE I.OSS OP POS ~ IND ~ FROM VESSEL LOSS/OL" LIGIIT

2) "NS4 DIV I OUT OF SERVICE" ANHUH 13-0187 (34)

MHPP-2 COLD SHUTDOWN SYSTEMS RHR LOOP h APPENDIX IBi CROUP H SHEET 35 OP 66 BUS BUS DEVICE DEVICE PRIMARY PRIMARY NUHB ER DZV NUHBER DESCRIPTION EFFECT OH DEVICE RFPRCT ON SYSTEM ALARM POINT SM-7 Dl E12-C002A RHR PUMP B'h PIJMP INOPERABLE LOOP "h" OP RHR LOOP 1) BUS SM-7 UV ANNUNC. LOST 2) CB RHR-2h TRIPPED ANNUNC.

3) CB RHR-2h OUT OP SERVICE LIGHT ON F601
4) RllR LOOP "h" OUT OP SERVXCE ANNUNC.

SM-7 1 SM-P-)A STANDBY SERVICE LOSS OF PlJMP POWER LOSS OP RHR "h" HEAT BKR TRIP AND UNDER-MATER PUMP EXCHANGER AHD CRI- VOLTAGE AHHUHC. TICAL DIV 1 HVAC 5P-Sl-lh 1 H13-P629 CONTROL CKT PEED TO VALVE AUTO CKTS WILL LOSS OP RHR LOOP "h" 1) sBRELAY LOGIC ishsE 125 VDC RELAY LOGIC FOR RHR FAIL. VALVES MILL PMR FAILURE" ANNUN. "h" VALVE AND PUMP NOT OPEN OR CLOSE. 2) "LPCS/RHR h LOGIC CONTROL PUMP MILL HOT AUTO PMR FAIL" LXGHT ') START. "RHR h/LPCS OUT OP SERVICE" ANNUN DP-Sl-1D 1 125 VDC TO - C002A SMCR BREAKER PUMP MOTOR WILL NOT PUMP INOPERABLE, LOSS 1) "CB<<RHR" 2h OUT OP SM-7 SMGR COHTROL VOLTAGE HAVE TRIPPING OR 'OP RHR LOOP "h" SERVICE" LIGHT CLOSING CONTROL 2) "RHR h/LPCS OUT OP VOLTAGE SERVICE" AHNUH DP-Sl-ID 1 125 VDC CON- SM-P-lh BREAKER PIJMP MOTOR MILL NOT NO BREAKER CLOSURE RG 1 ~ 47 BZSI "BKR TROL PMR TO CONTROL VOLTAGE HAVE TRIPPING OR LOSS OF RHR "h" AND CB-SMIA OUT OF SERVICE SM-7 CLOSING CONTROL CRITICAL DZV 1 HVAC (SSM "h" OUT OP SERVICE" VOLTAGEBLOSS OP NOTE 2 INDICATOR LIGHTS RPS BUS A H13-P623 .RHR OUTBOARD VALVE LOSS OF RODS OPENING RHR S/D COOLING SUC- REACTOR SCRAM C72-F001 120V REACTOR CONTROL RElAY PEED MODE. FAILS VALVE TION FROM RECIRC LINE PROTECTIONS AUTO CONTROL CIRCUI- LOST BUS "A" TRY hHD CLOSES VALVE PP-7A-G 1 Tsl-21 TRAHSMITTER POR LOSS OP INTERLOCK TO NONE. BISI E'SUPV SYS TROUBLE" SM-LS- 1 h3 SW-P-lh AND SM-V-2A "SSM "h" OUT-OF<<SERVICE" FOR LOM WATER LEVEL 13-01B7 (35) Jy MHPP-2 COLD S))UTDOMN SYSTEMS RHR LOOP h APPENDIX B . CROUP M SllEET 36 0 BUS BUS DEVICE DEVICE PRIMARY PRIMARY HBHBRR DIV HIIHBRR DESCRIPTION EFPECT ON DEVICE EFFECT OH SYSTEM ALARM POINT PP-7A-G TSl-003 TRAHSHITTERS FOR RECEIVERS IH CONTROL LOSS OP INTERLOCK TO "STANDBY SM "h" SUPV B. TS1-004 SM-V-2A POS. ROOM WILL NOT C))ANGE SW-PCV-38hi KEEPING SYSTEH TROUBLE" TS1-001 SQITC)lES STATE. PCS ~ INDICA- Tl)IS VALVE CLOSED "SSM h OUT-OP-SERVICE" TS1-002 TION AND INTERLOCK TO LOSS OF SSM "A" LOOP TSl-022 SM-P-lh & SM-PCV-38h TS1-031 MILL HOT CllANCE I l't. PP-7A-C TSI-013 TRANSHITTER FOR RECEIVERS IN CONTROL NONE. "SSM h SUPV. SYSTEH ~ TS1-014 SM-V-12h POS ROOM MILL NOT CllANGR TROUBLE@ TS1-015 SMITC)lES STATE, PCS ~ INDICA- "SSW h OUT-OF-SERVICE" TS1-016 TION 'MILL NOT CHANGE TSI-017 TS1-024 PP-7A-G SM-SPV-38A SOLENOID VALVE POR SOLENOID VALVE MILL NONE. NONE. SM-PCV-38h, BACK DEEHERCIZE AND PRESSURE CONTROL SM-PCV>>38h MILL VALVE TllROTTLE OPEN TS1"037 TRANSMITTERS FOR SOLENOID VALVE QILL HONE "SSM h SUPV, SYSTEH TS1-038 SM-PCV-38h POS. IHD. DEEHERGIZE AND TROUBLE" Rsl-006 RECEIVES AND SUPV. SM-PCV-38h MILL "SSM h OUT-OP-SERVICE" RS1-007 RELAYS FOR COHTROL THROTTLE OPEH. POS. SS1-006 OF SM-SPV-38h IHD, MILL NOT C))ANGE E SS1-007 B PP-7A-C TS1-005 TRAHSHITTERS POR RECEIVERS IH CONTROL NONE. BBSSM h SUPV SYSTEH TS1-006 SM-V-69h POS. ROOM MILL NOT CllANGE TROUBLE" TS1-007 SMITCH STATE. POS. IHDICA- "SSM h OUT<<OF-SERVICE" TS1-008 TOR MILL NOT Cl)ANGE TS1-020 TS1-032 PP-7A-C TS1-009 TRAHSHITTER FOR RECEIVERS IH CONTROL NONE. "SSM h SUPV. SYSTEH Tsl-010 SM-V-70B POS. ROOM MILL HOT C))ANGE TROUBLEn Ts 1-011 SMITC)lES STATE. POS. INDICA- "SSM h OUT-OP-SERVICE" TS1-012 TOR MILL NOT Cl)ANGE Ts 1-023 TSI-033 B 13-0187 (36) QNPP-2 COLD S))UTDOQN SYSTEHS - R))R LOOP h APPENDIX ~B'ROUP H SHEET 97 0 6 BUS BUS DEVICE DEVICE PRIHARY PRIHARY NNHBER DIV NIIHBER DESCRIPTION EFFECT ON DEVICE EFFECT ON SYSTEH ALARM POINT f" PP-7A-G TS1-026 TRANSMITTERS FOR RECEIVERS IN CONTROL HONE. "SSM h SUPV. SYSTEM TS1-061 CONTROL OP-PRA-FN-1h ROOM MILL NOT C))ANGE TROUBLE" B I TS1-062 SUPV, RELAYS AND STATE (FAN MOULD SSM h OUT-OF-SERVICE@ SS1<<004 RECEIVERS FOR LOCAL AUTOMATICALLYOPERATE) SS1-005 OPERATING INDICATION SUPV. RELAYS MOULD I RS1-004 DEEHERGIZE AND LOSS B . RS1-005 OF LOCAL POS. IND. PP-7A-A SCS1-021 RECEIVER AND RELAYS LOSS OF INTERLOCK TO HONE. BISI RCS1-21 FROH SM-LS-1A3 SM-P-1h AND SW-V-2A "SUPV SYST)M TROUBLE" FOR LOM MATER LEVEL "SSM h OUT-OF-SERVICE" PP-7A-A RSC1-003 SUPV. RELAYS AND SUPV, RELAYS DEEHER- LOSS OF SSM LOOP h "STANDBY SM h S)JPV. RCS1-004 RECEIVERS FOR GIZE, LOSS OF POS ~ SYSTEH TROUBLE" RCS1-001 SM-V-2A POS. INDICATION AND VALVE "SSM h OUT-OF-SERVICE" RCS1-002 SMITCHES MILL FAIL-AS-IS NOTE 2 RCS1-022 (N.C.) RCS1-031 SCS1-003 SCSI-004 SCS1-001 SCS1-002 SCS1-022 SCSI-031 PF-7A-A RCS1-013 SUPV. RELAYS AND SUPV. RELAYS DEENER- LOSS OF SSM 'Nh" "SSM h SUPV. SYSTEM RCS1-014 RECEIVERS FOR GIZE LOSS OF POS. RETURH TO SPRAY TRO)JBLE" RCS1-015 SM-V-12h POS. INDICATION AND VALVE POND "B" BUT RETURN "SSM h OUT-OF-SERVICEBB RCS1-016 SMITC))ES MILL FAIL-AS-IS TO COOLING TOMERS NOTE 2 RCSI-017 (N.C.) R)MAINS OPERABLE RCS1-024 SCS1-013 SCS1-014 SCS)-015 SCS1-016 SCS1-017 SCS1-024 r )3-0)87 (37) ~ ~ B

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