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Forwards Addl Response to Generic Ltr 83-28,Item 1.2 Re post-trip Review,Data & Info Capability,Per 850815 Telcon & NRC 850719 Draft Technical Evaluation Rept.Reliability of Digital Data Processing Sys Also Discussed
	ML17342A212
Person / Time
Site:	Turkey Point
Issue date:	09/27/1985
From:	Williams J; FLORIDA POWER & LIGHT CO.
To:	Varga S; Office of Nuclear Reactor Regulation
References
	GL-83-28, L-85-364, TAC-53643, TAC-53644, NUDOCS 8510010361
	Download: ML17342A212 (42)
	v • d • e

REGULATU 'NFORMATION DISTRIBUTION STEM .

(RIDS)

ACCESSION NBR:8510010361=- DOC ~ DATE: 85/09/27 NOTARIZED: NO DOCKET FACIL'.50 250 Turkey Point Plant~ Unit 3< Flor ida Power and Light C'50Q0250 50 251 Turkey Point Plant.~ Unit 0i Florida Power and AUTH'YNAME>> Light C 05000251 AUTHOR AFFILIATION WILLIAMSrJ.W ~ Florida Power 5 Light Co ~

RECIP ~ NAME RECIPIENT AFFILIATION VARGAjS ~ AD Operating Reactors Branch 1

SUBJECT:

'.'For wards addi r esponse to Generic Ltr 83~28iItem 1 ~ 2., re post tr ip reviewrdata L info capabilityrper -850815 telcon NRC 850719 draft, technical evaluation rept ~ Reliabililty of digit;a.l data processing sys also discussed, DISTRIBUTION CODE: A055D COPIES RECEIVED;LTR ENCL Q SIZE:

TITLE.; OR/Licensing, Submittal; Salem ATWS Event GL 83~28 NOTES'L'e 05000250 07/19/72 05000251 OL 0 0/14/73 RECIPIENT COPIES RECIPIENT "COPIES IO CODE/NAME> LTTR ENCL ID CODE/NAME LTTR ENCL' NRR OR81 BC 01 INTERNALS ACRS 6 6 ADM/LFMB ELD/HOSP 1 0 IE/DI 1 1 IE/DQAVT 1 1 NRR/DE/EQB 1 1 NRR/OE/MEB 1 1 NRR/OHFS/HFEB 1.

NRR/DHFS/LQB 1 NRR/OL D IR 1 ~

NRR/DL/ORAB 1 1 NRR/OL/SSPB 1 NRR/OL/TAPMG 1 NRR/OS I/ASB 1 ~ 1 NRR/DSI'/ICSB 2 2 PSB 1 1 NRR/DSI/RSB 1 1 REG FILE 0$ 1 1 RGA2 1 EXTERNAL) 24X LPDR 03 NRC PDR>> 02 1 1 NSIC 05 TOTAL NUMBER OF COPIES REQUIRED: LTTR 32 ENCL 30

Cl t/

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P.O. BOX 029100 MIAMI,FL 33102 FLORIDA POWER & LIGHT COMPANY SEP P 7 1985 L-85-360 Office of Nuclear Reactor Regulation Attention: Mr. Steven A. Varga, Chief Operating Reactors Branch /PI Division of Licensing U.S. Nuclear Regulatory Commission Washington, D.C. 20555

Dear Mr. Varga:

Re: Turkey Point Units 3 and 0 Docket Nos. 50-250 and 50-251 Generic Letter 83-28, Item 1.2 Post Trip Review: Data and Information Capability NRC TAC Nos. 53603 and 53600 By'letter dated 3uly 19, 1985, you provided a Draft Technical Evaluation Report (TER) relating to post trip review data and information capability for Turkey Point Units 3 and The TER identified open items in the following areas: the parameters monitored by the sequence of events and the time history recorders, the performance characteristics of the time history recorders, and the long-term data retention capability for post-trip review material. The open items and the information required to complete your review were discussed with Mr. D.G. McDonald and Mr. 3.J. Kramer of the NRC in a conference call on August 15, 1985. The attached information documents the information discussed during that conference call, and also updates our initial response to Generic Letter 83-28 dated November 8, 1983.

In addition, we discussed the reliability/availability of the Digital Data Processing System (DDPS) with Mr. McDonald and Mr. Russ Brewer, IE Resident Inspector. Actions taken by FPL to improve the reliability of the DDPS are also discussed in Attachment l.

If you have any further questions, please call us.

Very truly yours, 3.W. Williams, 3r.

Group Vice President Nuclear Energy PDR001 036i 85D927 3WW/TCG/mls K OSOM25P 1

(

Attachments cc: Harold F. Reis, Esquire Dr. 3. Nelson Grace, NRC Region II PNS-LI-85-327/1 PEOPLE... SERVING PEOPLE

ATTACHMENT I Post Trip Review Data and information Capability Turkey Point Units 3 and 4 NRC 0 en Items The information supplied in response to Generic Letter 83-28 does not indicate that the post-trip review data and information capabilities are adequate in the following areas:

I. Based upon the information contained in the submittal, all of the parameters specified in part 2 of this report that should be recorded for use in a post-trip review are not recorded.

2. Time history recorders, as described in the submittal, do not meet the minimum per formance characteristics.

3. The data retention procedures, as described in the submittal, may not ensure that the Information recorded for the post-trip review is maintained in an accessible manner for the life of the plant.

It is possible that the current data and information capabilities at this nuclear power plant are adequate to meet the intent of these review criteria, but were not completely described. Under these circumstances, the

'licensee should provide an updated, more complete, description to show in more detail the data and information capabilities at this nuclear power plant. If the information provided accurately represents all current data and information capabilities, then the licensee should show that the data and information capabilities meet the intent of the criteria in part 2 of this report, or detail future modifications that would enable the licensee to meet the intent of the evaluation criteria.

(Reference NRC letter dated July l9, l985, Salem ATWS Event - Generic Letter 83-28, Item I.2 Post Trip Review: Data and Information Capability-Draft Technical'Evaluation Report.)

r FPL Res onse to 0 en Items ln the initial response to Generic Letter'83-28, FPL indicated that the data and information capabilities at Turkey Point Units 3 and 4 would be enhanced by installation of a new central computerized plant data and environmental monitoring system, the Safety Assessment System (SAS). The SAS is a redundant computer system that incorporates the following subsystems:

Digital Data Processing System (DDPS)

Safety Parameter Display System (SPDS)

Plant mimics for major plant systems Signals described in FPL Regulatory Guide I.97 Report Environmental Monitoring System Nuclear Chemistry Monitoring Database Historian This system has the capability to store l4 hours of plant information on hard disc, which can then be archived on 4 hour4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> magnetic tape. Magnetic tapes will be saved for 30 days before being overwritten with new data. As noted below, data relating to specific events will be retained.

\

Post trip review capability will be enhanced by this new system. The data

.base monitored has been enlarged from that monitored by. DDPS. The SAS data base is provided in Attachment 2. As noted above, the DDPS software, includes the sequence of events programs, will operate a part of SAS. 'hich The parameters for post trip review specified in the TER which were not previously recorded (i.e. containment radiation, steam generator pressure, feedwater flow, auxiliary feedwater system (flow, pump/valve status), AC and DC system status (bus voltage), diesel generator status and PORV position) will be available on SAS.

In addition, the following changes will be implemented to further enhance post trip review capability:

I. The scan rates for the parameters listed in Attachment 3 will be verified to be, or changed to IO seconds or less. This action will be completed by November 30, I 985.

2. A procedure for archiving of the SAS data base for a time period IS minutes prior and IS minutes post event will be provided. Archiving will be by'means of magnetic tape or paper output (hardcopy), which will become a quality document and be saved for the life of the plant. This action will be completed by'June 30, I 986.

3. DDPS post trip review files will be modified to archive data IO minutes prior and I0 minutes post event. This change from the existing 5 minutes prior and 3 minute post event will be implemented when DDPS software is generated on the SAS computers. This action has not yet been scheduled. The NRC Project Manager will be updated on the schedule by 6/30/86.

Portions of SAS are now operational on Unit 3. These include SPDS,

~

parameter trending, and the data base historian. The same capabilities will be available for Unit 4 following its next refueling outage, scheduled for early I 986.

2

i DDPS Reliabilit /Availabilit The reliability/availability of the DDPS were discussed with the Turkey Point NRC Project Manager/IE Resident Inspector.

On a number of occasions, FPL has experienced DDPS computer problems due to overheating of the DPS analog interface equipment. The addition of a chilled water cooling system to the cable spreading room has reduced the ambient temperature in the room resulting in improved system reliability/availability. The computer room containing the SAS computers (which will eventually process DDPS information) has redundant chilled water coolers. SAS is designed to be highly reliable.

Problems have also been experienced with mercury wetted switches "hanging-up", and either affecting certain parameters monitored by DDPS or locking up the system. Individual switches were replaced as necessary when those problems occurred. No other action has been taken.

FPL will provide additional historical information regarding DDPS reliability/availability to the NRC Project Manager/IE Resident Inspector.

Future DDPS problems will be evaluated with the goal of maintaining high reliability and availability of the system.

ATTACHMENT2 Parameter list for Scan Rates of IO second or less.

Reactor Trip Safety Injection Containment Isolation Turbine Trip Control Rod Position Neutron Flux, Power Containment Pressure Containment Radiation Containment Sump Level Primary System Pressure Safety Injection; Flow, Pump/Valve Status MSIV Position Steam Generator Pressure Steam Generator Level Feedwater Flow Steam Generator Pressure Steam Generator Level Feedwater Flow Steam Flow Auxiliary Feedwater System, Flow, Value Status AC and DC System Status {Bus Voltage)

Diesel Generator Status - Powering Safety Bus PORV Position

ATTACHMENT 3 SAS DATA BASE NOTE: THE LAST COLUMN HAS THE CURRENT SCAN RATE. THE FOLLOWING APPLIES.

SCAN CLASS SCAN RATE 1 sec 2 sec 4 sec 8 sec 16 sec 32 sec 60 sec

( (4(>4 i RL" >'RES4VRE RCS PRESSURE I HANNEL A CHAt(NEL D 0

0 10 10 VDC VDC

0. Gao

0. 000 10.

10.

000 000 a

0 3000 3000 PSIC PSIO

(

LIN>

LIN) I

)

~

)

I PT406 )

P1 455 PRESSURIZER PRESSURE CH I I 5 VDC I 000 5. 000 1700 2500 PSIO LIN) I PRESSURIZER PRESSURE CH 11 5 VDC I, 000 5. 000 1700 2500 PSIO L IN) I I 004 005 PT456 PT457 PRESSURIZER PRESSURE CH PRESSURIZER LEVEL CHANNEL I lll 1 I 5 5

VDC VDC I Coo I 000 5.

5, 000 000 1700 0

2500 100 PSIO LIN> I

( ( IN) I I

I ons LT4 59 1 007 LT460 PRESSURIZER LEVEL CHANNEL II 1 5 VDC I Goo 5. 000 0 100 X ( ( IN) I 008 L7461 PRESSURIZER LEVEL CHANNEL III 1 5 VDC VDC I 000 I 000

5. 000

'0 0

100 600 X

ht(P 8 L IN)

LIN) 1 6

009 3(>1) PRZR HTR CNTRL CR 3A CURRENT 1 1 010 3812 PRZR HTR SACK UP CR SA CURRENT I VDC 1 000 0 coo At>PS L IN) 1 6 011 3013 PRZR HTR BACK UP CR BR CURRENT I VDC 1. 000 5. 000 0 600 nt>PS ( LIN) 6 012 RV551A PRII(ARY SYSTEtl SRV POS 551h 0 VDC O. 000 2. 000 0 100 7 (SORT) 3 5 013 RV5518 PR(t>ARY SYSTE>( SRV P'~ 5518 0 2 VDC 0. 000 2. 000 0 100 X (SORT) 3 PRIMARY SYSTEH SRV PUB 551C 0 2 VDC 0. 000 2. 000 0 100 X (SORT) 3 5 014 RV551C D/L) 7 015 APB c CORE EXIT TEt(P INCQRE TC AOB N/A N/A 0. 000 0. 000 200 2300 DEO F ( 9 016 DP5 ~ conf ExlT Tft>P INcaRE Tc so5 N/A N/A 0. 000 0. 000 200 2300 DEO F ,( an> 7 9 017 810 CORE EXIT TE>(P - INCORE Tc BIO N/A N/A 0. 000 0. 000 200 2300 DEO F D/L) 7 9 nl8 'GB CORE EXIT TEt>P - INCORE TC COB N/h N/A 0. Qoo 0. 000 200 2300 DEO F D/L) 7 9 019 C12 ~ CORE EXIT Tft>P INCORE TC C12 N/A N/A Q. ooo 0. 000 200 2300 DEO F D/L) 7 9 Gi?0 D03 CORE EXIT Tft(P INCORE TC D03 N/A N/A Q. 000 0. 000 200 2300 DEO F D/L) 7 9 G21 D05

~

CORE EXIT TEt)P - INCORE Tc D05 N/A N/A 0. Coo 0. 000 200 2300 DEC F ( D/L> 7 9 pss f04

~

~ CORE EXIT Tft(P - INCORE Tc E04 N/A N/A Or Goo 0. 000 200 2300 DEO F ( D/L> 7 9 U23 E07 CORE EXIT Tft)P INCORE TC E07 N/A N/A 0. 000 0. 000 200 2300 DEO F ( D/L) 7 9 n24 EOB

~

~ CORE EXIT Tft(P - INCQRE TC EOB N/A N/A 0. 000 0. 000 200 2300 DEO F D/L) 7 9 025 026 fc1210 ~ CORE EXIT Tft(P CORE EXIT TE>(P INCQRE TC Elo INCORE Tc E12 t(/A N/A N/A N/A 0.

c.

000 ooo

0. 000

0. 000 200 200 2300 2300 DEO F DEO F D/L) 7 D/L> 7 9

9 027 E14-

~

CORE EXIT Tft(P - INCGRE Tc E14 N/A N/A 0. 000 0. 000 200 2300 DEO F ( D/() 7 9 028 F03 CORE EXIT Tf>(P - INCQRE TC F03 N/A N/A 0. 000 0. 000 200 2300 DEO F ( D/L) 7 029 FO5

~

CORE EXIT Tf>)P - INCORE TC F05 N/A N/A O. Ona 0. 000 200 2300 DEO F ( 0/L) 7 9 030 F09

~

CORE EXIT Tft(P - INCORE TC F09 N/A N/A 0. 000 0. 000 200 2300 DEO F ( D/L) 7 9 031 Ff 1

~

CORE EXIT TEt(P - INCDRE TC Fl1 N/A N/A 0. 000 0. 000 200 2300 DEG F ( D/L> 7 9 032 F13 CORE EXIT TEt>P - INCORE TC F13 N/A N/A 0. 000 0. 000 200 2300 DEO F ( 0/L) 7 9 033 GOI ~ CORE EXIT Tft(P INCORE TC Col N/A N/A 0. 000 0. 000 200 2300 DEO F ( D/() 7 9 (s.s4 002 ~ CORE EXIT Tft)P INCORE TC 002 N/A N/A 0. 000 0. 000 200 2300 DEC F D/L) 7 9 035 C06 ~ CORE EXIT Tft(P - INCORE Tc Cos N/A N/h 0. 000 0. 000 200 2300 DEC F ( D/L)

D/()

7 9 9

036 COB ~ CORE EXIT Tft>P INCORE TC OOB N/A N/A 0, 000 0. 000 200 2300 DEO F 7 0..7 015 ~ CORE EXIT TEHP INC(>RE TC 015 N/A N/A 0. 000 0. 000 200 2300 DEC F D/L) 7 9 038 H03 ~ CORE EXIT Tft>P INCORE TC H03 N/A N/A 0. 000 0. 000 200 2300 DEO F D/L) 7 9 039 ) >05 ~ CORE EXIT Tft(P INCGRE TC H05 N/A N/A 0. Cpo 0. 000 200 2300 DEO F ( D/L> 7 9 p4p HOB ~ CORE EXIT Tft>P INCORE TC HOB N/A N/A 0. 000 0. 000 200 2300 DEO F ( 0/L) 7 9 041 CORE EXIT Tft(P - INCORE TC H09 N/A N/A 0. 000 0. 000 200 2300 DEC F ( 0/L) 7 9 n42 Hl I CORF EXIT TEt(P - INCORE TC Hll N/A N/A a. Qoo 0. 000 200 2300 DEO F D/L) 7 9 0+3 '(13 COPE EXIT Tft>P - INCORE TC H13 N/A N/A 0. 000 0. 000 200 2300 DEO F ( D/()

0/L> 7 7 9 9

n44 H15c CORE EXIT Tft(P INCQRE TC H15 N/A N/A 0. 000 0. 000 200 2300 DEO F (

045 J02 COBE EXIT Tft(P INCORE Tc J02 N/A N/* 0. Qoa 0. 000 200 2300 DEO F 0/L) 7 9 nhs J)0

~

CORE EXIT Tft(P - INCQRE Tc Jlo N/A N/A 0. 000 0. 000 200 2300 DEC F D/L) 7 9 047 J12

~

~ -

carf EXIT Tft>P INCGRE Tc J12 N/A N/A 0. Qoo 0. 000 200 2300

DEO F D/L) 7 9 PnB K03 canc ExlT Tft>P INCORE Tc K03 N/A N/h 0. 000 0. 000 200 2300 DEC t. ( D/L) 7 9 049 K05 CORE EXIT Tft(P - INCORE Tc K05 N/A N/A 0. 000 0. 000 200 2300 DFO F ( D/L) 7 9 030 CORL EXIT Tftsr INCGRE TC KOB N/A N/A 0. Goo 0. 000 200 2300 DEO F ( D/L> 7 9

'OB

~

051 Kl I CORE EXIT Tft(P INCORE TC Kl1 N/A N/h 0. Coo 0. 000 200 2300 DFO F Q/L) 7 9 052 L06 CORE EXIT Tft(P - INCORE Tc L06 N/A N/h 0. Qoo 0. 000 200 2300 DEG F D/L) 7 Or,3 c Cat>f EXIT TEHP. - INCORE Tc LOB N/A N/A 0. 000 0. 000 200 2300 DEQ F ( D/L) 7 9

'OB 0'54 I 12 CORE EXIT Tft(P INCGRE TC L12 N/A N/A o. Gnn 0. 000 200 2300 DEO F ( D/() 7 9 Ac 5 CORE EXIT Tft(P INCGRE TC L14 N/h N/A 0. 000 0. 000 200 2300 DEO I. 0/() 7

'5s L>4')03

~ CORF EXIT Tft(P -

- INCORE TC t(03 N/A N/A N/A

0. Coo

0. 000

0. 000 200 200 2300 2300 DEO F DFO F

( D/L) 7 D/L) 7 9

9 057 t(09 s CORE EXIT Tft(P INCGRE Tc t(09 0..8 Hl 1 CORE EXIT Tft>P INCQRE TC t(11 N/A N/A 0. Poo 0. 000 200 2300 DEG F ( 0/L) 7 9 059 N04 CORE EXIT Tft(P INCORE TC N04 N/A N/h 0. Gpa 0. 000 200 2300 DEO F ( D/L) / 9 060 N06

~

CGHE EXIT Tft(P - INCQRE TC Nps N/h N/A 0. 000 0. 000 200 2300 Dfc F DEC F

( 0/L>

0/L>

7 7

9 9

061 CGRC EXIT Tft>P INCGRE TC NOB N/A N/A 0. 000 0. 000 200 2300

'PB Cas'F. EXIT Tft(P INCQRE Tc Nln N/A N/A. 0. Ooo 0. 000 200 2300 DFG F D/L> 7 9 as2

'l 0

063 csp7

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CcrE EXIT Tft>P - INCORE TC P07 N/A N/h 0. 000 0. 000 200 2300 DEG F D/L> 7 9

~ Lu)s L'~ ass(IS Coo V?)Pc

8<it'h a! Ii II:

1 I IVJ 1)4!,J! RCS HOT LEC WTR TEIIP LOOP A I 5 VDC 2. 000 10. 000 0 750 DEC F L IN) I 3 070 TE4118 RCS HOT LEC TEHP BYPASS LOOP A I VDC 000 5. 000 540 650 DEC F L IN) I 7 071 (E4234 i ACS HOT LEC HTR TEHP LOOP 8 I VDC 2. 000 10. 000 0 75O DEC F LIN) I 3 072 TE4239 RCS HOT LEG WTR TEIIP LODP 8 I '5 VDC 2. 000 10. 000 0 750 DEG F I IN) 3 TE4219 '73 RCS HOT LEC TEIIP BYPASS LOOP 9 VOC l. COO '5. 000 540 6'50 DEG F ( I IW) I 7 074 TE4334- ACS HOT LEC HTR TEIIP LOOP C I 5 VDC 2. Oooo 10. 000 0 750 DEC F ( LIN) I 3 075 TE4339 s RCS HOT LEC WTR TE)IP LOOP C I 5 VDC 2. 000 10. 000 0 750 DEC F ( L IN) 3 076 IE4319 ACS HOT LEG TEt!P BYPASS LOOP C I 5 VDC Coo 5. 000 540 650 DEC F ( LIN) I 7 077 'IE410A RCS COLD LEG WTR TEHP LOOP A I VDC 2. 0-3 10. 000 0 750 DEC F ( LIN) 3 078 TE4109 ~ ACS COLD LEC WTR TEt(P LOOP A I 5 VDC 2. OnO 10. 000 0 750 DEC F ( LIN) I 3 079 TE411C RCS COLD LEC Ttip BYPASS LOOP 4 I 5 VDC I OOO I 5. 000 510 620 DEC F ( LIN) I 7 080 Tf4204 ~ RCS COLD LEC WTR IEt(P LOOP 9 5 VDC 2. 000 10. 000 0 750 DEG F ( LIN) I 3 081 TE4209 ~ RCS COLD LEC WTR TEHP LOOP 8 5 VDC 2. 000 10. 000 0 750 DEC F ( LIW) 3 082 TE421C ACS COLD LEC Tt(P BYPASS LOOP 9 I VDC 1. 000 5. 000 510 620 DEC F ( LIN) 7 083 TC430A I ACS COLD LEC WTR TEt(P LOOP C 5 VDC 2. Cno 10. 000 0 750 DEC F L IN ) 3 084 TE4309 g ACS COLD LEC WTR TEtIP LOOP C I 5 VDC 2. 000 10. 000 0 750 DEC F LIN) I 3 085 TE43IC ACS CDLD LEC THP BYPASS LOOP C I 5 VDC 1. 000 5. 000 510 620 DEC F ( LIN) I 7 096 3P200* ACP 3A t(OTOR CURRENT I 5 VDC I COO 5. 000 0 1200 ht)PS ( LIN) I 5 087 3P2009 RrP 39 t)OTOR CURRENT ~ I 5 VDC I Coo 5. 000 0 1200 hHPS ( LIN) I 5 088 3P200C ACP 3C HOTOR CURRENT I 5 VDC I "00 5. 000 0 1200 htlPS ( LIN) I 5 089 FT130 RCP A SEAL MATER FLOW I '5 VDC 1. 000 5. 000 0 25 CPH L IW) ) 6 0'90 FT62'9 ACP A CCW RETURN FLOW I 5 VDC 1<<000 5. 000 0 200 CPII LIW) I 7 091 FT1564 ACP A Nl SEAL LE4KOFF FLOW-HI I 5 VDC 1. 000 5. 000 0 6 CPtl ( LIN) I 6 092 FTI569 ACP A Nl SEAL LEAKOFF FLOW-LO I 5 VDC 1. 000 5. 000 0 I CPII L IN) 6 093 PT131 RCP A SHAFT SEAL DELTA P I 5 VDC 1. 000 5. 000 0 100 "H20 ( LIW) I 6 094 PT156 ACP A Nl SEAL DELTA ~ I 5 VDC 1. 000 5. 000 0 400 P SIC ( LIN) I 6 095 TE)3) RCP A BEARING TE)IP I 5 VOO.a I 000 5. 000 50 300 ~ DEC F ( LIN) I 7 096 TE132 RCP 4 SHAFT SEAL TEHP I 5 VDC 1. 000 5. 000 300 DEC F ( LIN) I 7 097 TE4174 ACP A UPPER THRUST BEARING Tt)P I 5 VDC 1. 000 5. 000 50 300 DEC F ( LIN) I 7 098 TE4179 ACP A LOWER THRUST BEARING Tt)P I 5 VDC I 000 '5. 000 50 300 DEC F L IN) 7 099 IE4184 ACP

UPPER GUIDE BEARING TEtiP I 5 VDC 1. 000 5. 000 50 300 DEC F L IN) I 7 100 TE4189 ACP A STATOR WINDING TEtIP I 5 VDC 1. 000 5. 000 50 300 DEC F ( LIN) I 7 101 (E419 ACP A LOWER GUIDE BEARING TEHP I 5 VDC I 000 5. 000 50 300 DEC F ( L IN) I 7 102 I'(12/ ACP 9 SEAL HATER FLOW I 5 VDC I COO 5. 000 0 +25 CPI1 LIN) 6 103 FT632 RCP 9 CCW RETURN FLOW I 5 VDC I Coo 5. 000 0 CPM ( LIN) ) 7 104 FT155A RCP 8 Nl SEAL LEAKOFF FLOW-HI I 5 VDC I 000 5. 000 0 6 CPH (j LIN) I 105 FT1559 RCP 9 Nl SEAL LEAKOFF FLOM-LO I 5 VDC 1. 000 5. 000 I C PI( LIN) I 4
'06 PT128 RCP 9 SHAFT SEAL DELTA P I 5 VDC l. 000 5. 000 0! 100 "H20 ( LIN) I /
107 PT155 ACP 9 Nl SEAL DELTA P I 5 VOC 1. 000 5. 000 0 ~ 400 PSIG ( LIN) 6 108 TE128 RCP 8 BEAR INC TEtIP I VDC 1. 000 5. 000 '50 350 DEG F ( LIN) I 7 109 TE129 ACP 8 SHAFT SEAL TEt(P I VDC 1. OOO 5. 000 50 , 300 DEC F ( LIN) I 7 I 10 TE427A ACP 9 UPPER TIIPUST BFARIWG TIIP I 5 VDC 1. 000 5. 000 50 300 OEC F ( LIN) I 7 lll TE4279 112 TE428A ACP 9 LOWER TIIAUST BEARING THP ACP 9 UPPER CUIDE BEAR INC TEHP I
I 5
5 VDC VDC
1. 000
1. 000
5. 000
5. 000 50 50 300 300 DEG F DEC F
( L IN) I LIN) I 7
7 113 TE4289 ACP 9 STATOR WINDING TEt(P ,I 5 VDC I. 000 5. 000 50 300 DEC F LIN) I 7 114 TE429 RCP 8 LOWER CUIDE BEARING TEIIP I 5 VDC'DC I 000 5. 000 50 300 DEC F ( L IN) 7 115 F)124 RCP C SE*L HATER FLOW I 5, I Coo 5. 000 0 25 CPI1 LIN) 6 116 FI635 RCP C CCW RFTURN FLOW I 5 VDC 1. Coo 5. 000 0 200 0 Pt) ( L IN) 7 117 FT1544 ACP C Nl SEAL LEAKOFI= FLOW-HI 5 VDC 1. 000 5. 000 0 6 CPtl ( LIN) I 6 118 FT1549 ACP C Nl SEAL LEAKOFF FLAW-LO I 5 VDC I 000 5. 000 0 CPt( ( L IN) I 6 119 PT125 ACP C SHAFT SEAL DEL>4 P I 5 VDC 1. 000 5. 000 0 100 "H20 ( LIN) I 6 120 PT154 ACP C Nl SEAL DELTA I .5 VDC I eoo 5. 000 0 400 PSIG ( LIN) 6 I I eoo '5. 000 50 300 F L IN)
!'CP 121 TE125 C BEARINC TEHP 5 VDC DEC 7 122 TE126 ACP C SHAFT SE*L TEII~ I 5 VDC 1. COO 5. 000 50 300 DEG F L IN) I 7 123 TE4374 ACP C VPPEA THRUST BEARING Tt)P 5 VDC l. VOO 5. 000 50 300 DEC F ( LIW) I 7
)24 TC4379 PrP C LOWEA THAVST BEARIIIC THP I VDC 1. 000 5. ooo 50 300 DEC F ( LIN) I 7 Ic25 TC4304 I!CP C UPPER GUIDE BEaAING TFIIP I VDC l. 00O 5. 000 50 350 DEC F ( LIN) I 7 126 TE4300 I!Ap c BTATAA WINDING TEIIp I VBC 1. 000 5. 000 50 300 OEC F ( L IN) I 7
'I c'/ (i 43'/ s. L()WcA GUIDE BEARING )EHP 5 VDC 1. 000 5. Ooos 300 DEC F ( )N) 120 AS0 128 0. 0')s) 0. 000 129 TL 133 ACP As Bs C SEAL WTR RETVR(4 TEHP VDC 1. 000 5. 000 300 DEG F 130 AS0130 0. 000 0. 000 131 FT414 RCS FLOW LOOP A CH I I I
5 VDC I 000'.
000
5. 000
5. 000 0
0 120 120
'x ( Ll 4 132 F7415 ACS FLOW LOOP A CH 2 5 VDC X 7
)33 FT416 ACS FLOW LOOP A CH 3 I 5 VDC I. 000 5. 000 0 120 X ( L IN) 7 134 FT434 ACG FLOW LOOP 9 CH I I 5 VDC I n00 5. 000 0 120 X L IN) 7 ~
135 FT425 ACG FLOW LOOP 9 CH 2 I 5 VDC I 000 5. 000 0 120 X ( L IN) I 7 136 FT426 RCS FLOW LOOP 9 CH 3 I 5 VDC ~ 1. 000 5. 000 0 120 X L IN) I 7 137 FT434 RCG FLOW LOOP C CH I I 5 VDC 1. 000 ~ 5. 000 0 120 X ( L IN) 138 FT435 ACS FLOW LOOP C CH 2 I 5 VDC I 000 5. 000 0 120 'X ( LIN) 7 139 FT436 ACS FLOW LOOP C CH 3 I VDC I 000 5. 000 0 120 X ( LIN) I 7 140 RVL-A AX VESSEL WATER LEVE). CH A N/A N/A 0. 000 0. 000 0 100 X D/L) 7 9 ~
141 RVL-9 RX VESSEL WATER LEVEL CH 9 N/A N/A 0. 000 0. 000 0 100 X ( D/L) 7 9 SHP-A ACS PRESS SAT HARQIN CH A N/A N/A 0. 000 0. 000 3000 3000 PSI D/L) 7 9 142 143 SHP-9 RCS PRESS SAT HARGIN CH 9 N/A N/A 0. 000 0. 000 -3000 3000'00 PSI i(( 9/L) 7 9 ~
144 SHT-A RCS TEHP SAT t(ARQIN CH A N/A N/A 0. 000 0. 000 -2100 DEQ F ( D/L) 7 9 145 StlT-B ACS TEHP SAT HAAGIN CH 9 N/A N/A 0. 000 0. 000 2100 700 DEQ F ( D/L) 7 9 146 TT6397 REACTOR HEAD TEHPERATURE I 5 VDC 1. 000 5. 000 100 700 DEG F LIN) 147 TT6398 PRESSURIZER TEHPERATVRE I '5 VDC 1. 000 5. 000 100 700 DEG F ( LIN) I '6 lac TF1497 Clt(T ATHOSPHERE TEtlPERATURE I 5 VDC 1. 000 5. 000 0 300 DEQ F LIW) 4 149 TE1498 CTtlT ATHOSPHERE TEtlPERATVRE .I 5 VDC 1. 000 5. 000 0 300 DEG F ( LIN) 150 If.1499 CTHT ATHOSPHERE TEHPERATURE I 5 VDC GOO - 5. 000 0 300 DEQ F LIN) 4
)51 TE1493 CTHT COOLER 3A INLET TEHP I 5 VDC 1. 000 5. 000 0 300 DEG I. ( LIN) I 7 152 TE1481 CTHT COOLER 3A OUTLET TE)1P I 5 VDC I. 000 5. 000 0 300 DEQ F ( LIN) I 7
)53 TE1484 CTHT COOLER 39 INLET TEHP I '5 VDC 1. 000 5. 000 0 300 DEG F ( LIN) 7 154 (E1482 CTHT COOLER 39 OUTLET TEHP I 5 VDC 1. 000 5. 000 0 300 DEQ F ( L IN) 7 155 IL1487 CTHT COOLER 3C INLET TEHP I '5 VDC I. 000 5. 000 0 300 DEG F ( LIN)
I 56 )81495 CTHT COOLER 3C OUTLET TEHP I 5 VDC 1. Coo 5. 000 0 300 DEG F L IN) 7 157 TE1488 CTtlT COOLER 3D It4).ET TEt(P I 5 VDC I OOO 5. 000 0 300 DEG F L IN) I 7 158 IE 1486 CTtlT COOLER 3D OUTLET TEHP I 5 VDC I 000 5. 000 0 300 DEG F L IN) 7 ~
159 PT6306A CTHT WIDE RANGE PRESSURE CH A 0 10 VDC 0. 000 10. 000 0 180 PSIQ L I)4) I 160 PT63069 CT)IT WIDE RANGE PAESSUAE CH B 0 10 VDC O. 000 10. 000 0 180 PSIQ l L INl 1 161 PT6425A CTt)T NARROW RANCE PRESS CH A 0 10 VDC 0. 000 10. 000 6 18 PSIG L IN) l*2 PT64259 CTHT NARROW RANGE PRESS CH 9 0 10 VDC 0. 000 10. 000 -6 18 PSIQ LIN) I 4 163 LTI546 CTtlT SVHP LEVEL N/A N/A 0. 000 0. 000 0 300 GAL ( D/L) 7 9 164 LT6309A CTt(T SUHP NR WATER LEVEL CH A VDC 2. 000 10. 000 0 369 "H20 L IN) 7 .
165 LT63089 CTHT SVHP NR WATER LEVEL CH B I 5 VDC 2. 000 10. 000 0 369 "H20 L IN) 7 166 LT6309A CONTAINHENT WATER LEVEL Cl( A I 5 VDC 2. 000 10. 000 393 487. 5 NH20 ( L IN) 7 167 LT63099 COWTAINHENT WATER LEVEL CH B I 5 VDC 2. 000 10. 000 393 487. 5 "H20 (" LIN) 168 LT6421 RCS DRAINDOWN LEVEL 5 VDC 1. OOO 5. 000 0 100 X ( LIN) I 5 169 AE6307* CIHT H2 CONCENTRATION CH. A I 5 VDC 2. 000 10. 000 0 20 'XH2 (CALC) 6 7 170 AE63079 CTHT H2 CDNCENTAATION CH. B I 5 VDC 2. 000 10. 000 0 20 /H2 (CALC) 171 AE6372 RCS ACTIVITY CROSS CPS 0 10 VDC 0. 000 10. 000 IEI IE6 CPS LOG) 172 AE6373 CTHT AIR ANAL. "GAt(HA SPECTRVH 0 10 VDC 0. 000 10." 000 IEI lE6 CPS ( l.OQ) 173 AC6424 A< S BORON CONCENTRATION I 5 VDC I 000 5. 000 0 6000 PPH ( L IN) 7
)74 AE6453 ACS HYDROGEN CONCENTRATION I 5 VDC 1. 000 5. 000 0 100 X OF VOL( L IN) 7 I') 5 AC6454 ACS PH I 5 VDC I 000 5. 000 13 PH LIN) 1 7 lib AF6455 RCS CHLORIDE I VDC I 000 5. 000 0 20 PPH ( L IN) 177 AE64S6 llCS DISSOLVED OXYGEN 1 5 VDC I "00 5. 000 0 20 PPH L IN) 7 178 HP-ND69O PLANT tc ENVIRONS RADIATION N/A N/A 0. Coo 0. 000 0 IE38 l tlAN) 8 tl 179 t(P-R02 E)4VIAONS BETA/GAHHA DOSE RATE W/A N/A 0. 000
0. 000
0. 000
0. 000 0
0
, 5000 5E5 HR/HR CPH
( HAN) 8 l HAN) 8 H ~
130 HP2200 AIRBORNE RAD. b PARTICVLATF. N/A N/A H 181 llp6112 PLANT (s ENVIRONS RADIATION N/A N/h 0. 000 0, 000 0 1000 R/HR ( MAN) 182 Rl I CTHT PARTICULATE ACTIVITY 0 5 VDC 0. 000 5. 000 0 IE6 CPtl ( LIN) 183 RI2 COWTAINHENT GAS ACTIVITY 0 5 VDC 0. 000 5. 000 0 IE6 CPH ( L IN) 184 R14 PLANT VENT GAS ACTIVITY 0 5 VDC . 000 5, 000 0 IE6 CPS ( L IN) I 4 IBS R15 Col(DENSATE AIR EJECTOA (PRtlS) 0 5 VDC 0. 000 5. 000 0 IE6 CPH LIW)
)86 A17A CCl4 LOOP A, LEAI<AGE (PRHS) 0 5 VDC 0. Coo S. 000 0 IE6 CPtl LIW) I 6 187 A179 CCW LOOP 9 LEAI(AGE (PRHS) 0 5 VDC 0. 000 5. 000 0 IF.6 CPH ( LIW) I 6 188 R18 L!()sJID RELEASC CROSS ACTIVITY 0 5 VDC 0. 000 5. 000
5. 000 0
0 IE6 If,b CPG LIW) I
( L IW) I 6 ~
189 R19 STH GCN l.loUID SAHPLF ACTIVITY 0 5 VDC 0. 000 CPH 4 0
' 0
+20 ~~ ~
.o Lr. II/I:i>>H L Ilier AC I IVI ~ V I I. VVV J V4$ Tg<< n>(/no ~ U' 'I 191 HAD6304FLA PLANT VENT FLOW RATE N/A N/A 0. GOO 0. 000 0 80 L/H IN D/L) 7 7 192 BAD6304LH PLANT VENT CAS LOW RANCE AAD N/A N/A 0. 000 0. 000 IE 7 6E"2 VCI/CC D/L) 7 7 193 RAD6304MB
)94 RAD6304HB 195 AAO6304Ln>>
PLANT VENT GAS MID RANCE RAD PL*t(T VENT GAS HIGH RANGE RAD PLANT VENT IODINE N/A N/A N/A N/A N/A N/A
0. 000 000 000 0.
0.
000 2. 5E-2 000 IEO
0. 000 IEI 4E2 LE5 I E6 VCI/CC VC CP>1 I/CC 0/L)
I>/L) 7 D/L) 7 7 7 7
7 196 RADb304PoR PLANT VENT PAATICULATE N/A N/A 0. 000 0. 000 IE I LE6 CPM 0/L> 7 7 197 AAD6311A CTMT HA RADIATION CHANNEL 4 0 . 1 VDC 0. 000 10. 000 1EO IEB R/HR LOG) 4 4 198 RAD6311B CtMT HR RADIATION CHANNEL B 0 . I VDC 0. 000 10. 000 IEG 188 R/HR LOC) 4 199 RAD6417Lo AIA EJECTOR ChS LOW RANCE RAD N/A N/A 0. 000 0. 000 IE-7 6E-2 UC I/CC D/L) 7 7 200 BAD64 17t>R AIR EJECTOR GAS t11D RANCE'AD N/A N/* 0. 0. 000 2.5E 2 4E2 VCI/CC D/L) 7 7
/
000'.
201 RAD6417Ha AIA EJECTOR CAS HICH RANCE RAD N/A N/A 000 0. 000 IEO IE5 VCI /CC 0/I ) 7 202 RAD64 17100 AIR EJECTOR GAS LODL'. N/A N/A 0, 000 0. 000 LEI 1E6 CPM D/L) 7 7 203 RAO6417P/>>i AIR EJECTOR CAS PARTICULATE N/A 0. 000 0. 000 LEL LF6 CPM D/L) 7 7 204 RAO641BLR SPENT FUEL PIT GAS LnW RANCE N/A N/A 0. 000 0. 000 IC 7 6E-2 VCI/CC 0/L) 7 7 205 RAD64 I BMA SPENT FUEL PIT GAS.tIID RANCE N/A N/A 0. GOO 0. 000 2. 5E-2 4f ~
VCL/CC 0/L) .7 7 206 RAD6418Ho SPENT FUEL PIT CAS HIGH RANGE N/A N/A 0. 000 0. 000 IEO IE5 VC I/CC D/L) 7 7 207 RAD64101 ii ~ ~ SPENT FUEL PIT GAS IODINE N/A N/A 0, 000 0. 000 1EI lf6 CPM D/L) 7 7 i308 RAD64LBPAB SPENT FUEL PIT GAS-PARTICULATE I(/A I(/A 0. 000 0. 000 1EI lf6 CPM D/L) 7 7 209 RAD6426 STEA>1 LINE RADIOACTIVITY N/A N/A 0. 000 0. 000 IE-7 LE5 VCI/CC 0/L) 7 7 210 RDL401 IN-CTMT I>3 NEAR PERS HATCH I 5 VDC l. 000 5. 000 IE-I IE3 MR/HR LOC) 4 6 211 BD1402 I>3 FUEL TRANSFER CRANE BRIDGE I 5 VDC 1. 000 5. 000 IE-I LE3 MR/HR LOG) 4 6 212 BDI 403 IN-Ctt1T I>3 AT INCORE INSTR I 5 VDC 1. 000 5. 000 IE-I lf3 tIR /IIR LOG) 4 6 213 D1407 SPENT FUEL BLDG TRANSF CANAL I 5 VDC 1. 000 5. 000 IE-I IE3 MR/HR LOG) 4 7 2>4 BD1409 lANK I; PUMP ROOM EXPOSURE RATE 1 5 VDC 1. 000 5. 000 1E-I LE3 MR/HR LOG) 4 6
?15 BD1410 CHEtl STOR AREA EXPOSURE RATE I 5 VDC 1. 000 5. 000 LE-I IE3 MR/HR LOG) 4 6 216 RD1412 CASK WSH AREA B3 EXPOSURE RATE I 5 VDC I. 000 5. 000 IE- I IE3 MR/HR LOC) 4 6 217 RD1413 OUTSIDE SAtIPLE ROOM $ 3 I VDC 1. 000 5. 000 IE-I LE3 MR/HR LOG) 4 6 218 AD1415 NORTH END OF NO/SO CORRIDOR I 5 VDC I 000 '5. 000 IE- I IE3 MR/HR LOG) 4 6 219 BD1416 SOUTH END OF NO/SO CORRIDOR I 5 VDC 1. C4)0 5. 000 I E-I IE3 MR/HR LOG) 6 220 RD1417 EAST END OF EAST/WEST CORRIDOR I 5 VDC I. 000 5. 000 I E- I LE3 MR/HR LOG> 4 6 RD1418 WESI'ND OF EAST/WEST CORRIDOR I 5 VDC I. 000 5. 000 IE-I 1E3 tIR/HR LOC) 4 6 222 RD1420 COt(TROL ROOM RAD EXPOSURE RATE I 5 VDC 1. 000 5. 000 I E-I IE3 t1R/HR LOC) 6 2>> 3 RD1421 SPENT FUEL BUILDING UNIT 3 I 5 VDC 1. Gno 5. 000 LE-1 IE3 tIR /HB LOG) 4 6 224 RD1423 NEW FUEL BUILDING UNIT 3 I 5 VDC 1. 000 5. 000 LE-I IE3 MR/HR LOG) 6 2 l5 RD1419 SPENT FUEL PIT EXHAUST UNIT 3 I 5 VDC 1. 000 5. 000 1E-I LE3 MR/HR LOG) 226 IOM DfW- D LO METER DEW POINT (S. DADE) 0 5 VDC 0. 000 5. 000 0 120 DEC F L IN) 2?7 10>1-S/T I r 10 tlETER SIGMA THETA (T. P. ) 0 5 VDC 0. 000 ~ 5. 000 0 100 DEC L IN) 228 LOH-WD-SD 10 METER WIND DIRECTION (S. D. ) 0 5 VDC 0. 000 5. 000 0 540 DEG LIN) 2?9 10t> WD Lo 10 METER WIND DIAECTION (T. P. ) 0 5 VDC 0. 000 5. 000 0 540 DEC L IN)
Bo0 IOH-WS-SD 10 METER WIND SPEED (S. DADE) 0 5 VDC 0. 000 5. 000 0 120 tIPH LIN) 3 IA I 10t>-WS-To IO METER WIND SPEED (T. P. ) 0 5 VDC 0. 000 5. 000 0 120 MPH L IN) 3 132 60M DfW SD 60 METER OEW POINT (S. DADE) 0 5 VDC 0. 000 5. 000 0 120 DEC F L IN >
%33 60t(-WD-SU 60 METER WIND DIRECTION (S. D. ) 0 5 VDC 0. 000 5. 000 0 540 DEG L IN) 234 60H-WS-SD 60 METER WINO SPEED (S. DADE) 0 5 VDC. 0. 000 5. 000 0 120 MPH L IN) 235 D-TMP A- I EST It(*TE OF ATMOS. STABILITY 0 5 VOC 0. 000 5. 000 -5 5 DEC F L IN) 236 D-Tt'iP-0 CSTL>14I'E OF ATMOS. STAB ILL'IY 0 VDC 0. 000 '5. 000 5 DEC F I IN) I 5
>>M7 TMP A-SD AIR TEt>PERATURE CH. A (O. D. ) 0 5 VDC 0. 000 5. 000 0 120 DEG F L IN) 1 5 238 TI'iP-B-SD AIA TEMPERATURE CH. 8 (Q. D. ) 0 5 VDC 0. 000 5. 000 0 120 DEG F L IN) 5 2)19 BAIN-SD RAINFALL (S. DADE) 0 5 VDC 0. 000 5. 000 0 ~
I INCH LLN) I 7 240 SUN-D I R -SO DIAECT SOLAR RADI*TION (S. D. ) 0 5 VDC 0. 000 5. 000 0 3 I ANGL EYS( L IN) l4 I SVN TOT > i ~ tOTAL SOLAR RADIATION (S. D. ) 0 5 VDC 0. 000 5. 000 .0 3 LANGI EYS( LLN> 7 242 PT474 SIM CEN A PRESSURE CH/>NNCL II I 5 VDC 1. 000 5. 000 0 1400 PSIC L IN)
L IN) 243 PT475 STM CEN A PRESSURE CHANNEL 111 I '5 VDC 1. GVO 5. 000 0 1400 PSIC 2 2$ 4 PT476 STM CEN A PRESSURE CHANNCL IV I 5 VOC 1. COO 5. 000 0 1400 PSIC L IN) 245 PT404 STM CEN B PRESSURE Ct>ANNCL 11 1 5 VDC 1. C<<)0 5, 000 0 1400 PAL G L IN) 2 246 PT485 SIM CEN B PRESSURE CHANNEL ILI I 5 VDC 1. COO 5. 000 0 1400 PSIG L IN) 2 2o7 PT486 SIM CEN 8 PRESSURE CHANNEL IV 1 5 VDC 1. 000 5. 000 0 1400 PSIG L IN) 2 248 PT494 SIM CEN C PRCSSURE CHANNEL II 1 5 VDC 1. 000 5. 000 0 1400 PSIC L IN I 2 249 PT495 '>1 CfN C PRfSSVRE CHANN.":L 111 I 5 VDC 1. 000 5. 000 0 1400 PSIG LLN> 2 250 PT496 STM CEN C PRESSURE CHANNEL IV 1 5 VDC 1. 000 5. 000 0 I 400 PSIG L IN) I Wol PT464 SICht1 HfhDFR PRCSSURE I 5 VDC I I'00 5. 000 0 1400 PSIG L1N )
252 PT466 Stfht( HCADCA PRCSSURE I VDC I 000 5. 000 n 1400 PSIC LIN>
0
) I
P snb(I 5 'c:Aln I lt.ADER PRESSURE I 3 VDC 1 00 5. 000 0 1400 PSLG ( LIN) 3
)$ 4 RV 1400 SZH LI)4K A 108S PSL ISOL VLV 0 2 VDC 0. 000 10. 000 0 100 / (SGRT) 3I 7 235 RV1401 STH LINE A 1100 PSI ISOL VLV 0 2 VDC 0. 000 10. 000 0 100 X (SORT) 3 7 c256 AV1402 STM LINE A 1115 PSL ISOL VLV 0 VDC 0. 000 10. 000 0 100 x (SORT) 3 7 257 RVI 4 03 STM LINE A 1130 PSL ISOL VLV 0 2 VDC 0. 000 10. 000 0 100 x <SGRT) 3 7 258 RV1403 SZH LINK 8 1085 PSI ISOL VLV 0 2 VDC 0. 000 10. 000 0 100 X (SORT) 3 7 259 V1406 8ZH LINE 8 1100 PSI ISOL VLV 0 2 VDC 0. 000 10. 000 0 100 X (SGRT) 3 7 260 RV1407 STH LINE 8 1115 PSI IDOL VLV 0 2 VDC 0. 000 10. 000 0 100 X (SGRT) 3 7 cbL 262 RV1408 RV1410 STtl LINE 8 1130 PSI LSOL VLV STH LINK C 1085 PSI LSOL VLV 0
0 2
2 VDC VDC 0.
0.
000 000 10.
10.
000 0 0
100 / (SORT) 3 7 OPO 100 X (SGAT) 7 263 RV1411 STH Llt4E C 1100 PSI ISOL VLV 0 2 VDC 0. 000 10. 000 0 100 'X (SGRI) 3 7 264 RV1412 Sftl LINE C 1115 PSI ISOL VLV 0 2 VDC 0. 000 10. 000 0 100 X (SGRT) 3 7 265 RV1413 Sftl LINE C 1130 PSI LSOL VLV 0 2 .
VDC 0. 000 10. 000 0 100 X (SORT) 3 7 Bt6 LT474 SZH CEN A NR LEVEL CHANNEL I I 5 VDC 1. 000 5. 000 0 100 X ( LIN) I 2*7 LT475 SZM CKN A NR LEVEL CHANNEL LI 5 VDC 1. 000 5. 000 0 100 X l L IN) I 4 268 LT 476 STtl GEN A t4R LEVEL CHANNEL IIL I 5 VDC 1. 000 5. 000 0 100 X ( L IN)
LT477 STH CEN A WIDE RANCE LEVEL 5 'DC I 000 5. 000 0 100 x ( L'LN)
BiO LT484 STtl CEN 8 NR LEVEL C)(ANNEL I I 5 VDC I 000 5. 000 0 100 ~
X L IN) 4 271 LT485 STM GEN 8 NR LEVEL CHANNEL II I 5 VDC 1. 000 5."000 0 100 L IN) 272 273 LT486 LT487 Sl'M CEN 8 NR LEVEL CHANNEL STH CEN 8 WIDE RANCE LEVEL Ill I I
5 5
VDC VDC
1. 000
1. 000
5. 000
5. 000 0
0 100 X
X LLN) 4 4
100 LLN) 5 274 LT494 STM CEN C NR LEVEL CHANNEL I 1 5 VDC I 000 5. 000 0 100 X ( LLN) 4
. 273 L1495 STtl GKtl C NR LEVEL CHANNEL II I 5 VDC 1. 000 5. 000 0 100 X ( L IN) 4 276 LT496 SZM CKN C NR LEVEL CHANNEL 111 I VDC 1. 000 5. 000 0 100 X L IN) 4
'177 LT497 STM GKN C WIDE RANCE LEVEL I VDC 1. 000 5. 000 0 100 X ( llN) 5 278 F'Z 474 STM CEN A STM FLOW CH LII I VDC I 000 5. 000 0 4E6 LB/HR L IN) 3 279 FT475 SZM GEN A STtl FLOW C)4 IV I VDC l. 000 5. 000 0 4E6 LB/HR L LN) 3 BIr0 FT 484 STH CEN 8 STM FLOW CH LII I VDC 1. 000 5. 000 0 4E6 LB/HR LIN) 3 281 FT485 SZM CKt4 8 STtl FLOW CH IV VDC I 000 5. 000 0 4E6 LB/IIR ( L IN) 3 282 F7494 STM CEN C STM FLOW CH III I VDC 1. 000 5. 000 0 4E6 LB/HR ( LIN) 3 283 FT495 STtl CEN C Sit( FLOW CH IV I VDC I 000 5. 000 0 4Eh LB/HR L IN) 3 284 FT477 STH CEtl A MAIN FW FLOW CH III I VDC 1. 000 5. 000 0 4E6 LB/HR LLN) 3 145 F7476 STM CEN A MAIN FW FLoW CH IV I VDC- 000 5. 000 0 4Eh LB/HR L IN) 3 cII6 FT487 SZM CEtl 8 tlAIN FW FLOW CH III 1 VDC 1. 000 5. 000 0 4E6 LB/HR ( L IN) 3 e87 FT486 STH CEN 8 t(AIN FW FL(IW CH IV I VDC I. 000 5. 000 0 4E6 LB/HR ( LIN) 3 288 FT497 STtl GErl C MAIN FW FLOW CH III I VDC l. 000 5. 000 0 4E6 LB/HR L IN) 3 289 FT496 SLM CEN C MAIN FW FLOW CH IV I VDC 1. 000 5. 000 0 4 Eh LB/HR LIN) 3 290 PT1401A AFW FLOW TO STtl GKN A CH A I VDC 2. 000 10. 000 0 300 GPM (SORT)
~9 I F I 14018 AFW FLOW TO STM GEN A CH B I VDC 2. 000 10. 000 0 300 GPM (SORT) 292 FT 1457A AFW FLOW TO STtl CEN 8 CH A . I VDC 2. 000 10. 000 0 300 GPM (SGRT) 293 FT14578 AFW FLOW TO STtl CEN 8 CH 8 I VDC 2. 000 10. 000 0 300 CPM (SORT) 294 Fl1458A AFW FLOW TO STM GEN C CH A I VDC 2. 000 10. 000 0 300 GPM lSGRT) 295 FT1458B AFW FLOW TO STM CKN C CH 8 I VDC 2. 000 10. 000 0 300 GPM <SORT) cvh PT47% Pl?ZA RELIEF TANK PRESSURE VDC 1. 000 5. 000 0 120 PSIG ( LIN) 297 TE471 PRFSSURLZER RELIEF TANK TEMP I VDC 1. 000 5. 000 50 350 DEG F L IN) c298 LT470 PPFSSUP.IZER RELIEF TANK LEVEL I VDC 1. 000 5. 000 0 100 ( LIN) 299 N131D SZAAZUP RATE SAA I VDC 1. 000 5. 000 .5 5 DPH ( LIN) 300 NL32D SZARZUP RAZE SRB I VDC 1. 000 5, 000 .5 5 DPM ( LIN) 301 N135D SZAATUP RATE LRA I VDC 1. 000 5. 000 .5 5 DPH ( LIN) 302 N136D SZAATUP RATE IRB I VDC 1. 000 5. 000 .5 5 DPM ( LIN) 303 N3 I SOUACK RANGE NLS CH I 0 VDC 0. 000 5. 000 IEO LE6 CPS LOG) 304 N32 SOURCE RANCE NIS CH II 0 VDC 0. 000 5. 000 IF.O IE6 CPS I OG) 305 i435 It4fl:RMEDIATE RAtIGK NLS CH I 0 VDC 0. 000 5. 000 LE 11 LE-3 AMPS ( lar) 4 306 N36 IIILKAMKDLATERANCE NIS CH LI 0 VDC 0. 000 5. 000 IE-11 I E-3 AMPS <OG) 4 4 307 308 Nn I POWER RANGE NIS AVG POWER 0 VDC 0. 000 5. 000 0 120 / ( LIN) "I N4 IU P)4P AtIC NLS DET A UPR CURRENT 0 VDC 0. 000 5. 000 0 500 tl AMPS LLN) I 3 309 tin IL PWA AtIC NIS DET 8 LWA CURRENT VDC 0. 000 5. 000 0 500 H AMf'S ( <IN) 1 3 310 N41FDL Nnl RADIAL TILT N/A N/A 0. 030 0. 000 -100 100 (CALO) 6 3 311 N42 312 NnBU POWER AANGE PWA AIIC NIS NLS AVG PQWKA DEf A UPR CUARFNT 0
0 5 VDC 0. 000 5. 000 0 120 / L IN) ) 1 5 VDC 0. 000 5. 000 0 500 M AMPS 1 LN) I 3 313 N )2L PHA AIIG NLS Dl. f 0 LWA CURRENT 0 5 VOC 0. 000 000 0 500 M ASS ( LIN) I 3 314 Nn cBF Oi Nno 8/il)LAL 7 ll Z N/A N/A 0. 000 0. 000 -100 100 X (CALC) 6 3 31'5 N43 )Ourn r/r4GK Nl'VG POWER 0 VDC 0. 000 5. ODO 0 120 ( t IN) l 1
PIO t(W~4 iWM Mlhl HIS Gtl h U tt ( 1 CN . (.()V v 0 V M hl11'w L IN I 3 317 N43$ PWR RtlG NLS DET 8 LWR CURRENT 0 5 VDC 0. 000 5. 000 0 500 M AMP S L IN) 3 318 N43FDI N43 RADIAL TILT N/A N/A 0. 000 0. 000 -100 100 / (CALC) 319 444 POWER RANCE NIS AVG POWER 0 5 VDC 0. 000 5. 000 0 120 x ,( LIN) 320 N44U PWR RNG NLS DET A VPR CURRENT 0 5 VDC 0. 000 5. 000 0 '500 H AMPS ( LIN)
Jzl N44L PWR IINC NIS DET 8 LI4R CURRENT 0 5 VDC 0. 000 5. 000 0 500 t1 *MPS ( LIN) 322 N44FDI N44 RADIAL TILT N/A N/A 0:000 0. 000 -100 100 x (CALC) 323 RWSL-3A RWST LEVEL CHAN 3A LT3-6583A VDC 2. OQD 10. 000 0 33 Jooo CAL LLN) z~"1 RWST-38 RWST LEVEL CHAN 38 LT3-65838 5 VDC 2. 000 10. 000 0 335000 cnL ( LIN) 325 CST-A CST LEVEL CHAN h Lf6384A 10 VDC Q. 000 10. 000 0 250000 GAL ( LIN)
"sb CST-B Csr LEVEL CHA)4 8 LT63848 10 VDC 0. 000 10. 000 0 2SQQOO CAL ( LIN) 327 PT1612X *OSOLVTE CONDENSER PRESSURE l. 139 5. 000 VDC 1. 139 5. 000 . 17 5 "HG* ( LLN) 328 TE607A CCW HEAT EXCH A OUTLET TEMP I VDC 1. 000 5. 000 50 200 DEC F LLN) 329 TE6078 CCW HEAT EXCH 8 OUTLET TEMP I 5 VDC 1. 000 5. 000 50 200 DEC F ( LINI U.lo FT613A CCW HEADER A FLOW I VDC 1. 000 5. 000 0 14000 CPM (SORT) 331 FT6138 CC(4 HEADER 8 FLOW 5 VDC 1. 000 5. 000 0 14000 CPM (SORT) '
'J32 TE604A 333 TE6040 RHR RHR PUMP A DISCHARCE TEtlP PUMP 8 DISCHARGE TEMP I
1 5
5 VDC VDC 1.
1.
000 000
5. 000
5. 000 50 50 400 400 DEG OEG F
F
( 'LIN)
L IN)
~
3J4 'LE606 RHR HEAT EXCHANGER OUTLET TEMP I 5 . VDC 1. 000 5. 000 50 400 OEG F ( LIM) 335 FT605 UJ6 FT608 RHA RHR SYSTEH FLOW TEST LINE FLOW 1
I 5 VDC VDC 1 000 I 000
5. 000
5. 000 0
0 8500 300 CPM CPM (SGRT) t I IN)
~
337 FT)22 CHAI(GING FLOW I VDC 1 000 5. 000 0 150 GPH (SORT) 338 PT121 CHARCING PUMP PRESSURE I 5 VDC 1. 000 5. 000 0 3500 PSIG ( L IN)
J39 TE123 RHx cHARGING FLDI4 QUT TE LF I 5 VDC 1. 000 5. 000 100 600 DEG F ( LIN) 3do FTISP LOW P)tESS LETDOWN FL( V CONTROL 5 VOC 1. 000 5. 000 0 150 CPti (SORT) 341 LT$ 12 VOLUME CONTROL TANK LEVEL 5 VDC I 000 5. 000 0 100 x ( LIN) 342 LTIIS VOLUtlE CONTROL TANK LFVEL 5 VDC 1. 000 5. 000 0 100 x ( LIN) 343 PT1$ 7 VOLUME CONTROL T*NK PRESSURE 5 VDC 000 5. 000 0 100 PSIG LLN) 344 TE116 VOLU)1E CONTROL TANK TEMP VDC 1. 000 5. 000 50 300 DEC F ( LIN) 345 PT3-940 Sl PUMP HDR HOT LEC PRESSURE 5 VDC I 000 5. 000 0 2000 PSIC ( L IN) 3>b PT3-943 Sl PVtiP HDR COLD LEG PRESSVRE 5 VDC 1. 000 5. 000 0 2000 PSIG I. IN) 3A7 FT932 HHSI FLO (HOT LEC) It(SIDE CTtiT 5 VDC 1. 000 5. 000 0 600 GPM (SORT) 348 FT933 HHSI FLO (HOT LEC) IIISLDE CTHT 5 VDC 1. 000 5. 000 0 600 CPM (SORT) 349 F'13 940 HHSI FLOI4 TO HOT LEG 5 VDC I 000 5. 000 0 1000 CPM (SORT) 350 F13-943 HHSL TO BORON INJ TANK 5 VDC 1. 000 5. 000 0 1000 GPM (SORT) 331 PL921 ACCUtlVLATOR TANK A PRESSURE VDC 1. 000 5, 000 0 800 PSIC LIN) 352 PT923 ACCV)1ULATOR T*NK A PRESSURE 5 VDC 1. 000 5. 000 0 800 PSIC ( LIN) 353 PT925 ACCVI1VLATOR TAt4K 8 PRESSURE 5 VDC I 000 5. 000 0 800 PSIC L IN) 354 PT927 ACCVI1VLATOR TAt4K 8 PRESSURE '5 VDC 1. 000 5. 000 0 800 PSIC ( LIN) 3 5 PT929 *CCU)1ULATOR TA)4K C PRESSURE 5 VDC I 000 5. 000 0 800 PSLC L LN) 356 PT931 ACCUMULATOR TAt4K C PRESSURE 5 VDC 1. 000 5. 000 0 800 PSIC L IN) 337 LT920 ACCVt1ULATOR TANK A LEVEL 5 VDC 1. 000 5. 000 2000 9000 CAL ( LIN) 358 LT922 ACCUMULATOR TANK A LEVEL 5 VDC 1. 000 5. 000 2000 9000 CAL L IN) 4 359 LT924 ACCVt1ULATOR TANK 8 LEVEL 5 VDC 1. 000 5. 000 2000 9000 CAL ( LLN) 4 360 LT926 ACCUMULATOR TANK 8 LEVEL 5 , VDC 1. 000 5. 000 2000 9000 GAL ( L IN) 4 Ubl LT928 ACCUMULATOR Tnt(K c LEVEL 5 VDC 1. 000 5. 000 2000 9000 GAI LLN) 362 LT930 ACCUMULATOR I'nt)K C LFVEL 5 VDC 1. 000 5. 000 2000 9000 CAL ( LLN) 3&3 LT1001 WAS)'E HOLDUP TANK LEVEL 5 VDC 1. 000 5. 000 0 24000 CAL L IN) 7 364 PT$ 036 Cns DEcAY TnNK n I RErsURE 5 VDC 1. 000 5. 000 0 160 PSIC ( L IN) 6 365 PT1037 GAS DECAY TANK 8 PRESSURE 5 VDC 1. 000 5. ooo 0 160 PSIC ( LIN) 6 366 PT1038 Gns OEcnY TANK c PREssURE 5 VDC 000 5. 000 0 160 PSIC ( LIM) 6 367 PT1039 Gns DECAY TANK D PRESSURE 5 voc I 000 5. 000 0 160 PSIC ( LIN) 6 368 PT1052 GAS DECAY TANK E PRESSURE 5 VDC 1. 000 5. 000 0 160 PSLC '( LLN) 6 369 P T 1053 GAS DECAY TANK F PRESSURE VDC 1. 000 5, 000 0 160 PSIG ( L IN) 6 370 LT626'5 DLOWOOWN TANK LEVEL 5 VDC 1. QOO 5. 000 0 100 x ( LLN) 6 37 I F I 6274 DLOWDOWN HX TO CONDENSER 5 VDC I. COO 5. 000 0 71500 LS/KR I IM) I 6 372 3K4AMPS l)3 EMERC D/C A CURRENT TO UNIT 3 VDC 2. 000 10. 000 0 600 hMPS I LN) . 5 373 3K4htlPS->>4 EMERG. D/0 A CVRRENT TO UNIT 4 VDC 2. 000 10. 000 0 600 AMps L IN) I 5 374 3K4VOLTS Et1ERC. D/0 A VOLTS 5 VDC 2. 000 10. 000 0 5000 vnc ( LIN) 37 5. 3K 4 KW EMERG. D/0 A POWER N/A N/A 0. OOO 0. 000 0 2850 KW (CALC) 316 3nn Gwlfc)IGEnR 3A VOLTAGE I 5 VDC 2. 000 $ 0, 000 0 5250 VOLTS ( L IN>
\
377 Jhs 378 JAC SlllfcHCEAR 30 VOLTAGE SWIICHGEAR 3C Vol-TACE I
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~ 383 3041 384 3B>4 LOAD LOAD CENTER CENTER 3E VOLTACE 3F VOLTAGE I
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5 305 3B>5 LOAD CENTfR 30 VOLTACF. I 5 VDC 1. OOO 5. 000 0 600 VOLTS ( LIN) 5
~ 386 3B05 Mcc 3A BUs voLrncE MCC 38 BUS VOLTAGE I 5, 5
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6 Mlr7 3B06 1 388 3B07 t>CC 3C BUS VOLTAGE I 5 VDC 2. 000 10. 000 0 600 VOLTS L IN) I 6 0 389 BOB MCC-D BUS VOLTAGE t>CC-3E BUS VOLTAGE I
I 5
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6 390 JB 3(l 09'/4810 MCC-F WTR TRTt(T PLT I 5 VDC 000 5. 000 0 550 VOLTS LIN) I 6 6 39 3806<NV) MCC-3B NON-VITAL BUS STATUS MCC-3C NON-VITAL BUS STATUS 1 5 5
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6 393 3B07(NV) ) ~
394 608(NV) MCC-D NON-VITAL BUS STATUS I 5 VDC I 000 5. 000 0 550 VOLTS ( LIN) I 6 0 3B43 Cut>DENSATE POLISHINO RCC I 5 VDC 1. 000 5. 000 0 550 VOLTS '( 1 IN) 6 3(b 816 R*DWASTE GLDO t>CC-Blh I 5 VDC 1. 000 5. 000 0 550 VOLTS LIN) I 6 3'>7 3D23 125 VDC POWER SOURCE 3B BATT. I 5 VDC 2. 000 10. 000 0 150 VDC ( LIN) Ig~.dÃ 398 3DOI >25 VDC POWER SOURCE 3A BATT I 5 VDC 2. 000 10. 000 0 150 VDC ( L IN) 399 3YO I AMPS >20 VAC INVERTER 3A CURRENT I 5 VDC 2. 000 10. 000 0 100 ~ AMps ( L IN) 400 3YOI VOLTS 120 VAC 'INVfRTER 3A VOLTABE I 5 VDC 2. 000 10. 000 0 150 VAC ( L IN) 401 3Y02ht>P S 120 VAC INVERTER 38 CURRENT I 5 VDC 2. 000 10. 000 0 100 hMPS ( L IN) 402 3Y02VOLT. ~ I 0 VAC INVERTER 38 VOLTACE I 5 VDC 2. 000 10. 000 0 150 VAC LIN) 4A3 3Y05AMPS 120 VAC INVERTER 3C CURRENT I 5 VDC 2. 000 10. 000 0 100 At>PB ( LIN) no4 3YOSVO> TS 120 VAC INVERTER 3C VOLTA E I 5 VDC 2. 000 10. 000 0 150 VAC ( LIN) 405 3Y07AMP S 120 VAC INVERTER 3D CURRENT I 5 VDC 2. 000 ao. 000 0 100 hMPS ( LIN) 406 3Y07VOLTI> 120 VAC INVERTER 3D VOLTACE I 5 VDC 2. 000 10. 000 0- 150 VAC ( LIN) I +a.PC 4O7 3Y04AMPS >20 VAC INVERTER AS CURRFNT I '5 V.DC 2. 000 10. 000 0 100 "AMPS ( LIN) I ~/>/
408 3Y04VOL'll> 120 VAC INVFRTER AS VOLTAOE I 5 VDC 2. 000 10. 000 0 150 vnc ( LIN) I +8 r>t<6 409 3Yobht<PS 120 VAC INVERTER Cs CURRENT 5 VDC 2. 000 10. 000 0 100 LIN) I ~WX
~ 4lo 3Y06VOLTS 120 VAC INVERTER CS VOLTACE I VDC 2. 000
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0 150 VAC ( LIN) I ~AC/
411 VREF OAI OVDC REF t<ODACS A Fo Joo CH 0 0 0 MVDC 0 MVDC <VRFF ) N 8 412 VREF OA2 OVDC REF MODACS A Fo J03 CH 0, 0 0 MVDC 0. 000 0. 000 0 0 MVDC (VREF) N 8 0 4>3 VREF-OA3 OVDC REF MODACS A Fo J06 CH 0 OVDC REF MODACS A Fi Joo CH 0 0
0 0
0 MVDC MVDC
0. 000
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0 MVDC MVOC (VREF) N (VREF) N 8
8 414 VREF-OA4 4l5 VREF OA5 OVDC REF MODACS
Fl J03 CH 0 0 0 MVDC 0. 000 0. 000 0 0 MVDC (VREF) N 8 VREF-OA6 OYDC REF MODACS A Fi J06 CH 0 0 0 t>VDC 0. 000 0. 000 0 0 MVDC (VRE>.) N 8 I
4 ~ 7 VREF OA7 OVDC REF MODACS A F2 Joo CH 0 0 0 MVDC 0. 000 0. 000 0 MVDC (VREF) N 8 4>8 VREF OAS OVDC REF MODACS A F2 J03 CH 0 0 0 MVDC 0. 000 0. 000 0 0 MVDC (VREF) N 8
~ 4>9 VREF-OA9 OVDC REF MODACS A 0 0
0 0
MVDC 0. 000
0. 000
0. 000
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0 0
0 MVDC MVDC (VREF)
(VREF)
N N
8 8
430 VREF-OAI 0 OVDC REF MODACS A MVDC VREF-2AI 2VDC REF MODACS A Fo JOO CH 2 2 VDC 0. 000 0. 000 2 2 VOLTS (VREF) N 8
~ 452 VREF-2A2 2VDC REF MODACS A Fo J03 CH I 2VDC REF t<ODACS A Fo Job CH I 2 2 2
VDC 0. 000
0. 000
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2 2
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423 VREF-2h3 VDC 424 VREF 2A4 2VOC REF MODACS A Fl Joo CH I 2 2 VDC 0. 000 0. 000 2 '
Vo< Ts <VREF) N 8 VREF-DA5 2VDC REF MODACG A Fi J03 CH I 2 VDC O. 000 0. 000 2 2 VOLTS <VREF) N 8 426 VREF-2hb 2VOC REF MO<)ACS A Fl Job CH I \ 2 VDC C. 000 0. 000 2 VOLTS <VREF) N 8 427 VREF-2A7 2VDC REF MODACS A F2 JOO CH I 2 2 VDC =
0. 000 0. 000 2 2 VOLTS (VREF) N 8
~ 428 VREF 2hs P ~9 VREF-2A9 2VOC REF MODACS A F2 J03 CH I 2VOC REF MODACS A 2 2
2 VDC VDC
0. 000
0. 000
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2 2
2 VOLTS VOLTS (VRFF )
(VREF)
N N
8 8
4:0 VREF 2AIO 2VDC REF MQDACS A 2 2 VDC 0. 000 0. 000 2 2 VOLTS (VRFF) N 8 VREF-4A> aVDC REF MOD*CS A Fo JOO CH 2 4 4 VDC 0. 000 0, 000 4 4 VOLTS <VREF) N 8 432 VREF-4A2 avoc REF MODACS A Fo J03 CH 2 4 4 VDC 0. 000 0. 000 4 4 VOLTS (VREF) N 8 433 VREF-4*3 4VDC RfF MODACS A Fo Job CH 2 n VDC 0. 000 0. 000 4 4 VOLTS <VRE>. )
434 vREF 4Aa 4"DC REF MODACS A Fl Joo CH,2 4 4 VDC 0. 000 0. 000 4 VOLTS (VREF) N 8 435 VREF-nh5 avoc REF Moohcs A Fl J03 CH 2 n VDC 0. 000 0. 000 4 4 VOL IS <VRIF) N 8 4J6 VREF-4A6 nvDC REF MODACS A Fl Job CH 2 n VDC 0. 000 0. 000 4 VOLTS <VRFF ) N 8 437 VRfF-4A7 avDc REF Moohcs A'2 Joo CH 2 4 4 VDC 0. 000 0. 000 4 4 VOLTS <VRFF) N 8 438 VREF nAS avDC REF MODACS A F2 J03 CH 2 4 VDC 0. 000 0. 000 4 VOLTS (VRFF) N 8 439 VRfF-nn9 avoc REF t>DDAcs n 4 4 VOC 0. 000 0. 000 4 4 VOLTS <VRE F > N 8 440 VREF-ah>0 avoc REF MDDACS h 4 4 VDC 0. 000 0. 000 4 Vo<. Ts (VREF>
ha> VREF-BAl BVDC REF MODACS A Fo Joo CH 3 8 8 VDC 0. Coo 0. 000 8 8 VOLTS <VREF) N 8
0 l pl ~
v<<ct .QA< vi VV )it<< t>U<<i'd:s 6 FV JVJ < I< VUC V. UVV V. VVV vVL) 0 '<<Ct I 443 VREF-BA3 BVOC REF MODACS A Fo J06 CH 3 8 8 VDC 0. 000 0. 000 8 8 VOLTS <VREF) N 8 444 VREF-BA4 GVDC REF MODACS A Fl Joo CH 3 8 8 VDC 0. 000 0. 000 8 8 VOLTS <VRE) ) N 8 445 VAEF BA'5 BVDC REF MODACS A Fl J03 CH 3 8 8 VDC O. 000 0. 000 8 8, VOLTS <VREF) N 8 446 VAEF-Bhb BVDC REF MODACS A Fl Job CH 3 8 8 VDC 0. 000 0. 000 8 8 VOLTS (VREF) N 8
+ ii 7 VREF BA7 BVDC REF t<ODACS A F2 Joo CH 3 8 8 VDC 0. 000 0, 000 8 8 VOLTS (VRFF ) N 8 4". 8 VREF-BAO BVDC REF MODACS A )=2 J03 CH 3 8 8 VDC 0. 000 0. 000 8 8 VOLTS (VRFI.) N 8
+ il 9 VAEF-BA9 GVDC AEF MODACS A 0 8 VDC 0. 000 0. 000 8 8 VOLTS (VREF) N 8 4.0 VREF-Bhlo GVDC REF t<ODACS h 8 8 VDC 0. 000 0. 000 8 8 . VOLTS (VRE).) N 8 451 VREF-001 OVDC REF t<ODACS 9 Fo JOO CH 0 0 0 MVDC 0. 000 0. 000 0 0 MVDC (VREF) N 0 452 TREF 002 OvDC REF t<ODACS 0 Fo J03 CH 0 0 0 HVDC 0. 000 0. 000 0 0 MVDC (VRFF) N 8 3 VREF 093 OVDC AEF tlODACS 0 Fo Job Ctl 0 0 HVDC 0. 000 0. 000 0 0 MVDC (VRFF) N 8 454 VREF-004 OVOC REF MODACS 0 Fl Joo CH 0 0 0 HVDC 0. 000 0. 000 0 0 MVDC (VREF) N 8 455 VREF 095 0'/DC REF t<ODACS 0 Fl J03 CH 0 0 0 HVDC O. 000 0. 000 0 0 t<VDC (VREF) N 8 456 VREF-006 OVDC REF MODACS 0 Fl Job CH 0 0 0 MVDC 0. 000 0. 000 0 0 llVDC (VREF) N 8 4<<7 VREF-OD7 OVDC REF tlODACS 9 F2 Joo CH 0 0 0 HVDC 0. 000 0. 000 0 0 MVDC (VAEF) N 8 450 VREF-008 OVOC REF MODACS 0 F2 J03 CH 0 0 0 HVDC 0. 000 0. 000 0 0 MVDC (VRFF) N 8 4 <<iy VREF-009 OVDC REF tlODACS B 0 0 HVDC 0. 000 0. 000 0 0 t<VDC (VREF) N 8 460 VREF-0010 OVDC REF tlODACS 9 0 0 HVDC 0. 000 0. 000 0 0 MVDC <VRFF) N 8 4 ci I VREF-201 2VOC REF MODACS 9 Fo Joo CH I 2 VDC 0. 000 0. 000 2 2 VOLTS (VREF ) N 8 4L VREF-292 2VDC REF HODACS 0 Fo J03 CH 1 2 VDC , o. ooo 0. 000 2 i VOLTS (VREF) N 8 463 VAEF-203 2VDC REF MODACS 0 Fo Job CH I 2 VDC ~. ooo 0. 000 2 2 Vol.TS (VRFF) N 8 464 VREF-294 2VDC REF tloDACS 9 Fl Joo CH 2 2 VDC 0. 000 0. 000 2 2 Vol.TS (VRFF) N 8 465 VREF-205 2VDC REF MODACS 9 Fl J03 CH I l 2 VDC 0. 000 0. 000 2 2 VOLTS (VRFF) N 8 416 VAEF-20* aVOC REF MODACS 0 Fl Job CH I 2 2 VDC 0. 000 0. 000 2 2 VOLTS (VAI F) N 8 rt67 VREF-207 2VDC REf t<ODACS 0 F2 Joo CH I 2 2 VDC 0. 000 0. 000 2 2 VOLTS (VRFI ) N 468 VAEF-208 2VDC REF MODACS 8 F2 J03 CH I 2 2 VDC 0. 000 0. 000 2 2 VOLTS (VREF) N 469 VREF-209 2VDC REF t<ODACS 0 2 2 VDC 0. 000 0. 000 2 2 VOLTS <VRFF ) N 4/0 VREF-2010 2vOC REF MODACS 0 2 2 VDC 0. 000 0. 000 2 2 VOLTS <VREF) N 8 4'i I VREF-401 4VDC REF MODACS 0 Fo Joo CH 2 VDC 0. 000 0. 000 4 4 VOLTS (VAFS ) N 8 472 VAEF-402 4VDC REF MDDACS 0 Fo J03 CH 2 4 VDC 0. 000 0. 000 4 VOLTS (VRFF) N 8 473 VREF-403 4VDC REF MODACS 0 Fo J06 CH 2 VDC 0. 000 0. 000 4 VOLTS (VR&f) N 8 474 VREF-.404 4VDC REF MODACS 0 Fl Joo CH 2 4 4 VDC 0. 000 0. 000 4 VOLTS <VRFF) N 8 475 VREF-405 4VDC REF MODACS 0 Fl J03 CH 2 4 4 VDC 0. 000 0. 000 4 4 VOLTS (VRFF) N 8 476 VREF-406 4VDC REF t<ODACS 0 Fl J06 CH 2 4 4 VDC 0. 000 0. 000 4 4 Vol.TS (VRFF) 477 VREF-407 4VDC REF t<ODACS 0 F2 Joo CH 2 4 4 VDC 0. 000 0. 000 4 VOLTS (VRFF ) N 0 478 VREF 490 4VDC REF t<ODACS 9 F2 J03 CH 2 4 VDC 0. 000 0. 000 4 VOLTS (VREF) N 8 479 VREF-409 4VDC REF t<ODACS 0 4 VDC 0. 000 0. 000 4 VOLTS (VRF).)
480 VREF-4010 4VDC REF MODACS 0 4 VDC 0. 000 0. 000 VOLTS <VRFF)
<<VI VREF-801 BVDC REF t(ODACS 0 Fo Joo CH 3 8 8 VDC 0. 000 0, 000 8 8 VOLTS (VAEF) N 482 VREF-802 OVDC REF MODACS 0 Fo J03 CH 3 8 8 VDC 0. 000 0. 000 8 8 VOLTS <VREF) N 403 VREF-803 GVDC AEF MODACS 9 FO J06 CH 3 8 8 VDC 0. 000 0. 000 8 8 VOLTS (VR&f) N 8 4<)4 VREF 004 BVDC REF )10DACS 0 Fl Joo CH 3 8 8 VDC o. Coo 0. 000 0 8 VOLTS (VREF) N 8 405 VREF 805 GVDC REF MODACS 0 Fl J03 CH 3 8 8 VDC 0. 000 0. 000 8 8 VOLTS <VAEF) N 8 406 VREF-006 GVDC REF tloDACS 0 Fl J06 CH 3 0 8 VDC 0. 000 0. 000 8 8 VOLTS <VREF) N 8 nn7 VAEF-097 GVDC AEF Manncs 0 F2 Joo CH 3 8 8 VDC 0. 000 0, 000 8 8 VOLTS (VRFF) N 8 4<)0 VREF-SDB GVDC AEF MOUACS 0 F2 J03 CH 3 8 8 VDC 0. 000 0, 000 8 8 VOLTS <VRFF) N 8
)cl9 VAEF-809 GVDC REF MODACS 0 8 8 VDC -0. 000 0. 000 8 8 VOLTS (VAFF) N 8 490 VREF-8010 BVDC REF tloDACS 0 0 8 VDC 0. 000 0. 000 8 8 VOLTS <VREF) N 8 N/A N/A 0. 000 0. 000 0 100 ! ( 0/L) 7 491 DDPS044 PRESSURIZER LEVEL WIDE RANCE 492 DDPS050 TURBINE FIRSf STC PRFRS CI< 3 N/A Nlh c. ooo 0. 000 0 120 / D/L) 7 9 493 DDPS052 PAESSUR I ZER LIQUID TEMPERATURE N/h N/A 0. 000 0. 000 100 700 DEC F ( D/L) 7 9 494 DDPS053 PACSSURI ZER STEhtl TEt(PERATURE Nlh N/h 0. 000 0. 000 100 700 DEC F ( D/L) 7 9 495 DDPS079 STM CEN SLOWDOWN FLOW N/A N/A C. 000 0. 000 0 IE5 LB/HiR ( D/L) 7 9 496 DDPS104 INfAKE COOLINC WATER TEMP win N/A C. 000 0. 000 0 200 DEC F ( 0/L) 7 497 DDPS127 TURBINE CONTROL OIL PRESSURE N/n N/h 0. 000 0. 000 0 100 PSI ( D/L) 7 9 loB DDP 0138 CCNERATOR t<ECAWATTS INDICATION N/h N/A '. 000 0. 000 0 1000 MW D/L) 7 9 499 DDPS145 FEEDWATER TEMPEIIATURE I N/n "Nrn 0. 000 0. 000 300 450, DEC F ( 0/L) 7 9 500 DDP5147 CEt<EAATOR MECAVARS INDICATION N/h N/h 0. 000 0. 000 '500 300 HVAR DIL) 7 9 RWST-4h RW3f LEVEL CHAI< 4A LT4-6503A I 5 VDC 2. 000 10. 000 0 335000 CAL L IN) I r 01 RWST-49 PWSf LEVEL Ct(AN 49 I.T4-65839 I VDC 2, 000 10. 000 0 335000 CAL L IN) I I 503 P14-940 Ol PUMP HDR Hof LEC PRESSURE 5 VDC 1. 000 5. 000 0 2000 PSIC ( LIN) I 7 4 PT 4-943 Sl PUMP HDA COLI) LFC PRESSURE I 5 VDC I. COO. 5. 000 0 2000 PSIC ( L IN) I 7
505 ~ - r 4-940 irrr.~( I LOW fO 19)l LEO I VDC l. 000 S. 000 0 1000 CPN (SORI ) 3 4
~ 5vb 507 F I 4-943 4K4AMPS-i)4 Hi)GI TO BORON INJ D/0 8 CURRENT TO UNIT 4 Tn"4'MERQ.
I I
5 5
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L IN) 508 4K4AMps " ENERO. D/0 8 CURRENT TO UNIT 3 I 5 VDC 2. Qoo 10. 000 .0 600 AMps I(IN)
~ 509 510 4K4VALTG 4K4KW EMERQ.
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D/0 D/0 9 VOLTS 9 POWER I
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I 5
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~ 5!8 4Y05ANps (20 VAC INVERTER 4C CURRENT I 5 VDC 2. 000 10. 000 0 100 aMps L IN) 519 4YOSVOLTI) )PO VAC INVERTER 4C VOLTACE I 5 VDC 2. 000 10. 000 0 150 VAC LIN) I 4-IIcg~
5:?0 4Y07AMPS l20 VAC INVERTER 4D CURRENT I VDC 2. 000 10. 000 0 100 AMPG ( LIN) 0 4Y07VOLTG 120 VAC INVERTER 4D VOLTAQE I I
5 VDC 2. 000
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522 4Y04At'PS 120 VAC INVERTER BS CURRENT 5 VDC 100 AMPS LIN) I 0
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4YobnMps 120 VAC INVERTER DS CURRENT I I
5 VDC 2. 000
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525 4Y06VOLTS 120 VAC INVERTER DS VOLTACE 5 V DC 150 vnc LIN) I 526 PRZ AVPRES PRESSURIZER AVERAQE PRESSURE N/A N/A 0. 000 0. 000 1700 2500 PSIO (CALC) 6 3 PRZ AVLVL PRESSURIZER AVERAQE LEVEL M/A N/A 0. 000 0. 000 0 100 X (CALC) 52S THA AVTEHr RCS HOT LEQ A AVO N/A NlA 0. 000 0. 000 0 750 DEQ F (CALC) 6 3 529 THB AV'fE ar HOT LEQ 9 AVO TE'CS NlA N/* 0. 000 0. 000 0 750 DEQ F (caLc) 6 3 0 54o THC-AVTE".
TE'F'CG HOT LEQ C AVQ TEr(~ t(/A N/A O. 000 0. 000 0 750 DEQ F (CALC) 3 0
~r TCA-AVTE" RCS COLD LEO A AVO TE P NlA N/A 0. 000 0. 000 750 DEO I- (caLc) 6 '3 532 TCB-AVTE RCS COLD LEO 8 AVO TEMP M/A N/A 0. 000 0. 000 0 750 DEQ F (CALC) 6 3 0 TCC-AVTE'.. RCS COLD LEQ C AVQ TENP NIA N/A 0. 000 0. 000 0 750 DEQ F (caLc) 534 RCSA-AVFLO RCS A AVERAGE FLOW N/A N/A 0. 000 0. 000 0 120 / (CALC) 6 3 535 RCSB-AVFLs ~ RCS 9 AVERAQE FLOW N/A Mrn 0. 000 0. 000 0 120 (ca(.C) 6 3 Rcsc AVFLD S37 AVQ-STAB Rcs c AvERAQE FLow AVO EST OF ATMOS STABILITY N/A M/A NlA N/A
0. 000 Q. 000
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(caLc1 6 3 0 5 5 DEQ F 3 538 SQA-AVPREG Sftl CEN A AVERAQE PRESSURE N/A N/A 0. 000 0. 000 0 1400 PSIQ (CALC) 6 3 0 539 SCB AVPRC:
540 SCC-AVPRr.'"
~ SfN QEN 8 AVERAGE PRESSURE N/A N/A N/n N/A O. 000
0. 000
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0. 000 0 1400 PSIO (caLc) 3 ~
STtl CEN C AVERAGE PRESSURE 1400 PSIO (caLC) 6 3 541 GQA AVLVL Sit) CEN A AVERAGE NR LEVEL N/n M/A 0. 000 0. 000 0 100'00 X (CALC) 6 3
~ 54 GQB-avLVL 543 scc-nvLvL Sftl CEN 8 AVERAGE NR LEVEL N/A N/n N/A N/A
0. 000 0. 000 0 X (CALC) 6 3 ~
SIM QEN C AVERAGE NR LEVEL C. 000 0. 000 0 100 X (CALC) 6 3 544 HWST3AVLVL RwsT (UNIT 3) AVERACE LEVCL M/A N/A 0. 000 0. 000 0 335000 Qal (CALc1 6 3 RWST4AVLVL 546 VCT AVLVL RWSf (UNIT 4) AVERAGE LEVCL VO(.UME CONTROL TANK AVQ LEVEL M/n N/A N/A N/A
0. 000
0. 000
0. 000 0
0. 000 0 335000 100 Qa(
X (CALC)
(CALC) 6 3
3
~
S47 ACCA-*VPRG accUMULATOR A AVQ PRFSS t(/A N/A 0. 000 0. 000 0 800 PSIQ (CALC) 6 3
~ 548 AccB avpRG 549 Accc-nvpR>
ACCUMULATOR 8 AVQ PRESS accUMULATDR c nvo pREBG NIA NlA N/n N/A
0. 000
0. 000
0. 000 0
0. 000 0 800 800 PSIQ PSIQ (CALC)
(caLc) 6 3 ~
3
~, 550 accA AVLVL 551 ACCB AVLVL 552 ACCC-AVLVL acCUMULATOR A AVQ LEVEL aCCVMULnTOR 9 rrVC LEVEL accvt(ULATDR c avc LEVEL N/A M/A N/A N/n Nrn M/n
0. 000
0. 000
0. 000
0. 000 2000
0. 000 2000
0. 000 2000 9000 9000 9000 QAL caL GAL (CALC) 6 (CALC)
(CrrLC ) 63 3
553 FT6277A Gft( ccN a BLowDowN FLow I 5 VDC 1. 000 5. 000 0 200000 LB/HR ( LIN) I 4 554 FT62779 GIN CEN 9 BLOWDOWN F(.OW I 5 VDC l. 000 5. 000 0 200000 LB/I((( L IN)
~
555 556 557 558 559 FT6277C FT6585A FT65859 FT6585C F(6584 SIM CEN C SLOWDOWN FLOW RCP n SEAL LEAK-OFF FLOW RCP 9 SEAL LEAK-OFF FLOW RCP C SEAL LEAK-OFF FLOW PLANT VENT FLOW MONITOR I
I I
I N/n 5
5 5
5 N/n VDC VDC VDC VDC
1. 000 000
1. 000
1. 000
0. 000
5. 000 0
5. 000 0
5. 000 0 5, 000 0
0. 000 200000
1. 5 l.
I. 5 5
150000 LB/HR CPM CPN CPN CFN (
(
(
LIN) I LIN) I L IN)
( LIM1 0/L) 7 3,
3 7
4 3
~
0 -o FV6327 sUtlp avLUL COND POL SYS DENIN FLOW CTMT SUt(P WTR AVO LVL I
N/A 5
N/n VDC 1. 000
0. 000
5. 000 0
0. 000 0 13880 69000 CPM caL LIM)
(CALC) 6 Srr I 3 562 IH AVTENP RCG HOT LEQ AVO TEMP M/A N/A 0. 000 0. 000 0 750 DEQ F (caLc) 6 3 CTNI'TMOSPHERF. AVO TEMP N/n N/A
-- 0. 000 0, 000 0 300 DEC F (caLc) 6 b~3 3 Q
63 CTNT AVTt:.
564 AVG-RVL Rz vEssEL wATER avERAQE LEvE N/A - N/A 0. 000 - 0. 000 0 100 / 4LCI cTtll-nvp.".: C(MT NARROW '((at(re aVO PRESS Mrn'= -Mrn 8: Boo O. ()Qa =6 18 PGIQ (CALC) 6 Slurb SD AVIEMP AYERACE AIR IEt)PERATURE (S. D. ) N/a - Nrn 0. 000 0. 000 0 120 DEQ F (CALO) 6 3
VVI dAAG() L -.u ~ Lii)Lf 0tii/iL ~!1
'n ()PLN (;LOBED OFF ON (fEN ( LUSEO 002 3ABO') LOAD CENTER BRE*'KER 30 OPEN CLOSEn OFF ON CrEN CLOSED 003 3AA14 LOAD CENTER BRE*KER 3C apEN CLOSED OFF ON OrEN CLOSED 004 38814 LOAD CENTER BREAKER 3D OPEN CLOSED OFF ON crEN cLasED 5 005 3P06 120 VAC INV PNL BRKR STATUS OPEN CLOSED OFF ON DEENEROIZED ENERGIZED 006 3P07 120 VAC INV Pt)L BRKR STATUS OPCN CLOSED OFF ON DCENEROIZED ENERGIZED
)20 VAC INV 'PNL BAKR STATUS CLOSED OFF ON DLENERO IZED ENERGIZED 007 008 009 3POB 3P09 3P21
)20 VAC INV PNL BRKR STATUS VITAL Ac PANEL BRKR STATUS OPEN OPCN OPEN CLOSED CLOSED OFF OFF ON ON D~ENEROIZED DCENERC IZED ENERGIZED ENERGIZED
/
010 3P22 VITAL Ac PANEL BRKR STATUS OPEN CLOSED OFF ON DCENERCLZED ENERGIZED 011 3P23 VITAL Ac PANEL BRKR STATUS OPEN CLOSED OFF ON DCENEROLWED ENERGIZED 0)2 3P24 VITAL AC PANFL BRKR STATUS OPEN CLOSED OFF aN DtENERCI ZED ENERCLZED 0)3 TURBt!ANIAP )VRB)NE MANUAL TRIP OPEN CLOSED OFF ON t!DRHAL OPERATED I 0)4 GFNFLDBR"3) CEt!ERATOR FIELD BAE*KER OPEN CLOSED OFF ON C<'EN CLOSED 3 015 kx TRIP BEACfnk MANUAL TRIP OPEN CLOSED OFF ON T TRIPPED TRIPPED Olb A)BYA REACTOR TRIP BYPASS BAEAKER A OPEN CLOSED OFF ON Ti IPPED NOT TRIPPED I 017 RTBYB REACTOR TRIP BYPASS BREAKER 8 OPEN CLOSED OFF ON Tf;IPPED NOT TRIPPED I 018 R'!h REACTOR TRIP BREAKER A STATUS OPEN CLOSED OFF ON TRIPPED NOT TRIPPED I 019 RTB RCACTOR TRIP BREAKER 8 STATUS OPEN CLOSED OFF ON TRIPPED NOT TRIPPED I 020 RPLCBA BANK
ROD BOTTat) SWITCHES OPEN CLOSED OFF ON i~T IN FULL IN V~) RPICBB 0*ttK 0 ROD BOTTOM SWITCHES OPEN CLOSED OFF ON '..T IN FULL IN BAt)K C ROD BOTTntl SWITCHES OPEN CLOSED OFF ON T IN FULL IN V<2 023 RPICBC APICBO BANK D ROD BOTTOH SWITCHES OPEN CLOSED OFF ON 'TIN IN FULL IN FULL IN 024 RPISDA S/D DANK A ROD BOTTOM SWITCHES OPEN CLOSED OFF ON T 025 RPISDB 3/D BANK 8 ROD BOTTOM SWITCHES OPEN CLOSED OFF ON .T IN FULL IN I I ON Oc.'6 3AAO) RCP 3A (3P200A) BRKR STATUS OPEN CLOSFD OFF ON O27 3n001 RCP 30 (3P2000) BRKR STATUS OPEN CLOSED OFF ON PF ON 2 V~8 3A006 RCP 3C (3P200C) BRKR STATUS OPEN cLosEn OFF ON C. F ON U29 RCP-A-t!V RCP A t10TOR VIBRATION OPEN CLOSED OFF ON I:OAMAL HIGH 030 RCI-A-SV RCP A SHAFT VIBRATION OPEN CLOSED OFF ON t!ORMAL HIGH V>) CV303hn RCP A SEAL LFAKOFF OPEN CLOSED OFF ON !!OT OPEN OPEN 032 CV303AC RCP A SEAL LEAKOFF OPEN CLOSE D ON I!CT CLOSED CLOSED 6 RCP A SEAL LEAKOFF C 033 CV303A 034 FIG)56 RCP A It) SEAL 0/P FLOW OPEN CLOSED OFF ON !!CRHAL Lnw 7 035 LC417L RCP A UPPER OIL RESERVOiR LVL OPEN CLOSED OFF ON t!CRHAL LOW 7 036 LC417H RCP A UPPER OIL RESERVOIR LVL OPEN CLOSED OFF ON t>ORHAL HIGH 7 037 LC4)7 RCP A UPPER OLL RESERVOIR LVL tCRHAL ABNORMAL 3 038 LC419L ACP A LOWER OIL RESERVOIR LVL OPEN CLOSED OFF ON t! AHAL LOW 7 039 ).C419H ACP A LOWER OIL RESERVOIR LVL OPEN CLOSED OFF ON !!SRHAL HICH 7 04O LC419 RCP
LOWER OIL RESERVOIR LVL OFF" ON ICCCRMAL ABNORMAL 3 041 BCP-0-MV ACP 9 t!OTOR VIBRATION OPEN CLOSED !!DAMAL HIGH 042 kCP-0-SV BCP 0 SHAFT VIBRATION OPEN CLOSED OFF ON t'DRMAL HLCH 3 043 CV30380 RCP 0 SEAL LFAKOFF OPEN CLOSED OFF ON ';:."T OPEN OPEN 6
/ 44 CV3O30C RCP 0 SEAL LEAKOFF OPEN CLOSED OFF ON '~T CLOSED CLOSED 6 045 CV3039 RCP 0 SEAL LEAKOFF C 046 FIC)55 ACP 0 ))) SEAL 0/P FLOW OPEN CLOSED OFF ON 'Rt!AL LOW 7 047 LC427L BCP 9 UPPER OLL RESERVOIR LVL OPEN cLosEn OFF ON ) 'CRt1AL LOW 7
.048 LC42)H RCP 9 VPPEA OIL RESERVOIR LVL OPEN CLOSED OFF ON I'ANAL HIGH 7 049 LC427 BCP 9 UPPER OIL RESERVOIR LVL
'.'t(AL ABNORMAL 3 050 LC429L RCP 9 LOWFR OIL AESERVOIR LVL OP CN CLOSED OFF ON : RMAL LOW 7
05) LC429H RCP 9 LOWER OIL RESERVOIR LVL OPEN CLOSED OFF ON ". Rt!AL HIGH 7 052 LC429 ACP 0 LOWER OIL RESERVOIR LVL :.'HAL ABNORHAL 3 053 RCP-C-!1V RCP C !1OTOA VIBR*TION OPEN CLOSED OFF ON ."SBHAL HICH 3 054 RCP-C-SV ACP C SHAFT VIBRATION OPEN CLOSED OFF ON 't!AL
"'T HLCH 3 055 CV303CO ACP C SEAL LFAKOFF OPEN CLOSED OFF ON OPEN OPEN 6 056 CV303CC RCP C SEAL LEAKOFF OPEN CLOSED OFF ON ':T CLOSED CLOSED 6 RCP C SEAL LFAKOFF C 057 CV303C 058 FIC)54 BCP C )t) SEAL 0/P FLOW OPEN CLOSED OFF ON a~RMAL LOW 7 05'9 LC437L BCP C'PPER OIL RESERVOIR LVL OPEN cLasF.D OFF ON Bt!AL LOW 7 060 LC437H PCP C UPPER OIL RESERVOIR LVL OPEN CLOSF.D OFF ON '~'Rt! AL MICH .7 Vb) LC437 P('P 0 UPPER OIL RESERVOIR LVL ":BMAL .ABNOAt1AL 3 062 LC439L BCF " ).OWER OIL RESERVOIR LVL OPEN cLoscn OFF ON '~AMAL Lnw 7 063 LC43')H BCP LOWER OlL RESERVOIR LVL OPEN CLOSED OFF ON AMAL HIGH 7
Ji. LC439
~ gap Q i <<r<L<< U<i K<<:i<9<Ill< 'rL -.<<r<<<w <<4< <<<rK llrI <
065 CV3070 ltl SEAL BYPASS VALVE OPEN CLOSED OFF ON
T OPEN
.T CLOSED OPEN 7 Vob CV307C Ilr sEAL BYPAss vALvE OPEN CLOSED OFF ON CLOSED 7 0*7 CV307 Ilr SFAL BYPASS VALVE C 068 Sl-PN'-3A SAFETY INJECTIOI4 PUMP 3A nr EM CLOSED OFF ON Ci F r
ON 5 U69 Sl Ptlo 30 SAFETY INJECTION PUMP 3B OPEN CLOSED OFF ON F ON 5 070 CHGP-ah CHARGING PUN 3A STATUS OPEN CLOSED OFF ON F ON 6 071 CIIGP-30 CHARGING PUMP 3B STATUS OPEN CLOSED OFF ON F ON 6 072 CHCP-3C CHAAGltIC PUMP 3C STATUS OPEN CLOSED OFF ON 0 F ON 6 0/3 CSP-3A CTIIT SPRAY PVtlP 3A STATUS OPEN CLOSEn OFF ON F ON 6 074 CSP-30 CTMI SPA*Y PUMP 30 STATUS OPEN cLossn OFF ON ON 6 075 RHRP 3h RHR PUMP 3A STATUS OPEN CLOSED OFF ON C=F ON 5 076 RHRP-30 AHR PUMP 30 STA'fUS OPEN. CLOSED OFF ON F ON 5 coMPuttENT cooLING WTR PUMr a*
077 078 CCWP-3A CCHP-30 COMPOtlENT CODLlt4C HTR PUMP JB OPEN OPEN CLOSED CLOSED OFF OFF ON ON r FF ON ON 5
5 079 CCWP-3C COMPONENT COOLINC WTR PUM? 3C OPEN CLOSED OFF ON C F ON -5 2
080 F(4?-3A ORI FHP-30 FEEOl4*TER PUMP 3A STATUS FEEDHATER PUMP 30 STATUS OPEN OPEN CLOSED CLOSED OFF OFF OM ON r FF ON ON 2 302 HDP 3A HEATER DRAIN PUtlP 3A OPEN CLOSED OFF OM l, F ON 6 003 HDP-30 HE*TEA DRAIN PUMP 3B OPEN CLOSED OFF ON "F ON 6 o84 c)IP-ah I CIRC WTR PMP 3AI STATUS OPEN CLOSED OFF ON C F ON 7 095 CHP-3h2 CIRC WTR PMP 3A2 STAT<<ts OPEN CL'OSED OFF ON C F ON 7 (tab, CHP -39 I CIRC WTR PMP 301 STATUS OPEN CLOSED OFF ON F ON 7 087 CHP-302 CIRC WTR PMP 302 STATV OPEN CLOSED OFF ON C F ON 7 008 COMDP-3h COMDFI(SATE PUtlP 3A STATUS OPEN CLOSED OFF ON r;F ON 2 00'9 CDNDP-39 CONDFNSATE PUMP 30 STATUS OPEN CLOSED OFF ON ON 2 090 CDNDP-3C CONDENSATE PUMP 3C STATUS OPEN CLOSED OFF ON C' ON 2 0/I NC31HV SOUACE RANGE HI VOLTAGE STATUS OPEN CLOSED OFF ON re F ON 2 092 NC32HV SOURCE RANGE HI VOLTAGE STATUS OPEN CLOSED OFF ON ON 2 093 Slhs-Al AUTO SAFETY INJ ACTUATION OPEN CLOSED OFF ON i'OT ACTUATED ACTUATED I 09r4 SIAS-A2 AUTO SAFETY INJ ACTUATION OPEN CLOSED OFF ON ~ toT ACTUATED ACTUATED I or5 Srhs-Mr MANUAL SAFETY INJ hCTVATION OPEN CLOSED OFF ON ".'CT ACTUATED ACTUATED I 0')6 SIAS-tl2 MAt(UAL SAFETY INJ ACTUATION OPEN CLOSED OFF ON T ACTUATED ACTU*TED I O97 FIAS-IOX FW ISOL ACTU*TION (LOOP A) OPEN CLOSED ON AI'TUATED MOT ACTUATED I 098 F lhs-20X FH ISOL ACTUATION (LOOP A) OPEN CLOSED OFF ON ACTUATED NOT ACTUATED I 099 Flhs-30X FI4 ISOL ACTUATION (LOOP 0) OPEN I CLOSED OFF ON 4CTVATED NOT ACTUATED I 100 FIAS-40X FH ISOL ACTUATION (LOOP B) OPEN- CLOSED OFF ON ACTUATED NOT ACTUATED I lol Flhs-50X FW ISOL ACTVATIOM (LOOP C) OPEN CLOSED OFF ON ACTUATED NOT ACTUATED 102 FIAS-60X FW ISOL ACTUATION.(LOOP C) OPEN CLOSED OFF ON >rTUATED NOT ACTUATED I 103 SLIS I SfEAtl LINE ISOLATION SIGNAL OPEN CLOSED OFF ON '- T ACTUATED ACTUATED 1 104 SLIS 2 STEAM LINE ISOLATION SIGNAL OPEN CLOSED OFF ON t(CT ACTUATED ACTUATFD I 105 DAM?l t(ORMal. INTAKE DAtlPER STATUS OPEN CLOSED OFF ON OPEN CLOSED 7 106 DAM?2 EI.ERC INTAKE DAMPER STATUS OPEN CLOSED OFF ON CLOSED OPEN 7 107 DAM?3 EMEAC INTAKE DAMPER STATUS OPEN CLOSED OFF Ot4 CLOSED OPEN 7 108 DAM?11 RECIRCULATION DAMPER STATVS OPEN CLOSED OFF ON CLOSED OPEN 7 109 AS0109 110 DAN 14 TOILEI'XHAUST nhMPER STATUS Or EM CLOSED OFF ON OoEM CLOSED 7 1 I I DAMP<<27 CONrlloL ROOM Kl fCHEN VENT Dt<PR OPEN CLOSED OFF ON Of'EN CLOSED 7 112 H2SYS H2 SYSTEtr OPEN CI.OSED OFF ON RIIAL TROUBLF. 5 113 AX6307A CTtlT H2 MONITOR RANCE SWITCH OPEN CLOSED OFF ON 2. %RANCE 10XRANCE 7 114 AX*3079 CTMT H2 MONITOR RANCE S(4ITCH OPEN CLOSED OFF ON 20XRANCE 10XRANGE 7 115 CTMT-PRESS CotIThlt4MENT PRESSURE )50% OPEN CLOSED OFF ON '~AMAL HIGH 5 I lb Asor rb 117 AS0117 118 CCFAM-3h EMERG cTMT cuoLrMG FAM ah OPEN CLOSED OFF ON F ON 119 ECCFAN-30'20 EMERC CTMT COOLINC FAtl 30 OPEN CLOSED OFF ON "F ON ECCFAN-3C Et<ERC CTMT CODLING FAN 3C OPEN CLOSED OFF ON ON 121 CRDMFAN->4 CRDII COOLINC FhN 3h OPEN CLOSED OFF ON OFF l<<22 CRDMFAM 3A CRDM COOLINC FAN 39 OPEN CLOSED OFF ON F'l'EN OFF 123 3C229AI -9 ISOLATION Chs 3A FRONT DODA 124 3C22'9AR D ISOLhTION Chn 3h f(EAR DOOR OPEN OPEN CLOSED CLOSED OFF OFF 'N ON or EN O'EN CLOSED
.cr.osEn 125 3 C 2290 I=- D ISOLATIOII Chs 30 FPONT DOOR OPEN CLOSED . OFF ON CLOSED
!26 3C2290A-9 ISOLATlot4 CAB 30 REAR DOOR OPEN ccosEn OFF ON OPEN CLOSED
l I '/ 3 LJvVA/tr"0 ,I ~
'HAMI)bn04 n LAUI I I DUUAS Qf'EN I.LOBED OFF ON OPCN CLUSeu /
~ 128 129 3C230C/D-D 3C245R-D PD CPV/liaDACS 8 CADI}-'
TERtilNATION CABINET DOORS DOORS OPEN OPCN CLOSED CLOSED OFF OFF ON ON OPEN OrrEN CLOSED CLOSED 7
7 130 3C229AF-T ISOLATION Cns 3A FRONT TE!IP aPEN CLOSED OFF ON lrORMAL- HIGH 7 HI CII
~ 131 132 3C229AR-T 3C229UF-T ISOLATION CAB 3A REAR TEMP ISOLATION ChB 38 FRONT TEMP OPEN OPEN CLOSED CLOSED OFF OFF ON ON NORMAL tiQRMAL HIGH 7
7 133 3C2298R-1 ISOLATION CAB 38 REAR TEtiP OPEN CLOSED OFF ON NORMAL HIGH 7 HICH 7
~ 134 135 3C230h T 3C2308-T PDC 3A CPV TEMP PDC 3A MODACS TEMP OPEN OPEN CLOSED CLOSED OFF OFF ON ON IIQR}1AL I r.RMAL HIGH 7 136 3C230C-T PDC 38 MQDACS TEMP OPEN cLosEn OFF ON NQRMAL HICH 7
~ 137 3C230D T PDC 38 CPU TEMP OPEN cLosrn OFF ON rr RMAL HICH 7 138 C231-1 PEDS CABINET I TEMPERATURE OPCN CLOSED OFF ON !lCRMAL HI CH 7 139 r232-I'233-T PEDS CABINET 2 fEtiPERATVRE OPEN CLOSED OFF ON I '.QRMAL HICH 7 140 PEDS CABINET 3 TEMPERATURE OPEN cl.osEn OFF ON A MAL HIGH 7 141 C234-T PEDS CABINET 4 TEMPERATURE OPEN CLOSED OFF ON I:rR MAL HIGH 7 142 C235-T PEDS CABINET 5 TEMPERATURE OPEN CLOSED OFF ON "lORt}AL HIGH 7 3V21 vrrlf 3 spENT FUEL pIT FAN BTAT OPEN CLOSED OFF ON F ON 7 144 PS l3 \\ N sllppLY FUR Fw vnLvEs OPEN CLOSED OFF ON 'f0 AtiAL LOW 7 145 PS2323 N SVPPI Y FOR FW VALVES OPEN CLOSED OFF ON r.'OR!IAL Lnw 7
~ . hS0146 Ia7 AS0147 148 LCVI15AO 3-wnY LETDowN fa vCT OPEN CLOSED OFF ON ra HOLDUP TO VCT
~ 149 Lrv1 I 5nc 3-WAY LETnnwN To vcT OPEN CLOSED OFF ON !C VCT Ta HOLDUP 150 Lrvilsn 3-wnY LEToawN Ta vcf C 151 LCVI 1580 LLTDawr4 FRoti RwsT OPEN CLOSED OFF ON ~ IQT OPEN OPEN 5 LCV1158C LCfnawN FROM Rwsl OPEN CLOSED OFF ON 43T CLOSED CLOSED 5 LETDQWt4 FRati RWSf C 153 LCVI 1 58 154 LCVI I BCO Vcf LETIIOWN To CHARC Pt}PS OPEN CLOSED OFF ON I:QT OPEN OPEN 5
~ 155 LCV115CC VCT LETDOWN TO CHARC Pt}PS OPEN CLOSED OFF ON NQT CLOSED CLOSED 5 I "6 LCV115C VCI LETDOWN Ta CHARC PMPS C 157 HCV1 210 C}4AACING LINE FLOW CONTROL VLV OPEN CLOSED OFF ON 'T OPEN OPEN 7
~ 158 IICV121C CIIARClt4G LINE FLOW CONTROL VLV c}IAAclt4c LINE f'Lnw CONTROL VLV OPEN CLOSED OFF ON r:CT CLOSED CLOSED 7 C
159 }ICV121 160 IICV1420 RHR LOOP To L/D BEFORE NR HX OPEN 'LOSED OFF ON ~ !QT OPEN OPEN 6
~ 161 HCV142C R}IR LOUP Tn L/0 BEFORE NR HX RHR Laf)P Tn L/0 BFFORE NR HX OPEN CLOSED OFF ON rlCT CLOSED CLOSED 6 C
HCV142 163 1CVI 430 3-WAY LETDOWN Ta VCT OPEN CI.OSED QFF ON !C VCT TO DEMIN 6 TCV143C 3-I4AY I.ETDOWN To VCT OPEN CI.OSF.D OFF ON io DEMIN TO VCT 6 165 TCV143 3-wnY Lcfooww 1o vcf i'i"T C
OPEN CLOSED OFF ON OPEN OPEN 5
~
166 PCV1450 167 f CV145C LETD014N CONTROL OVT NR HX LEfDQWN CONTROL OVI'R HX OPEN CLOSED OFF ON " T CLOSED cLosEn LCTDnlltl CONTROL avf NR HX C
~, 168 CV145 169 CV200AO 170 cv200nc 171 CV204)h 172 CV20080 LETOQWrl I.lt4E 45GI M ORIFICE VI.V OPCN LEIDnfni4 LINE 45CPli ORIFICE VLV OPCN LETDAW!4 LINE 45GPM ORIFICE VLV LETDOW!4 LINE 60GPM ORIFICE VLV OPEN CLOSED CLOSED CLOSED OFF OFF QFF ON ON ON
'CT OPEN
'-T T CLOSED OPEN OPEN CLOSED OPEN 6
C 6
CV2008C LEfnr)Wlr LINE 60cf'li OAIFICF. VLV OPEN CLOSED OFF ON MQT CLOSED CLOSED 6 LFID()Wrl LINE bOGPM ORIFICE VLV C 174 CV2008 'N'T OPEN 175 CV200CO LCfnallr4 LINE bOGPti ORIFICE VLV OPEN CLOSED QFF ON OPEN 6 6
~
176 CV200CC 177 CV200C LETDOWN LINE 60CPM ORIFICE VLV QPCN LE!DI)Wt4 I.INE 60GPM ORIFICE VLV CLOSED OFF ON T CLOSED CLOSED C
178 CV20i)0 LP LE)DOWN LINE CTMT ISOL VLV OPEN cLQSEn OFF ONi '~T OPEN OPCN 6 T CLOSED CLOSED 6
~ 179 CV204C 180 CV204 LP LE)DOWN LINE CTIIT ISOL VLV OPEN LP LETDOWN LINE CTMI'SOL VLV CLOSED OFF ON C
' OPEN OPEN 6 181 CV310na CHAAGIt40 LINE STOP LOOF A OPEN CLOSED OFF ON
'-'T CLOSED 6
~ 102 CV310AC 103 CV310A CHARGING LINE STOP LOOP A CIIAACItro LINE STOP LOOP A OPEN CLOSED OFF ON CLOSED C
104 CV310UO CHAAClt40 LINE StOP LOOP C OPEN cLosEn OFF ON . T OPEN OPEN 6',
~ 185 CV3108C CHARGING LINE STOP LOOP C OPEN CLOSED OFF ON ".T CI.OSED CLOSED 106 CV3108 CHAAGlt40 LINE SfaP Loaf' 107 Cv311n AUX II.IAAY SPAAY STOP OPEN CLOSED OFF ON T OPEN OPEN lc ':T cLnsED CLOSE/ 7
~ 100 189 CV31 CV3ll AUX II.IAAY SPRAY STOP AVxlLIAAY SPAA/ STOP OPEN CLOSED OFF ON C
I U tg)V38)0 I;,)- .'.i ~ )U ~ )Alt)i t I )C)<N Yhl Yc lii tN LU4r.U Ui I UH U)'r i u) r.ii 191 tloV331C ACP SEAL WAfCR REIUAN VALVE OPCN CLOSED OFF ON 'LOSED CLOSED 192 MOV381 RCP GEhL WATER RETURN VALVE CV3870 EXCESS LETDOWN OPEN CLOSFD OFF ON ) )i)7 OPEN OPEN 193 ~ )rT CLOSED 194 CV387C EXCESS LETDOWtJ OPEN CLOSED OFF ON CLOSED 195 CV38/ EXCESS LETDOWN 196 PCV455ho PRESSURIZER SPRAY FRO."I LOOP C OPCN CLOSED OFF ON ::77 OPEN OPEN CLOSED OFF ~ )ri7 CLOSED CLOSED 197 PCV455AC PRESSURIZER SPRAY FROtl LOOP C OPEN ON 198 PCV455h PRFGGUAIZER SPRAY FROM LOOP C 199 PCV455BO PRESSURIZER SPRAY FROM LOOP 8 OPEN CLOSED OFF ON OPEN OPEN 200 PCV455BC PRESSURIZER SPRAY FROtl LOOP 8 OPEN CLOSED OFF ON I CT CLOSED CLOSED 2(II PCV4558 PRESSURIZER SPR*Y FROM LOOP 8 202 PCV455CO PRESSURIZER PORV FROM PT444 OPEN cLosEn OFF ON OPEN OPEN 203 PCV455CC PRESSURIZER PORV FROM PT444 OPEN CLOSED OFF ON CLOSED CLOSED zn4 pcv45sc PRESSURIZER PORV FROt1 P7444
~ N%7 205 PCV4 60 PRESSURIZER PORV FROM PT44S OPCN CLOSED OFF ON OPEN OPEH
~ 'r) 2<)6 PCV456C PRESSURIZER PORV FRot1 PT445 OPEN CLOSED OFF ON 7 CLOSED CLOSF.D F07 PCV456 PRESSURIZER PORV FRnt1 PT445 '
208 LCV4600 Rcs LOOP 8 COLD LEC LETDOWN OPEN cLosEn OFF ON . OPEN OPEN 209 LCV460C RCG 1.0OP 8 COLD LEO LETDoilN OPEN CLOSED OFF ON JCT CLOSED cLDGED 210 LCV460 RCG LOOP 8 COLD LEC LETDOWN
~ lr) 211 FCV4780 GIH CEW A tIAIN I'W CONTROL VLV OPEN cLosEn OFF ON 7 OPEN OPEN 7 212 FCV478C STH BCN A MAIN FW CONTROL VLV OPEN CLOSED OFF ON ":T CLOSED CLOSED 7 213 FCV4/8 STM BEN A MAIN FW CONTROL VLV C 214 FCV4790 8/0
BYPASS FW CONTR(tl. VALVE OPEN CLOSED OFF ON
'l ~
7 OPEN r 'f OPEN 7 2IS FCV479C S/0
BYPASS FW CONTROL VALVE OPEN CLOSED OFF ON CLOSED CLOSED 7 14th PCV479 8/0 A BYPASS FW CONTROL VALVE "T OPEN C 217 FCV4880 STt1 CEIJ 8 MAIN FW CON(ROL VLV OPEN cLnsfn OFF ON OPEN 7 210 FCV488C STt1 CEN 8 MAIN FW CONTROL VLV OPEN CLOSED OFF ON ~ ~
CLOSED CLOSED 7 2I9 FCV488 STt1 CEN 8 HAIN FW CONTROL VLV C 240 FCV4090 S/0 8 BYPASS FW CONTROL VALVE OPEN CLOSED OFF ON "T OPEN OPEN 7 2> I urirr r K!V/Ibi.lr I:vr P<EII!1AL Ir>> Kr< ll.il ccw OPEN OFF orl U>>'LI4
""T CLOSED
~ 254 c'55 MOV716AC FIOV716A RCP THERMAL BARAIf:A CFH RCP THERMAL BARRIER CCW OPEN CLOSED OFF ON "I"T CLOSED
'PEN c~b tlaV71600 RCP THERMAL BARRIER CCW OPEN CLOSED OFF ON OPEN
~ 257 >>10V7160C RCP THERMAL BARRIER CFH RCP THERMAL BARRIER C
" OPEN CLOSED OFF ON I/ET CLOSED CLOSED 258 MOV7160 CCW FRatl RCP'S BEARINC COOLER OPEN CLOSED OFF ON T OPEN OPEN 259 HOV7300 'T CLOSED
~ =6O ViaV730C CCW f ROM RCP'S BEAAINO COOLER OPEN RCP'8 BEARINC COOLFR CLOSED OFF ON CLOSED MOV730 CCW FROM ci62 CV739 EXCESS LETDOWN HX CCW ISOL VLV OPEN CLOSED OFF'N '~T CLOPED CLOSED 63 MOV744AO RHR Ta COLD LEO I/C OPEN CLOSED OFF ON ". T OPEN OPEN 7 2*4 FIOV744AC RHR Ta COLD LEO I/O OPEN CLOSED OFF ON >>~T CLOSED CLOSED 7 c*5 MOV744h RHR Ta COI.D LEO I/C C
~ 266 MOV74400 RHR fa COLD LEO-I/O OPEN CLOSED OFF ON
'!"T T OPEN OPEN 7 7
267 >>10V7440C RHR TO COLD LEC-I/O OPEN CLOSED OFF ON CLOSED CLOSED
>>>> 0 HOV7440 RHR fa COLD LEO-I/O C MOV7500 AHR INLET ISOLATION VALVE OPEN CLOSED OFF ON "."T OPEN OPEN 7 2/0 MOV750C RHR INLET ISOLATION VALVE OPEN CLOSED OFF ON 'I T CLOSED CLOSED 7 271 MOV750 RHR INLET ISOLATION VALVE C Mov751a AHR INLET ISOLATION VALVE OPEN CLOSED OFF ON :: T OPEN OPEN 7 273 FIOV75IC RHR It!LET ISOLATION VALVE OPEN CLOSED OFF ON "CT CLOSED CLOSED 7
>>74 MDV751 AHR INLET ISOLATION VALVE C
~ 275 HCV758 RHA HEAT EXCH FLOW CONTROL VLV OPEN CLOSED OFF ON ': T CLOSED CLOSED 7 2/6 MOV843ha BORON INJ TNK OUTLET STOP VLV OPEN CLOSED OFF ON P~T OPEN OPEN 277 MOV843AC BOROtl INJ TNK OUTLET STOP VLV OPEN CLOSED OFF ON ':3T CLOSED CLOSED 6
~ 78 l79 tlaV843h BORON INJ INJ TNK OUTLET STOP VLV TNK OUTLET STOP VLV OPEN OFF ON '. T OPEN OPEN C
6 MOV84300 BORON CLOSED'LOSED TNK OUTLET STOP VLV OFF >>'"T CLOSED cLosEn 6 200 i10V8430C BOROtl INJ OPEN ON 281 MOV8430 BORON INJ TNK OUTLET STOP VLV C 282 CV855 N2 To ACCUMULATORS A>> B>> C OPEN CLOSED OFF ON .':T CLOSED CLOSED 7 283 ViaV860AU B CIMT RECIRC Ta RHR SUCT 0/C OPEN CLOSED OFF ON >>'>>.T OPEN OPEN 7
~ "84 MOV860AC 8 CTMT RECIRC To RHR SUCT-0/C OPEN CLOSED OFF ON 'FOT CLOSED CLOSED 7 285 MOV860A S CTFITRECIRC Ta RHR SUCT-0/C C 286 MOV86000 N CTMT RECIRC Ta RHR SUCT-0/C OPEN CLOSED OFF ON >>.'CT OPEN OPEN 7
~ 288 n7 >>10V8600C MOV8600 N CTMT RECIRC Ta RHR SUCT-0/C tl CTMT RECIRC Ta RHA BUCT 0/C OPEN CLOSED OFF ON '!CT CLOSED CLOSED 7 C
i fr9 MOV86 I ha ' 7 N CTMT RECIRC Ta RHR SUCT-0/C OPEN CLOSED OFF ON OPEN OPEN
~ ~O ilaV861AC 291 MOV86IA N CTtlT RECIRC Ta RHR SUCT-0/C N CTMT AECIRC TO RHR RUCT-0/C OPEN CLOSED OFF ON T CLOSED CLOSED 7 C
~
292 MOVeblBO 293 tIOV861 0 C 8 CIMT RECIAC To 8 CTMT RECIRC Ta RHR SUCT-0/C RHR SUCT 0/C OPEN OPEN CLOSED CLOSED OFF OFF ON ON ":T T OPEN CLOSED OPEN CLOSED '7/
294 MOV8610 s cTMT REGIRc To RIIR sucT-0/c C 295 tIOVB62AO RWBT Ta SAFETY INJECTION SYS OPEN CLOSED OFF ON ~ '.T OPEN OPEN 6 RWBT,TO SAFETY INJECTiON SYS OPEN CLOSED OFF ON ' CLOSED CLOSED 6 MOV862hC 297 MOVG62A AWSf Ta SAFETY INJECTION SYS C c98 MOV86200 RWST Ta SAFETY INJECTION SYS OPEN CLOSED OFF ON >>~T OPEN OPEN 6 MQVBh>>.BC AWSf fa SAFETY INJECTION SYS OPEN CLOSED OFF OII ':T CLOSED CLOSED 6 300 MOV8620 RWSI Ta SAFETY INJECTION SYS C 301 tIOV863ha SUPPLY I'0 HIIBI OR CTMT SPRAY OPEN .CLOSED OFF ON ~T OPEN OPEN 7
~ 302 I'ioV863AC SUPPLY Ta HHSI OR CTtIT SPRAY OPEN CLOSED OFF ON ":T CLOSED cLnsEo 7 303 tlav863/ SUPPLY To HHSI OR CTtlT SPRAY '
C 304 MOV86300 ':UPPLY Ta HHSI OA CTMT SPRAY OPEN cLosEn OFF ON OPEN OPEN 7
~ 305 MOVB630C S'JPPI.Y Ta HHSI OA CTMT SPRAY OPEN CLOSED OFF ON ':T CLOSED CLOSED 7 306 MOV8630 SUPPLY Ta HHSI OR CTMT SPRAY C 307 MDV3-064AO AWST ISOLATION STOP VALVE OPEN CI.OSED OFF ON T OPEN OPEN 6
~ 308 trov3-864Ac RWST ISOLATION STOP VALVE OPEN CLOSED OFF ON ':T CLOSED cLasEn 6 3II9 MOV3 864h RWBI ISOLATION STOP VALVE C 310 iMOV3 86400 AWSf ISOLATION STOP VALVE OPEII CLOSED OFF ON T OPEN OPEN 6 Q 311 tIOV3-8640C RWSf ISOLATION STOP VALVE OPEN CLOSED OFF ON :T CLOSED cLassn 6 3 I 2 >>10V3-8640 AWSf ISOLATION STOP VALVC C ACCUM TANK A To RCS ISOL VhLVE OPEN CLOSED OFF ON T OPCN OPEN 7
. 313 MOVBbsha "T cl.asEo 314 MOVB!>>5AC ACCUII TANK A Ta ACI>> IBOL VALVE OPEN CLOSED OFF 0>>I ~ CLOSED 7 315 MOV865h ACCVr1 TANK A Ta RCS ISOL VALVE C 0
'I
~ I) O)/e/SgO gccum I/In)y 9 T(7 gC5 Ui LI ~- '. L l> iC.EI Ui ) UW ~ all ~ ~ <i
<) 7 ~ IOVB(ilia( 6" CUM TiiNK 8 TO RCS I SOL VALVE OP Et< C(.OSED OFF ON CLOSED CLOSED /
J le tloi/8658 n 'i.UM Tnl)K 8 to RCG ISDL VALVE C 319 i(OV865CO ACCUt( TANK C Ta RCS ISOL </ALVE OPEN CLOSED OFF ON T OPEN OPEN 7 32O t)OV36SCC nccUM tANK C Ta RCS ISOL V*LVE OPEN CLOSED OFF ON T CLOSED CLOSED 7 321 MOV865C ACCUM TANK C TO RCS ISOL VALVE C 322 Movebbn() )<<cGI (HOT LEO) ISOL VLV I/O OPEN CLOSED OFF ON '<<T OPEN OPEN 7 J23 t(avebb>')r HI<51 (HOT LEO) IROL VLV-I/C OPEN CLOSED OFF ON ':T CLOSED CLOSED 7 oi'.4 MOV866h )I<<BI (Hal LEO) ISOL,V'-I/C C J25 HOVebbba HHGI <HOT LEO) ISOL VLV I/C OPFN CLOSED OFF ON I+Et( OPEN 7
"~6 MOVebbnC HUGI <HOT LEG) ISOL VLV I/C OPEN CLOSED OFF ON ':T CLOSED CLOSED 7 L>27 i'10VB/>68 HHG I (Hal LEC) ISOL V'-I/C " EN C 3-8 Hveben )<H~I vnLvE To caLo LEC A CLOSED
'J29 l<vobaB HI<BI VALVE TO COLD LEC 8 EN CLOSED 3.~0 Hveboc HHGI VALVE ta COLD LEC C EN CLOSED Ual t<OVB*90 k<HGI (HOT LEO) ISOL VLV-0/C OPEN CLOSED OFF ON T OPEtl OPEN /
J32 HOV869C HHGI (HOT LEC) ISOL VLV-0/C OPEN CLOSED OFF ON T CLOSED CLOSED 7
)33 MOVB69 HI<GI (HOT LEC) ISOL VLV-0/C C 334 MOVB/20 ALIERNATE LHSI ISOL VALVE-0/C OPEN CLOSF.D OFF ON T OPEN OPEN 7 335 tlaV872C ALTERNATE Lkle1 ISOL VALVE-0/C OPEN CLOSED OFF ON ':T CLOSED CLOSED 7 336 MOV872 nLTERN*TE LHSI ISOL v*LVE-0/c C 337 MOV87eho Hl HEAD Sl PUMP DISCHARCE VLV OPEN CLOSED OFF ON 'T OPEN OPFN 6
)38 MOVB)BAC Hl HEAD Sl PUMP DISCHARCE VLV OPEN CLOSED OFF ON T CLOSED CLOSED 6 J39 iMove78n Hl HEAD Sl PUMP DISCHARGE VLV C 34o Mavsvoao Hl HFAD Sl PUMP DISCHARCE VLV OPEN CLOSED OFF ON T OPEN OPEN 6 341 Mavs/enc Hl HEAD SI PUt(P DISCHAROE VLV OPEN CLOSED OFF ON T CLOSED CLOSED 6
')42 MOV8780 Hl HEAD Sl PUMP DISCHARGE VLV C J43 MOVBBOAG CTtlf SPRAY PUMP 3A DISCH VALVE OPEN CLOSED OFF ON T OPEN OPEN 7 344 Maveeonc CTMT SPRAY PUMP 3A DISCH VALVE OPEN 'LOSED OFF ON '".T CLOSED CLOSED 7 345 MOVBBOA CTMT SPRAY PUMP 3A DISCH VALVE C 346 MOVBBODl) CTMT SPRAY Put(P 38 DISCH VALVE OPEN CLOSED OFF ON
' OPEN OPEN 7 347 HOVBBOBC Ctnr S< RAY PUMP 3S OISCH VAI VE OPEN CLOSED OFF ON T CLOSED CLOSED 7
>48 tlaVBBOB CIMf SPRAY PUMP 38 DISCH VALVE C 349 CV95l PRZR STtl SPACE SAMPLE-I/C OPEN CLOSED OFF ON '<<T CLOSED CLOSED 7 350 CV953 PRZR LIOUID SPACE SAMPLE I/C OPEN CLOSED OFF ON ':T CLOSED CLOSED 7 351 CV955C ACCUM A SAMPLE VALVE I/C OPEN CLOSED OFF ON ':T CLOSED CLOSED 7 J52 CV955D ACCUM 0 SAMPLE VALVE I/C OPEN CLOSED OFF ON T CLOSED CLOSED 7 353 CV955E ACCUM C SAMPLE VALVE-I/C OPEN CLOSED OFF ON '"T. CLOSED CLOSED 7 354 CV956A PRZR STM SPACE SAMPLE-0/C OPEN CLOSED OFF ON :;T CLOSED cLDGED 7 355 CV9568 PRZR LIQUID SPACE Sht(PLE-0/C OPEN CLOSED OFF T CLOSED CLOSED 7 356 CV9560 ACCUM A,B,C SAMPLE VALVE-0/C OPEN CLOSED OFF ON ON
" T CLOSED CLOSED 7 337 MOV1400 MSIV A BYPASS ISOLATION VALVE OPEN CLOSED OFF ON " T CLOSED CLOSED 7 358 Movlnol MSIV 8 BYPhSS ISOLATION VALVE OPEN CLOSED OFF rp( ':T CLOSED CLOSED 7 359 t(OV1402 MSIV C BYPASS ISOLATION VALVE OPEN CLOSED OFF ON '<<T CLOSED CLOSED 7 360 .'(OV1403 STM L lt<E A SUPPLY Ta AFW PUMP OPEN CLOSED OFF ON T CLOSED CLOSED 7 36 l MOV1404 STM LINE 0 SUPPLY ta AFW PUMP OPEN CLOSED OFF ON 'T CLOSED CLOSED 7 362 NOVI )05 SIM L INE C SUPP<.Y Ta AFW PUMP OPEN CLOSED OFF aN :GT CLOSED CLOSED 7 363 HDVI407 SIM CEN n FEEDWntER ISOL VALVE OPEN CLOSED OFF ON T CLOSED CLOSED 7 364 t<OV1408 SIM CEN 8 FEEDWATER ISOL VALVE OPEN CLOSF.D OFF ON T CLOSED CLOSED 7 365 tlaV1409 SIM CEN C FEEDWhfER ISOL VALVE OPEN CLOSED OFF ON T CLOSED CLOSED 7 Orb MOV1417 CCW Ta NORM*L CIMT CODLING OPEN CLOSED OFF ON CLOSED NOT CLOSED 7 367 tlav1418 CCW FROM NORMAL CTt<T COOLINO OPEN CLOSED OFF ON CLOSED NOT CLOSED 7 368 tlov14200 FEEDWTR PMP 3A DISCH VALVE OPEN CLOSED OFF ON .' OPEN OPEN 6 J69 MOV142OC FEEOWTR PMP 3A DISCH VALVE OPEN CLOSED OFF ON ':T CLOSED CLOSED 6 370 HOV1420 FEEDWTR PMP 3A DISCH VALVE C 371 MOVI4210 FEEDWTR PMP 38 DISCH VALVE OPEN CLOSED OFF'N ' OPEN OPEN 6 372 tlaV1421C FFEDWTR PMP 38 DISCH VALVE OPEN CLOSED OFF ON ::T Cl.OGED CLOSED 6 373 HOV1421 FEEDWTR PMP 38 OISCH VALVE C 374 Mov)427 S/0 A BLOWDOWN LOD SA.ALE VLV OPEN cLOSED OFF ON .T CLOSED CLOSED 7 375 MOV1426 S/0 B BLOWDOWN l.aD SA))PLE VLV OPEN CLOSED OFF ON T CLOSED CLOSED 7 376 MOV1425 8/0 C BLOWDOWN LOD Ght<PLE, VLV OPEN CLOSED OFF ON '"T CLOSED CLOSED 7 377 CV1606 SfM DUMP To ATt<OS STM CEN h OPEN CLOSED OFF ON '.T CLOSED CLOSED 7 378 CV1607 SfM DUMP Ta AtMUG GIM CEN 8 OPEN CLOSED OFF ON T CLOSED CLOSED 7
~l CV l 4iVU uii tutti lu
~ A)CN)S 'lM GE)4 C ul'Et4 CLUSI U OFF ON I CLuS):I) CLUSEU
~ 380 CV20) I 0 LP Fll HFATERS BYPASS VALVE OPEN CLOSED OFF ON ". T OPEN OPEN 381 CV20) lc LP FW HEATERS BYPASS i/ALVE OPEN CLOSED OFF ON 't T CLOSED CLOSED
.)A2 CV2011 LP FW HEATERS BYPASS VALVE
~ 383 POV2600 Ua4 POV2601 CTMT CTMT PURGE AIR SUPPLY-0/C PURGE AIR SUPPLY-I/O OPEN OPEN CLOSED CLOSED OFF OFF ON ON T CLOSED li. T Cl.OSED CLOSED CLOSED 385 POV2602 CTt1T PURGE AIR RETURN. 0/C OPEN CLOSED OFF ON "OT CLOSED CLOSED
~ 386 POV2603 CTMT PURGE AIR RETURN-I/O OPEN CLOSED OFF ON "~T CLOSED CLOSED 387 pav2604 MAIN STM lt1SIV) STt1 CFN A OPEN CLOSED OFF ON T CLOSED CLOSED 388 POV2605 MAIN ST!i IMSIV) STM GEN 8 OPEN CLOSED~ OFF ON ::T CLOJED CLOSED
~ 389 POV2606 MAIN STM ltlSIV) STt1 CFN C OPEN CLosEn OFF ON
~EN DT CLOSED CLOSED 390 MSSVLVS t)AIN STM STOP VALVES OPEN CLOSED OFF ON NOT OPEN 391 CV2803 CTMf INST AIR SUPPLY ISOL VLV OPEN CLOSED OFF "CT CLOSED 7
~ 392 CV2814 CTMT CLR A CCW RTN BYPASS VLV OPEN CLOSED ON ON "T CLOSED CLOSED CLOSE 7 lo3 CV2810. CTMT CLR 8 CCW RTN BYPASS VLV OPEN CLOSED OFF ON i' CLOSED CLOSED 7 394 CV2812 CTMT CLR C CCW RTN BYPASS VLV OPEN CLOSED OFF= ON ':CT CLOSED CLOSED 7
~ 395 CV28)6 AVX FW To 8/0 A CONTROL VALVE OPEN cLasED OFF ON !!OT CLOSED CLOSED 7 396 CV2817 AVX FW To S/0 0 CONTROL VALVE OPEN CLOSED OFF ON '4OT CLOSED CLOSED 7 397 CV2818 AVX FW Ta S/C C CONTROL VALVE OPEN ct.osEn OFF ON T,CLOSED CLOSED 7
~ 398 CV2819 CTMT INSTR AIR BLEED VALVC-I/O OPEN CLOSED OFF ON T CLOSED CLOSED 7 399 CV2821 CTt1T SUt)P PUMP A DISCH VALVE OPEN CLOSED OFF ON :<<T CLOSED CLOSED 7 400 CV2822 CTMT SUMP PUtlP 0 DISCH VALVE OPEN CLOSED OFF ON I <<T CLOSED CLOSED 7 4n1 CV2826 CTMT INSTR AIR BLEED VALVE-0/C OPEN CLOSED OFF ON W T CLOSED CLOSED 7 402 CV2831 AVX FW Ta S/C A CONTROL VALVE OPEN CLOSED OFF ON '.<<T CLOSED CLOSED 7 403 CV2832 AVX I W Ta S/0 0 CONTROL VALVE OPEN CLOSED OFF ON ': T CLOSED CLOSED 7 404 CV2833 AVX FW" Ta S/0 C CONTROL VALVE apEH -CLOSED OFF ON W:T CLOSED CLOSED 7 4n5 CV2900 STt1 CEN A FW CHECK VALVE OPEN CLOSED OFF OH, !iaT CLOSED CLOSED 7 4n6 CV2901 STt1 GEN 8 FW CHECK VALVE OPEN CLOSED OFF ON 4"T CLOSED CLOSED 7
~ 4n7 CV2902 S'IM GEH C FW CHECK VALVE OPEN CLOSED OFF ON ::<<T CLOSED CLOSED 7 4nB CV2905 CCW TO EMERG CTMT COOLER 3* OPEN CLOSED OFF ON )'OT CLOSED CLOSED 7 409 CV2903 CCW Ta EMERC CTMT COOLER 3B OPEN CLOSED OFF ON '~T CLOSED CLOSED 7 410 CV2904 ccW To EMERC CTMT caoLER 3C OPEN CLOSED OFF ON t'"T CLOSED CLOSED 7 411 CV2908 CCW FROM EMERC CTMT COOLER 3A OPEN CLOSED OFF OH "CT CLOSED CLOSED 7 412 CV2906 CCI4 FROM EI1ERC CTt1T COOLER 3B OPEN CLOSED OFF OH ':CT CLOSED cLasEo 7 413 CV2907 CCW FROM EMERC CTMT COOLER 3C OPEN CLOSED OFF ON i!OT CLOSED CLOSED 7 414 SV2905 WATER Ta Et1ERCENCY COOLER 3A OPEN CLOSED OFF ON PEN CLOSED 7 415 SV2906 WATER Ta EMERCENCY COOLER 3A OPEN cLasEo OFF ON OPEN CLOSED 7 SV2907 WATER Ta EMERGENCY COOLER 30 OPEN CLOSED OFF ON OPEN CLOSED 7 417 SV2908 WATER To EMERCEtlCY CODLER 30 OPEN CLOSED OFF ON OPEN CLOSED ~ 7 418 SV2909 WATER Ta EMERGENCY COOLER 3C OPEN CLOSED OFF OH Ol'EN CLOSED 7
~ 419 SV2910 WATER Ta EMERGENCY COOLER 3C OPEN CLOSED OFF ON OPEN CLOSED 7 430 ECF A EMERC CTt)T FILT A TEMPERATURE OPEN CLOSED OFF ON ~ PCRtlAL HIGH 7 431 ECF-0 Et1ERC CTMT FILT 8 TEMPERATURE OPEN CLOSED OFF OH "LRMAL HIGH 7 4 422 ECF C 423 SV2911 EMERC CfMf FILT C 'TEMPERATURE OPFN CTMT AIR SAMPLE Ta RAD MON CLOSED OFF ON !!CRMAL nl'EN HIGH 7 OPF.N CLOSED OFF ON CLOSED 7 4r24 SV2912 CTtlT AIR SAMPLE FRot1 RAD MON OPEN CLOSED OFF ON OPEN CLOSED 7
~ 435 SV2913 Acb CV4658n CTMT AIR SAMPLE Ta RAD MON RCDT VENT VALVE OPEN OPEN CLOSED CLOSED OFF OFF ON ON CnEN
':.T CLOSED CLOSED CLOSED 7
7 427 CV4658li RCDT VENT VALVE OPEN CLOSED OFF ON ':T CLOSED CLOSED 7
~ 428 CV4659A 439 CV46590 RCDT LINE Ta CAS ANALYZER RCDT LINE Ta CAS At4ALYZER OPEN OPEN CLOSED CLOSED OFF OFF ON ON
'~ET CLOSED
T cLOBED CLOSED CLOSED 7
7 430 CV4668n RCDT DISCH TO HOLDUP TANK OPEN CLOSED OFF ON 40T CLOSED CLOSED 7
~ 431 CV46680 RCDT DISCH To HOLDUP TANK OPEN CLOSED OFF ON ':T CLOSED CLOSED 7 432 LCV6265AO BLDWDOW)l HX To CONDENSER OPEN CLOSED OFF ON '.OPEN OPEN 7 433 LCV6265AC SLOWDOWN HX TO CONDENSER OPEN CLOSED OFF ON '~T CLOSED CLOSED 7
~ 434 LCV6265h 435 LCV626500 BLOWDOWt4 HX Ta CONDENSER BLOWDOWN TANK To CANAL OPFN CLOSED OFF ON '~T OPEN OPEN C
7 436 LCV62650C SLOWDOWN TANK Ia CANAL OPEN CLOSED OFF OH '.T CLOSED CLOSED 7
~ 437 LCV62650 438 CV6247AO OLOWDOWH TAN)4 fo CANAL 0/D TO TANK 15 DISCH To ATMioS OPEN CLOSED OFF ON T OPEN OPEN C
7 439 CV626/hC 0/0 fa TANK T5 DISCH Ta ATMOS OPEN CLOSED OFF ON ':T CLOSED cl.osEn 7 440 CV6267A 0/D fo TAtlK l'5 DISCH TO ATMOS C 4' CV626700 0/D 10 TAt4K T5 DISCH Ta ATMOS OPEN cLosEn OFF ON <<T OPEI4 ~ OPEN 7
43/b2610C ~ rI ~ i ll IU I ~ I liU Ui I II I,I U<<I Ir UN I 4I Ii<DC BTt1 CEt4 0 BLownowN fsoL vALvE OPEN cLosEn OFF ON ~T CLOSED CLOSED 7 4 ii9 CV62/50 STM GEN 0 BLOWDOWN ISOL VALVE C 4.0 CV6"75CO STM GEN C BLOWDOWN ISOL VALVE OPEN CLOSED OFF ON '. T OPEN OPEN 7 45l CV6275CC STM GEN C BLOWDOWN ISOL VALVE OPEN CLOSED OFF ON :T CLnriED
\
CLOSED 7 CVS275C SIM CEN C BLOWDOWtJ ISOL VALVE C 453 FCV6270AO .STEht1 GENERATOR h BLO'IDOWN OPEN CLOSED OFF ON T OPEN OPEN . 7 454 FCV63/Bhc STEAM GENERATOR A BLOWDOWN OPEN CLOSED OFF ON '..T CLOSED CLOSED 7
~ 44J Fcvbi37BA 4<<b FCVhr2700ij fiTEht1 GFNERATOR A BLO'ilDOWI4 GTEAM GFNERATOR 8 BLoirIDOWI4 OPLN Cl.osEn OFF ON .T OPEN ~ OPFN C
7 457 FCV62700C GTEhM GENERATOR 0 SLOWDOWN OPEN CLOSED OFF ON '~T CLOSED 'LOSF.D 7
450 FCv6..700 STEAM GENLRATOR 8 BLOWDOWN- C 4r9 FCV6270CA STEht1 GENERATOR C BLOWDOWN OPEN CLOSED OFF ON T OPEN OPEN 7 460 FCV6270CC SIEhtl GENERATOR C SLOWDOWN OPEN CLOSED OFF ON T CLOSED CLOSED 7 I FCV6270C STEht1 GENERATOR C BLOWDOWN C 4 ~.
SV6310A REACTOR VENT DISCHARGE OPEN CLOSED OFF ON "I'N CLOSED- 7 463 SV63100 AEACIOR VENT DISCHARGE OPEN CLOSED OFF ON f'EN CLO<P 7 464 SV6319A PRESSURIZER VENT DISCHARGE ol rN CLOSED OFF ON OPEN CLOSED 7 465r SV63190 PRFSSVRIZER VENT DISCHARGE OPEN CLOSED OFF ON - EN CLOSED 7 46* SV6320h PAZA/REACTOR VENT'ISCHARGE OPEN CLOSED OFF ON OPEN CLOSED 7 467 SV63200 PAZR/AEACTOR VENI'ISCHARGE OPEN CLOSED OFF ON 0<EN cLasEn 7 468 FCvh3240 INLEI'o COND POLISHING SYSTEtl OPEN CLOSED OFF ON T OPEN
'PEN 7
469 FCV6324C INI.EI To COND POLISHING SYSTEM OPF.N CLOSED OFF ON r~T CLOSED CLOSED 7 470 FCV6324 INLEI To COND POL ISHltIG SYSTEM C 4~1 pcv63250 COND POLISH SYS DIFF PRESS CV OPEN CLOSED OFF ON '. T OPEN OPEN 7 47o PCV6325C COND POLISH SYS DIFF PRESS CV OPEN CLOSED OFF ON "iOT CLOSED CLOSED 7 473 PCV6325 COND POLISH SYS DIFF PAESS CV C 474 FCV632940 FILT DEt1ltl A OUTLET FLOW OPEN CLOSED OFF ON -' OPEN OPEN 7 475 FCV6329hc FILT DEMlt4 A OUTLET FLOW OPEN cLDSED OFF ON '-':T CLOSED CLOSED 7 0 476 477 FCV6329h FCV632900 FILI FIL1 DEMIN DEMIN A OUTLET FLOW 0 OUTLET FLOW OPEN CLOSED OFF ON T OPEN OPEN C
7 470 FCV63290C FILT DEMIN 0 OVI'LET FLOW OPEN CLOSED OFF ON 6ZT CLOSED CLOSED 7 479 FCV63290 I ILI DEMIN 0 OVfLET FLOW C 400 FCV6329CO FILI DEMIN C OUTLET FLOW OPEN CLOSED OFF -
ON
'"T T OPEN OPEN 7 481 FCV63r29CC FILT DEtIIN C OUTLET FLOW OPEN CLOSED OFF ON CLOSED CLOSED 7 0 482 FCV63'r!9C 403 FCV632900 F ILT I'ILT DEIIIN C OUTLET FLOW DEMIN D OUTLET FLOI4 OPEN CLOSED OFF ON ~ 'OT OPEN OPEN C
7 404 FCV63r29DC F ILI'Et1IN D OUTLET'LOW OPEN CLOSED OFF ON T CLOSED CLOSED 7 405 FCV63290 F ILT DEMIN D OUTLET- FLOW C 486 CV6351ho FLT DEMIN A COND WTR IN OPEN CLOSED OFF ON '.I OPEN OPEN 7 407 CV635lhc FLT DEtlIN A CotID Wl'R IN OPEN cLossn OFF ON '::T CLOSED CLOSED 7 0 400 409 CV6351h CV635100 Pl.r DEMIN A CntID urR IN I LI'Et1IN 0 COND WIR IN OPEN CLOSED OFF ON <<IT OPEN OPEN C
7 490 CV63510C FLT DEMIN 0 COND WTR IN OPEN ,CLOSED OFF ON 'T CLOSED CLOSED 7 Pot CV63510 FLT DEMIN 0 COND W'fR IN C 492 cv635lcn FLT DEMIN C COND WIR IN OPEN CLOSED OFF ON 4. T OPEN OPEN 7 493 CV6351CC FLT DEMIN C COND WTR IN OPEN CLOSED OFF ON T CLOSED 7 494 CV6351C FLT DFMIN C COND WIR IN CLOSED,'PEN C
495 CV635100 FLT DEt11N 0 COND WTA IN OPEN CI.OSED OFF ON T OPEN 7 496 CV6351DC FLT DEtllN D COND WIR IN OPEN CLOSED OFF ON ::T CLOSED CLOSED 7 rO7 CV635ID FLT DEtIIN D COND WTR IN C 490 499 SV6305 Mov63860 PRZR RELIEF TANK GAS ANAL LINE OPFN RCP SEAL OPEN CLOSED CLOSED OFF OFF ON ON 'T CLOSED
':T OPEN OPFN OPEN 7
7 Ci 500 MOV6306C RCP SFAL OPEN CLOSED OFF ON CLOSED CLOSED 7 501 ."IOV6306 ACP SEAL C 502 SV6427h HOT LEG ACS ShtlPI E LOOP A OPEN CLOSFD OFF ON :.. EN ClOSED 7 503 SV642/0 IIOT I.EG RCS SAMPLE LO.P 0 OPEN cLosEn OFF ON firEN CLOSED 7 504 SV64r20 IIOT LEG RCS SAMPLE Ll'.- nprIN CLOSED OFF ON iini EN cLnsEn 7
C-4
~ . >to ~ t . 4 >K at>>aU4 iii Lll . 1 II:pc.lt Ol'F UtI '.s. Lt l>.t 1 t tI 0 Lli"tt>) l L.D 7 4PU>> 120 VAC INV Pt)L OitKR STATUS OPEN CLOSED OFF ON DiEENERDIZED ENERD I ZED 7 507 4P00 I '0 VAC INV PNL t)AKR STATUS OPEN CLOSF.D OFF ON QEENERCIZED ENERC IZED 7 500 4P09 120 VAC INV PNL ORKR STATUS OPEN CLOSED OFF ON C-" EWER 0 I ZED ENERC IZED 7
~ 509 4 Pin I 510 4P i i V IThl. AC PAttFL I)RKR STATUS VI I TL AC PANEL DRKR STATUS
~
OPEN OPEN CLOSED CLOSED OFF OFF ON OH DEENERCIZEO C EWER C l ZED ENERO ENERCIZED IZED 7 7
511 4P23 VllAL AC PANEL ORKR STATUS OPEN cLosED OFF ON CEENERCIZED ENERO I TED 7 0 512 4PWA Vl tieL AC PANFL BRKR STATUS 513 SI-PtlP -4A S>AFl'Y INJECTlotI PUNP 4A OPEN OPEN CLOSED CLOSED OFF OFF ON ON r> ENERD IZED F
ENERC DN IZED 7 5
514 Sl Ptlt'-48 SAFETY INJECT Iott PUttP 4$ OPEN CLossn OFF ON F ON 5 0 515 NQV4"064AO Bl)SI ISOLATION STOP VALVE !)PEN cLosED OFF OH 'T OPEN OPFH 6 516 ttnV4-064AC RWsl ISOLATION SlOP VALVE OPEN CLOSED OFF ON I.T CLOSED CLOSED 6 517 ttnv4 ~ 064A ttwsr ISOLATION STOP VALVE C
~ to i IOV4-064 lto ttwsii I SOLAT ION STOP VALVE OPEN CLOSED OFF ON '. T OPEN OPEN 6 5t9 ttnv4-064ur RWSI'SOLATION STOP VALVE OPEN CLOSED OFF~ ON T CLOSED CLOSED 6 520 NDV4-0640 RWGI ISO!.ATIOH STOP VALVE C
~ sc I FIC626 RCP A. 0, C COOL WTR TOTAL FLOW OPEN CLosEn OFF ON Rt!AL I.nw 7 522 TIC627=- RCP OEARINO CCW RTN LINE TEtlP OPEN OFF HIGH 523 pcv62690 SLOWDOWN TNK T5 PRESS CONTROL npcN CLOSED CLOSED OFF ON ON "+ORNAL T OPEN OPEN 7
5 PCV626YC SLOWDOWN TNK T5 PRESS CONTROL l)PEN CLOSED OFF Oit T CLOSED CLOSED 5 525 PCV6269 DLOWDOWN THK T5 PRESS CONTROL C 5r6 RX SCRAN REACIOR TRIP STATUS ." IPPED NOT TRIPPED .3
4

ML17342A212: Difference between revisions

Latest revision as of 22:45, 3 February 2020

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Dear Mr. Varga:

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ML17342A212: Difference between revisions

Latest revision as of 22:45, 3 February 2020

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Dear Mr. Varga:

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