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{{#Wiki_filter:CONTROL SYSTEMS FAILURES ANALYSIS SALEM GENERATING STATION 8206090042 8 f~-' -
8206090042 8  
PDR ADOCK 0*~00602                          -~
-PDR ADOCK p 0311 PDR CONTROL SYSTEMS FAILURES ANALYSIS SALEM GENERATING STATION 
p           ~  0311 PDR
' .. . MAY 1982 "he Energy SALEM GENERA TING STATION UNIT. 2 CONTROL SYSTEMS FAILURES ANALYSIS ! I  CONTROL SYSTEMS FAILURES The purpose of this document is to provide an analysis demonstrating that the postulated events in Chapter 14 of the Salem FSAR adequately bound the consequences of single control system failures.
 
The following analysis consists of postulated failures of major trol systems and system interrelationships.
                                                  ~1 I
The systems reviewed were: 1. Steam Dump. 2. Excore Nuclear Instrumentation.  
                                        . MAY 1982 "he Energy Peop~e SALEM GENERATING STATION UNIT. 2 CONTROL SYSTEMS FAILURES ANALYSIS
: 3. Pressurizer Pressure and Level Control. 4. Feedwater Control. 5. Rod Control. The systems were evaluated for: 1. Break of common instrument lines. 2. Loss of power to all components powered from a single source, and
 
* 3. Break of any single instrument line. The enclosed Tables analyze these systems in the following manner: Table #1 -Break of Instrument Lines This table is comprised of an instrument by instrument analysis evaluating the effect of the individually failed instrument line upon its related trol system. The analysis is formulated to incorporate the instrument and channel, its failure mode, the effects of failures (upon all related tems), available redundant functions, the bounding event contained in the FSAR and any necessary remarks. Table #2 -Break of Common Instrument Lines Within Table #2, the analysis examines the NSSS control system instruments common to the same instrument line. These instruments are evaluated to the same criteria as in Table #1. However, in Table #2, the evaluated analysis encompasses the effects of all instruments common to the related instrument 1 i ne. Table #3 -Failure of Excore Nuclear Instrumentation Table #3 evaluates control system failures in regard to Nuclear tion only. As in Tables #1, and #2, the Nuclear Instrumentation System is also evaluated to demonstrate that the postulated failure is bounded by the events in Chapter 14 of the FSAR. Table #4 -Loss of Power Sources Table #4 is an individual analysis of all vital instrument buses affecting each instrument previously analyzed.
CONTROL SYSTEMS FAILURES The purpose of this document is to provide an analysis demonstrating that the postulated events in Chapter 14 of the Salem FSAR adequately bound the consequences of single control system failures.
It is an evaluation of the implied failure resulting from the loss of a particular instrument bus. Also contained within Table #4, is information inherent to the cumulative affects ensuing from the postulated total loss of a single vital instrument bus. Based upon this information, it is concluded that the postulated failures are bounded by the analyses contained within Chapter 14 of the FSAR. All aforementioned Tables refer to Appendix A of this analysis.
The following analysis consists of postulated failures of major   ~SSS  con-trol systems and system interrelationships.
Appendix A depicts all related control system instruments, related power sources, trol functions, and process taps for the systems reviewed.
The systems reviewed were:
: 1. Steam Dump.
: 2. Excore Nuclear Instrumentation.
: 3. Pressurizer Pressure and Level Control.
: 4. Feedwater Control.
: 5. Rod Control.
The systems were evaluated for:
: 1. Break of common instrument lines.
: 2. Loss of power to all components powered from a single source, and *
: 3. Break of any single instrument line.
The enclosed Tables analyze these systems in the following manner:
Table #1 - Break of Instrument Lines This table is comprised of an instrument by instrument analysis evaluating the effect of the individually failed instrument line upon its related con-trol system. The analysis is formulated to incorporate the instrument and channel, its failure mode, the effects of failures (upon all related sys-tems), available redundant functions, the bounding event contained in the FSAR and any necessary remarks.
Table #2 - Break of Common Instrument Lines Within Table #2, the analysis examines the   NSSS control system instruments common to the same instrument line. These   instruments are evaluated to the same criteria as in Table #1. However, in   Table #2, the evaluated analysis encompasses the effects of all instruments   common to the related instrument 1i ne.
 
Table #3 - Failure of Excore Nuclear Instrumentation Table #3 evaluates control system failures in regard to Nuclear Instrumenta-tion only. As in Tables #1, and #2, the Nuclear Instrumentation System is also evaluated to demonstrate that the postulated failure is bounded by the events in Chapter 14 of the FSAR.
Table #4 - Loss of Power Sources Table #4 is an individual analysis of all vital instrument buses affecting each instrument previously analyzed. It is an evaluation of the implied failure resulting from the loss of a particular instrument bus.
Also contained within Table #4, is information inherent to the cumulative affects ensuing from the postulated total loss of a single vital instrument bus. Based upon this information, it is concluded that the postulated failures are bounded by the analyses contained within Chapter 14 of the FSAR.
All aforementioned Tables refer to Appendix A of this analysis. Appendix A depicts all related control system instruments, related power sources, con-trol functions, and process taps for the systems reviewed.
It is concluded that these proposed failures are bounded by the postulated events in Chapter 14 of the Salem FSAR.
It is concluded that these proposed failures are bounded by the postulated events in Chapter 14 of the Salem FSAR.
I I I I CONTROL SYSTEMS FAILURES ANALYSIS -TABLE #1 COITTRO!Jl SYSTF.M Fl\IlJIRES Tl\BJ.E I 1 -BRP..AK OF lNS'l'RlJMEl'l'r LINES SYSTEM: PRffiSURIZER PRESSURE AND LEVEL CXNI'ROL INSTJllMENl'S Cllannels PT-455 Qi I Pl'-456 di II FAIWRE IOJffi . low low EFFttl'S OF FAIWRffi -Palse initiation of: (I) 1/4 Pressurizer low Pressure Reactor Trip Signal (llbolle P7, 2/4 required for Reactor trip). (2) 1/4 overtemperaturaAT Reactor Trip am 1/4 overtemperature  
 
.6 T Auto 'l\Jrblne blocks auto aoo manual R:Jd Withdrawl.  
I I
(3) 1/3 Pressurizer low Pressure Safety Injection Siqnal. -If Cllannel I ls being used as the controlling channel when the postulated failure occurs, the following FAISE Signals are lilitiated:--
I I
CONTROL SYSTEMS FAILURES ANALYSIS - TABLE #1
 
COITTRO!Jl SYSTF.M Fl\IlJIRES Tl\BJ.E I 1 - BRP..AK OF lNS'l'RlJMEl'l'r LINES SYSTEM:   PRffiSURIZER PRESSURE AND LEVEL CXNI'ROL                                                                                                           SHEF.'1' 1 FAIWRE INSTJllMENl'S             IOJffi            EFFttl'S OF FAIWRffi                    AVAILABLE REOONDANI' fUNCTirn5 Cllannels PT-455         Qi I     . low   -Palse initiation of:                         -<llannel III is available as the    -'Ihe event is bounded by    -Redundancy used to (I) 1/4 Pressurizer low Pressure           redumant control channel.            the inarlvertent openinq    pi:otect against Reactor Trip Signal (llbolle         -<llannel III also controls Pres-      of a pressurizer safety      accidental depres-P7, 2/4 required for Reactor           surizar Rlwer Operated Relief        valve as associatP.d with    sur i zat ion of. the trip).                                 Valve PR.1.                          the 11.ccidental Depressur- Reactor Coolant (2) 1/4 overtemperaturaAT                 -<:hannel IV is available as the      ization of. the Reactor      System.
Reactor Trip am 1/4                   redundant relief channel for PR2. OJolant System analysis.
overtemperature .6 T Auto
                                          'l\Jrblne ~nback, blocks auto aoo manual R:Jd Withdrawl.
(3) 1/3 Pressurizer low Pressure Safety Injection Siqnal.
                                  -If Cllannel I ls being used as the controlling channel when the postulated failure occurs, the following FAISE Signals are lilitiated:--
* False Operation of Pressurizer heaters (turns-on).
* False Operation of Pressurizer heaters (turns-on).
Ioss of auto operation:  
Ioss of auto operation:
(1) Pressurizer Operated Relief valve PR2. (2) Pressurizer Spray valves PSl am PS3. -False low Pressurizer Pressurf!
(1) Pressurizer ~r Operated Relief valve PR2.
Annunciation in the Main Control ltxlm. . =<ilannel II operates Relief Valve PR1 am alaans only. -If Cllannel II is being used as the relief channel when the tulated failure occurs, then the following FAISE Signals are initiated:--
(2) Pressurizer Spray valves PSl am   PS3.
AVAILABLE REOONDANI' fUNCTirn5
                                  -False low Pressurizer Pressurf!
-<llannel III is available as the redumant control channel. -<llannel III also controls surizar Rlwer Operated Relief Valve PR.1. -<:hannel IV is available as the redundant relief channel for PR2. =<ilannel IV Is avaUahle as the re-duooant Relief channel. -<:hannel IV also controls Operated Relief Yalve PR2. -<flannels I or 111 are available as reilu00ant control chanools.  
Annunciation in the Main Control ltxlm.           .
-'Ihe event is bounded by the inarlvertent openinq of a pressurizer safety valve as associatP.d with the 11.ccidental ization of. the Reactor OJolant System analysis.
Pl'-456        di II      low    =<ilannel II operates ~r Relief               =<ilannel IV Is avaUahle as the re-  See PT-455, Sheet Valve PR1 am alaans only.                     duooant Relief channel.
See PT-455, Sheet -SHEF.'1' 1 -Redundancy used to pi:otect against accidental sur i zat ion of. the Reactor Coolant System. 
                                  -If Cllannel II is being used as             -<:hannel IV also controls ~r the relief channel when the pos-             Operated Relief Yalve PR2.
. \ *cc.ll'ROLS SYS'l'F.M FAIUJRES TABLE 11 -BRFJ\K OF INSTRUMF.N'r LINES SYSTIM: PRF..SSURIZER PRESSURE AND LEVEL CCNl'ROL INSl'RUMEm'S Pl'-456 . (Cont'd) PT-457 anne s 01 III FAIWRE IOJES EFFEX:TS OF FAIWRES . -False Initiation of: (11 1/4 Pressurizer IDw Pressure Reactor Trip Signal (above P7, 2/4 required to trip the reactor).  
tulated failure occurs, then the            -<flannels I or 111 are available as following FAISE Signals are                  reilu00ant control chanools.
(2) 1/4 overtentierature..QT Reactor Trip and 1/4 overtemperature .OT Auto 'l\Jrbine Runback, blocks auto and manual ltJd Withdrawal.  
initiated:--
(3) 1/3 Pressurizer IDw Pressure safety Injection Signal. toss of operation for Pressurizer i:u..er (llerated Relief Valve PR1. -False [Dw Pressurizer pressure annunciation in the Main Control R:x:m. -False Initiation of: (1) 1/4 Pressurizer IDw Pressure Reactor Trip Signal (Above P7, 2/ 4 required for Reactor trip) (2) 1/4 overtenperature.6T or Trip and 1/4 tureAT Auto 'l\Jrbine Runback, blocks auto and manual ltJd Withdrawal.  
 
(3) 1/3 Pressurizer low Pressure safety Injection Siqnal. -If Olannel III is being used as the controllinq channel when the postulated failure occurs, the following FAISE Siqnals are initiated:--
                                                                              *cc.ll'ROLS SYS'l'F.M FAIUJRES TABLE 11 - BRFJ\K     OF INSTRUMF.N'r LINES SYSTIM:   PRF..SSURIZER PRESSURE AND LEVEL CCNl'ROL                                                                                                   SHEET 2 FAIWRE INSl'RUMEm'S               IOJES             EFFEX:TS OF FAIWRES .                     AVAILABLE REOONDANl' FUOCTIOOS                              Rml\RKS anne s Pl'-456                              -False Initiation of:
  . (Cont'd)                              (11 1/4 Pressurizer IDw Pressure Reactor Trip Signal (above P7, 2/4 required to trip the reactor).
(2) 1/4 overtentierature..QT Reactor Trip and 1/4 overtemperature
                                              .OT Auto 'l\Jrbine Runback, blocks auto and manual ltJd Withdrawal.
(3) 1/3 Pressurizer IDw Pressure safety Injection Signal.
toss of operation for Pressurizer i:u..er (llerated Relief Valve PR1.
                                        -False [Dw Pressurizer pressure annunciation in the Main Control R:x:m.
PT-457          01 III              -False Initiation of:                         -<llannel I is available as the re-  See PT-455, Sheet 1 -Redundancy used to (1) 1/4 Pressurizer IDw Pressure             dundant control channel (except for                      protect against Reactor Trip Signal (Above             operating PR1).                                          accidental depres-P7, 2/ 4 required for Reactor         -<:hannel II is available as a redun-                      suri zat ion of the trip)                                   dant relief channe1 for operation                        system.
(2) 1/4 overtenperature.6T lleact-          of the Pressurizer R>wer Operated or Trip and 1/4 overteqiera-            Relief Valve PR1.
tureAT Auto 'l\Jrbine Runback,         -<:hannel IV is available as a redun-blocks auto and manual ltJd             dant relief channel for operation Withdrawal.                             of the Pressurizer lbwer Operated (3) 1/3 Pressurizer low Pressure             Relief Valves PR1 and PR2.
safety Injection Siqnal.
                                        -If Olannel III is being used as the controllinq channel when the postulated failure occurs, the following FAISE Siqnals are initiated:--
False initiation of operating the Pressurizer heaters (turns-<>n).
False initiation of operating the Pressurizer heaters (turns-<>n).
toss of auto operation:  
toss of auto operation:
: 11) Pressurizer i:u..er cp!rated Relief valve PR2. . (2) Pressurizer Spray Valves PSI and PS3. (3) Pressurizer i:u..er operated Relief valve PR1
: 11) Pressurizer i:u..er cp!rated Relief valve PR2.     .
* AVAILABLE REOONDANl' FUOCTIOOS
(2) Pressurizer Spray Valves PSI and PS3.
-<llannel I is available as the dundant control channel (except for operating PR1). -<:hannel II is available as a dant relief channe1 for operation of the Pressurizer R>wer Operated Relief Valve PR1. -<:hannel IV is available as a dant relief channel for operation of the Pressurizer lbwer Operated Relief Valves PR1 and PR2. See PT-455, Sheet 1 SHEET 2 Rml\RKS -Redundancy used to protect against accidental suri zat ion of the system. 
(3) Pressurizer i:u..er operated Relief valve PR1 *
<XNJ'llOL.<; FAIUJRP.8
.\
* TAl'LF. I I -RREAK (lf' INS'J'lll ll'r.N'I' LINF'S SYS'l>>I: PRESSURIZER PRESSURF.
 
AtJll I.FVF.L CCffl'ROI, INSTRlMENI'S P'l'-457 (Cont'd) LT-459 Olanne s di I FAILllRE KJ)f!S Rlati . F:FFEr.l'!l OF FAIUIRP.S -False I.ow Pressurizer pressure annunciation in the Main Control R'.Joni. -anne I opera es POwer Re e Valves PR1 anit PR2 anit alarrm only. -If Oiannel IV is beillCI used as the relief. channel -.tien the posulate<'
                                                                                  <XNJ'llOL.<; SY~ FAIUJRP.8
failure occurs, then the followillCI FALSF. Siqnals are initiated:
* TAl'LF. I I - RREAK (lf' INS'J'lll ll'r.N'I' LINF'S SYS'l>>I: PRESSURIZER PRESSURF. AtJll I.FVF.L CCffl'ROI, FAILllRE INSTRlMENI'S             KJ)f!S                 F:FFEr.l'!l OF FAIUIRP.S Olanne s P'l'-457                            -False I.ow Pressurizer pressure (Cont'd)                              annunciation in the Main Control R'.Joni.
loss of auto operation for the Pressurizer Power Q:>erated Re1ief Valves PRl and PR2. -False initiation of 1/4 Pressurizer I.ow Pressure Reactor Trip Siqnal (llhove P7, 2/4 reau!red for or Trip). -False I.ow Pressurizer pressure annunciation in the Main Control lbotn. -False'(nlElatlon of 1/3 izer Hiah Water Level Reactor Trip Sianal (7/3 reauirP.<'l for reactor trip). -If Cllannel I is beillCI used as the controllillCI channel -.tien the tulated failure.occurs, the illCI FAL.'lf. Sic;mals are initiaten:  
                                    -     anne I opera es POwer Re e                   -    anne Valves PR1 anit PR2 anit alarrm                   nur.iant Re]ief channel for Power only.                                             l)>erater'I RP.Jief Valve Pill.
-anne nur.iant Re]ief channel for Power l)>erater'I RP.Jief Valve Pill. --<hannelR I or III are availahle as rer'lundant contro1 cfiannels, an<! aJRO for operation of Power Operate(!
                                    -If Oiannel IV is beillCI used as the               --<hannelR I or III are availahle as relief. channel -.tien the posulate<'               rer'lundant contro1 cfiannels, an<! aJRO failure occurs, then the followillCI               for operation of Power Operate(!
lie.lief Valve PR2. -Oiannels n or Ill are availahle as the rrounitant crmtro1 channels.
FALSF. Siqnals are initiated:                       lie.lief Valve PR2.
CQITTROLS SYSTEM FAIUJRES TABLE 11 -BREAK OF INSTRUMEN'r LINES svsim: PRESSURIZER PRESSURE !\ND.LEVEL crnrROL LT-459 (Cont'd) Channels FAIWRE 1-DJES EFFECI'S OF FAIWRF.S False Operation of Pressurizer Backup Heaters (turns-<>n)
loss of auto operation for the Pressurizer Power Q:>erated Re1ief Valves PRl and PR2.
Charging PUmpS decrease flow. -False High Pressurizer level nunciation in the Main Control lbcJn. n essur-i zer High Water Level Reactor Trip Signal (2/3 required for reactor trip) .. -If Olannel II is being used as the controlling channel when the postulated failure occurs, the following FALSE Signals are initiated:--
                                    -False initiation of 1/4 Pressurizer I.ow Pressure Reactor Trip Siqnal (llhove P7, 2/4 reau!red for React-or Trip).
                                    -False I.ow Pressurizer pressure annunciation in the Main Control lbotn.
LT-459        di I      Rlati .  -False'(nlElatlon of 1/3 Pressur-                  -Oiannels    n  or Ill are availahle izer Hiah Water Level Reactor                     as the rrounitant crmtro1 channels.
Trip Sianal (7/3 reauirP.<'l for reactor trip).
                                      -If Cllannel I is beillCI used as the controllillCI channel -.tien the pc>s-tulated failure.occurs, the follow-illCI FAL.'lf. Sic;mals are initiaten:
 
CQITTROLS SYSTEM FAIUJRES TABLE 11 - BREAK OF INSTRUMEN'r LINES SHEET 4 svsim:     PRESSURIZER PRESSURE !\ND.LEVEL crnrROL REMMKS FAIWRE                                                                                                            AVAILABLE REOONDANl' FUNCTIOOS 1-DJES                   EFFECI'S OF FAIWRF.S Channels                    False Operation of Pressurizer LT-459                                      Backup Heaters (turns-<>n)
(Cont'd)                                  Charging PUmpS decrease flow.
                                          -False High Pressurizer level an-nunciation in the Main Control lbcJn.
n                                                       essur-i zer High Water Level Reactor Trip Signal (2/3 required for reactor trip) ..
                                            -If Olannel II is being used as the controlling channel when the postulated failure occurs, the following FALSE Signals are initiated:--
False initiation of Pressurizer Backup Heaters (tums-<>n).
False initiation of Pressurizer Backup Heaters (tums-<>n).
Charging PUmpS decrease flow. -False High Pressurizer level nunciation in the Main Control lbcJn.  
Charging PUmpS decrease flow.
...
                                            -False High Pressurizer level an-nunciation in the Main Control lbcJn.
izer High Water Level Reactor Trip Signal (2/J required for reactor trip). -If Olannel III is being used as the controlling channel when the postulated failure occurs, the following FALSE SiQnals are initiated:--
                                                                                                                                                -Oiannels I aM!fareaVaITab""Ie as --- see PT-4S"S-, sheet , -------------------------
** SHEET 4 AVAILABLE REOONDANl' FUNCTIOOS REMMKS -Oiannels I aM!fareaVaITab""Ie as ---see PT-4S"S-, sheet ,
111'~-__.,..0ic.-il"l"'l"---.nrrl9'"'h..---_...
the redundant control channels.
Fa"'1"s&deg;'e--.l..-n-rlt.--l""'a"'t...,l""on,,....o...,f,.......1,...,/""3,......,Pi..,.e=ssur--
....
the redundant control channels.
cn1J'ROL.'l SYSTF.M FMIJJRF.S TABLE 11 -BRf'.AK OP INS'l'RllMF.N'r LINES SYSTEM: PRESSURIZER PRESSURE l\tlll LEVP.L CONTOOL LT-461 (Cont'd! LT-459 LT-460 LT-461 PT-458 LT-462 anne s Cfl I Ch II di III FAIUJRE IOJES I.ow I.ow High EFFOCTS OF FAIWRES False Initiation of Operatinq the Pressurizer Backup Heaters (turns-<>n).
izer High Water Level Reactor Trip Signal (2/J required for reactor trip).
Oiarqing Plmt>S decrease flow. -False High Pressurizer level nunciation in the Main Control ltxlln. -If Channel I ls being used as the controlllnq dlannel when the postulated failure occurs, the following FAISE Siqnals are initiated:--
                                              -If Olannel III is being used as the controlling channel when the postulated failure occurs, the following FALSE SiQnals are initiated:-- **
 
cn1J'ROL.'l SYSTF.M FMIJJRF.S TABLE 11 - BRf'.AK OP INS'l'RllMF.N'r LINES SYSTEM:   PRESSURIZER PRESSURE l\tlll LEVP.L CONTOOL                                                                                       SHEF:I' 5 FAIUJRE IOJES               EFFOCTS OF FAIWRES                 AVAilABLE RID!NDA!fl' FUNCTIOOS anne s LT-461                                False Initiation of Operatinq the (Cont'd!                            Pressurizer Backup Heaters (turns-<>n).
Oiarqing Plmt>S decrease flow.
                                    -False High Pressurizer level an-nunciation in the Main Control ltxlln.
LT-459        Cfl I      I.ow      -If   Channel I ls being used as         =<llannels 11 or III are available as  See Pl'-455, Sheet 1 the controlllnq dlannel when the         the reundant control channels.
postulated failure occurs, the following FAISE Siqnals are initiated:--
* All Pressurizer heaters in auto mode de-enerqize.
* All Pressurizer heaters in auto mode de-enerqize.
letdown isolation valves CV277 and CV2 close. All letdown orifice isolation valves close (CV3, 4, & 51. -False I.ow Pressurizer level nunciat ion in the Main Control IO:Jln. See LT-459, Sheet 5 see LT=459, Sheet 5 Nile -ca116ratlon Channel High N'Jne -calibration Channel AVAilABLE RID!NDA!fl' FUNCTIOOS
letdown isolation valves CV277 and CV2 close.
=<llannels 11 or III are available as the reundant control channels.
All letdown orifice isolation valves close (CV3, 4, & 51.
=<llannels I or III are available as the redundant control channels.  
                                    -False I.ow Pressurizer level an-nunciat ion in the Main Control IO:Jln.
=<llannels I or II are available as the redundant CO(ltrol dlannels.
LT-460        Ch II      I.ow      See LT-459, Sheet 5                       =<llannels I or   III are available as See PT-455, Sheet the redundant     control channels.
SHEF:I' 5 See Pl'-455, Sheet 1 See PT-455, Sheet See pr::455, Sheet .:-'t*
LT-461        di III              see LT=459,    Sheet 5                  =<llannels I or   II are available as See pr::455, Sheet the redundant     CO(ltrol dlannels.
PT-458                    High      Nile - ca116ratlon Channel LT-462                    High      N'Jne - calibration Channel
                                                                                                                                                    .:-'t*
 
CTNl'ROLS SYS'l'F.M FAIUJRES TABLE
CTNl'ROLS SYS'l'F.M FAIUJRES TABLE
* 1 -BREAK OF INS'l'RUMF.NT LINES SYSTEM: PRESSURIZER PRESSURE AND LEVEL <XNI'ROL FAIWRE INSTRIJMENl'S r-l)()ES Channels LT-1649 High Pir-1648 EFFECTS OF FAIUJRES -False High Pressurizer Level Alarm at the lbt Shutdown Panel. -False I.ow Pressurizer Pressure Alarm at the lbt Shutdown Panel. AW\IIABLE REOONDANT FUNCTirn5 -Level control system not affected.
* 1 - BREAK OF INS'l'RUMF.NT LINES SYSTEM:  PRESSURIZER PRESSURE AND LEVEL <XNI'ROL                                                                    SHEET 6 FAIWRE INSTRIJMENl'S            r-l)()ES        EFFECTS OF FAIUJRES                  AW\IIABLE REOONDANT FUNCTirn5 Channels LT-1649                    High  -False High Pressurizer Level            -Level control system not affected. N/A Alarm at the lbt Shutdown Panel.        -<:ontrol !ban alarm capability still available.
-<:ontrol
Pir-1648                          -False I.ow Pressurizer Pressure        -Pressure control system not affected. N/A Alarm at the lbt Shutdown Panel.        -<:ontrol !ban alarm capability still available.
!ban alarm capability still available. -Pressure control system not affected.
                                                                                                                              ..~ .
-<:ontrol
 
!ban alarm capability still available.
CCNI'ROl.B SYSTEM FAII1JRES
SHEET 6 N/A N/A ..
                                                                      *rJIBLE # l_ - BRF:l\K OF INSTRUMEN'r LINES SYSTEM:  FEEJ:l'iATER a:tfl'OOL - STEAM GENERA'IUR STEAM FI.av                                                                                                  Sl!EE'I' 7 FAIWRE INSTRUMENl'S                f-DDF.'l          EFFECT'S OF FAIWRES                      AVl\ILl\BLE REOONl.Wll' FUNCTIONS        DOONDING E.VENl'            Rml\RKS Channels SGt21 FT-512          Ch I          High  -False initiation of:                          -Fl<M' control for steam generators  -Initial increase in steam  NOI'E: If nigh level (1) 1/2 High Steam Flew Steam                  122, 123, and 124 remain operable. fl<M" decreases as steam  detected by 2 out of line isolatiai signal (2/4              -Level controls for all steam gen-    pressure decreases. 'l1lis 3 steam generator required and either a lcw                erators remain operable.              transient is bounded by    level transmitters, steamline pressure or lcw              -Channel II is available as the        the Accidental Depressur-  all associated main Tavg required for Reactor                redundant channel for steam flCM    ization of the Main Steam  and bypass feed.olater trip).                                    control.                            System analysis.          valves will close.
CCNI'ROl.B SYSTEM FAII1JRES
(2) 1/2 Steam flcw/feecJ..iater fl<M" mismatch. (This coin-cident with
*rJIBLE # l_ -BRF:l\K OF INSTRUMEN
Loops #21, #23 and #24 remain operable.
Loops #21, #23 and #24 remain operable.
Channel I is only partially available.)
(NOTE~ Channel I is only partially available.)
Channels II and IV are redundant control channels for Auto Turbine Runback and Block Auto and Manual Rod llithdrawal.
c      If Channe 1 I is being used as the      Channels II and IV are redundant control control channel when the postulated      channels for Auto Turbine Runback and failure occurs, the following            Block Auto and Manual Rod llithdrawal.
All Loops (#21, #22, #23 and #24) are unavailable.  
happens:                                  All Loops (#21, #22, #23 and #24) are
* (NOTE: Channel I is only partially available.)
                                    -Loss of related operation of:          unavailable.         *
BOUNDING EVENT These events are bounded by the analyses covering sive Heat moval due to Feedwater System malfunction and/ or Loss of Normal Feedwater.
(1) Rod Control.
Sheet 9 REMARKS Ref: Appendix A-pages 1, 7, 7A, 40, 44, 45 and 46.
(2) Modulation of Feed11ater Valves    (NOTE: Channel I is only partially (11 & 12 BF 19 & 4D).                available.)
CONTROL SYSTEM FAILURES .TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -1\EACTOR COOLANT TEMPERATURE INSTRUMENTS TE-tlllA (Cont'd) TE-411B Channels Ch. I Ch. I VITAL BUS (Loss) D A EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following*
(3) Steam Dump.
happens: -Loss of related operation of: (1) Rod Control. (2) Steam Dump. (3) Speed Signal to Charging Pump. (4) Block Auto Control of Group 21 and 22 Back-up Heaters. If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of the Auto Turbine Runback and Block Auto and Manual Rod IJithdrawal.
(4) Speed Signal to Charging Pump.
AVAILABLE REDUNDANT FUNCTIONS Channels II and III are available as redundant control channels for Auto Turbine Runback and Block Auto and 11anual Rod Withdrawal, Modulation of Feedwater Valves (11 & 12 BF 19 & 40) and related Steam Dump. Loops #21, #22 and #23 remain operable. (NOTE: Channel I is only partially available.)
(5) Block Auto Control of Group 21 and 22 Back-up Heaters.
BOUNDING EVENT Channels II, III and IV are available These events are as redundant control channels.
 
bounded by the analyses ing excessive Heat Removal due to Feedwater System malfunc-------------------------------------
CONTROL SYSTEM FAILURES                                             Sheet  10
tion and/or Loss B None c None D None Channels III and IV are available as of Normal redundant control channels.
                                                                  .TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - 1\EACTOR COOLANT TEMPERATURE INSTRUMENTS               VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
water. Channel I remains operable.
Channels TE-tlllA        Ch. I         D     If Channel I is being used as the       Channels II and III are available as (Cont'd)                            control channel when the postulated     redundant control channels for Auto failure occurs, the following*         Turbine Runback and Block Auto and happens:                               11anual Rod Withdrawal, Modulation of
Channels II and IV are available as redundant control channels.
                                      -Loss of related operation of:         Feedwater Valves (11 & 12 BF 19 & 40)
(1) Rod Control.                       and related Steam Dump.
(2) Steam Dump.
(3) Speed Signal to Charging Pump. Loops #21, #22 and #23 remain operable.
(4) Block Auto Control of Group       (NOTE: Channel I is only partially 21 and 22 Back-up Heaters.           available.)
TE-411B          Ch. I        A      If Channel I is being used as the       Channels II, III and IV are available These events are Ref:
control channel when the postulated     as redundant control channels.          bounded by the  Appendix A-pages 1, 7, failure occurs, the following                                                   analyses cover- 7A, 40, 44, 45 and 46.
happens:                                                                       ing excessive
                                      -Loss of related operation of the                                               Heat Removal due Auto Turbine Runback and Block                                                 to Feedwater Auto and Manual Rod IJithdrawal.                                               System malfunc-
                          - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - tion and/or Loss B     None                                   Channels III and IV are available as of Normal Feed~*
redundant control channels.           water.
Channel I remains operable.
c      None                                    Channels II and IV are available as redundant control channels.
Chaunel I remains operable.
Chaunel I remains operable.
Channels II and III are available as redundant control channels.
D      None                                    Channels II and III are available as redundant control channels.
Channel I remains operable.
Channel I remains operable.
Sheet 10 REMARKS Ref: Appendix A-pages 1, 7, 7A, 40, 44, 45 and 46.
 
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -REACTOR COOLANT TEMPERATURE INSTRUMENTS TE-42IA Channels Ch. II VITAL BUS (Loss) A B c EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of Steam Dump. If Channel* II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (I) Channel II operation.  
CONTROL SYSTEM FAILURES                                             Sheet 11 TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.  
Channels TE-42IA       Ch. II       A       If Channel II is being used as the       Channels III and IV are available as See TE-411A,      Ref:
(3) Rod Control. (4) Modulation of Feedwater Valves (11 & 12 BF 19 & 40). (5) Steam Dump. (6) Speed Signal to Charging Pump. (7) Block Auto Control of Group 21 and 22 Back-up lleaters.
control channel when the postulated       redundant control channels, except      Sheet #9        Appendix A-pages 2, 8, failure occurs, the following             for related Steam Dump.                                SA, 41, 44, 45 and 46.
If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Rod Control. (2) Modulation of Feedwater Valves (11 & 12 BF 19 & 40). (3) Steam Dump. (4) Speed Signal to Charging Pump. (5) Block Auto Control and Group 21 and 22 Back-up Ilea ters. AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Channels III and IV are available as See TE-411A, redundant control channels, except Sheet #9 for related Steam Dump. Loops #22, #23 and #24 remain operable. (NOTE: Channel II is only partially available.)
happens:
Channels I, III and IV are available as redundant control channels.
                                  -Loss of related operation of Steam       Loops #22, #23 and #24 remain operable.
Loops #21, #23 and #24 remain operable.
Dump.                                   (NOTE: Channel II is only partially available.)
Channels I and IV are available as dundant control channels for Auto *Turbine Runback and Block Auto and Manual Rod Withdrawal*.
B      If Channel* II is being used as the       Channels I, III and IV are available control channel when the postulated       as redundant control channels.
All Loops (#21, #22, #23 and #24) are unavailable. (NOTE: Channel II is only partially available.)
failure occurs, the following happens:                                 Loops #21, #23 and #24 remain operable.
Sheet 11 REMARKS Ref: Appendix A-pages 2, 8, SA, 41, 44, 45 and 46.
                                  -Loss of related operation of:
CONTROL SYSTEM FAILURES .TABLE U4 -
(I) Channel II operation.
OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -REACTOR COOLANT TEMPERATURE INSTRUMENTS VITAL BUS (Loss) Channels TE-421A Ch. II D TE-42IB Ch. II A B c D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Rod Control. (2) Steam Dump. (3) Speed Signal to Charging Pump. (4) Block Auto Control of Group 21 and 22 Back-up Heaters. None If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of the Auto Turbine Runback and Block Auto and 1-lanua l Rod fJithdrawa
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
: l. None None AVAILABLE REDUNDANT FUNCTIONS Channels I and Ill are available as redundant control channels for Auto Turbine Runback and Block Auto and Manual Rod Withdrawal, Modulation of Feedwater Valves (11 & 12 BF 19 & 40) and related Steam Dump. Loops #21, #22 and #23 remain operable. (NOTE: Channel II is only partially available.)
(3) Rod Control.
Channels Ill and IV are available as redundant control channels.
(4) Modulation of Feedwater Valves (11 & 12 BF 19 & 40).
(5) Steam Dump.
(6) Speed Signal to Charging Pump.
(7) Block Auto Control of Group 21 and 22 Back-up lleaters.
c      If Channel II is being used as the       Channels I and IV are available as re-control channel when the postulated       dundant control channels for Auto failure occurs, the following           *Turbine Runback and Block Auto and happens:                                 Manual Rod Withdrawal*.
                                  -Loss of related operation of:
(1) Rod Control.                       All Loops (#21, #22, #23 and #24) are (2) Modulation of Feedwater Valves     unavailable.
(11 & 12 BF 19 & 40).               (NOTE: Channel II is only partially (3) Steam Dump.                         available.)
(4) Speed Signal to Charging Pump.
(5) Block Auto Control and Group 21 and 22 Back-up Ilea ters.
 
CONTROL SYSTEM FAILURES                                             Sheet 12
                                                                    .TABLE U4 - LO~S OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS             VITAL BUS         EFFECTS OF FAILURES                    AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
Channels TE-421A       Ch. II       D     If Channel II is being used as the         Channels I and Ill are available as control channel when the postulated         redundant control channels for Auto failure occurs, the following               Turbine Runback and Block Auto and happens:                                   Manual Rod Withdrawal, Modulation of
                                  -Loss of related operation of:              Feedwater Valves (11 & 12 BF 19 & 40)
(1) Rod Control.                          and related Steam Dump.
(2) Steam Dump.                            Loops #21, #22 and #23 remain operable.
(3) Speed Signal to Charging Pump.
(4) Block Auto Control of Group            (NOTE: Channel II is only partially 21 and 22 Back-up Heaters.              available.)
TE-42IB        Ch. II      A      None                                        Channels Ill and IV are available as   See TE-411A,    Ref:
redundant control channels.            Sheet #9        Appendix A-pages 2, 8, BA, 41, 44, 45 and 46.
Channel II remains operable.
Channel II remains operable.
Channels I, Ill and IV are available as redundant control channels.
B      If Channel II is being used as the          Channels I, Ill and IV are available as control channel when the postulated        redundant control channels.
Channels.I and.IV are available as dundant control channels.
failure occurs, the following happens:
                                  -Loss of related operation of the Auto Turbine Runback and Block Auto and 1-lanua l Rod fJithdrawa l.
c    None                                        Channels.I and.IV are available as re-dundant control channels.
Channel II remains operable.
Channel II remains operable.
Channels I and III are available as redundant control channels.
D    None                                        Channels I and III are available as redundant control channels.
Channel II remains operable.
Channel II remains operable.
BOUNDING EVENT See TE-411A, Sheet #9 Sheet 12 REMARKS Ref: Appendix A-pages 2, 8, BA, 41, 44, 45 and 46.
 
CONTROL SYSTEM FAILURES _TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -REACTOR COOLANT TEMPERATURE INSTRUMENTS TE-431A Channels Ch. III VITAL BUS (Loss) A B c EFFECTS OF FAILURES If Channel III is being used as the control channel when the postulated failure occurs, the follm*1ing happens: -Loss of related operation of Steam Dump. None If Channel III is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel Ill operation.
CONTROL SYSTEM FAILURES                                                 Sheet 13
(2) Auto Turbine Runback and Block Auto and Manual Rod
_TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT        REMARKS (Loss)
: l. (3) Rod Control. (4) Speed Signal to Charging Pump. ( 5) Steam Dump. (6) Modulation of Feedwater Valves (11 & 12 BF 19 & 40). (7) Block Auto Control of Group 21 & 22 Back-up Heaters. AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Channels II and IV are available as See TE-411A,'
Channels TE-431A       Ch. III     A     If Channel III is being used as the       Channels II and IV are available as       See TE-411A,' Ref:
redundant control channels, except for Sheet #9 Steam Dump.
control channel when the postulated      redundant control channels, except for Sheet #9           Appendix A-pages 3, 9, failure occurs, the follm*1ing            Steam Dump.
* Loops #22, #23 and #24 remain operable. (NOTE: Channel III is only partially available.)
* 9A, 4 2, 44 , 45 and 46.
Channels I and IV are available as redundant control channels.
happens:                                  Loops #22, #23 and #24 remain operable.
Loops #21, #23 and #24 . .remain operable. (NOTE: Channel III is only partially available.)
                                  -Loss of related operation of Steam Dump.                                    (NOTE: Channel III is only partially available.)
Channels I, II and Ill are available as redundant control channels for Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
B      None                                      Channels I and IV are available as redundant control channels.
All Loops (#21, #22, #23 and #24) are unavailable.
Loops #21, #23 and #24 . .remain operable.
Sheet 13 REMARKS Ref: Appendix A-pages 3, 9, 9A, 4 2, 44 , 45 and 46.
(NOTE: Channel III is only partially available.)
CONTROL SYSTEM FAILURES .TABLE H4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -REACTOR COOLANT TEMPERATURE INSTRUMEtlTS VITAL BUS (Loss) Channels TE-431A Ch. I II D TE-4316 Ch. III A B c D EFFECTS OF FAILURES If Channel Ill is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Rod Control. (2) Steam Dump. (3) Speed Signal to Charging Pump. (4) Block Auto Control of Group 21 and 22 Back-up Heaters None None If Channel III is being used as the control channel when the postulated failure occurs, the happens: -Loss of related operation of the Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
c      If Channel III is being used as the      Channels I, II and Ill are available as control channel when the postulated      redundant control channels for Auto failure occurs, the following            Turbine Runback and Block Auto and happens:                                  Manual Rod Withdrawal.
None AVAILABLE REDUNDANT FUNCTIONS Channels I and II are available as redundant control channels for lated Steam Dump, to modulate *water Valves (11 & 12 BF 19 & 40), and Auto Turbine Runback and Block Auto and Manual Rod l'li thdrawa l. Loops #21, 1122 and #23 remain operable. (NOTE: Channel III is partially available.)
                                  -Loss of related operation of:            All Loops (#21, #22, #23 and #24) are (1) Channel Ill operation.              unavailable.
Channels II and IV are available as redundant control channels.
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdra~ia l.
Channel III remains operable.
(3) Rod Control.
Channels I and IV are available as redundant control channels.
(4) Speed Signal to Charging Pump.
( 5) Steam Dump.
(6) Modulation of Feedwater Valves (11 & 12 BF 19 & 40).
(7) Block Auto Control of Group 21 & 22 Back-up Heaters.
 
CONTROL SYSTEM FAILURES                                             Sheet 14
                                                                .TABLE H4 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMEtlTS             VITAL BUS         EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
Channels TE-431A         Ch. I II     D     If Channel Ill is being used as the     Channels I and II are available as control channel when the postulated     redundant control channels for re-failure occurs, the following          lated Steam Dump, to modulate feed-happens:                              *water Valves (11 & 12 BF 19 & 40),
                                    -Loss of related operation of:          and Auto Turbine Runback and Block (1) Rod Control.                      Auto and Manual Rod l'li thdrawa l.
(2) Steam Dump.                        Loops #21, 1122 and #23 remain operable.
(3) Speed Signal to Charging Pump.
(4) Block Auto Control of Group        (NOTE: Channel III is partially 21 and 22 Back-up Heaters          available.)
TE-4316        Ch. III      A      None                                    Channels II and IV are available as     See TE-411A,    Ref:
redundant control channels.             Sheet #9        Appendix A-pages 3, 9, Channel III remains operable.                            9A, 42, 44, 45 and 46.
B      None                                    Channels I and IV are available as redundant control channels.
Channel Ill remains* operable.
Channel Ill remains* operable.
Channels I, 11* and IV are available as redundant control channels.
c      If Channel III is being used as the    Channels I, 11* and IV are available as control channel when the postulated    redundant control channels.
Channels I and II are available as dundant control channels.
failure occurs, the follm~ing happens:
                                    -Loss of related operation of the Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
D    None                                    Channels I and II are available as re-dundant control channels.
Channel Ill remains operable.
Channel Ill remains operable.
BOUNDING EVENT See TE-411A, Sheet #9 Sheet 14 REMARKS Ref: Appendix A-pages 3, 9, 9A, 42, 44, 45 and 46.
 
CONTROL SYSTEM FAILURES *TABLE 04 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -REACTOR COOLANT TEMPERATURE INSTRUMENTS TE-*141A Channels Ch. IV VITAL BUS (Loss) A B c . EFFECTS OF FAILURES If Channel IV is being used as th,e control channel when the postulated failure occurs, the following happens: -Loss of related operation of Steam Dump. None If Channel IV is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Rod Control. (2) Modulation of Feedwater Valves . (11 & 12 BF 19 & 4D). ( 3) Steam Dump. (4) Speed Signal to Charging Pump. (5) Block Auto Control of Group 21 and 22 Back-up Heaters. AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT . Channels II and III are available as See TE-411A, redundant control channels, except Sheet #9 for related Steam Dump. Loops #22, #23 and #24 remain operable. (NOTE: Channel IV is only partially available.)
CONTROL SYSTEM FAILURES                                             Sheet 15
Channels I and III are available as redundant control channels.
                                                                *TABLE 04 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT .      REMARKS (Loss)
Loops #21, #23 and #24 remain operable. (NOTE: Channel IV is only partially available.)
Channels TE-*141A       Ch. IV       A     If Channel IV is being used as th,e     Channels II and III are available as   See TE-411A,     Ref:
Channels I and II are available as dundant control channels for Auto Tur*bi ne Runback and Block Auto and 11anua l Rod llithdrawa  
control channel when the postulated      redundant control channels, except     Sheet #9         Appendix A-pages 4, 10, failure occurs, the following            for related Steam Dump.                                 lOA, 43, 44, 45 and 46.
: l. A 11 Loops ( #21, #22, #23 and #24) are unavailable. (NOTE: Channel IV is only partially available.
happens:                                Loops #22, #23 and #24 remain operable.
Sheet 15 REMARKS Ref: Appendix A-pages 4, 10, lOA, 43, 44, 45 and 46.
                                  -Loss of related operation of Steam Dump.                                  (NOTE: Channel IV is only partially available.)
CONTROL SYSTEM FAILURES TABLE 04 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -REACTOR COOLANT TEMPERATURE . INSTRUMENTS TE-441A TE-4418 Channels Ch. IV Ch. IV VITAL BUS (Loss) D A B EFFECTS OF FAILURES If Channel IV is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel IV operation.  
B    None                                    Channels I and III are available as redundant control channels.
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.  
Loops #21, #23 and #24 remain operable.
(3) Rod Control. (4) Modulation of Feedwater Valves (11 & 12 BF 19 & 40). ( 5) Steam Dump. (6) Speed Signal to Charging Pump. (7) Block Auto Control of Group 21 and 22 Back-up Heaters. None None AVAILABLE REDUNDANT FUNCTIONS Channels I, II and III are available as redundant control channels for Auto Turbine Runback and Block Auto and Manual Rod Withdrawal and to Modulate Feedwater Valves (11 & 12 BF 19 & 40). Loops #21, #22 and #23 remain avail-. able. Channels II and III are available as redundant control channels.
(NOTE: Channel IV is only partially available.)
::hanne l IV remains operable.
c . If Channel IV is being used as the      Channels I and II are available as re-control channel when the postulated      dundant control channels for Auto failure occurs, the following            Tur*bi ne Runback and Block Auto and happens:                                11anua l Rod llithdrawa l.
Channels I and Ill are available as redundant control channels.
                                  -Loss of related operation of:           A11 Loops ( #21, #22, #23 and #24) are (1) Rod Control.                        unavailable.
(2) Modulation of Feedwater Valves
                                    . (11 & 12 BF 19 & 4D).                (NOTE: Channel IV is only partially
( 3) Steam Dump.                        available.
(4) Speed Signal to Charging Pump.
(5) Block Auto Control of Group 21 and 22 Back-up Heaters.
 
CONTROL SYSTEM FAILURES                                           Sheet 16 TABLE 04 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE
. INSTRUMENTS             VITAL BUS            EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
Channels TE-441A       Ch. IV       D     If Channel IV is being used as the       Channels I, II and III are available control channel when the postulated     as redundant control channels for Auto failure occurs, the following           Turbine Runback and Block Auto and happens:                                 Manual Rod Withdrawal and to Modulate
                                    -Loss of related operation of:           Feedwater Valves (11 & 12 BF 19 & 40).
(1) Channel IV operation.
(2) Auto Turbine Runback and Block     Loops #21, #22 and #23 remain avail-.
Auto and Manual Rod Withdrawal. able.
(3) Rod Control.
(4) Modulation of Feedwater Valves (11 & 12 BF 19 & 40).
( 5) Steam Dump.
(6) Speed Signal to Charging Pump.
(7) Block Auto Control of Group 21 and 22 Back-up Heaters.
TE-4418        Ch. IV        A    None                                     Channels II and III are available as   See TE-411A,  Ref:
redundant control channels.             Sheet 9        Appendix.A-pages 4, 10,
::hanne l IV remains operable.                        lOA, 43, 44, 45 and 46.
B    None                                    Channels I and Ill are available as redundant control channels.
Channel IV remains operable.
Channel IV remains operable.
C None Channels I and II are available as redundant control channels.
C     None                                     Channels I and II are available as redundant control channels.
Channel IV remains operable.
Channel IV remains operable.
D If Channel IV is being used as the Channels I, II and III are available as control channel when the postulated redundant control channels.
D     If Channel IV is being used as the     Channels I, II and III are available as control channel when the postulated     redundant control channels.
failure occurs, the following happens: -Loss of related operation of the Auto Turbine Runback and Block Auto and Manual Rod IH thdrawa l. BOUNDING EVENT See TE-411A, Sheet 9 Sheet 16 REMARKS Ref: Appendix.A-pages 4, 10, lOA, 43, 44, 45 and 46.
failure occurs, the following happens:
CONTROL SYSTEM FAILURES TABLE H4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS SG#21 FT-510 Channels Ch. I VITAL BUS (Loss) A B C, 0 EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.  
                                    -Loss of related operation of the Auto Turbine Runback and Block Auto and Manual Rod IH thdrawa l.
(2) Feedwater Control Valve (21 BF 19). If Channel I is being used as the control channel when the postulated ,failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). AVAILABLE REDUNDANT FUNCTIONS In Steam Generators
 
#21, #22, #23 and #24 all other level protection remains operable.
CONTROL SYSTEM FAILURES                                               Sheet 17 TABLE H4 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS             VITAL BUS           EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT        REMARKS (Loss)
In Steam Generators
SG#21        Channels FT-510        Ch. I        A       If Channel I is being used as the                                               These events    Ref:
#21, #22, #23 and #24 all other level protection remains operable. (NOTE: Channel I is only partially available.)
control channel when the postulated                                             a ri> bounded by Appendix A-pages 11, llA, failure occurs, the following         In Steam Generators #21, #22, #23 and the analysis        13, 27 and 31.
Steam Generators #21, #22, #23 and #24 le*vel protection remains available.
happens:                               #24 all other level protection remains covering Exces-
tlOTE: (1) Channel I is only partially able. (2) Part of all other Steam Generators' level protection is unavailable (each bus implies different able level protection).
                                    -Loss of related operation of:         operable.                                sive Heat Re-(1) Channel I operation.                                                       moval due to (2) Feedwater Control Valve                                                     Feedwater System (21 BF 19).                                                                 malfunction.
BOUNDING EVENT These events a ri> bounded by the analysis covering sive Heat moval due to Feedwater System malfunction.
B      If Channel I is being used as the control channel when the postulated
Sheet 17 REMARKS Ref: Appendix A-pages 11, llA, 13, 27 and 31.
                                  ,failure occurs, the following         In Steam Generators #21, #22, #23 and happens:                               #24 all other level protection remains
-CONTROL SYSTEM FAILURES . TABLE 04 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS SG #21 FT-511 Channels Ch. II VITAL BUS (Loss) A B C, D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). If Channel II ls being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
                                    -Loss of related operation of Feed-    operable.
(2) Feedwater Control Valve (21 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators  
water Control Valve (21 BF 19).
#21 and #24 control See FT-510, and level protection remains operable.
(NOTE: Channel I is only partially available.)
Sheet #17 In Steam Generators
C, 0      If Channel I is being used as the     Steam Generators #21, #22, #23 and #24 control channel when the postulated                  le*vel protection remains failure occurs, the following         available.
#21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel II is only partially available.)
happens:                               tlOTE:
Steam Generators
                                    -Loss of related operation of Feed-      (1) Channel I is only partially avail-water Control Valve (21 BF 19).             able.
#22 *and *#23 control. and level protection remains operable.
(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).
In Steam Generators  
 
#21, #22, #23 and #24, all other level protection remains operable.
CONTROL SYSTEM FAILURES                                            Sheet 18
Steam Generators
                                                                . TABLE 04 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS              VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
#21, #22, #23 and #24 level protection remains operable.
SG #21        Channels FT-511        Ch. II      A      If Channel II is being used as the      Steam Generators #21 and #24 control    See FT-510,    Ref:
NOTE: (1) Channel II is only partially able. (2) Part of all other Steam Generators' level protection is unavailable (each bus implies different able level protection).
control channel when the postulated      and level protection remains operable. Sheet #17       Appendix A-pages 12, 12A, failure occurs, the following            In Steam Generators #21, #22, #23 and                  13, 27 and 31.
Sheet 18 REMARKS Ref: Appendix A-pages 12, 12A, 13, 27 and 31.
happens:                                #24, all other level protection remains
CONTROL SYSTEM FAILURES .TABLE 114 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -STEAM GENERATOR, FEEDWATER FLOl.J/STEAM FLOl4 INSTRUMENTS SG #21 FT-512 Channels Ch. I VITAL BUS (Loss) A B C, D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.  
                                  -Loss of related operation of Feed-     operable.
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (21 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation water Control Valve (21 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Genera tors #21 and #24 control These events and level protection remains operable.
water Control Valve (21 BF 19).
are bounded by In Steam Generators #21, #22, #23 and the
(NOTE: Channel II is only partially available.)
#24, all other level protection remains 1 operable.
B     If Channel II ls being used as the       Steam Generators #22 *and *#23 control.
ss o onna Feedwater.
control channel when the postulated     and level protection remains operable.
Channel II is available for redundant control of Feed Pumps and Turbine Speed Control. Steam Generators*
failure occurs, the following           In Steam Generators #21, #22, #23 and happens:                                 #24, all other level protection remains
#22 and #23 control and level protection remains operable.
                                  -Loss of related operation of:          operable.
In Steam Generators #21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel I is only partially available.)
(1) Channel II operation.
Steam Generators  
(2) Feedwater Control Valve (21 BF 19).
#21, #22, #23 and #24 level protection remains available.
C, D    If Channel II is being used as the       Steam Generators #21, #22, #23 and #24 control channel when the postulated                   level protection remains failure occurs, the following           operable.
flOTE: (1) Channel I is only partially avail-able. 1 (2) Part of all other Steam Generators level protection is unavailable (each bus implies different level protection).
happens:                                 NOTE:
Sheet 19 REMARKS Ref: Appendix A-pages 11, 118, 13, 23, 27 and 31.
                                  -Loss of related operation of Feed-      (1) Channel II is only partially avail-water Control Valve (21 BF 19).               able.
CONTROL SYSTEM FAILURES _TABLE 04 -LOSS OF POWER SOURCES SYSTEM: FEEm-JATER CONTROL -STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOll INSTRUMENTS SG #21 FT-513 Channels Ch. II VITAL BUS (loss) A B C, D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). If Channel II is being used as the control channel when the postulated fa i1 ure occurs, the fo 11 ng nappens: -Loss of related operation of: (1) Channel II operation.
(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (21 BF 19). If Channel II is being used when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT In Steam Generators #21, #22, #23 and See FT-512, #24, all other level protection remains Sheet #19 operable. (NOTE: Channel II operation is only partially available.)
 
In Steam Generators  
CONTROL SYSTEM FAILURES                                                Sheet  19
#21, #22, #23 and #24, all other level protection remains operable.
                                                                .TABLE 114 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOl.J/STEAM FLOl4 INSTRUMENTS            VITAL BUS          EFFECTS OF FAILURES                    AVAILABLE REDUNDANT FUNCTIONS          BOUNDING EVENT      REMARKS (Loss)
Channel I is available for redundant control of Feed Pumps and Turbine Speed Control. Steam Generators  
SG #21      Channels FT-512      Ch. I        A      If Channel I is being used as the          Steam Genera tors #21 and #24 control      These events    Ref:
#21, #22, #23 and #24 level *protection remains operable.
control channel when the postulated        and level protection remains operable. are bounded by  Appendix A-pages 11, 118, failure occurs, the following              In Steam Generators #21, #22, #23 and     the a~alysis    13, 23, 27 and 31.
NOTE: (1) Channel II is only partially avail-(2) all other Steam Generators 1 level protection is unavailable (each bus implies different able level proteGtion.)
happens:                                  #24, all other level protection remains   E~veri~gNthe
Sheet 20 REMARKS Ref: Appendix A-pages 12, 12B, 13, 24, 27, 31 and 32.
                                  -Loss of related operation of:            operable.                                   ss o onna 1 (1) Channel I operation.                                                            Feedwater.
CONTROL SYSTEM FAILURES .TABLE 04 -LOSS OF POWER SOURCES SYSTEM: FEEOWATER CONTROL -STEAM GENERATOR, FEEDWATER FLOH/STEAM FLOW INSTRUMENTS SG #22 FT-520 Channels Ch. I VITAL BUS (Loss) A B C, D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.
(2) Feed Pumps and Turbine Speed          Channel II is available for redundant Control.                              control of Feed Pumps and Turbine Speed (3) Feedwater Control Valve              Control.
(2) Feedwater Control Valve (22 BF 19). None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators
(21 BF 19).
#21 and #24 control See FT-510, and level protection remains operable.
B      If Channel I is being used as the          Steam Generators* #22 and #23 control control channel when the postulated        and level protection remains operable.
Sheet #17 In Steam Generators
failure occurs, the following             In Steam Generators #21, #22, #23 and happens:                                   #24, all other level protection remains
#21, #22, #23 and #24, all other level protection remains operable.
                                  -Loss of related operation of Feed-        operable.
Steam Generators
water Control Valve (21 BF 19).
#22 and #23 control and level protection remains operable.
(NOTE: Channel I is only partially available.)
In Steam Generators  
C, D    If Channel I is being used as the         Steam Generators #21, #22, #23 and #24 control channel when the postulated                     level protection remains failure occurs, the following             available.
#21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel I operation is available.)
happens:                                   flOTE:
Steam Generators #21, #22, #23 and #24 control and level protection remains operable.
                                  -Loss of related operation Feed-            (1) Channel I is only partially avail-water Control Valve (21 BF 19).                 able.
NOTE: (1) Channel I is only partially able. (2) Part of all other Steam Generators' level protection is unavailable (each bus implies different able level protection).
(2) Part of all other Steam Generators 1 level protection is unavailable (each bus implies different level protection).
Sheet 21 REMARKS Ref: Appendix A-pages 14, 14A, 16, 28, and 31.
 
CONTROL SYSTEM FAILURES .TABLE 04 -LOSS OF POWER SOURCES SYSTEM:
CONTROL SYSTEM FAILURES                                                Sheet 20
CONTROL -STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOH INSTRUMENTS SG #22 FT-521 Channels Ch. II VITAL BUS (Loss} A B C, D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
_TABLE 04 - LOSS OF POWER SOURCES SYSTEM:  FEEm-JATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOll INSTRUMENTS              VITAL BUS            EFFECTS OF FAILURES                    AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (loss)
(2) Feedwater Control Valve (22 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19).-AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators  
Channels SG #21 FT-513        Ch. II      A      If Channel II is being used as the          In Steam Generators #21, #22, #23 and See FT-512,         Ref:
#21 and #24 control See FT-510, and level protection remains operable.
control channel when the postulated          #24, all other level protection remains Sheet #19        Appendix A-pages 12, 12B, failure occurs, the following                operable.                                                 13, 24, 27, 31 and 32.
Sheet #17 In Steam Generators  
happens:                                    (NOTE: Channel II operation is only
#21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel II is only partially available.)
                                    -Loss of related operation of Feed-          partially available.)
Steam Generators  
water Control Valve (21 BF 19).
#22 and #23 control and level protection remains operable.
B      If Channel II is being used as the          In Steam Generators #21, #22, #23 and control channel when the postulated          #24, all other level protection remains fa i1 ure occurs, the fo 11 o~li ng          operable.
In Steam Generators
nappens:                                     Channel I is available for redundant
#21, #22, #23 and #24, all other level protection remains operable.
                                    -Loss of related operation of:              control of Feed Pumps and Turbine Speed (1) Channel II operation.                  Control.
Channel :r is available as the dant control channel. Steam Generators  
(2) Feed Pumps and Turbine Speed Control.
#21, #22, 923 and #24 level protection remains operable.
(3) Feedwater Control Valve (21 BF 19).
NOTE: (1) Channel II is only partially able. (2) Part of all the Steam Generators' level protection is unavailable (each bus implies different able level protection).
C, D    If Channel II is being used when            Steam Generators #21, #22, #23 and #24 the postulated failure occurs, the          level *protection remains operable.
Sheet 22 REMARKS Ref: Appendix A-pages 15, 15A, 16, 28, and 31.
following happens:                          NOTE:
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM:
                                    -Loss of related operation of Feed-           (1) Channel II is only partially avail-water Control Valve (21 BF 19).
COflTROL -STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS SG #22 FT-522 Channels Ch. I VITAL BUS (Loss) A B C, D EFFECTS OF FAILURES If Channel I is belng used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (ll Channel I operation.  
(2)  ~~~~*of all other Steam Generators 1 level protection is unavailable (each bus implies different avail-able level proteGtion.)
(2 Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (22 BF 19). None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators  
 
#21 and #24 control See FT-512, and level protection remains operable.
CONTROL SYSTEM FAILURES                                            Sheet 21
Sheet #19 In Steam Generators
                                                                .TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEOWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOH/STEAM FLOW INSTRUMENTS              VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
#21, #22, #23 and #24, all other level protection remains operable.
SG #22      Channels FT-520        Ch. I        A    If Channel I is being used as the      Steam Generators #21 and #24 control    See FT-510,   Ref:
Channel II is available as the dant control channel for Feed Pumps and Turbine Speed Control. Steam Generators.#22 and #23 control and level protection remains operable.
control channel when the postulated    and level protection remains operable. Sheet #17        Appendix A-pages 14, 14A, failure occurs, the following          In Steam Generators #21, #22, #23 and                   16, 28, and 31.
In Steam Generators  
happens:                                #24, all other level protection remains
#21, #22, #23 and #24, all other level protection remains operable. (HOTE: Channel I remains operable.)
                                  -Loss of related operation of:          operable.
Steam Generators  
(1) Channel I operation.
#21, #22, #23 and #24 level protection remains operable.
(2) Feedwater Control Valve (22 BF 19).
tlOTE: (I) Channel I is only partially able. (2) Part of all other Steam Generators' level protection is unavailable (each bus implies different level protection).
B    None                                    Steam Generators #22 and #23 control and level protection remains operable.
Sheet 23 REMARKS Ref: Appendix A-pages 14, 148, 16, 23, 28, and 31.
In Steam Generators #21, #22, #23 and
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -STEAM GENERATOR, FEEDHATER FLOlUSTEAM FLOW INSTRUMENTS SG #22 FT-523 Channels Ch. I I VITAL BUS (Loss) A B C, D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.  
                                                                          #24, all other level protection remains operable.
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (22 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the happens: -Loss of related operation of water Control Valve (22 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators
(NOTE: Channel I operation is available.)
#21 and #24 control See FT-512, and level protection remains operable.
C, D    If Channel I is being used as the      Steam Generators #21, #22, #23 and #24 control channel when the postulated    control and level protection remains failure occurs, the following          operable.
Sheet #19 In Steam Generators  
happens:                                NOTE:
#21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel II is only partially available.)
                                  -Loss of related operation of Feed-      (1) Channel I is only partially avail-water Control Valve (22 BF 19).              able.
Steam Generators  
(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).
#22 and #23 control and level protection remains operable.
 
In Steam Generators  
CONTROL SYSTEM FAILURES                                             Sheet 22
#21, #22, #23 and #24, all other level protection remains operable.
                                                                .TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEm~ATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOH INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss}
Channel I is available as the redundant control channel. Steam Generators  
SG #22       Channels FT-521        Ch. II      A     If Channel II is being used as the     Steam Generators #21 and #24 control    See FT-510,    Ref:
#21, #22, #23 and #24 level protection remains operable.
control channel when the postulated     and level protection remains operable. Sheet #17        Appendix A-pages 15, 15A, failure occurs, the following                                                                   16, 28, and 31.
NOTE: (1) Channel II is only partially able. (2) Part of all the Steam Generators'.
happens:                               In Steam Generators #21, #22, #23 and
level protection*
                                  -Loss of related operation of Feed-    #24, all other level protection remains water Control Valve (22 BF 19).       operable.
is unavailable (each bus implies different able level protection).
(NOTE: Channel II is only partially available.)
Sheet 24 REMARKS Ref: Appendix A-pages 15, 15B, 16, 25, 28, 31, and 32.
B      If Channel II is being used as the     Steam Generators #22 and #23 control control channel when the postulated     and level protection remains operable.
CONTROL SYSTEM FAILURES .TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -STEAM GENERATOR, FEEDWATER FLOfl/STEAM FLOU INSTRUMENTS SG #23 FT-530 Channels Ch. I VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If* Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.
failure occurs, the following           In Steam Generators #21, #22, #23 and happens:                                #24, all other level protection remains
(2) Feedwater Control Valve (23 BF 19). None None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve {23 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators
                                  -Loss of related operation of:          operable.
#21 and #24 control See FT-510, and level protection remains operable.
(1) Channel II operation.
Sheet #17 In Steam Generators
(2) Feedwater Control Valve            Channel :r is available as the redun-(22 BF 19).                        dant control channel.
#21, #22, 1123 and #24, all other level protection remains operable.
C, D    If Channel II is being used as the      Steam Generators #21, #22, 923 and #24 control channel when the postulated                  level protection remains failure occurs, the following          operable.
Steam Generators
happens:                                NOTE:
#22 and #23 control and level protection remains operable.
                                  -Loss of related operation of Feed-      (1) Channel II is only partially avail-water Control Valve (22 BF 19).-            able.
In Steam Generators
(2) Part of all the Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).
#21, 022, and #24, all other level protection remains operable. (NOTE: Channel I operation is available.)
 
Steam Generators #21, #22, #23 and #24 level protection remains operable.
CONTROL SYSTEM FAILURES                                               Sheet  23 TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   FEEDl~ATER COflTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS               VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
NOTE: (1) Channel I remains operable.
SG #22       Channels FT-522        Ch. I          A     If Channel I is belng used as the       Steam Generators #21 and #24 control      See FT-512,    Ref:
(2) Part of all other Steam Generators' level protection is unavailable.
control channel when the postulated     and level protection remains operable. Sheet #19          Appendix A-pages 14, 148, failure occurs, the following                                                                     16, 23, 28, and 31.
(3) Channel II is available as the dundant contro 1 channe 1. . Steam Generators
happens:                                 In Steam Generators #21, #22, #23 and
#21, #22, #23 and #24 level protection remains operable, NOTE: (1) Channel I is only partially able. (2) Part of all other Steam Generators' level protection is unavailable.
                                    -Loss of related operation of:          #24, all other level protection remains (ll Channel I operation.              operable.
Sheet 25 REMARKS Ref: Appendix A-pages 17, 17A, 19, 29, and 31.
(2 Feed Pumps and Turbine Speed        Channel II is available as the redun-Control.                          dant control channel for Feed Pumps (3) Feedwater Control Valve           and Turbine Speed Control.
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM:
(22 BF 19).
CONTROL -STEAM GENERATOR, FLOW/STEAM FLOW INSTRUMENTS Channels Ch. JI VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel Iris being used as the control channel the postulated failure occurs, the following happens: . -Loss of related operation of Feed-water Con'trol Valve (23 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
B      None                                    Steam Generators.#22 and #23 control and level protection remains operable.
(2) Feedwater Control Valve (23 BF 19). None If Channel:II:is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators
In Steam Generators #21, #22, #23 and
#21 and #24 control See FT-510, and level protection remains operable.
                                                                            #24, all other level protection remains operable.
Sheet #17 In Steam Generators
(HOTE: Channel I remains operable.)
#21, #22, #23, and #24, all other level protection remain operable. (NOTE: Channel II is only partially available.)
C, D    If Channel I is being used as the      Steam Generators #21, #22, #23 and #24 control channel when the postulated                  level protection remains failure occurs, the following          operable.
Steam Generators
happens:                                tlOTE:
#22 and #23 control and level protection remains operable.
                                    -Loss of related operation of Feed-      (I) Channel I is only partially avail-water Control Valve (22 BF 19).              able.
In Steam Generators
(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different level protection).
#21, #22, #23 and #24, all other level protection remains operable.
 
Channel I is available as the redundant control channel. Steam Generators
CONTROL SYSTEM FAILURES                                            Sheet 24 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDHATER FLOlUSTEAM FLOW INSTRUMENTS            VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
#21, #22, #23 and # 24 level protection remains operable.
SG #22      Channels FT-523      Ch. I I      A      If Channel II is being used as the     Steam Generators #21 and #24 control    See FT-512,   Ref:
NOTE: (1) Channel II remains operable.
control channel when the postulated    and level protection remains operable. Sheet #19        Appendix A-pages 15, 15B, failure occurs, the following          In Steam Generators #21, #22, #23 and                  16, 25, 28, 31, and 32.
(2) Channel I is available as the dundant control channel. (3) Part of all other Steam Generators' level protection in unavailable.
happens:                                #24, all other level protection remains
Steam Generators
                                  -Loss of related operation of Feed-     operable.
#21, #22, #23 and #24 level protection remains operable.
water Control Valve (22 BF 19).
NOTE: (1) Channel JI is only partially available.  
(NOTE: Channel II is only partially available.)
B      If Channel II is being used as the     Steam Generators #22 and #23 control control channel when the postulated     and level protection remains operable.
failure occurs, the following           In Steam Generators #21, #22, #23 and happens:
                                  -Loss of related operation of:         #24, all other level protection remains (1) Channel II operation.              operable.
(2) Feed Pumps and Turbine Speed       Channel I is available as the redundant Control.                           control channel.
(3) Feedwater Control Valve (22 BF 19).
C, D    If Channel II is being used as the     Steam Generators #21, #22, #23 and #24 control channel when the postulated                 level protection remains failure occurs, the follm~ing          operable.
happens:                               NOTE:
                                  -Loss of related operation of Feed-      (1) Channel II is only partially avail-water Control Valve (22 BF 19).              able.
(2) Part of all the Steam Generators'.
level protection* is unavailable (each bus implies different avail-able level protection).
 
CONTROL SYSTEM FAILURES                                            Sheet 25
                                                                .TABLE #4 - LOSS OF POWER SOURCES SYSTEM:  FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOfl/STEAM FLOU INSTRUMENTS              VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
SG #23       Channels FT-530        Ch. I        A      If* Channel I is being used as the       Steam Generators #21 and #24 control     See FT-510,    Ref:
control channel when the postulated      and level protection remains operable. Sheet #17        Appendix A-pages 17, 17A, failure occurs, the following            In Steam Generators #21, #22, 1123 and                 19, 29, and 31.
happens:                                #24, all other level protection remains
                                  -Loss of related operation of:          operable.
(1) Channel I operation.
(2) Feedwater Control Valve (23 BF 19).
B      None                                    Steam Generators #22 and #23 control and level protection remains operable.
In Steam Generators #21, 022, ~23 and
                                                                            #24, all other level protection remains operable.
(NOTE: Channel I operation is available.)
c      None                                    Steam Generators #21, #22, #23 and #24 level protection remains operable.
NOTE:
(1) Channel I remains operable.
(2) Part of all other Steam Generators' level protection is unavailable.
(3) Channel II is available as the re-dundant contro 1 channe 1. .
D      If Channel I is being used as the        Steam Generators #21, #22, #23 and #24 control channel when the postulated                  level protection remains failure occurs, the following            operable, happens:                                NOTE:
                                  -Loss of related operation of Feed-       (1) Channel I is only partially avail-water Control Valve {23 BF 19).               able.
(2) Part of all other Steam Generators' level protection is unavailable.
 
CONTROL SYSTEM FAILURES                                              Sheet  26 TABLE #4 - LOSS OF POWER SOURCES SYSTEM:  FEEDl~ATER CONTROL - STEAM GENERATOR,  FEEDl~ATER FLOW/STEAM FLOW INSTRUMENTS              VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
Channels Ch. JI      A      If Channel Iris being used as the         Steam Generators #21 and #24 control     See FT-510,   Ref:
control channel 1~hen the postulated      and level protection remains operable. Sheet #17      Appendix A-pages lB, IBA, failure occurs, the following              In Steam Generators #21, #22, #23, and                  19, 29, and 31.
happens:                          .      #24, all other level protection remain
                                    -Loss of related operation of Feed-            operable.
water Con'trol Valve (23 BF 19).
(NOTE: Channel II is only partially available.)
B      If Channel II is being used as the        Steam Generators #22 and #23 control control channel when the postulated        and level protection remains operable.
failure occurs, the following              In Steam Generators #21, #22, #23 and happens:
                                    -Loss of related operation of:            #24, all other level protection remains (1) Channel II operation.                operable.
(2) Feedwater Control Valve              Channel I is available as the redundant (23 BF 19).                          control channel.
c      None                                      Steam Generators #21, #22, #23 and # 24 level protection remains operable.
NOTE:
(1) Channel II remains operable.
(2) Channel I is available as the re-dundant control channel.
(3) Part of all other Steam Generators' level protection in unavailable.
D      If Channel:II:is being used as the        Steam Generators #21, #22, #23 and #24 control channel when the postulated                    level protection remains failure occurs, the following              operable.
happens:                                  NOTE:
                                    -Loss of related operation of Feed-         (1) Channel JI is only partially water Control Valve (23 BF 19).                available.
(2) Part of all other Steam Generators 1 level protection is unavailable.
(2) Part of all other Steam Generators 1 level protection is unavailable.
Sheet 26 REMARKS Ref: Appendix A-pages lB, IBA, 19, 29, and 31.
 
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -STEAM GENERATOR, FEEDWATER FLOH/STEl\M FLOfl INSTRUMENTS SG #23 fT-532 Channels Ch. I VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated fa i1 ure occurs, the fo 11 owing happens: -Loss of related operation of: (1) Channel I operation.
CONTROL SYSTEM FAILURES                                               Sheet 27 TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOH/STEl\M FLOfl INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                    AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (23 BF 19). None None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators  
SG #23       Channels fT-532       Ch. I       A     If Channel I is being used as the           Steam Generators #21 and #24 control     See FT-512,     Ref:
#21 and #24 control See FT-512, and level protection remains operable.
control channel when the postulated        and level protection remains operable. Sheet #19         Appendix A-pages 17, 17B, fa i1 ure occurs, the fo 11 owing          In Steam Generators #21, #22, #23 and                     19, 26, 29, and 31.
Sheet #19 In Steam Generators  
happens:                                    #24, all other level protection remains
#21, #22, #23 and #24, all other level protection remains operable.
                                  -Loss of related operation of:              operable.
Channel II is available as the dant control channel for Feed Pumps and Turbine Speed Control. Steam Generators  
(1) Channel I operation.
#22 and #23 control and level protection remains operable.
(2) Feed Pumps and Turbine Speed          Channel II is available as the redun-Control.                            dant control channel for Feed Pumps (3) Feedwater Control Valve                and Turbine Speed Control.
In Steam Generators #21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel I remains operable.)
(23 BF 19).
Steam Generators  
B      None                                        Steam Generators #22 and #23 control and level protection remains operable.
#21, #22, #23 and #24 level protection remains operable.
In Steam Generators #21, #22, #23 and
NOTE: ( 1) Channel I remains operable.
                                                                              #24, all other level protection remains operable.
1 (2) Part of all other Steam Generators level protection is unavailable.
(NOTE: Channel I remains operable.)
Steam Generators  
c      None                                        Steam Generators #21, #22, #23 and #24 level protection remains operable.
#21, '122, #23 and #24 level protection remains operable.
NOTE:
NOTE: (1) Channel I is only partially available.
( 1) Channel I remains operable.       1 (2) Part of all other Steam Generators level protection is unavailable.
1 (2) Part of all other Steam Generators level protection is unavailable.
D      If Channel I is being used as the          Steam Generators #21, '122, #23 and #24 control channel when the postulated                      level protection remains failure occurs, the following              operable.
Sheet 27 REMARKS Ref: Appendix A-pages 17, 17B, 19, 26, 29, and 31.
happens:                                    NOTE:
CONTROL SYSTEM FAILURES .TABLE #4 -LOSS OF POWER SOURCES SYSTEM:
                                  -Loss of related operation of Feed-          (1) Channel I is only partially water Control Valve (23 BF 19).                  available.
CONTROL -STEAM GENERATOR, FEEDl-IATER FLOW/STEAM FLOU INSTRUMENTS SG 1123 FT-533 Channels Ch. II VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel I I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
(2) Part of all other Steam Generators1 level protection is unavailable.
(2) Feed Pumps and Turbine Speed Contra l. (3) Feedwater Control Valves (23 BF 19). None If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators  
 
#21 and #24 control See FT-512, and level protection remains operable. "heet #19 In Steam Generators  
CONTROL SYSTEM FAILURES                                               Sheet  28
#21, #22, 1123 and #24, all other level protection remains operable.  
                                                                  .TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDl~ATER CONTROL - STEAM GENERATOR, FEEDl-IATER FLOW/STEAM FLOU INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT        REMARKS (Loss)
* (NOTE: Channel II is only partially available.)
SG 1123     Channels FT-533       Ch. II       A     If Channel I I is being used as the       Steam Generators #21 and #24 control     See FT-512,   Ref:
Steam Generators  
control channel when the postulated      and level protection remains operable. "heet #19         1\jipendix A-pages 18, 188, failure occurs, the following            In Steam Generators #21, #22, 1123 and                   19, 24, 29, 31, and 32.
#22 and #23 control and level protection remains operable.
happens:                                  #24, all other level protection remains
In Steam Generators  
                                    -Loss of related operation of Feed-      operable.
#21, #22, #23 and #24, all other level protection remains operable.
* water Control Valve (23 BF 19).
Channel I is available as the redundant control channel. Steam Generators  
(NOTE: Channel II is only partially available.)
#21, #22, #23 and #24 level protection remains operable.
B      If Channel II is being used as the        Steam Generators #22 and #23 control control channel when the postulated      and level protection remains operable.
NOTE: (1) Channel II remains operable.  
failure occurs, the following            In Steam Generators #21, #22, #23 and happens:                                  #24, all other level protection remains
(2) Channel I is available as the dundant control channel. (3) Part of all other Steam Generators 1 level protection is unavailable.
                                    -Loss of related operation of:            operable.
Steam Generators  
(1) Channel II operation.
#21, #22, 1123 and #24 level protection remains operable.
(2) Feed Pumps and Turbine Speed        Channel I is available as the redundant Contra l.                          control channel.
NOTE: (1) Channel II is only partially available.  
(3) Feedwater Control Valves (23 BF 19).
c      None                                      Steam Generators #21, #22, #23 and #24 level protection remains operable.
NOTE:
(1) Channel II remains operable.
(2) Channel I is available as the re-dundant control channel.
(3) Part of all other Steam Generators 1 level protection is unavailable.
D      If Channel II is being used as the      Steam Generators #21, #22, 1123 and #24 control channel when the postulated                  level protection remains failure occurs, the following            operable.
happens:                                NOTE:
                                    -Loss of related operation of Feed-        (1) Channel II is only partially water Control Valve (23 BF 19).              available.
(2) Part of all other Steam Generators' level protection is unavailable.
(2) Part of all other Steam Generators' level protection is unavailable.
Sheet 28 REMARKS Ref: 1\jipendix A-pages 18, 188, 19, 24, 29, 31, and 32.
 
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDl-JATER CONTROL -STEAM GENERATORS, FEEDHATER FLOW/STEAtl FLOH INSTRUMENTS SG #24 FT-540 Channels Ch. I VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.  
CONTROL SYSTEM FAILURES                                               Sheet  29 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDl-JATER CONTROL - STEAM GENERATORS, FEEDHATER FLOW/STEAtl FLOH INSTRUMENTS               VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
(2) Feedwater Control Valve (24 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators
SG #24     Channels FT-540         Ch. I       A     If Channel I is being used as the       Steam Generators #21 and #24 control      See FT-510,    Ref:
#21 and #24 control See FT-510, and level protection remains operable.
control channel when the postulated     and level protection remains operable. Sheet #17        Appendix A-pages 20, 20A, failure occurs, the following           In Steam Generators #21, #22, #23 and                    22, 30 and 31.
Sheet #17 In Steam Generators  
happens:                               #24, all other level protection remains
#21, #22, #23 and #24, all other level protection remains .operable.
                                    -Loss of related operation of:         .operable.
Steam Generators
(1) Channel I operation.
#22 and #23 control and level protection remains operable.
(2) Feedwater Control Valve (24 BF 19).
In Steam Generators
B      If Channel I is being used as the       Steam Generators #22 and #23 control control channel when the postulated     and level protection remains operable.
#21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel is only partially available.)
failure occurs, the following          In Steam Generators #21, #22, #23 and happens:                                #24, all other level protection remains
Steam Generators  
                                    -Loss of related operation of Feed-    operable.
#21, #22, #23 and #24 level protection remains operable.
water Control Valve (24 BF 19).
NOTE: (1) Channel I remains operable.  
(NOTE: Channel   is only partially available.)
c      None                                    Steam Generators #21, #22, #23 and #24 level protection remains operable.
NOTE:
(1) Channel I remains operable.
(2) Part of all other Steam Generators' level protection is unavailable.
(2) Part of all other Steam Generators' level protection is unavailable.
Steam Generators  
D      If Channel I is being used as the      Steam Generators #21, #22, 923 and #24 control channel when the postulated                  level protection remains failure occurs, the following          operable.
#21, #22, 923 and #24 level protection remains operable.
happens:                                NOTE:
NOTE: (1) Channel I is only partially available.  
                                    -Loss of related operation of Feed-      (1) Channel I is only partially water Control Valve (24 BF 19).              available.
(2) Part of all other Steam Generators 1 level protection is unavailable.
(2) Part of all other Steam Generators 1 level protection is unavailable.
Sheet 29 REMARKS Ref: Appendix A-pages 20, 20A, 22, 30 and 31. I '
I
CONTROL SYSTEM FAILURES _TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDHATER CONTROL -STEAM GENERATORS, FEEDllATER FLOIUSTEAM FLO:-/ INSTRUMENTS SG #24 FT-541 Channels Ch. II VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
 
(2) Feedwater Control Valve (24 BF 19). None If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators  
CONTROL SYSTEM FAILURES                                                   Sheet 30
#21 and #24 control See FT-510, and level protection remains operable.
_TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   FEEDHATER CONTROL - STEAM GENERATORS, FEEDllATER FLOIUSTEAM FLO:-/
Sheet #17 In Stearn Generators  
INSTRUMENTS             VITAL BUS           EFFECTS OF FAILURES                   AVAILABLE REDUNDANT FUNCTIONS          BOUNDING EVENT      REMARKS (Loss)
#21, #22, #23 and #24, all other level protection rearnins operable. (NOTE: Channel II is only partially available.)
SG #24     Channels FT-541      Ch. II      A      If Channel II is being used as the       Steam Generators #21 and #24 control         See FT-510,   Ref:
Steam Generators  
control channel when the postulated      and level protection remains operable. Sheet #17           Appendix A-pages 21, 21A, failure occurs, the following            In Stearn Generators #21, #22, #23 and                     22, and 31.
#22 and #23 control and level protection remains operable.
happens:                                  #24, all other level protection rearnins
In Steam Generators  
                                  -Loss of related operation of Feed-      operable.
#21, #22, #23 and #24, all other level protection remains operable.
water Control Valve (24 BF 19).
Steam Generators #21, #22, #23 and #24 level protection remains operable *. NOTE: (1) Channel II remains operable.  
(NOTE: Channel II is only partially available.)
B      If Channel II is being used as the        Steam Generators #22 and #23 control control channel when the postulated      and level protection remains operable.
failure occurs, the following            In Steam Generators #21, #22, #23 and happens:                                  #24, all other level protection remains
                                  -Loss of related operation of:            operable.
(1) Channel II operation.
(2) Feedwater Control Valve (24 BF 19).
c      None                                      Steam Generators #21, #22, #23 and #24 level protection remains operable *.
NOTE:
(1) Channel II remains operable.
(2) Part of all other Steam Generators'
(2) Part of all other Steam Generators'
* level protection is unavailable.
* level protection is unavailable.
Steam Generators  
D      If Channel II is being used as the        Steam Generators #21. #22, #23 and #24 control channel when the postulated                    level protection remains failure occurs, the following            operable:
#21. #22, #23 and #24 level protection remains operable:
happens:                                  NOTE:
NOTE: (1) Channel II is only partially available. ( 2) Pa rt of a 11 other Steam Genera tors 1 level protection is unavailable.
                                  -Loss of related operation of Feed-        (1) Channel II is only partially available.
Sheet 30 REMARKS Ref: Appendix A-pages 21, 21A, 22, and 31.
water Control Valve (24 BF 19).          ( 2) Pa rt of a11 other Steam Genera tors 1 level protection is unavailable.
CONTROL SYSTEM FAILURES .TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDVJATER CONTROL -STEAM GENERATOR, FLOW/STEAM FLOW INSTRUMENTS SG #24 FT-542 Channels Ch. I VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.  
 
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (24 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). None If Channel I is being used as the control channel when the postulated failure occurs, the fallowing happens: -Loss of related operation of water Control Valve (24 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators
CONTROL SYSTEM FAILURES                                               Sheet  31
#21 and #24 control See FT-512, and level protection remains operable.
                                                                  .TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDVJATER CONTROL - STEAM GENERATOR,   FEEDl~ATER FLOW/STEAM FLOW INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT      REMARKS (Loss)
Sheet #19 In Steam Generators  
SG #24     Channels FT-542       Ch. I       A     If Channel I is being used as the         Steam Generators #21 and #24 control      See FT-512,    Ref:
#21, #22, #23 and #24, all other level protection remains operable.
control channel when the postulated       and level protection remains operable. Sheet #19        Appendix A-pages 20, 208, failure occurs, the following                                                                       22, 26, and 31.
Steam Generators
happens:                                   In Steam Generators #21, #22, #23 and
#22 and #23 control and level protection remains operable.
                                    -Loss of related operation of:             #24, all other level protection remains (1) Channel I operation.                  operable.
In Steam Generators
(2) Feed Pumps and Turbine Speed Control.
#21, #22, #23 and #24, all other level protection remains operable. (NOTE: Channel I is. only partially available.)
(3) Feedwater Control Valve (24 BF 19).
Steam Generators  
B      If Channel I is being used as the         Steam Generators #22 and #23 control control channel when the postulated       and level protection remains operable.
#21, #22, #23 and #24 level protection remains available.
failure occurs, the following happens:                                  In Steam Generators #21, #22, #23 and
flOTE: (1) Channel I remai11s operable.  
                                    -Loss of related operation of Feed-        #24, all other level protection remains water Control Valve (24 BF 19).         operable.
(2) Part of all other Steam Generators' level protection is available.  
(NOTE: Channel I is. only partially available.)
(3) Channel II is available as the dundant control channel. Steam Generators #21, #22, ..'.'23 and #24 level protection remains available.
c      None                                      Steam Generators #21, #22, #23 and #24 level protection remains available.
llOTE: (1) Channel I is only partially available.  
flOTE:
(2) Part of all other Steam Generators' level protection is unavailable.
(1) Channel I remai11s operable.
Sheet 31 REMARKS Ref: Appendix A-pages 20, 208, 22, 26, and 31.
(2) Part of all other Steam Generators' level protection is available.
CONTROL SYSTEM FAILURES .TABLE #4 -LOSS OF POWER SOURCES SYSTEM:
(3) Channel II is available as the re-dundant control channel.
CONTROL -STEAM GENERATOR, FEEDHATER FLOIUSTEAl1 FLOfJ INSTRUMENTS SG #24 FT-543 Channels Ch. II VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel If is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
D      If Channel I is being used as the        Steam Generators #21, #22, ..'.'23 and #24 control channel when the postulated                    level protection remains failure occurs, the fallowing            available.
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (24 BF 19). None If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Steam Generators  
happens:                                  llOTE:
#21 and #24 control See FT-512, and level protection remains operable.
                                    -Loss of related operation of Feed-        (1) Channel I is only partially water Control Valve (24 BF 19).                available.
Sheet #19 In Steam Generators  
(2) Part of all other Steam Generators'
#21, #22, #23 and #24, all other level protection remains operable.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Steam Generators  
level protection is unavailable.
#22 and #23 control and level protection remains operable.
 
In Steam Generators  
CONTROL SYSTEM FAILURES                                                   Sheet 32
#21, #22, #23 and f.124, all other level protection remains operable.  
                                                                .TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEm~ATER CONTROL - STEAM GENERATOR, FEEDHATER FLOIUSTEAl1 FLOfJ INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                    AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT        REMARKS (Loss)
*Channel I is available for redundant control of Feed Pumps and Turbine Speed Control. Steam Generators #21, #22, #23 and #24 level protection remains operable.
SG #24       Channels FT-543       Ch. II       A     If Channel If is being used as the       Steam Generators #21 and #24 control       See FT-512,     Ref:
NOTE: (1) Channel II remains operable. ( 2) Part of a 11 other Steam Genera tors 1 level protection is unavailable.
control channel when the postulated      and level protection remains operable. Sheet #19             Appendix A-pages 21, 21B, failure occurs, the following            In Steam Generators #21, #22, #23 and
Steam Generators  
* 22, 25, 30, and 32.
#21, #22, #23 and #24 level protection remains operable.
happens:                                #24, all other level protection remains
NOTE: (1) Channel II is only partially available.  
                                    -Loss of related operation of Feed-      operable.
water Control Valve (24 BF 19).
B      If Channel II is being used as the      Steam Generators #22 and #23 control control channel when the postulated      and level protection remains operable.
failure occurs, the following            In Steam Generators #21, #22, #23 and happens:                                f.124, all other level protection remains
                                    -Loss of related operation of:          operable.
(1) Channel II operation.
(2) Feed Pumps and Turbine Speed      *Channel I is available for redundant Control.                            control of Feed Pumps and Turbine Speed (3) Feedwater Control Valve            Control.
(24 BF 19).
c      None                                    Steam Generators #21, #22, #23 and #24 level protection remains operable.
NOTE:
(1) Channel II remains operable.         1
( 2) Part of a 11 other Steam Genera tors level protection is unavailable.
D      If Channel II is being used as the      Steam Generators #21, #22, #23 and #24 control channel when the postulated                    level protection remains failure occurs, the following            operable.
happens:                                NOTE:
                                    -Loss of related operation of Feed-        (1) Channel II is only partially water Control Valve (24 BF 19).                available.
(2) Part of all other Steam Generators 1 level protection is unavailable.
(2) Part of all other Steam Generators 1 level protection is unavailable.
Sheet 32 REMARKS Ref: Appendix A-pages 21, 21B,
 
* 22, 25, 30, and 32.
CONTROL SYSTEM FAILURES                                               Sheet  33
CONTROL SYSTEM FAILURES . TABLE U4 -LOSS OF POWER SOURCES SYSTEM: FEEmlATER CONTROL -STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS PT-514 Channels Ch. I VITAL BUS (Loss) A B C, D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.
                                                                . TABLE U4 - LOSS OF POWER SOURCES SYSTEM:   FEEmlATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS             VITAL BUS           EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT        REMARKS (Loss)
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (21 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of Control Valve (21 BF 19). AVAILABLE REDUNDANT FUNCTIONS Channel II is available for redundant control of Feed Pumps and Turbine Speed Control. Also see FT-512, Sheet #19. Channel I remains available except for operation of Feedwater Control Valve (21 BF 19). Also see FT-512, Sheet #19. Channels I and II are only partially avail.able for .control operation.
Channels PT-514        Ch. I        A     If Channel I is being used as the         Channel II is available for redundant  These events "are Ref:
Also see FT-Gl2, Sheet #19. BOUNDING EVENT These events "are bou11tled by the ana lys 1 s ing the Loss of Nonna] Feedwater.
control channel when the postulated       control of Feed Pumps and Turbine     bou11tled by the  Aopendix A-pages 11, 13, failure occurs, the following            Speed Control.                         ana lys 1s cover- 23, 23A, 27, and 31.
Sheet 33 REMARKS Ref: Aopendix A-pages 11, 13, 23, 23A, 27, and 31. J ,. 
happens:                                  Also see FT-512, Sheet #19.           ing the Loss of
----------CONTROL SYSTEM FAILURES _TABLE 04 -LOSS OF POWER SOURCES SYSTEM: FEED:.IATER CONTROL -STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS PT-515 Channels Ch. II VITAL BUS (Loss) A B C, D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). If Channel II is being as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
                                  -Loss of related operation of:                                                  Nonna] Feedwater.
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (21 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Channel II is available for control of See PT-514,
(1) Channel I operation.
* Feed Pumps and Turbine Speed Control. Sheet #33 Also see FT-513, '.;heet #20 Channel I is available as redundant control for Feed Pumps and Turbine Speed Control. Also see FT-513, Sheet #20. Channel I and II are available for con tf'.O 1 of Fef!d Pumps and Turbine Speed Control. Also see FT-513, Sheet #20. Sheet 34 REMARKS Ref: Appendix A-pages 12, 13, 24, 24A, 27, 31, and 32 .. '
(2) Feed Pumps and Turbine Speed Control.
CONTROL SYSTEM FAILURES .TABLE H4 -LOSS OF POWER SOURCES SYSTEM:
(3) Feedwater Control Valve (21 BF 19).
CONTROL -STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS PT-524 Channels Ch. I VITAL BUS (Loss) A B C, D
B      If Channel I is being used as the        Channel I remains available except for control channel when the postulated      operation of Feedwater Control Valve failure occurs, the following            (21 BF 19).
* EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.
happens:                                  Also see FT-512, Sheet #19.
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (22 BF 19). None If Channel I is being used as the control channel when the postulated fa i1 ure occurs, the fo 11 ng happens: -Loss of related operation of water Control Valve (22 BF 19). AVAILABLE REDUNDANT FUNCTIONS Channel II is available as control of Feed Pumps and Turbine Speed Control. Also see FT-522, Sheet #23. Channel I remains operable.
                                  -Loss of related operation of Feed-water Control Valve (21 BF 19).
Also see FT-522, Sheet #23. Channels I and II remain operable for control of Feed Pumps and Turbine Speed Contra 1. Also see FT-522, Sheet #23. BOUNDING EVENT See PT-514, Sheet #33 Sheet 35 REMARKS Ref: Appendix 14, 16, 23, 238, 28, and 31. *I I CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDflATER CONTROL -STEAM GEllERATOR, STEA11 PRESSURE INSTRUMENTS PT-525 Channels Ch. I I VITAL BUS * (Loss) A B C, D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of rela.ted operation of: (1) Channel II operation.
C, D    If Channel I is being used as the        Channels I and II are only partially control channel when the postulated      avail.able for .control operation.
(2) Feed Pumps and Turbine Speed Control. (3)
failure occurs, the following            Also see FT-Gl2, Sheet #19.
Control Valve (22 BF 19). If Channel II is being used.as the control channel when the postulated failure occurs, the follm1ing happens: -Loss of related operation of water Control Valve (22 BF 19). AVAILABLE REDUNDANT FUNCTIONS Channel II is only partially available.
happens:
Also see FT-523, Sheet #24. Channel I is available as the redundant control channel. Also see FT-523, Sheet #24. Channels I and II are available for control of Feed Pumps and Turbine Speed Control.
                                  -Loss of related operation of Feed-
see FT-'i23, Sheet #24. BOUNDING EVENT Si:e PT-514," Sheet #33 Sheet 36 REMARKS Ref:
                                    ~iater Control Valve (21 BF 19).
A-pages 15, 16, 25, 25A, 28, 31, and 32.
                                                                                                                                                              ,.J
CONTROL SYSTEM FAILURES TABLE H4 -LOSS OF POWER SOURCES SYSTEM:
 
CONTROL -STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS PT-534 Channels Ch. I VITAL BUS (Loss) A B, .C o. EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.
CONTROL SYSTEM FAILURES                                           Sheet 34
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (23 BF 19). None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). AVAILABLE REDUNDANT FUNCTIONS Channel II is available as redundant control for Feed Pumps and Turbine Speed Control. Also see FT-532, Sheet #27. Channel I remains operable.
_TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEED:.IATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS               VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS    BOUNDING EVENT      REMARKS (Loss)
Also see FT-532, Sheet #27. Channels I and II remain operable for control of Feed Pumps and Turbine Speed Control. Also see FT-532, Sheet #27. BOUNDING EVENT See PT-514; Sheet #33 Sheet 37 REMARKS Ref: Appendix A-pages 17, 19, 26, 26A, 29, and 31.
Channels PT-515         Ch. II       A     If Channel II is being used as the       Channel II is available for control of See PT-514,
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL -STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS PT-535 Channels Ch. II VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.  
* Ref:
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (23 BF 19). None If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). AVAILABLE REOUNOANT FUNCTIONS Channel II is only partially available.
control channel when the postulated     Feed Pumps and Turbine Speed Control. Sheet #33      Appendix A-pages 12, 13, failure occurs, the following           Also see FT-513, '.;heet #20                          24, 24A, 27, 31, and 32..
Also see FT-333, Sheet #28. Channel I is available as redundant control for Feed Pumps and Turbine Speed Contra l. Also see FT-533, Sheet #28. Channel I is available as the redundant control channel. . . Also see FT-533, Sheet #28. Channel I and II are available for control of Feed Pumps and Turbine Speed Control. Also see FT-533, Sheet #28. BOUNDING EVENT See PT-514, Sheet Sheet 38 REMARKS Ref: Appendix A-pages 18, 19, 24, 24B, 29, 31, and 32.
happens:
CONTROL SYSTEM FAILURES . TABLE #4 -LOSS OF POWER SOURCES SYSTLM: FEEDliATER CONTROL -STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS PT-544 Channels Ch. I VITAL BUS (Loss) A B c D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.  
                                    -Loss of related operation of Feed-water Control Valve (21 BF 19).
(2) Feed Pumps and Turbine Speed Control. (3) Feedwater Control Valve (24 BF 19). If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). AVAILABLE REDUNDANT FUNCTIONS Channel II is available as redundant control for Feed Pumps and Turbine Speed Control. Also see FT-342, Sheet #31. Channel I is only partially available.
B      If Channel II is being ~sed as the       Channel I is available as redundant control channel when the postulated     control for Feed Pumps and Turbine failure occurs, the following           Speed Control.
Also see FT-542, Sheet #31. Channel II is available as the dant control channel. Also see FT-542, Sheet #31. Chann2l II is as the redunant control of Feed Pumps and Turbine Speed Centro l. Also see FT-542, Sheet #31. BOUNDING EVENT See Sheet #33 Sheet 39 REMARKS Ref: Appendix A-pages 20, 22, 26, 26B, 30, and 31.
happens:
CONTROL SYSTEM FAILURES . TABLE #4 -1.0SS OF POWER SOURCES SYSTl.H: FEEmlATER CONTROL -STEAM GENERATOR, STEAM PRESSURE I NS TRUMENTS PT-545 Channels Ch. II VITAL BUS (Loss) A B c EFFECTS OF FAILURES If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (24 BF 19). If Channel II is being used as the control channel the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.  
                                    -Loss of related operation of:          Also see FT-513, Sheet #20.
(2) Feed Pumps and Turbine Speed Control. * (3) Feedwater Control Valve (24 BF 19). None If Channel II is being used as the control channel when the postulated fa i1 ure occurs, i:he following happens: -Loss of related operation of water Control Valve (24 BF 19). AVAILABLE REDUNDANT FUNCTIONS Channel II is only partially available.
(1) Channel II operation.
Also see FT-543, Sheet #32. Channel I is available as the redundant control channel for Feed Pumps and Turbine Speed Control. Also see FT-343, Sheet #32. Channels I and II remain operable.
(2) Feed Pumps and Turbine Speed Control.
Also *see FT-543, Sheet #32. Channel I and II are only partially available.
(3) Feedwater Control Valve (21 BF 19).
Also see FT-543, Sheet #32. BOUNDING EVENT See PT-514, Sheet #33 Sheet 40 REMARKS Ref: Appendix A-pages 18, 19, 24, 24B, 29, and 31.
C, D    If Channel II is being used as the      Channel I and II are available for control channel when the postulated      con tf'.O 1 of Fef!d Pumps and Turbine failure occurs, the following            Speed Control.
CONTROL SYSTEM FAILURES _TABLE #4 -LOSS OF POWER SOURCES Sheet 41 SYSTEM:
happens:                                Also see FT-513, Sheet #20.
COtlTROL -STEAM GENERATOR LEVEL, ilARROW RANGE INSTRUMENTS SG #21 LT-519 Channels Ch. I I VITAL BUS (Loss) A EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS If Channel II is being used as the In Steam Generators
                                    -Loss of related operation of Feed-water Control Valve (21 BF 19).
#21, 1122, 323 and These events are Ref: control channel when the postulated
 
#24, all other level protection remains bounded by the Appendix A-pages failure occurs, the following available.
CONTROL SYSTEM FAILURES                                          Sheet 35
analysis cover-13, 27, 27A, and happens: ing excessive -Loss of related operation of Feed-Heat Removal due water Control Valve (21 BF 19). to Feedwater
                                                                    .TABLE H4 - LOSS OF POWER SOURCES SYSTEM: FEEm~ATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS             VITAL BUS            EFFECTS OF FAILURES                    AVAILABLE REDUNDANT FUNCTIONS    BOUNDING EVENT      REMARKS (Loss)
--------------------------------------'iystem malfunc-B C, D lf Channel II is being used as the
Channels                                                                                                                                        *I PT-524       Ch. I       A       If Channel I is being used as the           Channel II is available as redundan~  See PT-514,   Ref:
* Steam Generators  
control channel when the postulated          control of Feed Pumps and Turbine     Sheet #33      Appendix A-~ages 14, 16, failure occurs, the following                Speed Control.                                       23, 238, 28, and 31.
#22, and #23 control tion. control channel when the postulated and level protection remains available.
happens:
failure occurs, the following In Steam Generators  
                                  -Loss of related operation of:              Also see FT-522, Sheet #23.
#21, #22, lj23 and happens: 324, all other level protection remains -Loss of related operation of Feed-available.
(1) Channel I operation.
water Control Valve (21 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (21 BF 19). In Steam Generators
(2) Feed Pumps and Turbine Speed Control.
#21, #22, #23 and 124, all other level protection remains available.
(3) Feedwater Control Valve (22 BF 19).
NOTE: Part of all Steam Generators' level protection is unavailable (each bus implies different level protection).
B      None                                        Channel I remains operable.
11, 12, 31.
Also see FT-522, Sheet #23.
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTLM: FEEDWATER CONTROL -STEAM GENERATOR LEVEL, NARROW RANGE INSTRUMENTS SG #22 LT-529 Channels Ch. I VITAL BUS (Loss) A B C,
C, D*    If Channel I is being used as the            Channels I and II remain operable for control channel when the postulated          control of Feed Pumps and Turbine fa i1 ure occurs, the fo 11 o~ii ng          Speed Contra 1.
* D EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19). None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (22 BF 19). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT In Steam Generators
happens:
#21, #22, #23 and #24, all other level protection remains available.
                                  -Loss of related operation of Feed-          Also see FT-522, Sheet #23.
Channel I remains operable.
water Control Valve (22 BF 19).
In Steam Generators #21, #22, #23 and #24, all other level protection remains available.
 
NOTE: Part of all Steam Generators' level protection is unavailable (each bus implies different level protection).
CONTROL SYSTEM FAILURES                                            Sheet 36 TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   FEEDflATER CONTROL - STEAM GEllERATOR, STEA11 PRESSURE INSTRUMENTS             VITAL BUS
See LT-519; Sheet #41 Sheet 42 REMARKS Ref: Appendix A-pages 14, 15, 16,* 28, 28A, and 31.
* EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
( CONTROL SYSTEM FAILURES . TllBLE U4 -LOSS OF POWER SOUllCES SYSTEM: STEAM GENERATOR LEVEL, 1IARROW RANGE INSTRUMENTS SG #23 LT-539 LT-549 Channels Ch. I Ch. II VITAL BUS (Loss) A, D B, C A, D B c EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of water Control Valve (23 BF 19). None If Channel II is being used as the control channel when the postulated failure occurs, the following
Channels PT-525        Ch. I I      A       If Channel II is being used as the     Channel II is only partially available. Si:e PT-514," Ref:
* happens: -Loss of related operation of water Control Valve (24 BF 19). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Low of related operation of water Control Valve (24 BF 19). None AVAILABLE REDUNDANT FUNCTIONS In Steam Generators
control channel when the postulated                                               Sheet #33    ~ppendix A-pages 15, 16, failure occurs, the following           Also see FT-523, Sheet #24.
#21, #22, #23 and #24, all other level protection remains available.
25, 25A, 28, 31, and 32.
tlOTE: Part of a 11 Steam Generators*
happens:
level protection is unavailable (each bus implies different level protection).
                                    -Loss of related operation of Feed-water Control Valve (22 BF 19).
Channel I remains operable.
B      If Channel II is being used as the       Channel I is available as the redundant control channel when the postulated     control channel.
BOUNDING EVENT See LT-519, Sheet #41 In Steam Generators
failure occurs, the following happens:                                 Also see FT-523, Sheet #24.
#21, 922, n3 and See LT-519, #24, all other level protection remains Sheet #41 available.
                                    -Loss of rela.ted operation of:
NOTE: Part of all Steam Generators' level protection in unavailable (each bus implies different 1 evel protection).
(1) Channel II operation.
Steam Generators
(2) Feed Pumps and Turbine Speed Control.
#22 and #23 control and level protection remain available.
(3) Feed~1ater Control Valve (22 BF 19).
In Steam Generators #21, #22, #23 and #24, all other level protection remains avail ab 1 e. Channel II remains operable.
C, D    If Channel II is being used.as the      Channels I and II are available for control channel when the postulated      control of Feed Pumps and Turbine failure occurs, the follm1ing            Speed Control.
Sheet 43 REMARKS Ref: Appendix A-pages 17, 18, 19, 29, 29A, and 31. Ref: Appendix A-pages 20, 21, 22, 30, 30A, and 31.
happens:
SYSTEM: STEAM DUMP INSTRUMENTS PT-505 Channels Ch. I VITAL BUS (Loss) A B c D CONTROL SYSTEM FAILUrtES Tl\DLE 04 -LOSS OF POWEn sotmCES EFFECTS OF FAILURES If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) Channel I operation.
                                                                            .~lso see FT-'i23, Sheet #24.
(2) #21, #22, #23 and #24 Feed-11a ter Control Valves. (3) Rod Control. ( 4) Steam Dump (Load Rejection).
                                    -Loss of related operation of Feed-water Control Valve (22 BF 19).
None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of Steam Dump (Load Rejection).
 
If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of: (1) #21, #22, #23 and #24 water Control Valveso (2) Rod Control. (3) Steam Dump (Load Rejection).
CONTROL SYSTEM FAILURES                                             Sheet  37 TABLE H4 - LOSS OF POWER SOURCES SYSTEM: FEEDl~ATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS             VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
AVAILABLE REDUNDANT FUNCTIONS Channel II is available for redundant Iii-Steam Flow Protection and related Steam Dump (Load Rejection).
Channels PT-534         Ch. I       A     If Channel I is being used as the     Channel II is available as redundant      See PT-514;  Ref:
Channel I remains operable.
control channel when the postulated    control for Feed Pumps and Turbine       Sheet #33    Appendix A-pages 17, 19, failure occurs, the following         Speed Control.                                        26, 26A, 29, and 31.
Channels I and II remain available for control of Hi-Steam Flow Protection, Rod Control, and related Feed11ater Control Valves. Channel II is available for redundant Hi-Steam Flow Protection and related Steam Dump (Load Rejection).
happens:                              Also see FT-532, Sheet #27.
BOUNDING EVENT N/A Sheet 44 REMARKS Ref: Appendix A-pages 11, 13, 14, 16, 17, 19, 20, 22, 31, 31A, 44, and 46.
                                    -Loss of related operation of:
SYSl EM: STEAM DUMP INSTRUMENTS PT-507 Channels Ch. I I VITAL BUS (Loss) A, D B c A,B,D c CONTROL SYSTEM FAILURES . TABLE #4 -LOSS OF POWER SOURCES EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS None Channel II remains operable.
(1) Channel I operation.
If Channel II is being used as the Channel I is available as the redundant control channel when the postulated control channel. failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.  
(2) Feed Pumps and Turbine Speed Control.
(3) Feedwater Control Valve (23 BF 19).
B, .C    None                                  Channel I remains operable.
Also see FT-532, Sheet #27.
: o. If Channel I is being used as the    Channels I and II remain operable for control channel when the postulated    control of Feed Pumps and Turbine Speed failure occurs, the following        Control.
happens:                              Also see FT-532, Sheet #27.
                                    -Loss of related operation of Feed-water Control Valve (23 BF 19).
 
CONTROL SYSTEM FAILURES                                           Sheet 38 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS             VITAL BUS         EFFECTS OF FAILURES                AVAILABLE REOUNOANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
Channels PT-535      Ch. II      A       If Channel II is being used as the   Channel II is only partially available. See PT-514,  Ref:
control channel when the postulated                                           Sheet #3~    Appendix A-pages 18, 19, failure occurs, the following         Also see FT-333, Sheet #28.
happens:                                                                                     24, 24B, 29, 31, and 32.
                                    -Loss of related operation of Feed-water Control Valve (23 BF 19).
B        If Channel II is being used as the   Channel I is available as redundant control channel when the postulated   control for Feed Pumps and Turbine failure occurs, the following         Speed Contra l.
happens:
                                    -Loss of related operation of:       Also see FT-533, Sheet #28.
(1) Channel II operation.
(2) Feed Pumps and Turbine Speed Control.
(3) Feedwater Control Valve (23 BF 19).
c        None                                 Channel I is available as the redundant control
                                                                              . channel.
Also see FT-533, Sheet #28.
D        If Channel II is being used as the    Channel I and II are available for control channel when the postulated  control of Feed Pumps and Turbine failure occurs, the following        Speed Control.
happens:
                                  -Loss of related operation of Feed-    Also see FT-533, Sheet #28.
water Control Valve (23 BF 19).
 
CONTROL SYSTEM FAILURES                                            Sheet 39
                                                                . TABLE #4 - LOSS OF POWER SOURCES SYSTLM:  FEEDliATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS              VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT (Loss)                                                                                                          REMARKS Channels PT-544        Ch. I      A        If Channel I is being used as the      Channel II is available as redundant    See PT-514~  Ref:
control channel when the postulated    control for Feed Pumps and Turbine       Sheet #33    Appendix A-pages 20, 22, failure occurs, the following          Speed Control.                                         26, 26B, 30, and 31.
happens:
                                    -Loss of related operation of:          Also see FT-342, Sheet #31.
(1) Channel I operation.
(2) Feed Pumps and Turbine Speed Control.
(3) Feedwater Control Valve (24 BF 19).
B       If Channel I is being used as the       Channel I is only partially available.
control channel when the postulated failure occurs, the following           Also see FT-542, Sheet #31.
happens:
                                    -Loss of related operation of Feed-water Control Valve (24 BF 19).
c        None                                    Channel II is available as the redun-dant control channel.
Also see FT-542, Sheet #31.
D        If Channel I is being used as the       Chann2l II is avail~ble as the redunant control channel when the postulated     control of Feed Pumps and Turbine Speed failure occurs, the following           Centro l.
happens:
                                    -Loss of related operation of Feed-      Also see FT-542, Sheet #31.
water Control Valve (24 BF 19).
 
CONTROL SYSTEM FAILURES                                            Sheet 40
                                                                    . TABLE #4 - 1.0SS OF POWER SOURCES SYSTl.H:    FEEmlATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INS TRUMENTS              VITAL BUS            EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
Channels PT-545        Ch. II      A        If Channel II is being used as the         Channel II is only partially available. See PT-514,  Ref:
control channel when the postulated      Also see FT-543, Sheet #32.               Sheet #33     Appendix A-pages 18, 19, failure occurs, the following                                                                    24, 24B, 29, and 31.
happens:
                                      -Loss of related operation of Feed-water Control Valve (24 BF 19).
B       If Channel II is being used as the         Channel I is available as the redundant control channel ~1hen the postulated       control channel for Feed Pumps and failure occurs, the following             Turbine Speed Control.
happens:                                 Also see FT-343, Sheet #32.
                                      -Loss of related operation of:
(1) Channel II operation.
(2) Feed Pumps and Turbine Speed Control.   *
(3) Feedwater Control Valve (24 BF 19).
c        None                                       Channels I and II remain operable.
Also *see FT-543, Sheet #32.
If Channel II is being used as the         Channel I and II are only partially control channel when the postulated       available.
fa i1 ure occurs, i:he following           Also see FT-543, Sheet #32.
happens:
                                      -Loss of related operation of Feed-water Control Valve (24 BF 19).
 
CONTROL SYSTEM FAILURES                                              Sheet 41
_TABLE #4 - LOSS OF POWER SOURCES SYSTEM:  FEEm~ATER  COtlTROL - STEAM GENERATOR LEVEL, ilARROW RANGE INSTRUMENTS                VITAL BUS        EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT        REMARKS (Loss)
SG #21    Channels LT-519      Ch. I I        A      If Channel II is being used as the    In Steam Generators #21, 1122, 323 and These events are Ref:
control channel when the postulated #24, all other level protection remains bounded by the Appendix A-pages 11, 12, failure occurs, the following          available.                                analysis cover- 13, 27, 27A, and 31.
happens:                                                                         ing excessive
                                      -Loss of related operation of Feed-                                             Heat Removal due water Control Valve (21 BF 19).                                                to Feedwater
                          - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ' i y s t e m malfunc-B       lf Channel II is being used as the
* Steam Generators #22, and #23 control       tion.
control channel when the postulated and level protection remains available.
failure occurs, the following           In Steam Generators #21, #22, lj23 and happens:                               324, all other level protection remains
                                      -Loss of related operation of Feed- available.
water Control Valve (21 BF 19).
C, D      If Channel II is being used as the     In Steam Generators #21, #22, #23 and control channel when the postulated   124, all other level protection remains failure occurs, the following         available.
happens:                               NOTE: Part of all Steam Generators' level
                                      -Loss of related operation of Feed-    protection is unavailable (each bus water Control Valve (21 BF 19).       implies different level protection).
 
CONTROL SYSTEM FAILURES                                            Sheet 42 TABLE #4 - LOSS OF POWER SOURCES SYSTLM:  FEEDWATER CONTROL - STEAM GENERATOR LEVEL, NARROW RANGE INSTRUMENTS              VITAL BUS          EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
SG #22      Channels LT-529      Ch. I        A      If Channel I is being used as the      In Steam Generators #21, #22, #23 and     See LT-519;  Ref:
control channel when the postulated    #24, all other level protection remains  Sheet #41    Appendix A-pages 14, 15, failure occurs, the following          available.                                            16,* 28, 28A, and 31.
happens:
                                    -Loss of related operation of Feed-water Control Valve (22 BF 19).
B       None                                  Channel I remains operable.
C,
* D     If Channel I is being used as the     In Steam Generators #21, #22, #23 and control channel when the postulated   #24, all other level protection remains failure occurs, the following         available.
happens:                               NOTE: Part of all Steam Generators' level
                                    -Loss of related operation of Feed-    protection is unavailable (each bus water Control Valve (22 BF 19).       implies different level protection).
 
CONTROL SYSTEM FAILURES                                            Sheet 43
                                                                    . TllBLE U4 - LOSS OF POWER SOUllCES SYSTEM:  STEAM GENERATOR LEVEL, 1IARROW RANGE INSTRUMENTS              VITAL BUS            EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
SG #23     Channels LT-539      Ch. I    A, D        If Channel I is being used as the      In Steam Generators #21, #22, #23 and    See LT-519,  Ref:
control channel when the postulated      #24, all other level protection remains Sheet #41       Appendix A-pages 17, 18, failure occurs, the following            available.                                              19, 29, 29A, and 31.
happens:                                tlOTE: Part of a 11 Steam Generators*
                                        -Loss of related operation of Feed-     level protection is unavailable (each water Control Valve (23 BF 19).        bus implies different level protection).
B, C       None                                    Channel I remains operable.
LT-549      Ch. II    A, D         If Channel II is being used as the     In Steam Generators #21, 922, n3 and      See LT-519,  Ref:
control channel when the postulated     #24, all other level protection remains Sheet #41      Appendix A-pages 20, 21, failure occurs, the following
* available.                                              22, 30, 30A, and 31.
happens:                                NOTE: Part of all Steam Generators'
                                        -Loss of related operation of Feed-      level protection in unavailable (each water Control Valve (24 BF 19).       bus implies different 1evel protection).
B          If Channel II is being used as the     Steam Generators #22 and #23 control and control channel when the postulated     level protection remain available.
failure occurs, the following           In Steam Generators #21, #22, #23 and happens:                               #24, all other level protection remains
                                        -Low of related operation of Feed-      avail ab 1e.
water Control Valve (24 BF 19).
c        None                                    Channel II remains operable.
(
 
CONTROL SYSTEM FAILUrtES                                            Sheet 44 Tl\DLE 04 - LOSS OF POWEn sotmCES SYSTEM:   STEAM DUMP INSTRUMENTS            VITAL BUS          EFFECTS OF FAILURES                  AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
Channels PT-505        Ch. I      A      If Channel I is being used as the        Channel II is available for redundant      N/A        Ref:
control channel when the postulated      Iii-Steam Flow Protection and related                  Appendix A-pages 11, 13, failure occurs, the following            Steam Dump (Load Rejection).                            14, 16, 17, 19, 20, 22, happens:                                                                                        31, 31A, 44, and 46.
                                -Loss of related operation of:
(1) Channel I operation.
(2) #21, #22, #23 and #24 Feed-11a ter Control Valves.
(3) Rod Control.
( 4) Steam Dump (Load Rejection).
B      None                                    Channel I remains operable.
c      If Channel I is being used as the        Channels I and II remain available for control channel when the postulated      control of Hi-Steam Flow Protection, Rod failure occurs, the following            Control, and related Feed11ater Control happens:                                Valves.
                                -Loss of related operation of Steam Dump (Load Rejection).
D      If Channel I is being used as the        Channel II is available for redundant control channel when the postulated      Hi-Steam Flow Protection and related failure occurs, the following            Steam Dump (Load Rejection).
happens:
                                -Loss of related operation of:
(1) #21, #22, #23 and #24 Feed-water Control Valveso (2) Rod Control.
(3) Steam Dump (Load Rejection).
 
CONTROL SYSTEM FAILURES                                            Sheet 45
                                                              . TABLE #4 - LOSS OF POWER SOURCES SYSl EM:  STEAM DUMP INSTRUMENTS            VITAL BUS          EFFECTS OF FAILURES                 AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
Channels PT~506      Ch. I I A, D    None                                    Channel II remains operable.              fl/A        Ref:
Appendix A-pages 12, 15, 13, 21, 32, and 32A.
B      If Channel II is being used as the       Channel I is available as the redundant control channel when the postulated     control channel.
failure occurs, the following happens:
                                -Loss of related operation of:
(1) Channel II operation.
(2) Steam Dump (Load Rejection).
(2) Steam Dump (Load Rejection).
If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -loss of related operation of _Steam Dump (Load Rejection).
c      If Channel II is being used as the       Channels I and II are available for control channel when the postulated     Hi-Steam Flow Protection, Rod Control, failure occurs, the following           and related Feedwater Control Valves.
None If this instrument is being used when the postulated failure occurs, the following happens: -Loss of related operation of: ( 1) Condenser Steam Dump Valves (21 & 22 HS 31, 33, 35, 37, 39 & 41). (2) Feed Pumps and Turbine Speed Control. Channels I and II are available for Hi-Steam Flow Protection, Rod Control, and related Feedwater Control Valves. Instrument remains operable.
happens:
All atmospheric steam relief valves (MSlO's) and steam safety valves remain operable.
                                -loss of related operation of
BOUNDING EVENT fl/A N/A Sheet 45 REMARKS Ref: Appendix A-pages 12, 15, 13, 21, 32, and 32A. Ref: Appendix A-pages 33 and 33A.
_Steam Dump (Load Rejection).
SYST[M: STEAM DUMP INSTRUMENTS Channels PT-508 PT-516A Ch. VITAL BUS (Loss) A,B,C -EFFECTS OF FAILURES None CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES AVAILABLE REDUNDANT FUNCTIONS Instrument remains operable.
PT-507              A,B,D    None                                     Instrument remains operable.              N/A c    If this instrument is being used         All atmospheric steam relief valves                    Ref:
D If this instrument is being used when the postulated failure occurs, the following happens: A B, C D -loss of related operation of Feed Pumps and Turbine Speed Control. If Channel I is being used as the Channels II, III and IV remain operable.
when the postulated failure occurs,     (MSlO's) and steam safety valves remain                Appendix A-pages 33 and the following happens:                   operable.                                              33A.
control channel the postulated All steam safety valves remain operable.
                                -Loss of related operation of:
failure occurs, the happens: -Loss of related operation of spheric steam dump valve (21 MS lD). None If Channel I is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of spheric steam dump valve (21 MS 10). Channels I and IV are available for atmospheric steam dump. All steam safety valves remain operable.
( 1) Condenser Steam Dump Valves (21 & 22 HS 31, 33, 35, 37, 39 & 41).
Channels II and III remain operable.
(2) Feed Pumps and Turbine Speed Control.
 
CONTROL SYSTEM FAILURES                                            Sheet 46 TABLE #4 - LOSS OF POWER SOURCES SYST[M:   STEAM DUMP INSTRUMENTS           VITAL BUS       -EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REM/IRKS (Loss)
Channels PT-508                A,B,C     None                                   Instrument remains operable.                N/A        Ref:
Appendix A-page 33 and 33B.
D     If this instrument is being used when the postulated failure occurs, the following happens:
                                -loss of related operation of Feed Pumps and Turbine Speed Control.
PT-516A      Ch.        A      If Channel I is being used as the     Channels II, III and IV remain operable. N/A        Ref:
control channel ~1hen the postulated All steam safety valves remain operable.                 Appendix A-pages 34 and failure occurs, the follm~ing                                                                  34B.
happens:
                                -Loss of related operation of atmo-spheric steam dump valve (21 MS lD).
B, C    None                                   Channels I and IV are available for atmospheric steam dump.
All steam safety valves remain operable.
D      If Channel I is being used as the     Channels II and III remain operable.
control channel when the postulated All steam safety valves remain operable.
failure occurs, the following happens:
                                -Loss of related operation of atmo-spheric steam dump valve (21 MS 10).
 
CONTROL SYSTEM FAILURES                                            Sheet 47
                                                            . TABLE 04 - LOSS OF POWER SOURCES SYSTEM:  STEAM DUMP INSTRUMENTS            VITAL BUS        EFFECTS OF FAILURES                  AV/\ILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
Channels PT-526A      Ch. II  A, D    None                                    Channels II and III remain operable.        :I/A        Ref:
All steam safety valves remain operable.                Appendix A-pages 35 and 35B.
B      If Channel II is being used as the      Channels I, III and IV remain operable.
control channel when the postulated All steam safety valves *remain operable.
failure occurs, the following happens:
                                -Loss of related operation of atmo-spheric steam diimp valve (22 MS 10).
c      If Channel II is being used as the      Channel I is available for atmospheric control channel when the postulated steam relief.
failure occurs, the following          All steam safety valves remain operable.
happens:
                                -Loss of related operation of atmo-spheric steam dump valve (22 llS 10).
PT-536A      Ch. III    A      None                                    Channels II, III and IV are available        N/11        Ref:
for atmospheric steam relief.                          Appendix A-pages 36 and All s*team safety valves remain available.              36B.
B      None                                    Channels I, III and IV are available for atmospheric steam relief.
                                                                        /Ill steam safety valves remain operable.
c      If Channel III is being used as the Channel I is available for atmospheric control channel when the postulated steam dump.
failure occurs, the following          All steam safety valves remain operable.
happens:
                                -Loss of related operation of atmo-spheric steam dump valve (23 MS 10).
D      None                                    Channels I, II and III are available for atmospheric steam relief.
All steam safety valves remain operable.
All steam safety valves remain operable.
BOUNDING EVENT N/A N/A Sheet 46 REM/IRKS Ref: Appendix A-page 33 and 33B. Ref: Appendix A-pages 34 and 34B.
 
SYSTEM: STEAM DUMP INSTRUMENTS PT-526A PT-536A Channels Ch. II Ch. III VITAL BUS (Loss) A, D B c A B c D CONTROL SYSTEM FAILURES . TABLE 04 -LOSS OF POWER SOURCES EFFECTS OF FAILURES None If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of spheric steam diimp valve (22 MS 10). If Channel II is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of spheric steam dump valve (22 llS 10). None None If Channel III is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of spheric steam dump valve (23 MS 10). None AV/\ILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Channels II and III remain operable.
CONTROL SYSTEM FAILURES                                             Sheet 48 TABLE 04 - LOSS OF POWER SOURCES SYSTEM:  STEAM DUMP INSTRUMENTS            VITAL BUS        EFFECTS OF FAILURES               AVAILABLE REDUNDANT FUNCTIONS        BOUNDING EVENT (Loss)                                                                                                       REMARKS Channels PT-546A      Ch. IV    A      None                                 Channels II, III and IV remain operable. N/A        Ref:
:I/A All steam safety valves remain operable.
All steam safety valves remain operable.                 Appendix A-pages 37 and 37B.
Channels I, III and IV remain operable.
B     None                                 Channels I, III and IV r~nain operable.
All steam safety valves *remain operable.
Channel I is available for atmospheric steam relief. All steam safety valves remain operable.
Channels II, III and IV are available N/11 for atmospheric steam relief. All s*team safety valves remain available.
Channels I, III and IV are available for atmospheric steam relief. /Ill steam safety valves remain operable.
Channel I is available for atmospheric steam dump. All steam safety valves remain operable.
Channels I, II and III are available for atmospheric steam relief. All steam safety valves remain operable.
Sheet 47 REMARKS Ref: Appendix A-pages 35 and 35B. Ref: Appendix A-pages 36 and 36B.
SYSTEM: STEAM DUMP INSTRUMENTS PT-546A Channels Ch. IV VITAL BUS (Loss) A B c D CONTROL SYSTEM FAILURES TABLE 04 -LOSS OF POWER SOURCES EFFECTS OF FAILURES None None If Channel IV is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of spheric steam dump valve (24 MS 10). If Channel IV is being used as the control channel when the postulated failure occurs, the following happens: -Loss of related operation of spheric steam dump valve (24 MS 10). AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT Channels II, III and IV remain operable.
N/A All steam safety valves remain operable.
Channels I, III and IV operable.
All steani safety valves remain operable.
All steani safety valves remain operable.
Channel I is available for atmospheric steam dump.
c      If Channel IV is being used as the    Channel I is available for atmospheric control channel when the postulated steam dump.
* All steam safety valves remain operable.
* failure occurs, the following happens:                              All steam safety valves remain operable.
Channels II and III remain operable for atmospheric steam dump. All steam safety valves remain operable.
                                -Loss of related operation of atmo-spheric steam dump valve (24 MS 10).
Sheet 48 REMARKS Ref: Appendix A-pages 37 and 37B. .
D      If Channel IV is being used as the    Channels II and III remain operable for control channel when the postulated atmospheric steam dump.
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS NE-35 NE-36 Channels Ch. I VITAL BUS (Loss) A B,C,D EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS If Channel I is being used as the Channel II is available as the redun-control channel when the postulated dant control channel. failure occurs, the following happens: -Loss of related operation of Channel I Intermediate Range Detector.
failure occurs, the following happens:                              All steam safety valves remain operable.
None Channel remains operable.
                                -Loss of related operation of atmo-spheric steam dump valve (24 MS 10).
Ch. II A,C,D None Channel II remains operable.
                                                                                                                                                        ~ .
B If Channel II is being used as the Channel I is available as the control channel when the postulated dant control channel. failure occurs, the following happens: -Loss of related operation of Channel II Intermediate Range Detector.
 
Sheet 49 BOUNDING EVENT REMARKS These events are Ref: bounded by the Appendix A-page 38. analysis cover-ing the Uncon-trolled Rod Cluster Control Assembly Bank Hithdrawa l at Power. See NE-35, Ref: Sheet #49 Appendix A-page 39.
CONTROL SYSTEM FAILURES                                           Sheet 49 TABLE #4 - LOSS OF POWER SOURCES SYSTEM:   NUCLEAR INSTRUMENTATION INSTRUMENTS             VITAL BUS       EFFECTS OF FAILURES                 AVAILABLE REDUNDANT FUNCTIONS   BOUNDING EVENT        REMARKS (Loss)
SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS Channels Ch. I VITAL BUS (Loss) A B c D CONTROL SYSTEM FAILURES TABLE #4 -I OSS OF POWER SOURCES EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS If Channel I is being used as the Channels II, Ill and IV are available control channel when the postulated as redundant control channels.
Channels NE-35        Ch. I      A      If Channel I is being used as the     Channel II is available as the redun- These events are Ref:
failure occurs, the fa 11 owing
control channel when the postulated   dant control channel.               bounded by the Appendix A-page 38.
* happens: -Loss of related operation of: (1) Channel I operation.  
failure occurs, the following                                               analysis cover-happens:                                                                   ing the Uncon-
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.  
                                  -Loss of related operation of                                               trolled Rod Channel I Intermediate Range                                               Cluster Control Detector.                                                                 Assembly Bank Hithdrawa l at B,C,D    None                                 Channel   remains operable.          Power.
(3) Rod Control. None None None Channels Ill and IV are available as redundant control channels.
NE-36        Ch. II   A,C,D     None                                 Channel II remains operable.          See NE-35,      Ref:
Sheet #49        Appendix A-page 39.
B     If Channel II is being used as the   Channel I is available as the redun-control channel when the postulated   dant control channel.
failure occurs, the following happens:
                                  -Loss of related operation of Channel II Intermediate Range Detector.
 
CONTROL SYSTEM FAILURES                                           Sheet 50 TABLE #4 - I OSS OF POWER SOURCES SYSTEM:  NUCLEAR INSTRUMENTATION INSTRUMENTS            VITAL BUS        EFFECTS OF FAILURES                   AVAILABLE REDUNDANT FUNCTIONS   BOUNDING EVENT      REMARKS (Loss)
Channels i~E-41      Ch. I      A      If Channel I is being used as the       Channels II, Ill and IV are available See NE-35, '  Ref:
control channel when the postulated     as redundant control channels.         Sheet #49    Appendix A-pages 7, 40, failure occurs, the fa 11 owing
* and 44.
happens:
                                  -Loss of related operation of:
(1) Channel I operation.
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
(3) Rod Control.
B    None                                   Channels Ill and IV are available as redundant control channels.
Channel I remains operable.
Channel I remains operable.
Channels II and IV are available as redundant control channels-Channel I remains operable.
c    None                                    Channels II and IV are available as redundant control channels-Channel I remains operable.
Channels II and III are available as control channels.
D    None                                    Channels II and III are available as redun~ant control channels.
Channel I r;,emains operable.
Channel I r;,emains operable.
BOUNDING EVENT See NE-35, ' Sheet #49 Sheet 50 REMARKS Ref: Appendix A-pages 7, 40, and 44.
 
CONTROL SYSTEM FAILURES . TABLE #4 -LOSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS NE-42 Channels Ch. II VITAL BUS (Loss) A None EFFECTS OF FAILURES AVAILABLE RFDUNDANT FUNCTIONS Channels Ill and IV are available as redundant control channels.
CONTROL SYSTEM FAILURES                                          Sheet 51
                                                              . TABLE #4 - LOSS OF POWER SOURCES SYSTEM:  NUCLEAR INSTRUMENTATION INSTRUMENTS              VITAL BUS        EFFECTS OF FAILURES                AVAILABLE RFDUNDANT FUNCTIONS    BOUNDING EVENT       REMARKS (Loss)
Channels NE-42        Ch. II      A      None                                  Channels Ill and IV are available as  See NE-35, . Ref:
redundant control channels.          Sheet #49     Appendix A-pages 8, 41, Channel II remains operable.                        and 44.
B      If Channel II is being used as the    Channels I, Ill and IV are available control channel when the postulated    as redundant control channels.
failure occurs, the following happens:
                                  -Loss of related operation of:
(1) Channel II operation.
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
(3) Rod Control.
C      None                                   Channels I and IV are available as redundant control channels.
Channel II remains operable.
Channel II remains operable.
B If Channel II is being used as the Channels I, Ill and IV are available control channel when the postulated as redundant control channels.
D     None                                   Channels I and III are available as redundant control channels.
failure occurs, the following happens: -Loss of related operation of: (1) Channel II operation.
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
(3) Rod Control. C None Channels I and IV are available as redundant control channels.
D None Channel II remains operable.
Channels I and III are available as redundant control channels.
Channel II remains operable.
Channel II remains operable.
BOUNDING EVENT See NE-35, . Sheet #49 Sheet 51 REMARKS Ref: Appendix A-pages 8, 41, and 44.
 
SYSTCM: INSTRUMENTS NE-43 CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF.POWER SOURCES NUCLEAR INSTRUMENTATION Channels Ch. III VITAL BUS (Loss) A B None None EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS Channels II and IV are available as redundant control channels.
CONTROL SYSTEM FAILURES                                           Sheet 52 TABLE #4 - LOSS OF.POWER SOURCES SYSTCM:    NUCLEAR INSTRUMENTATION INSTRUMENTS              VITAL BUS       EFFECTS OF FAILURES                 AVAILABLE REDUNDANT FUNCTIONS     BOUNDING EVENT      REMARKS (Loss)
Channels NE-43          Ch. III      A      None                                  Channels II and IV are available as    See NE-35,    Ref:
redundant control channels.            Sheet #49    Appendix A-pages 9, 42, Channel III remains operable.                        and 44.
B      None                                  Channels I and IV are available as redundant control channels.
Channel III remains operable.
Channel III remains operable.
Channels I and IV are available as redundant control channels.
C      If Channel III is being used as the    Channels I, II and IV are available as control channel when the postulated    redundant control channels.
failure occurs, the following happens:
                                    -Loss of related operation of:
(1) Channel III operation.
(2) Auto Turbine Runback and Block Auto and Manual Rod Wi thdrawa 1.
(3) Rod Control.
D      None                                  Channels I and II are available as re-dundant control channels.
Channel III remains operable.
Channel III remains operable.
C If Channel III is being used as the Channels I, II and IV are available as control channel when the postulated redundant control channels.
 
failure occurs, the following happens: -Loss of related operation of: (1) Channel III operation.
CONTROL SYSTEM FAILURES                                            Sheet 53 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS            VITAL BUS        EFFECTS OF FAILURES                AVAILABLE REDUNDANT FUNCTIONS      BOUNDING EVENT      REMARKS (Loss)
(2) Auto Turbine Runback and Block Auto and Manual Rod Wi thdrawa 1. (3) Rod Control. D None Channels I and II are available as dundant control channels.
Channels NE-44        Ch. IV      A      None                                 Channels II and III are available as     See NE-35,. Ref:
Channel III remains operable.
redundant control channels.              Sheet #49     Appendix A-pages IO, 43, Channel IV remains operable.                          and 44.
BOUNDING EVENT See NE-35, Sheet #49 Sheet 52 REMARKS Ref: Appendix A-pages 9, 42, and 44.
B     None                                 Channels I and Ill are available as redundant control channels.
CONTROL SYSTEM FAILURES TABLE #4 -LOSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS NE-44 Channels Ch. IV VITAL BUS (Loss) A B None None EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS Channels II and III are available as redundant control channels.
Channel IV remains operable.
Channel IV remains operable.
Channels I and Ill are available as redundant control channels.
C      None                                  Channels I and JI are available as re-dundant control channels.
Channel IV remains operable.
Channel IV remains operable.
C None Channels I and JI are available as dundant control channels.
D     If Channel IV is being used as the   Channels I, II and III are available as control channel when the postulated   redundant control channels.
Channel IV remains operable.
failure occurs, the following happens:
D If Channel IV is being used as the Channels I, II and III are available as control channel when the postulated redundant control channels.
                                  -Loss of related operation of:
failure occurs, the following happens: -Loss of related operation of: (I) Channel IV operation.  
(I) Channel IV operation.
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.  
(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.
(3) Rod Control. BOUNDING EVENT See NE-35,. Sheet #49 Sheet 53 REMARKS Ref: Appendix A-pages IO, 43, and 44.
(3) Rod Control.
CONTROL SYSTEMS FAILURES APPENDIX A APPENDIX A TABLE OF. CONTENTS t System: Pressurizer Pressure and Level Control Instrument Page r Pressurizer Pressure.
 
PT-455 CH I l,lA,5 Protection and Control PT-456 CH II 2,2A,5 PT-457 CH III 3,3A,3B,5 1 I' PT-474. CH IV 4,4A,5 Pressurizer Level LT-459 Prot I 6,6A Protection and Control , LT-460 Prot II 6,6B LT-461 Prot III 6,6C,6D System: Reactor Coolant Temperatures Instrument Page ' Jl.T and Tavg Protections TE-411 A Loop 21 7,7A TE.;..411 B 7 TE-421 A Loop 22 8,8A TE-421 B 8 TE-431 A Loop 23 9 TE-431 B 9,9A '1 TE-441 A Loop 24 10 TE-441 B 10,lOA System: Feedwater Control Instrument Page 1 Stearn Generator Feedwater FT-510 SG#21 Prot I 11,llA ,13 Flow Protection FT-512 11,llB,13 FT-520 SG#22 Prot I 14,14A,16 FT-522 14,14B,16 FT-530 SG#23 Prot I 17,17A,19 FT-532 17,178,19 FT-540 SG#24 Prot I 20,20A,22 FT-542 20,20B,22 Steam Generator Steam FT-511 SG# 21 Prot II 12,12A,13 Flow Protection FT-513 12,12B,13 FT-521 SG#22 Prat II 15,lSA,16 FT-523 15,158,16 FT-531 SG#23 Prot II 18,18A,19 FT-533 18,lSB,19 FT-541 SG#24 Prat II 21,2.lA,22 FT-543 21,21B,22
CONTROL SYSTEMS FAILURES APPENDIX A
, I r l I System: Feedwater Control (Cont'd) Steam Generator Steam Line Pressure Protection Steam Generator Level System: Steam Dump High Steam Flow Steam Generator Header Pressure Steam Generator Inlet Header Pressure Steam Sump to Atmosphere Instrument PT-514 SG#21 PT-524 SG#22 PT-515 SG#21 PT-535 SGt23 PT-525 SG#22 PT-545 SG-i&#xa5;24 PT-534 SG#23 PT-544 SG#24 LT-519 SG#21 LT-529 SG#22 LT-539 SG#23 LT-549 SG#24 Instrument PT-505 PT-506 PT-507 PT-508 PT-516A SG#21 PT-526A SG#22 PT-536A SG#23 PT-546A SG.# 24 System: Nuclear Instrumentation Intermediate Range #1 Detector Intermediate Range t2 Detector Power Range Detector Instrument NE35 NE36 NE41A NE41B NE42A NE42B NE43A NE43B Prot I Prot II Prot II Prot I Prot II Prot I Prot I Prot II CH I CH II CH I CH II CH III CH IV Paqe 23,23A 23,23B 24,24A 24,24B 25,25A 25,25B 26,26A 26,26B 27,27A 28,28A 29,29A,29B 30,30A Paqe -----31,31A,31B 32,32A,32B 33 33 34,34A,34B 35,35A,35B 36,36A,36B 37,37A,37B Paqe 38 39 40 41 42 
 
( System: Nuclear Instrumentation (Cont'd) Power Range Detector (cont' a) System: Rod Control System: Tavg and Steam Dump Instrument*
APPENDIX A TABLE OF. CONTENTS System:   Pressurizer Pressure and Level Control t                                  Instrument               Page Pressurizer Pressure.       PT-455           CH I     l,lA,5 r        Protection and Control     PT-456           CH II   2,2A,5 PT-457           CH III   3,3A,3B,5 1                                   PT-474.         CH IV   4,4A,5 I'
NE44A NE44B Page 43 Page 44 Page 45 and 46  
Pressurizer Level           LT-459           Prot I   6,6A Protection and Control   , LT-460           Prot II 6,6B LT-461           Prot III 6,6C,6D System:   Reactor Coolant Temperatures Instrument               Page Jl.T and Tavg Protections     TE-411   A     Loop 21 7,7A TE.;..411 B               7 TE-421   A     Loop 22 8,8A
--*---.., --.... **------------
~                                  TE-421 TE-431 B
*-.. :,.* -** **------. -***-* -.
A     Loop 23 8
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9 TE-431   B               9,9A
I r-----T --:-----------,-------, I I I I I I I I PC-455 8-1) I I I I CdM.PARATP,e I I I I I I I + i I I i e.N'ANAl&l 111-,PRe.s.s I I t. I) -PA' &S.5 REAC/OA!. .S&tlc r C/RCl./rr Re"Acr1uc I I ,PAc;E 5 T-f 1P ..--J L SSPS --,
'1 TE-441   A     Loop 24 10 TE-441   B               10,lOA System:   Feedwater Control Instrument               Page 1     Stearn Generator Feedwater   FT-510   SG#21 Prot I   11,llA ,13 Flow Protection           FT-512                   11,llB,13 FT-520   SG#22 Prot I   14,14A,16 FT-522                   14,14B,16 FT-530   SG#23 Prot I   17,17A,19 FT-532                   17,178,19 FT-540   SG#24 Prot I   20,20A,22 FT-542                   20,20B,22 Steam Generator Steam       FT-511   SG# 21 Prot II 12,12A,13 Flow Protection           FT-513                   12,12B,13 FT-521   SG#22 Prat II 15,lSA,16 FT-523                   15,158,16 FT-531   SG#23 Prot II 18,18A,19 FT-533                   18,lSB,19 FT-541   SG#24 Prat II 21,2.lA,22 FT-543                   21,21B,22
* SI. t/Nllt.OCK t.OW' S.I. t.OW 1 tJ1.1r,;11r"'2 tJl./rPvr*/
 
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System:   Feedwater Control (Cont'd)
\ 0 ..___-___ ...._ NC.'1..
Instrument                Paqe Steam Generator Steam Line   PT-514  SG#21    Prot I  23,23A Pressure Protection         PT-524  SG#22              23,23B
D l'AtiE IA . ...   
~\                                  PT-515 SG#21     Prot II  24,24A PT-535 SGt23             24,24B
,                                  PT-525 PT-545 PT-534 SG#22 SG-i&#xa5;24 SG#23 Prot II Prot I 25,25A 25,25B 26,26A PT-544 SG#24             26,26B I    Steam Generator Level        LT-519 LT-529 SG#21 SG#22 Prot Prot II I
27,27A 28,28A LT-539 SG#23     Prot  I  29,29A,29B LT-549 SG#24     Prot  II 30,30A r
System:  Steam Dump High Steam Flow Instrument PT-505           CH I Paqe 31,31A,31B PT-506           CH II    32,32A,32B Steam Generator Header Pressure                    PT-507                   33 Steam Generator Inlet Header Pressure              PT-508                   33 Steam Sump to Atmosphere      PT-516A SG#21   CH I    34,34A,34B PT-526A SG#22   CH II    35,35A,35B PT-536A SG#23   CH III  36,36A,36B PT-546A SG.# 24 CH IV    37,37A,37B System:   Nuclear Instrumentation Instrument                Paqe Intermediate Range #1 Detector                     NE35                      38 Intermediate Range t2 Detector                     NE36                      39 Power Range Detector         NE41A                     40 l                                    NE41B NE42A                     41 NE42B NE43A                     42 I                                    NE43B
 
System: Nuclear Instrumentation (Cont'd)
Instrument* Page Power Range Detector (cont' a)              NE44A        43 NE44B System: Rod Control                        Page 44 System: Tavg and Steam Dump                Page 45 and 46
(
 
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                                                                                  /?4ti64 -


PEE SS/JR&#xa3; I Le'IEL CoNTRt7L PRESSURIZER PRG'SSIJICE PROT.<; CONTROL l2D 1=117VAC V17AL. INSTR. ELIS 12 P7-474 PRESS. XMIR. P&-474 iOOPPWR. SUPPLY I r--------------_T _____ &deg;'T __ ---r_:_ __ ---------. I I I I I I I + + t.o. Px&#xa3;.ss. 1 ' Ht-P.R.ess T,RIP Y
* TRIP ' , .I y SSPS PM-474C Sl6NAt.. SUMMA TOR I I ..... I I I + '--.{--/ PAtiE fO PM-474A SIGNAi.. ISOt..A TOR I I I I I I I I I I I I ... * .,.. I k*k .. .. \rj ' v PAGE 5 SSPS I .,.DT-474
/?4ti64 --
___ SALEM No. 2 t..l/'JtT_
___ SALEM No. 2 t..l/'JtT_
l?R..ESSl.JR.li!ER PRESSl.IGZG CN.4NNE'-.
l?R..ESSl.JR.li!ER PRESSl.IGZG CN.4NNE'-. IE .
IE . 5 ? z uJ 0 ,,. cf) '2.?Slc Z NO, "t c.""' 'E... '-" t) ,,
5   ?
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-------------:--
z       uJ 0,,.
--------------------------, I ' FROM FROM *
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* p,tt456A P/o'hf74A . I I I CONTROL lNANNEL SELECTOR-CIRCUIT PD-52o4CB-S>>'*
          '2.?Slc           Z NO, "t                           ~-      c.""' ~ ~ ~ 'E... '- " t) ,,
PX-4SSA,#i-NELAY fAGf 2 P.i6f 4 CONTROi. CHANNEL SELECTOR CIRCUIT PD-52l>4CB
1~~:-~ i~~N~M\\i'<.R
*.SW. PX-45SA(J-RE.LA'( ; ' ; PC-474 f3 516/fAL COMPARATOR I I I I PC-4.!i7E SIGNAJ. COMPARATOR PC-4551< PC* 45&E *i : CONTRO/.J.ER 51'5/'IAL . . :
?R~~S\J'R\"'t.~R PA~E4.4.
* 1 ' I I . . Mo.D. 124 COMPARATOR . , . , . . .  
 
: . :------c l  
rlal/5 V/IC VITAL
-'&deg;f '':: 'i  
~ INSTR. BUS                       FROM
* * .. .. i* .. : : : . ..
    ''                          PM-457A
... ; -> * .* '_),:,'* * ; .** :_:_ ........ . TO !O ; VANIABI.&#xa3; Hi.AT&#xa3;R 51<I.NAL CONTtfot.
                            **:' 'PAG; 3 I
SP.RAY VA-2P.SI (PCV-455A)
FROM I
TO lDNTROJ. SP.fAY VA* ZP.S3* . I" ' PC-.4SSH-I .SIGNAL . COMPARATOR t TtltfZNON ,J BLOCk Aura Ca#Ti(', -.* c;. P. "21 ;z2 * -pc.,,455&#xa3;' . SIGNAL* . .COMPARATOR I &#xa5; *I OPcN 2PR/ . .W.*
                                      ~--------
l D = 117V4C V/?'A/. /.Nsr-e .. avs. PRO!liCTION I L..i* 4S9 P.RESS. XMi.ll. LG. -459 L DOP ,P.W.e. Sf.IP.PLY Pl<ES5URiZ&#xa3;R PRESS/JR&#xa3; f l&#xa3;VcL CONTROL LEVEL I co11mo1. PRor.=c11cN JI L /* 460 I L.Q -460 LOOP PW.I!
I
I1Z .t..T-461 .4 PRESS.
                                                          --' FROM                    FROM
L..G.-461 (.OOP ,PW.c' SI/PPL.'( I----. I HI-LEVE(. I---. I JI I-I 1---+ I . #I -
                                                                                                                                                            --, I
I REACrtul.
                                                                                                                                                                              *I p,tt456A               P/o'hf74A                                                       .           I I.        PM-4.SSA PAGf    I                                   fAGf      2            P.i6f  4 I
'1"'.Rl.P I I S.SPS
I I
* Fl<0/'1 TAVG TC*41213 /UL: t.X-460-AE .SIGNAL t.M-459E SUMMATO!l SIGNAL l'AGt 46 /SO&#xa3;A TO .R I I I
                                                                                                                                                                                -~
* SSPS REt.:
CONTROL lNANNEL                             CONTROi. CHANNEL                                                          PC-474 f3              PC-4.!i7E
CNANNt!'L SELEC/o,e CK/. i.D*SZ4'JC8
  . I SELECTOR-CIRCUIT                            SELECTOR CIRCUIT                                                            516/fAL                SIGNAJ.
*SW L-T----1--
I            PD-52o4CB-S>>'*                             PD-52l>4CB *.SW.                                                          COMPARATOR            COMPARATOR PX-4SSA,#i-NELAY                           PX-45SA(J- RE.LA'(
-------------------, I r-....1 I I i------------T-----------, I I I 2.D 2.1) I I I .. SSPS I
I i
&#xa3;-1'" .S It$# Al l.C*45'JC: .Slf;..VA I. /. C * '9-60 D *C S/t$HAI.
I I
T"DJl.
I I
1"t:1.C ,----i I l
PC-4551<                                       PC* 45&E                                                   *i         :
* I SC-141 I  
CONTRO/.J.ER                                       51'5/'IAL             .   .: *1                 '     I         I     .   .         ~
"" I Ho1>-1z4 I I SLOCJ< .4uro Co1t1r. 1 &.QNIROl.I.
Mo.D. 124                                 COMPARATOR                 . ,     . ,         .         .       .             : .
ER .. *I I H1"1? :S: I r-------1 r--------1-----------i I 1 I I I I 1 I I I I I
                            ;~ ~- 7~ ~.-c ~ l':r_;_-:~7-~*;:_:~r-~~-- -'&deg;f ' :: 'i 7~-+--~---'------~---_;
* 1 I I I I I I I I I I I I I I I I I I I + ii 4UJCK OPe.RAr/oN .SPEED .S/1$.+'AL tr-45'1 NrK:s r" "2J$ cA'...u.s/N'c; 1.r-460 VA. 2CVZ LETDOWN JS(;.L. 'l'4 { 81.0CX Cl.OS.F.fJ PVMP l/,A. 2CV277 LT-U.t YA:S l.CV.3, 2CY.S LETDOWN OR/Flt:.E JSQI.. V.t'S". PAGE 6 I __ SALEM Alo. 2J..1Ntr_
  . I' I
LE. ve L. . ' ; CHANNEL. I ' ;
:- - - - - - c
&#xa2;:)--_o_.
        *                    *            . . i* . ::: . .           su~!~~~~~;        ... ;   -> * .* '_),:,'* * ; .** :_:_........ .
__ .o<:)i_* .;_*, ... , ,, . . : . .
TO                   !O                   TO CONTtfot. SP.RAY  lDNTROJ. SP.fAY                                                                  I" VANIABI.&#xa3; Hi.AT&#xa3;R                                                                                                           '
* _SALEM No. 2 ..
C.ONT~OI. 51<I.NAL       VA-2P.SI           VA* ZP.S3*
LE' CHANNEL II VENT .'B \Ci.:_ o G
(PCV-455A)         (PVC--l~SD) .
__ .
PC-.4SSH-I                       -pc.,,455&#xa3;'
e \ c:,,: I . -::::t--=:  
                                                                          .SIGNAL .                        . SIGNAL* .
.. ..
COMPARATOR                          .COMPARATOR I
T /r $ s, .III 7.9A37 .
                                                                  -.* c;. P.
'O/V
t TtltfZNON ,J BLOCk Aura Ca#Ti(',
*---*-
                                                                              "21 ;z2 8."U.HCAT~li!S.
I . J'ALi=M 1\14'. 2 UN1r REACTaR Co/VTAINMENT No. 2  
                                                                                                                                                                  &#xa5; OPcN 2PR/
.........
PReSS.l"Wll.~&#xa3;t ..W.*
-*---******
 
... . L . . . ... . .
D       =   117V4C V/?'A/.
E.\_ .-* -. * ...  
Pl<ES5URiZ&#xa3;R PRESS/JR&#xa3; f l&#xa3;VcL CONTROL
]I -:-. _*.,,.'::-
                    /.Nsr-e..avs.
* *"t"":-
PRcSSURl~ER LEVEL I co11mo1.
i:O n..C..C *-*-** -*
PRO!liCTION I                                     PRor.=c11cN JI                        P~07'&#xa3;CilON I1Z L..i* 4S9                                         L /
PAG&#xa3;'GC .
* 460                            .t..T- 461
l I I I ' O:\l7VAC VllAL \ NS\R. REA_CIOR COOLANT. TtMPERA"TURE.
                        ~    P.RESS. XMi.ll.                                 ~ PR~SS. XMT~                        .4 PRESS.      XMr~.
LOOP 41 2t BUS TE-""A TE-4-llS f(TJ). Pl.AT. llTI). PLAT. r I I I ,---------J I I 1---4---------..., TM*-11/C .. Sl&NAL SUMlttA TOR I . I TU*412A SIGNAL S/JMMA'TOll I. I PRO\EC.T\ON
I LG. - 459                                         L.Q - 460                              L..G.- 461 L DOP ,P.W.e.                                     LOOP PW.I!                            (.OOP ,PW.c' Sf.IP.PLY                                           Sf./~Pt.Y                            SI/PPL.'(
,-------------.-_......,.
I I----.                                             I---.                                  1---+
I I I I I I I I I r------------r-
I          HI- LEVE(.                              I    JI I- (.~YEI.                   I .         #I - ~GYE"t..
__ ;_ _ _.L ______ r ___ -y----. : I 1 A 1 ST/ti. ])u/rff P I I I CDllD&deg;'EfJ.scR I VIA 'T&*411G*N Sl&llAI..
I          REACrtul.
TM*41Z.C SIGNAL SllMHATOll TM-412E 5/&NAI.. TM-"IZT' I 1..0 iAVG}"'P.'
I                                    I
Sl&NAI. I ourPvr 1 z ..1..1 ;,II CONPARA. 'TOR I I I SUMMA TOli' '--------, I I I I SUMMA.TOR
                                                  '1"'.Rl.P I            S.SPS I      SSPS I            SSPS I
* .___ ___ __, "f'O TN-"IZF SIGllAL IJOl.}.'T'olf r-------:----
I REt.: i.X*4~o*A"
PA6f!'46 --.L-..-L--
                                                                                                                            .I CNANNt!'L SELEC/o,e CK/.
t I I
i.D*SZ4'JC8 *SW
* 1 I I l r------l------1------
                          /UL: t.X- 460-AE Fl<0/'1 I
------------
TAVG TC*41213
---------l I I I QM*-11/A I I I I : ...
  .SIGNAL                     t.M-459E SUMMATO!l                   SIGNAL l'AGt 46                 /SO&#xa3;A TO .R L-T----1-- --------- ----------,
--FRO/ti: (CDNTie I I I I : l I L------------------------------;
I       r-....1                                                                   I I       i------------T-----------,                                                 I I       I           2.D                                     2.1) t.C*~S-,      &#xa3;-1'"                       l.C*45'JC:                                                   /. C * '9-60 D *C
Cll * .Z-.J
                      .S It$# Al                              .Slf;..VA I.                                                      S/t$HAI.
* 7&-411&#xa3; SIGNAi.. SUMMA TOR I I I I I I I I .---J TC-41/A S/6HAI. .SUMMA TOR I I L----------------1 I l ;----:-----------_:
CO,.,,,PA~Ai"(),J!                        COM~A..eA T"DJl.                                               CQM~A,eA        1"t:1.C
Sl6NAL COMPARATD/f I I TC-411&-J)
    ,----i                                                           I l
SIGNAt. *. CO/tlPA RATOll ;--------------J I I I I : I . I * . I
* I                           SC-141 I             ru~N ""                                         I                         Ho1>-1z4 I       I SLOCJ< .4uro Co1t1r.                                                         &.QNIROl.I. ER                         .. *I
* I I NI-HI
                    ~.U. H1"1? :S:                                   1 II          G.P21~2z*                r-------1 r--------1-----------i I                                   1                         I   I                           I                                 I 1                                   I                         I I                             I                                 I
'
* 1                           I I                             I                                 I I                         I I                             I                                 I l                                          I I
"1 n:-42111 : M6&#xa3; 8 -----------. /!tA6E g
II II                            I I
_ _, I : Mt!.E /() T&-4401 1 : I I I I I I I ... L _ _:. __ -------., * . I /.//-f-11 ,,,,4 1
I I
Mf&#xa3; I I ..:JT-ilVP '"
                                          +
i I I , avr I I I I 5SPS w I I
                                      .s~lcx.
ii 4UJCK OPe.RAr/oN
                                                                                                      ~
                                                                                              .SPEED .S/1$.+'AL
                                                                                                                                        ~
                                                                                                                                  .B~Ot:.IC            tr-45'1 t:~05&#xa3;D              ~P.21-22tJ.u. NrK:s              r" "2J$ cA'...u.s/N'c;               t::~fJs1D            1.r-460 VA. 2CVZ               {   81.0CX Cl.OS.F.fJ                   PVMP                       l/,A. 2CV277           LT-U.t LETDOWN                YA:S l.CV.3, 2c:V~, 2CY.S                                       aTDOW#.f~ ~-
JS(;.L. 'l'4              LETDOWN OR/Flt:.E JSQI.. V.t'S".
PAGE 6
 
__SALEM Alo. 2J..1Ntr_
l?RESSUR.li!GR_~*    LE. ve L. .
CHANNEL. I I
                                        ~S~"t..l~O~
                                                  \iOUS\~~
                  &#xa2;:)--_o_.__     .o<:)i_*.;_*, ~-~~~~ ~'- ~
                                            .
* PAGE*~A
 
_SALEM No. 2 ..fJ/\/t~
l?RESSl.JRIZC"R_~, LE' Ve'-
CHANNEL II VENT
          .'B \Ci.:_ o G \"C:::~;.__--1~
    -*=-~s\.\ \~C:o-._ _
                                                                  -::::t--=: ..
. 'Sc..~S.~"R-~t
~\.\ e ~ ~ \ ~ c:,,: -:~
                                                                .. "?~~~~\,)"'-\ i."~B:_
I  .
 
T
                      /r
                    $    s,
      .III  73N~H::::>
7.9A37    .-2:;1;:;z1~nss:1"C1a
    ~11YrFZ 'O/V  W~7'V'S    *---*-
 
J'ALi=M 1\14'. 2 UN1r REACTaR Co/VTAINMENT No. 2 P1<e-ssu~/ceR. .........           -*---****** ... .
                                                          ~      n..C..C-~,*-***
i:O*"t"":-      *- *-** - *
                                                        ~.S&#xa3;E PAG&#xa3;'GC                 .
I .
L
      . -~-"2.-"'P'R C.:.S<5\Y~l".:Z. ~~J:~\J E.\_
    .-*-. *... c\4ll..~~6L ]I -:-. _*.,,.'::-
 
l REA_CIOR COOLANT. TtMPERA"TURE.
O:\l7VAC VllAL \ NS\R.                                                          41 LOOP 2t BUS                                                                                                                .dT~TAVG TE-""A                          TE-4-llS                            PRO\EC.T\ON f(TJ). Pl.AT.                llTI). PLAT.
                                          ~            I I
I
                                                                ,---------J I
1---4---------...,
r  I TM*-11/C ..                     TU*412A Sl&NAL                         SIGNAL SUMlttA TOR                     S/JMMA'TOll I                           I.
                          .                              I                            I r ___ -y----.
I I
I I
I I
r------------r- __;_ _                       I
_.L ______
I I
:                             I                             1 A     1 ST/ti. ])u/rffP I                             I               I CDllD&deg;'EfJ.scR I           VIA
      'T&*411G*N Sl&llAI..
CONPARA. 'TOR I
I TM*41Z.C SIGNAL SllMHATOll TM-412E 5/&NAI..
SUMMA TOli'                  ___
TM-"IZT' Sl&NAI.
                                                                                          .___SUMMA.TOR__,
* I I
                                                                                                                  "f'O 1..0 iAVG}"'P.'
ourPvr 1   ..1..1 ;,II TN-"IZF I
I I       I                             I SIGllAL IJOl.}.'T'olf PA6f!'46 r---- --- :---- -:------------~
t                I        I    *
                                                                                                                        --.L-..-L--
QM*-11/A 1                 I       I l   r------l------1------ ------------ ---------l I           I       I I           I       I                                                                                       I -    - FRO/ti:
: . . --~
I I         I
                                        !---------~--------------~
I P~ES3.P!U>r. (CDNTie Cll*.Z- PA~E .J     *
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L------------------------------;                                                            .---J 7&-411&#xa3;              ~----------------------,                                                                        TC-41/A I                                                     I SIGNAi..            I                                                     I                                         S/6HAI.
SUMMA TOR                ~-----------__,I                                     II                                    .SUMMA TOR I                            I L----------------1                         I                            l ;----:-----------_:
TC-411~-ll                      TC-411&-J)
Sl6NAL                      SIGNAt. *.
COMPARATD/f                    CO/tlPA RATOll I
I             I             :              I .
              ;--------------J I
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                                                                ~            L__:. __ -------.,
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                            /!tA6E g _J"_k~~_I!!_ _ _, I        :
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Mf&#xa3; ,,_r:..c;.~~Lr::.._., I
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                                                                                                                              /.//- f-11 oV'El<'i~MP.
                                                                                                                          ..:JT- ilVP
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Mt!.E /() T&-4401          1      :  I      ~ '" L.c~LS.,              i    I I          , avr ~u7'"' ~
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* Tc-41/A TC-4118 AUTO TUR81N&#xa3; lfVNEACI<
BJ.OCI< AtJT'O fMAllUAI..  
BJ.OCI< AtJT'O fMAllUAI.. 'ROD           WtTHD~AW/fl,.
'ROD SALEA1 No. 2 tJ#1r NC. 21 l<G4CTOR COaL.4NT PUMP 1.00 P 1or L.JE<:; TcMPa4TUJC>G -CONT1i7N 1'1&#xa3;HT WAIL -!NStD*.. . C . -*i..I M"E. l.1 T . .
 
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SALEA1 No. 2 tJ#1r NC. 21 l<G4CTOR COaL.4NT PUMP 1.00 P 1or L.JE<:; C#4NNG~ ~~ TcMPa4TUJC>G
l.OA . .z T E.:.-.4 .I i 1 I PAGE 7A I I I I I
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                                            .-----------,------------1-------r----""ly I                                               I                .            .-      .                I                         I I
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2a QI I   $rN. To.*DIJMP I                                                        I                        I  COJID*i/SSR..                  .
n::- ~2/($ -~            :rhl-    4f.Z2~                            :r.+1-        ~zz4                          . * *      ,.-,,.,.~zzr                              :~,.,~ r"""'t$}s.sP..s
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* I                                                                                                                                 I ro TN-42.ZF
                  '-------., I
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Sl&NAL IJOIATO/l N..I. sru~y I
I l'A6l4~ P~41 I                                                                                                                                                                I I                                                                                                                                                                I I                                                                                                                                                               I I
I I                                                             I
          ,------ - --4----~------------.J I                  I            I                                                                    .
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I    .-----~----~-------------------------------------1 (CoJlrJt.CH.zr II  II    I:            I ___________ _..:._ ________________
1..                                                                          . :                    .                          ..      ,       II . J1t'tf451i.C-1'4(f4'2.
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L--------------.;.;,----------,
I I                                                  .
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____ J TC*<ft.V~-K                                                                  n::: - ~.uc-P f/~HA~                                                                        .S/$.N'A~
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1 lltlf"l'VT "''/ I                        'T'C*f&N.# I 1 I . * *                          /0 "?'t:*HI~ I 1                                                                  1  tJvrPvr'/            1
                                              ----1~t ~ ---~-mr
        .ss1-s -                                                                                                                                                                      ..s.s'..-.s TE-42.IA
                                                                                                                                                                                                  -T~-4218
                                                                    .Alln;, . 'ril~8/KE RJIK4Ac.I:
M"CK AV?&deg;A ~ M4V"4'- ~ IWTKAUWA/.
                                                            -~  ~*.  . *. . .  .    .....       .. ., ..... -*~--~    *.* . . . _.,. - -..      :...--  . -...
 
                        --------- . --'-----~-SAiei{-No.      2 "t.J#1r ___ -. -__ H __ _.. __
* _* h  --
do.. 2z RGACTOR                COOL.4/t/T PVMP t.00 p ..... - - ....
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                                                                      ....---~C:o}lT.A.L}-rtvf~t.ElT ~
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2/E~_~?O~
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28 /15"'1AC WTAt..
INSTlf, IJU.$                              ........___
 
REACTOR COOLANT TEMPERATURE T.:'-.f-.3/A                    r.:*4~1.e 6T ~ TAV6.
Rr".      -'~Ar.                  Rro.      P~Ar PROT~CTLQ~
I_    r----J L.:_I- -        - __ ,
J'hf- 4.3/C                        77fll*4.32A
                                .Slt;NA~                          .S/t;NA'-
                            .SVMMA i/"111,e                    .S(/MMA ?"4-*!
r--------                                                    I r--
I
                                        ----1-:--L-- -
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* ST.A(. DIJHP I  TtJ: coJ/IJEllScR.
rc-4'3/t;*H                                          ;r,,,,.  --~24                                  I  VIA~o :r. AV(;'Z up_'-"
S/t;NAG                                            .SA$N'A~                    S/~.N';l#i,        l  OUTPUT #2        J-  ~
C1:M1',,.,,,,~A ?""~                                .Si/M~A        T't'.C      J'VMM"4?'4.C          rl TH*4'32F L ____ l                                                                                Sl6l1AL IJOLAT"O/i PA6E4G I  I                                I
  ~-----+~------~                                                            .. :
:      r----~-r------------_J I      I              I  t
* I      I      ~    --+ -,- - - - - - - - -- _;.,;__ - -- - - - - ~                                                      ;,4'4M
: : :                  : L--------~----------~ :~7-~
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    .S/t:;NAt.            I                                                                                    S/~N'~'
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. VJT4L /JlJ5 T4VG- POWER'   STEAM DUMP TM-412N     /:"ROM TAl*.S05D P.4C,t 31 FRtJY PWR.R4NGE NEUTRON P.46e -I~
FLLIX C#ANH..f.!S
                                                                                      &#xa2;1     &#xa2;2 tf/3 /)4 P4t;a 40     41 42   43 I     I   I   I TM-412P                                            QM-4128                    ~  M-412.4 LEAD-LAC,                                          SIGNAL                    SIG. SEL C()/l/TROLLE R                                    SUMMATOR                  AUCTIONEER I
r+---------_J I'--------,                               RODS our I                                       OtJTPJJT 2 D.C,OUTPUT c;JA1-412C LEAD-LAG CONTROLLER qJM-412F U!.4D-l.4G CONTROLLER
                                                                                                                        \=---
r--
PC-412E.
RO..!) SPEt:D CONTROL /tfQDlJLE 1
I    I I         I L----.
I I      RODS      RODS
                                                                                                                                                          +
c;M-412.JI                        I    ~                        Ro!>
SP#"#/)
i----------                                            MllLTIPLlcR      *----,          I     TO QOJ) CONTR.       CONTROi.
Dto/IDER 1                                                                                        I I                                                                                        I I                                                                                        """ RO.I) (ONTROJ.
I~
I                                                       Cf_M-412. J I
L ________I_____ ..:.... _ __.                                          SIGNAL I
I     sr.:AM DUMP      r FllOM TM*.&sect;()~ C I SUMMATOR I
I I         PA<i&#xa3; .!JI             I                                                    I I                      2D       L-- --- -------,
I YJAl-412K                         PC-4128                   PC-412D-C                       I SIGNAL.                         /:WICTION                   SIGNAL         -----l---J I SUMMA TOR.                       GEN&RATOR                 COMPARATOR               I       I II                                IL __________________ i I __ JI L-------------~------------------~
 
i' I
T AVG&#xa3; STEAM DUMP FROM          LOOP 21      FRON        LOOP22          FROM        lOOP23      FROM              LOOP24 REACT. coot. TE/tlR        REACT. COOL. TEMP.           REACT. COOL. TEMR        REACT- COOi. .T6MP.
: l.        TM-412A                     TM-422A                      TM-43211.                TM*442A
*'j            SIGNAL                     SIGNAi.                     SIGNAL                    SIGNAL
-~
I        SUMMATOR PA6,E  1 SUMMATOIi' PA&deg;6&#xa3; 8 SUHMATOR PA&deg;iE    9 SUMMA TOil PAG&#xa3;10 r
**.                                          I                                                      I I
I                         I I
I I
I I                                                                                 I I                          I                            I                        I I                          I                            I                        I i
i I        TM-412P                      Tltl-422F                    1M-432F                  TM-442F
  )i
*i
  )
SIGNAL
            /JOLATOR SIGNAL ISOLATOR SIGNAL ISOLATOR
                                                                                                .SIGNAL ISOl.ATO/i i
l
.\.
'J
:,,t.        TH-4/'lG                    714-4226                    TM-432'5                  TM-4426 i
.~-
SIGNAL                       SIGNAi.                     SIGNAL                  Sl&NAI.
1$0LATOR                    /SOI.ATOR                    ISOLATOR                ISOl.ATO!i I                           I                             I                        I I                          I                          . I                        I
                +
TO
                                            +
TO
                                                                          ...TO                    +
TO T/4-128                      r141zs                      T/4128                    T/412B
          - TAVG                          T AVG                        T AVG                    TAVG OEF4AT SW.                     DEFEAT SW.                  DEFEAT .SVI.              DeFeAT .SW PAGE      "&deg;'                  PAGE 1/-6                    PAGE 411                PAGE 4~
o=ll7VAC VITAi.
INSTR. 8U.S
 
(1.ooPZZ)---,
FROM TM-4ZZG      I r----- --(LOoP 2:S)
I                  FNOM T/fll-43ZG
_T AVG      f STEAM DUMP PAGEfS      I II                    PA6&#xa3;4S .
(LOOPZIJ----, II  I    r---(1.00P'l<I-)
F~OM TM-41ZG                            FNO/'-f TM* 44ZG                                                                                                          D    =t17VAC VIT'11.
PAGE45                            PA6&#xa3;4S                                                                                                                          IN.STR. BUS 7/4/Z8 TAV6
              .DEFfA'f SW*
T.41-412$
Sits.NA/..
Sits.NA/..
SV/lllMA TOH FNO/'-f TM* 44ZG PA6&#xa3;4S _T AVG f STEAM DUMP D =t17VAC VIT'11. IN.STR. BUS '----""' -.,.. ----* ----------T -----------
SV/lllMA TOH
+--------T ----------
                        '- - - - ""' - .,.. - - - - * - - - - - - - - - -T - - - - - - - - - - -   +- -- - - - - - T         - - - - - - - - - - . - - - - - - - - - - --,
.------------, I 2C ! 2C I TM-4/ZN Sl6NAL I.I.OLA TON I I ... T(J RO.D CONTA'OL TM-41Z P i.EAD-LAG coNTROl.tEll PA6E44 714-4/ZI .Sl6NAL /.SO/.ATOR TC-SOON SIGNAL COM PA RATON .STEAM DUMP re-Sos S/6NAL TM-SOlJA l.&#xa3;AD*l.Aa PAGf ?II C.ONT/ioU.ER t-----------, I I I I I I I I I..-----------, TC-500A SIGNAL 5VMMATOR TC'-4128 SIGNAL SVMMATOR + TO PN&#xa3;.$S/leVEl CONT. ----------, 2C :, MODULAT&#xa3; F.P wr,e VA!s&deg; ( 8F40 TC-.500&#xa3; TC-sooP 516N-11. c0Jt1PARATOR TC-5DOD SJ6NAL .SVMMATOR LC-459 PA6&#xa3;6 I I TU/l8. 1 TNIP v STEA/of DUMP}}
I         2C                                   !           2C                                 I 714-4/ZI                                        TC'-4128 TM-4/ZN
                                                                                                                        .Sl6NAL                                        SIGNAL Sl6NAL
                                                                                                                      /.SO/.ATOR                                    SVMMATOR I.I.OLA TON I
T(J I
TC-SOON
                                                                                                                                                                          +
TO SIGNAL                                  PN&#xa3;.$S/leVEl CONT.
RO.D CONTA'OL COM PA RATON                                        LC-459 TM-41Z P PA6&#xa3;6 i.EAD-LAG coNTROl.tEll PA6E44 F"~OM  .STEAM DUMP                                   2C        :,
re-Sos                                             MODULAT&#xa3; F.P wr,e VA!s&deg; S/6NAL .SUlol/MATO~                TM-SOlJA           II~ 1~13Fl9 ( 8F40 l.&#xa3;AD*l.Aa PAGf ?II                 C.ONT/ioU.ER t-----------,
I I
I I                                                     TC-.500&#xa3; I                                                      TC-sooP II                                                      516N-11.
c0Jt1PARATOR I
I..-- - -- - - - - --,
TC-500A                    TC-5DOD SIGNAL                      SJ6NAL 5VMMATOR                    .SVMMATOR I                             I 1
lO~DA'EI.                TU/l8. TNIP v
STEA/of DUMP}}

Latest revision as of 11:56, 23 February 2020

Control Sys Failures Analysis.
ML18086B514
Person / Time
Site: Salem PSEG icon.png
Issue date: 05/31/1982
From:
Public Service Enterprise Group
To:
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ML18086B513 List:
References
NUDOCS 8206090042
Download: ML18086B514 (199)


Text

CONTROL SYSTEMS FAILURES ANALYSIS SALEM GENERATING STATION 8206090042 8 f~-' -

PDR ADOCK 0*~00602 -~

p ~ 0311 PDR

~1 I

. MAY 1982 "he Energy Peop~e SALEM GENERATING STATION UNIT. 2 CONTROL SYSTEMS FAILURES ANALYSIS

CONTROL SYSTEMS FAILURES The purpose of this document is to provide an analysis demonstrating that the postulated events in Chapter 14 of the Salem FSAR adequately bound the consequences of single control system failures.

The following analysis consists of postulated failures of major ~SSS con-trol systems and system interrelationships.

The systems reviewed were:

1. Steam Dump.
2. Excore Nuclear Instrumentation.
3. Pressurizer Pressure and Level Control.
4. Feedwater Control.
5. Rod Control.

The systems were evaluated for:

1. Break of common instrument lines.
2. Loss of power to all components powered from a single source, and *
3. Break of any single instrument line.

The enclosed Tables analyze these systems in the following manner:

Table #1 - Break of Instrument Lines This table is comprised of an instrument by instrument analysis evaluating the effect of the individually failed instrument line upon its related con-trol system. The analysis is formulated to incorporate the instrument and channel, its failure mode, the effects of failures (upon all related sys-tems), available redundant functions, the bounding event contained in the FSAR and any necessary remarks.

Table #2 - Break of Common Instrument Lines Within Table #2, the analysis examines the NSSS control system instruments common to the same instrument line. These instruments are evaluated to the same criteria as in Table #1. However, in Table #2, the evaluated analysis encompasses the effects of all instruments common to the related instrument 1i ne.

Table #3 - Failure of Excore Nuclear Instrumentation Table #3 evaluates control system failures in regard to Nuclear Instrumenta-tion only. As in Tables #1, and #2, the Nuclear Instrumentation System is also evaluated to demonstrate that the postulated failure is bounded by the events in Chapter 14 of the FSAR.

Table #4 - Loss of Power Sources Table #4 is an individual analysis of all vital instrument buses affecting each instrument previously analyzed. It is an evaluation of the implied failure resulting from the loss of a particular instrument bus.

Also contained within Table #4, is information inherent to the cumulative affects ensuing from the postulated total loss of a single vital instrument bus. Based upon this information, it is concluded that the postulated failures are bounded by the analyses contained within Chapter 14 of the FSAR.

All aforementioned Tables refer to Appendix A of this analysis. Appendix A depicts all related control system instruments, related power sources, con-trol functions, and process taps for the systems reviewed.

It is concluded that these proposed failures are bounded by the postulated events in Chapter 14 of the Salem FSAR.

I I

I I

CONTROL SYSTEMS FAILURES ANALYSIS - TABLE #1

COITTRO!Jl SYSTF.M Fl\IlJIRES Tl\BJ.E I 1 - BRP..AK OF lNS'l'RlJMEl'l'r LINES SYSTEM: PRffiSURIZER PRESSURE AND LEVEL CXNI'ROL SHEF.'1' 1 FAIWRE INSTJllMENl'S IOJffi EFFttl'S OF FAIWRffi AVAILABLE REOONDANI' fUNCTirn5 Cllannels PT-455 Qi I . low -Palse initiation of: -<llannel III is available as the -'Ihe event is bounded by -Redundancy used to (I) 1/4 Pressurizer low Pressure redumant control channel. the inarlvertent openinq pi:otect against Reactor Trip Signal (llbolle -<llannel III also controls Pres- of a pressurizer safety accidental depres-P7, 2/4 required for Reactor surizar Rlwer Operated Relief valve as associatP.d with sur i zat ion of. the trip). Valve PR.1. the 11.ccidental Depressur- Reactor Coolant (2) 1/4 overtemperaturaAT -<:hannel IV is available as the ization of. the Reactor System.

Reactor Trip am 1/4 redundant relief channel for PR2. OJolant System analysis.

overtemperature .6 T Auto

'l\Jrblne ~nback, blocks auto aoo manual R:Jd Withdrawl.

(3) 1/3 Pressurizer low Pressure Safety Injection Siqnal.

-If Cllannel I ls being used as the controlling channel when the postulated failure occurs, the following FAISE Signals are lilitiated:--

  • False Operation of Pressurizer heaters (turns-on).

Ioss of auto operation:

(1) Pressurizer ~r Operated Relief valve PR2.

(2) Pressurizer Spray valves PSl am PS3.

-False low Pressurizer Pressurf!

Annunciation in the Main Control ltxlm. .

Pl'-456 di II low =<ilannel II operates ~r Relief =<ilannel IV Is avaUahle as the re- See PT-455, Sheet Valve PR1 am alaans only. duooant Relief channel.

-If Cllannel II is being used as -<:hannel IV also controls ~r the relief channel when the pos- Operated Relief Yalve PR2.

tulated failure occurs, then the -<flannels I or 111 are available as following FAISE Signals are reilu00ant control chanools.

initiated:--

  • cc.ll'ROLS SYS'l'F.M FAIUJRES TABLE 11 - BRFJ\K OF INSTRUMF.N'r LINES SYSTIM: PRF..SSURIZER PRESSURE AND LEVEL CCNl'ROL SHEET 2 FAIWRE INSl'RUMEm'S IOJES EFFEX:TS OF FAIWRES . AVAILABLE REOONDANl' FUOCTIOOS Rml\RKS anne s Pl'-456 -False Initiation of:

. (Cont'd) (11 1/4 Pressurizer IDw Pressure Reactor Trip Signal (above P7, 2/4 required to trip the reactor).

(2) 1/4 overtentierature..QT Reactor Trip and 1/4 overtemperature

.OT Auto 'l\Jrbine Runback, blocks auto and manual ltJd Withdrawal.

(3) 1/3 Pressurizer IDw Pressure safety Injection Signal.

toss of operation for Pressurizer i:u..er (llerated Relief Valve PR1.

-False [Dw Pressurizer pressure annunciation in the Main Control R:x:m.

PT-457 01 III -False Initiation of: -<llannel I is available as the re- See PT-455, Sheet 1 -Redundancy used to (1) 1/4 Pressurizer IDw Pressure dundant control channel (except for protect against Reactor Trip Signal (Above operating PR1). accidental depres-P7, 2/ 4 required for Reactor -<:hannel II is available as a redun- suri zat ion of the trip) dant relief channe1 for operation system.

(2) 1/4 overtenperature.6T lleact- of the Pressurizer R>wer Operated or Trip and 1/4 overteqiera- Relief Valve PR1.

tureAT Auto 'l\Jrbine Runback, -<:hannel IV is available as a redun-blocks auto and manual ltJd dant relief channel for operation Withdrawal. of the Pressurizer lbwer Operated (3) 1/3 Pressurizer low Pressure Relief Valves PR1 and PR2.

safety Injection Siqnal.

-If Olannel III is being used as the controllinq channel when the postulated failure occurs, the following FAISE Siqnals are initiated:--

False initiation of operating the Pressurizer heaters (turns-<>n).

toss of auto operation:

11) Pressurizer i:u..er cp!rated Relief valve PR2. .

(2) Pressurizer Spray Valves PSI and PS3.

(3) Pressurizer i:u..er operated Relief valve PR1 *

.\

<XNJ'llOL.<; SY~ FAIUJRP.8

  • TAl'LF. I I - RREAK (lf' INS'J'lll ll'r.N'I' LINF'S SYS'l>>I: PRESSURIZER PRESSURF. AtJll I.FVF.L CCffl'ROI, FAILllRE INSTRlMENI'S KJ)f!S F:FFEr.l'!l OF FAIUIRP.S Olanne s P'l'-457 -False I.ow Pressurizer pressure (Cont'd) annunciation in the Main Control R'.Joni.

- anne I opera es POwer Re e - anne Valves PR1 anit PR2 anit alarrm nur.iant Re]ief channel for Power only. l)>erater'I RP.Jief Valve Pill.

-If Oiannel IV is beillCI used as the --<hannelR I or III are availahle as relief. channel -.tien the posulate<' rer'lundant contro1 cfiannels, an<! aJRO failure occurs, then the followillCI for operation of Power Operate(!

FALSF. Siqnals are initiated: lie.lief Valve PR2.

loss of auto operation for the Pressurizer Power Q:>erated Re1ief Valves PRl and PR2.

-False initiation of 1/4 Pressurizer I.ow Pressure Reactor Trip Siqnal (llhove P7, 2/4 reau!red for React-or Trip).

-False I.ow Pressurizer pressure annunciation in the Main Control lbotn.

LT-459 di I Rlati . -False'(nlElatlon of 1/3 Pressur- -Oiannels n or Ill are availahle izer Hiah Water Level Reactor as the rrounitant crmtro1 channels.

Trip Sianal (7/3 reauirP.<'l for reactor trip).

-If Cllannel I is beillCI used as the controllillCI channel -.tien the pc>s-tulated failure.occurs, the follow-illCI FAL.'lf. Sic;mals are initiaten:

CQITTROLS SYSTEM FAIUJRES TABLE 11 - BREAK OF INSTRUMEN'r LINES SHEET 4 svsim: PRESSURIZER PRESSURE !\ND.LEVEL crnrROL REMMKS FAIWRE AVAILABLE REOONDANl' FUNCTIOOS 1-DJES EFFECI'S OF FAIWRF.S Channels False Operation of Pressurizer LT-459 Backup Heaters (turns-<>n)

(Cont'd) Charging PUmpS decrease flow.

-False High Pressurizer level an-nunciation in the Main Control lbcJn.

n essur-i zer High Water Level Reactor Trip Signal (2/3 required for reactor trip) ..

-If Olannel II is being used as the controlling channel when the postulated failure occurs, the following FALSE Signals are initiated:--

False initiation of Pressurizer Backup Heaters (tums-<>n).

Charging PUmpS decrease flow.

-False High Pressurizer level an-nunciation in the Main Control lbcJn.

-Oiannels I aM!fareaVaITab""Ie as --- see PT-4S"S-, sheet , -------------------------

111'~-__.,..0ic.-il"l"'l"---.nrrl9'"'h..---_...

Fa"'1"s°'e--.l..-n-rlt.--l""'a"'t...,l""on,,....o...,f,.......1,...,/""3,......,Pi..,.e=ssur--

the redundant control channels.

izer High Water Level Reactor Trip Signal (2/J required for reactor trip).

-If Olannel III is being used as the controlling channel when the postulated failure occurs, the following FALSE SiQnals are initiated:-- **

cn1J'ROL.'l SYSTF.M FMIJJRF.S TABLE 11 - BRf'.AK OP INS'l'RllMF.N'r LINES SYSTEM: PRESSURIZER PRESSURE l\tlll LEVP.L CONTOOL SHEF:I' 5 FAIUJRE IOJES EFFOCTS OF FAIWRES AVAilABLE RID!NDA!fl' FUNCTIOOS anne s LT-461 False Initiation of Operatinq the (Cont'd! Pressurizer Backup Heaters (turns-<>n).

Oiarqing Plmt>S decrease flow.

-False High Pressurizer level an-nunciation in the Main Control ltxlln.

LT-459 Cfl I I.ow -If Channel I ls being used as =<llannels 11 or III are available as See Pl'-455, Sheet 1 the controlllnq dlannel when the the reundant control channels.

postulated failure occurs, the following FAISE Siqnals are initiated:--

  • All Pressurizer heaters in auto mode de-enerqize.

letdown isolation valves CV277 and CV2 close.

All letdown orifice isolation valves close (CV3, 4, & 51.

-False I.ow Pressurizer level an-nunciat ion in the Main Control IO:Jln.

LT-460 Ch II I.ow See LT-459, Sheet 5 =<llannels I or III are available as See PT-455, Sheet the redundant control channels.

LT-461 di III see LT=459, Sheet 5 =<llannels I or II are available as See pr::455, Sheet the redundant CO(ltrol dlannels.

PT-458 High Nile - ca116ratlon Channel LT-462 High N'Jne - calibration Channel

.:-'t*

CTNl'ROLS SYS'l'F.M FAIUJRES TABLE

  • 1 - BREAK OF INS'l'RUMF.NT LINES SYSTEM: PRESSURIZER PRESSURE AND LEVEL <XNI'ROL SHEET 6 FAIWRE INSTRIJMENl'S r-l)()ES EFFECTS OF FAIUJRES AW\IIABLE REOONDANT FUNCTirn5 Channels LT-1649 High -False High Pressurizer Level -Level control system not affected. N/A Alarm at the lbt Shutdown Panel. -<:ontrol !ban alarm capability still available.

Pir-1648 -False I.ow Pressurizer Pressure -Pressure control system not affected. N/A Alarm at the lbt Shutdown Panel. -<:ontrol !ban alarm capability still available.

..~ .

CCNI'ROl.B SYSTEM FAII1JRES

  • rJIBLE # l_ - BRF:l\K OF INSTRUMEN'r LINES SYSTEM: FEEJ:l'iATER a:tfl'OOL - STEAM GENERA'IUR STEAM FI.av Sl!EE'I' 7 FAIWRE INSTRUMENl'S f-DDF.'l EFFECT'S OF FAIWRES AVl\ILl\BLE REOONl.Wll' FUNCTIONS DOONDING E.VENl' Rml\RKS Channels SGt21 FT-512 Ch I High -False initiation of: -Fl<M' control for steam generators -Initial increase in steam NOI'E: If nigh level (1) 1/2 High Steam Flew Steam 122, 123, and 124 remain operable. fl<M" decreases as steam detected by 2 out of line isolatiai signal (2/4 -Level controls for all steam gen- pressure decreases. 'l1lis 3 steam generator required and either a lcw erators remain operable. transient is bounded by level transmitters, steamline pressure or lcw -Channel II is available as the the Accidental Depressur- all associated main Tavg required for Reactor redundant channel for steam flCM ization of the Main Steam and bypass feed.olater trip). control. System analysis. valves will close.

(2) 1/2 Steam flcw/feecJ..iater fl<M" mismatch. (This coin-cident with 1/2 l<M" steam generator water level, trips the Reactor).

-If this instnment is being used as the controlling channel when the postulated failure occurs, then the foll<M"ing FALSE signals are initiated: --

False High Steam Fl<M" Signal to feed p!.DllPS and turbine speed con-trol (increases speed).

False High steam flCM signal to associated feecJ..iater control valve (opens Feed.rater valve).

(OOI'E: Mismatch causes steam gen-erator level to increase I.

-False high steam f l0o1 annuncia-tion in the Main Control Roan.

-Failure of this line causes a small steam leak.

-False high steam f l0o1 signal to Safety Injection initiation (Fs>Frefl*

SGt22

-rics22 Ch I High See FT-512, Sheet 7 -Fl<M" control for steam generators See FT-512, Sheet 7 i21, 123, and 124 remain cperable._

See FT-512, Sheet 7

a:Nl'ROL.'l SYSTEM F/\ILUW~'l T/\BLE u - llrul/\K m* INSTRUMEN'r LINES SYSTEM: FEE!l'IATER COO!'OOL - STFJ\M GFNERA'IDR STEAM FLON Sheet 7/\

FAIUJRE EFFECTS OF FAIWRES AVAILABLE REOONDllNT FUNCTIONS IJCUNDING E\IEN'I' REMARKS INS'l'RlJMENl'S OODES Channels SGl23 FT-532 Ch I High See IT-512, Sheet 7 -Flc:M CXJntrol for steam generators See FT-512, Sheet 7

  1. 21, #22, and 124 remain operable.

See FT-512, Sheet 7

<XNI'IULS svsrEM FAIWRES Tl\DLE Ill - llREl\K OF' INSTRUMENI' f,INES SYSTEM: FEEll'/A'rER CCNl'IDL - srF.AM GENERAIDR STEAM FUM SHP.F.:l' 8 FAIWRE INS'mlJMENI'S 1-aJES EFFECTS OF FAIWRES AVAILABLE REOONDANT ruNCTIONS REW\RKS Channels SGl24 Pl'-542 Ch I High See FT-512, Sheet 7 -FlCM conti:ol for steam generators see FT-512, Sheet 7

  1. 21, #22, and 123 remain operable.

See FT-512, Sheet 7 SGl21 FT-513 Ch II High See FT-512, Sheet 7 -Channel I is available as the redun- See FT-512, Sheet 7 dant channel for steam flCM oontrol.

See F'l'-512, Sheet 7 22 FT-523 Ch II High See F'l'-512, Sheet 7 -channel I is available as the redun- See FT-512, Sheet 7 dant channel for steam flo,.i conti:ol See FT-522, Sheet 7 SGl23 FT-533 Ch II High See F'l'-512, Sheet 7 -Channel I is available as the redun- See FT-512, Sheet 7 dant channel for steam flCM oonti:ol.

See FT-532, Sheet 7A*

SGl2 r'l'=S'43 Ch II High See FT-512, Sheet 7 -Channel I is available as the redun- See F'l'-512, Sheet 7 dant channel for steam flo,.i conti:ol.

See FT-542, Sheet B SGt21 FT-512 Ch I -False initiaticn of 1/2 Steam -Flo,.i conti:ol for steam generators -This event is bounded l:rj flCM/Feedwater flow mismatch (lCM 122, 123, and 124 remain operable. the analysis covering the Feedolater flew). (This coindicent -Level conti:ols for all steam gen- Loss of Normal Feedwater.

with 1/2 lD<i Steam Generator water era tors remain operable.

level trips the reactor). -Channel II is available as the redun-

-If this instrwrent is being used dundant channel for steam flCM conti:ol.

as the oonti:olling channel when the postulated failure occurs, then the follCMing FALsE signals are initiated: --

C<MI'ROl.S SYS'rF.M f'AI IJJRES T/lf!LE u - 13RF.N< Of' INSTRmmr LINES SYSTEM: f'EECWATER CCNl'ROL - STEl\M GENERA'IDR STF'J\M f'LO.'/ SHEIIT 9 FAIWRE INSTRUMEl'll'S MODES EFFECTS OF FAIWRES AVAILl\BLE REOON!Wfl' fUNCTIOOS BOONDING EVENT Rfl'IARKS Channe s SGl21 f'l'-512 False lCM steam flCM signal to (Cont'd) feedpUJ11lS and turbine speed con-trol (decreases speed).

False lo.1 steam flo.1 signal to associated feedwater oontrol valve (closes Feec'Water valve).

(!UI'E: Mismatch causes steam gen-erator level to decrease).

-False !CM steam f!CM annunciation in the Main Control Room.

-Failure of this line causes a small steam leak.

Fl'-522 Ch I I..cw See Fl'-512, Sheet 8 -Flo.1 control for steam generators See Fl'-512, Sheet 7 121, 123, and 124 remain ~rable.

See f'l'-512; Sheet 7 SGl23 FT-532 Ch I [£W See Fl'-512, Sheet 8 -FlCM control for steam generators See f'l'-512, Sheet 7 121, 122, and 124 remain operable.

See f'l'-512, Sheet 7 2

Fl'-542 Ch I I..cw See Fl'-512, Sheet 8 -FlCM control for steam generators See Fl'-512, Sheet 7 121, 122, and 123 remain ~rable.

See Fl'-512, Sheet 7 SGt21 f'l'-513 Ch II I..cw See Fl'-512, Sheet 8 -Channel I is availoable as the redun- See Fl'-512, Sheet 7 dant channel for steam flo.1 control.

See Fl'-512, Sheet 7

aNI'RJlS SYSTEM FAIWRF.S TABLE n - llRF.l\K m* INSTRUMENr LINES SllEF:r 10 SYSTEM: FEE!:WATER CCNl'ROL - STEAM GENERA'IUR STEAM FLCM FAIWRE AVAILABLE REOONDl\Nl' ruNCTIOOS BOUNDIN3 EVEm' REMARKS INSTIUJMEm'S !DDES EFFECTS OF FAIWRES Channels SGl22 -channel I is available as the redun- See FT-512, Sheet 7 FT-523 Ch II UM See FT-512, Sheet 8 dant channel for steam flew control.

See FT-522, Sheet 9 SGl23 -Channel I is available as the redun- See FT-512, Sheet 7 FT-533 Ch II La4 see FT-512, Sheet 8 dant channel for steam fl°'1 control.

see FT-532, Sheet 9 SGl24 -Channel I is available as the redun- See FT-512*, Sheet 7 FT-543 Ch II UM See FT-512, Sheet 8 dant channel for steam fl°'1 control.

See FT-542, Sheet 9

CXlNI'l10l.'l SYR'l'FM FAILllRFS TABLF. I 1 - 11RF.AA OF INS'l'RltlF.N'I' f ,JNF.S SYSTEM: FEE!JolATER CXNI'ROL - STEAM GENERA'IOR r FEE!JolATER Flll'1 SflP.P-1' 11 FAillmE OOIJES EFFECI'S OF FAIIIJ'REi:;

SGl21 f"l'-510 Ch I High -False initiation of 1/2 steam -Flow control for steam qenerators -'!his event is l'Ouncle<'I hv the flow/feedwater flow mismatch. 122, 123, and 124 remain or:ierahle. analysis effecti~a Minor Flr-8924 ('!his coincident with 1/2 low -Level controls for alJ steaJ11 qen- Secondary Svstein Pipe 11reaks.

steam generator water level erators remain operahle.

trips the Reactor). -Channel II is available as the re-

-If these instrunents are beinq dundant channel for feedwater flow used as the controllinq channel control.

t.'hen the postulated failure occurs, then the followilJ!! FAISE siqnals are initiated: --

False hiqh feedwater flow siqnals to associated feedwater control valve (closes feedwater valve).

Failure of Instrument Line causes a srnall feedwater leak.

-False hiah feedwater flow annun-ciation in the Main O::>ntrol R:>an.

N:ll'E: Mismatch causes steam qen-erator level to decrease.

f"l\-520 Qi I High See f"l\-510, Sleet 11 See f"l'-5111, Sleet 11 See FT-51 ll, Etteet 11

-Flow control for steam aenerators Flr-8925 High 121, 123, and 124 remain operahle.

Ch I Hi<lh See FT-510, Sleet 11 See F"l'-510, Sheet 11 See Ft-510, 9leet 11

-Flow control for steam qenerators Flr-8926 High 121, 122, and 1~4 remain operable.

f"l\-540 Ch I High See f"l'-510, Etteet 11 See FT-51 o, Sheet 11 See FT-51 O, Sleet 11

-Flow control for steam aenerators Flr-8927 High 121, 122, and 123 remain operahle.

c::<JNTROIS SYSTEM FAIUJRES TABLE t 1 - BRF.AK OF INSTRUMF.m' LINES SYSTEM: FEEl:MATER CXNl'ROL - STEAM GENERA'IDR, FEECMATER FID'/ SHEET 12 FAIWRE IDlES EFFECTS OF FAIWRES AVAIIABLE REOONDANl' fUNCTICRl anne s SGf21

~11 Ch II High See FT-510, Sheet 11 See FT-510, Sheet 11 See FT-510, Sheet 11

-<llannel I is available as the re-dundant channel for f eedwater control SGf22 FT-S21 Ch II High see FT-510, Sheet 11 See FT-520, Sheet 11 See FT-520, Sheet 11

-Oiannel I is available as the re-dundant channel for feedwater control SGl23 FT-531 Ch II High See FT-510, Sheet 11 See FT-530, Sheet 11 See FT-530, Sheet 11

-Oiannel I is available as the re-dundant channel for feedwater control.

SGt24 FT-541 Ch II High See FT-510, Sheet 11 See FT-540, Sheet 11 See FT-540, Sheet 11

-Oiannel I is available as the re-dundant channel for feedwater control SGf21 FT-510 Ch I -False initiation of 1/2 steam -Flow control for steam qenerators -'Ibis transient is bounded 'Wl'E: If High level flow/feedwater flow mismatch. 122, 123, and 124 remain operable. by the analysis effecting cretected by 2 out of Fir-B924 ('Ibis coincident with 1/2 low -level controls for all steam gen- Excessive Heat Renoval due 3 steam generator Steam Generator Water level erators remain operable. to Feedwater System mal- level transmitters, trips the Reactor). -channel II is available as the re- function. all associated main

-If these instrmients are being dundant channel for feedwater flow and bypass f eedwater used as the controllinq channel control. valves will close.

when the postulated failure occurs, then the following

~signals are initiated:

.~ ..

CONJ'OO[,.<; SYSTF.M FAIUIRES TARLE 11 - BllFAJ< OF INS'l'llllMf.111'1' Lll\TFS SYSTEM: FEE!:WATER CXNI'ROL - STEAM GENEAA'IOR, FEEIJ'IJITF.P FU:W FAIWRE OODES EFFECI'S OF FAIWRF.S A'IAHABI.E REDUNDANT FIJM'.:J'IONS anne s SGt21 F'l'-510 False low feedwater flow sional to FL-8924 associate<! Feedwater control valve (Cont'd) (opens Feedwater valve)

-Failure of Instrument line causes a small feedwater leak.

-False low feedwater f.low annun-ciation in the Main Control Room.

N:JI'E: Mismatch causes steam oen-erator level to increase.

5Gf22 F'l'-520 Ch I Low See F'l'-510, Sheet 12 See F'l'-510, ~eet 1' f:f>e F'l'-5 1O, Sheet 1'

-Flow control for steam oenerators FL-8925 Low t21, *n, am t:;>4 re111ain operahle.

F'l'-530 Ch I Low See F'l'-510, Sheet 12 See F'l'-510, Sheet 12 See F'l'-510, Sheet 11 See Pl'-510, Shl*>t 1~

-Flow control steam aenerators FL-8926 Low 121, 1:;>2, and J24 re!Nlin operable.

Ch I Low See F'l'-510, Sheet 12 See F'l'-510, !:heet 12 f;ee F'J'-5111, ~eet 1?.

-Flow control for steam qenerators FL-8927 Low t21, 122, .anrl t23 re111ain operahle Ch II Low See F'l'-510, Sheet 12 See F'l'-510, Sheet 12 See F'T'-5111, Sheet 12 See F'l'-510, Sheet !:'-

--<llannel I is available as the re-dunc'lant channel for f eedwater control F'l'-521 Ch II Low See F'l'-520, Sheet 13 See F'l'-5211, Sheet 13 See F'l'-520,  !'1t>eet 13

--<llannel I is availahle as the re-nunflant channel for f~ater rontrol.

ONl'ROfAc; sYSTF'11 F'AIUJRES T/IBLE U - RREllK OF' INSTRU111'N'l' UNF.S SYSTrn: FEEll'IA~ CCNl'ROL - STEAM GENERA'IOR, F'EEJ:M/ITER F'LCM RHF'P.l' 14 Fl\IUJRE MJDES EFFECTS OF Fl\IWRF'.S AVAILABLE RFTIJNDJWI' FllNCTIOOS RF'11ARKS Channe s SGl23 FT-531 Ch II See FT-530, Sheet 13 See FT-530, Sheet 13 See FT-530, Sheet 13 See FT-530, Sheet 13

-Channel I is available as the re-dundant channel for feedwater con-trol.

SGl24 FT-541 Ch II See FT-540, Sheet 13 See FT-540, Sheet 13 See FT-540, Sheet 13 See FT-540, Rheet 13

-Channel I is available as the re-dundant channel for feedwater control.

crnrror..s SYS'l'r.M FAIUJRES TARLP. ffl .:. BRF.AK OP INS'l'RUMEN'l' LINP.S SYSTEM: FEEll'IATER CXNI'FOL - STEAM GENERA'IlJR LEVEL, NARROW RJ\N:iE SHP.P.T 15 FAILURE INS'lWMENI'S OODES EFFECT'S OF FAIWRF.S OOUNDING P.VENI' REMJIRKS ellannels

. LT-519 ell II High -False initiation of 1/3 steam gen- -ellannels III or IV are available -'ltlis event is bounded by NCJI'F.:

erator Hi-Hi level turbine trip as redundant channels for steam the analysis effecting ""Hf9h level detection signal. generator level, narra.i range Minor Seoondary System by 2 out of 3 steam

-If this instrunent is being used protection. Pipe Breaks. generator level as the oontrolling channel when transmitters will the postulated Failure occurs, close all assoc~ated then the following FALSE signals main and bypass are initiated: feedwater valves.

False high level signal to its assicated Feedwater Control Valve (closes feedwater valve),

-Failure of this Instrunent line

  • causes a small steam leak.

-False high level annunciation in the Main Control Roan LT-529 di I High See LT-519, Sheet 15 (High) See LT-519, Sheet 15 (High) See LT-519, Sheet 15 See L'l'-519, Sheet 15 (Hiqh) (High)

LT-539 di I High See LT-519, Sheet 15 (High) see LT-519, sheet 15 (High) See LT-519, Sheet 15 See LT-519, Sheet 15 (High) (High)

LT-1642 High LT-549 ell II Hi9h See LT-519, Sheet 15 (High) See LT-519, Sheet 15 (High) See LT-519, Sheet 15 (Hi h)

LT-519 II LcM 3 steam gen- - anne s III or IV are ava a e NOl'E:

erator ~Low water level Reac- as redundant channels for steam the analysis effectinq ---rfitigh level is de-tor Trip signal (2/3 required for generator level, narrow range Excessive Heat Removal due tected by 2 out of 3 Reactor trip). protection. to Feedwater System mal- steam generator

-If this instrunent is being used function. level transmitters, as the controlling channel when then all associated the postulated failure occurs, main and bypass then the following FALSE signals feedwater valves are initiated: will close.

CCNJ'roI.'l SY8TEM FAIUIRF.S TAALE u - ARF:AK OF INSTRllMFNT' r.uw.s SYSI'EM: FEE!lolATER CXNl'ROL - STEAM GENERA'IDR LEVEL, NARRCM RAfr.F: SllF:P.l' u; FAILURE INSTR!JMENr.' l'llDF.5 EFFECl'S OF FAILURES AVAILABLE RF.IX.JNDAm' FUNCTictTS Cllanne s LT-Sl9 (Cont'd) False low level signal to its associated Feedwater Control valve (open feedwater valve),

-Failure of this Instrunent line causes a small steam leak.

-False low level annunciation in the Main Control Room.

LT-529 di I Low See LT-519, sheet 15 (Low) See LT-519, Sheet 15 (Low) See LT-519, sheet 15 See LT-519, Sheet 15 (Low) (IDw)

LT-539 Ch I Low See LT-519, sheet 15 (Low) See LT-519, Sheet 15 (Low) See LT-519, Sheet 15 See LT-519, Sheet 15 (Low) (Low)

LT-1642 Low LT-549 di II Low See LT-519, sheet 15 (Low) See LT-519, Sheet 15 (I.owl See LT-519, sheet is (Low) See LT-519, Sheet 15 (Low)

CXNJ'ROIS f:YS'l'F.M FAIWRF.S TABI.F. t 1 - BRF.AK OF INR'l'Rl~f;r.11' LJNF$

SYS'IBM: FEECW\TER CCNl'ROL - STEAM GENERA'IUR, STEAM PRESSlffiF.

FAIWRE KlDES EFFECJ'S OF FAIJ.URES AVAHAflI.F. REDUNMNl' FUNCTIONS anne S P'l'-514 di I Low - False initiation of: - Oiannel II is available as the - 'lhis event is houn<'IP.d t>y (1) 1/3 Low Steamline Differential rl'ilundant channel for pressure the Accinental nt>prPssur-Pressure Siqnal ( 2/3 required control. ization of t.he Main Steam for Reactor trip). System anaJvsis.

(2) 1/2 Low Steam Feedwater Flow mismatch siqnal. ('Ihis coincident with 1/2 [DW Steam Generator Water Level required for Reactor trip).

- If this instrunent is being used as the controllinq channel when the postulated failure occurs, the followil'lQ F.AISE siqnals are initiated: * - -

False low pressure siqnal to feed-water Pl.DP speed control.

False low pressure signal to assoc-iated feedwater control valve.

- Failure of instrument line causes a small steam leak.

- False low pressur;e annunciation in the Main Cbntrol lb:Jm.

Pl'-524 di I Low See P'l'-514, Sleet 17 See P'I'-514, illeet 17 See P'J'-514 , illeet 17 P'IL534 Qi I LOW see J5'1L514, Sieet 17 see P'l'-514, Sheet 17 Ree P'iL514, §Ii pet 17 P'IL544 Qi I row see J5'1L514, §ieet 17 see P'I'-514, §ieet 17 see p>jL t; 14, Sheet 17 Pl'-515 di II Low See P'l'-514, Sleet 17  ::a1annel I Is available as the See P'I'- ~ 14, Sheet 17 redundant channel for pressure control.

crnT!lOLS SYSTF.M FAIUJRF'B TARLF: tl - ARF.l\K OF INSTRUl'IFNT LINF:S SYSTEM: FEEll'IATER CXNl'ROL - STF..AM GENERA'IUR, STFJ\H PRF.SSURE SHF:P.I' lR FAIWRE INSTHJMmrS MJDES EFFECTS OF FAILURF.S AVAILABLE RF.OONllANI' FUNCTICllS ro!JNDING F.llFNI' RFMAAKS Channels Pl'-525 Ch II Low See P'l'-515, Sheet 17 See P'l'-515, Sheet 17 See P'l'-515, Sheet 17 Pl'-535 di II Low See P'l'-515 , Sheet 17 See P'l'-515, sheet 17 See P'l'-515, Sheet 17 Pl'-545 di II Low See P'l'-515, Sheet 17 See P'l'-515, Sheet 17 See P'l'-515, Sheet 17

l rorrnoL.'l SVSTFl1 FAUJIRl'S T.1\11T,F. 11 .:. nru::l\K OF INSTRlllf'N'r r,rnr.s SYSTEM: .STF.AM OOMP SllF.P.I' 19 FAIWRE fol)OJ'll EFFECTS OF FAILURES AVAILABLE REOONill\m' FllNCTICl'IS OO!INnIOO F.VFMr Rfll/\RKS Channels PT-507 Low -If these instrunents are being -All al:JllJspheric steam relief valves, N/11 -steam Olm'1 \.ontrol

  • Plr727 N/A used when the postulated failure MS lO's, remain operahle. is not a safety re-occurs, a false low pressure -All steam safety valves remain lated system and signal to steam duip is initiated. operable. therefore doeR not

-False low pressure annunciation, require redundancy.

locally and in the Main Control lb:m.

-Failure of inst:runent line causes a snall stean leak.

-False low pressure signal to the feed punps and turbine speed control.

l"l'-508 -If this lnstr1m1ent Is being used N/A when the postulated failure occurs, a false low pressure signal to the feed pmps and turbine speed control is initiated.

-False low pressure annunciation in the Main Control lb:m.

CONTROL SYSTEMS FAILURES ANALYSIS - TABLE #2

cnrmJL SYSTEM FAllJIRES TABLE 12 - BREA!( OF ~ INS'rnlJMENl' LINES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CXNl'RJL SHEET 1 FAIUJRE KDES EFFECI'S OF FAIWRES AVAILABLE REIJJNlll\Nl' EUNCTIOOS RE11ARKS Channels Pl'-455 Ch I low - Failure of: - Channel III ls available as the - 1bls event is bounded by - 1bis event causes a L'l'-45!1 Ch I Hiqh (1) 2/4 Pressurizer low Pressure redundant channel for pressure the inadvertent openinq of Reactor Trip (above Pl'-474 Ch IV low Signal (Jeactor Trip above control. a pressurizer safety valve P7).

P7). - Channels II or III are available as associate<! with the (2) 1/3 Hiqh Water level Reactor as the redundant channels for llccidental Depressurlzation Trip Signal (2/3 required level control. of the Reactor Coolant System for Reactor trip). - Channel II ls available as a analysis.

(3) 1/3 Pressurizer low Pressure redundant dtannel for control Safety Injection Signal. relief o~ Rlwer Operated RP.lief

- If these instrmients are beinq Valve PR1.

used as the controlling channels when the postulated failure occurs, then these instruments initiate the followinq FAISE signals: --

False operation of the Pressurizer Heaters (turns-on)

  • False hiqh level siqnal decreases charging puq> flow.

- False low pt"essure (Ch's I ' IV) am False high level (Ch II annun-ciations in the Hain Control ltxxn.

- loss of operation for:

(1) Pressurizer*~r Operated Jelief Valves PR1 am PR2.

( 2) Spray Valves PSI am PS3.

Pl'-456 Ch II low - False initiatioo of1 - Channel IV is available as the See above - 1bis event will not L'l'-460 Ch II High (1) 1/4 Pressurizer low Pressure redundant channel for control cause a Reactor Trip.

. Reactor Trip Signal (2/4 relief of tuwer Operated llelief required for lleactor Trip). Valves PR1 and PR2.

(2) 1/3 Hiqh Water level Reactor Trip Signal (2/3 required to Trip Reactor).

(3) 1/3 Pressurizer low Pressure Safety Injectioo Signal.

TABLE *2 - BllFJllC OP ~ ItJITTlllJ.ll'NI' J,JJllF.S SYSI'EH: PIIBSSURIZER PRESSURE AND LEVEL <nfl'ROL FAIWRE K>DES EFFF.Cl'S OF FAIUJRES Rflo!AlllStulated failure occurs, - OJannels I or III are available then these instrlJTl!!nts as the redundant channels for initiate the followina pressure control.

FALSE siqnals:

False operation of the Backup heaters (hiqh level - turns-on).

False hiqh level si911al decreases cha1:9ina ptJTp flow.

- loss of (\'.leration of Pressurizer Power ~rated Relief Valve PR1.

- False low pressure (OJ II) and False high level (<ll III annun-ciations in the Main Cbntrol lhom.

(OOIB: Channel II low press-ure does not effect pressurizer heaters).

P'l'-457 OJ III lDw - False initiation of: - <llannel I is available as a See !lleet 1 - 'l!lis event will not P'l'-458 N/A ffiqh (1) 1/4 Pressurizer lDw Pressure redunrtant channel for pressure cause a Reactor Trip.

LT-462 N/A High Reactor Trip Siqnal (l\bove control.

LT-°'461 OJ III Hiqh P7, 2/4 reQUired for Reactor - Channels I or II are available LT-1649 ffiqh Trip). as the redundant channels for PT-1648 1.oW (2) 1/3 Hiqh Water Level Reactor level control.

Trip Siqnal ( 2/3 reQUired - OJannel II is availahle as a for Reactor Trip). redumant channel for control (3) 1/3 Pressurizer IDw Pressur relief of Power q:>erated Relief Safety Injection Siqnal. Valve PRI.

- If these instrlJTl!!nts are - Channel IV is availahle as a beinq used the control- redumant channel for cnntrol ling channels when the relief of Power q:>erated Relief postulated failure occurs, Valves PR1 and PR~.

then the followina FALSE; siqnals are initiatecr=-

False operation of the pressurizer heaters (turns-on I .

crnrROI, S'lSTFl1 FAIIJIRES TADLE 12 - .BREAK OF CXJ1l1JN ltlb'TR!JMFNI' I.INF.S SllEF.T l SYSfF11: PRESSURIZER PRESSURE AUD LE\TEL OJNl'ROL FAIWRE AVAILADLE REOONDANl' FUNCTIONS mwiKs OODES EFFECI'S OF FAIWRES Channels PT-457 Loss of operation:

Pl'-458 Ill Pressurizer PcMer Operated LT-462 Relief Valves PRl and PR2.

LT-461 (2) Spray Valves PSl and PSJ.

LT-1649 False high level signal decreases P!rl648 charging PJll> flow.

(Cont'd) - False low pressure (Ch III) and False high level (Ch Ill) Annun-ciations in the Main Control Roan.

CCN!'ROL SYSTEM FAIWRES TABLE 12 - BREAK OF CGM:N INSTRllMENT LINES SYSTF.M: STEAM DUMP SHEET 4 FAIUJRE MCDES EFFEC'l'S OF FAIWRES AVAILABLE REOONDANl' RnCI'IONS Channels SGl21 Pi'=ST6A Ch I I.ow - False indication of 1/4 low - All other atm:>spheric steam N/A - Failure of atm:>spheric Pl'-516 Ch I Cow steamline pressure (2/4 relief valves, 122, 123, and reliefs do not pose a Pl'-1644 Cow required and 2/4 high 124 MS 10 remain operable. problem due to avail-steam line flow required - All steam safety valves remain ability of the steam to trip reactor). operable. safety valves.

- Failure of associated steam 'IVI'E: S.I. initiated generator atm:>spheric relief 'fiY!/3 low steam line valve M.SlO (valve closes). differential pressure.

- Failure of this instrunent line causes a small steam leak.

  • SGl22 Pl'-526A Ch II I.ow See SGl21 - All other atm:>spheric steam relief N/A See SGl21 Pl'-526 Ch II I.ow valves, 121, 123, and 124 HS 10 Pl'-1645 I.ow remain operable.

- All steam safety valves remain operable.

&;123 Pi'=Sl6A Ch III I.ow See SGt21 - All other atm:>spheric steam relief N/A See SGl21 Pl'-536 Ch III I.ow valves, 121, 122, and _124 MS 10 Pl'-1646 I.ow remain operable.

- All steam safety valves remain operable.

SGl24 PiC5t6A Ch IV I.ow See SGt21 - All other atm:>spheric steam relief N/A See &;121 Pl'-546 Ch IV I.ow valves, 121, 122, and 123 M.S 10 Pl'-1647 I.ow remain operable.

- All steam safety valves remain operable.

CCNl'IUL SYSTEM FAIWRES TADLE #2 - BREAK OF CDHJN INSTR!JllENT LINF'..S SHEET 5 SYS'l'EH: FEEl:MATER eotn'IDL - REAClDR am..J\Nl' TEMPERA'IUE FAIWRE REMARKS r-l)DES EFFECTS OF FAIWRES AVAILABLE REOONDANI' FUNCTIONS INSTRlJMENI'S Channels SGt24 - All reactor coolant tenperature - The transient is bounded - Deviation alarms alert TE-441A OI IV - If these instruments are being the operator when any used when the postulated failure instruments in hot and ex>ld legs I=!{ the analysis resulting TE-4418 Ch IV in actuation of ~rgency one loop's temperature occurs, the folla.1ing FALSE for loops 121, 122, 123 remain Signals are transmitt~the operable. Core Cooling caused I=!{ the is abnormally la.1 com-loss of Reactor Coolant pared to the auction-Reactor Protection System: eered high Tavg or False initiation of: fran small ruptured pipes.

high AT signal.

(1) 2/4 I..c:w Tavg Signal (prevent suboooling and loss of shut do,.in margin on a reactor trip I=!{ isolation of feed-water system).

(2) 2/4 Low-Low Tavg Signal (establishes Pl2 permissive; used in ex>incidence with high steamline flCM as indication of steamline break and generation of safety injection signal).

(3) LoOpAT-Overtenperature

,6T trip (2/4 ex>incident) used as a measure of reactor pCMer.

(4) OVerpCMer ll.T trip (2/4 ex>incident)-used as a measure of reactor pCMer.

Also acts to la.1er the base trip setpoint established for full PQ<ler Tavg.

(5) LCX>p Tavg-overtenperature AT Trip (2/4 ex>incident)-

acts to la.1er the base trip setpoint established for full pCMer Tavg.

- Failure to this 2" reactor coolant line casues a small UXA.

CONTROL SYSTEl'1 FAil1JRES TABLE #2 - BREAK OF crnMOO INSTRIJMENl' LINES SHEffi' 6 SYSTEl'1: FEE!l'IATER CXNI'ROL - REACIIJR COOLANT TEl'1PERATURE FAIUJRE BOUNDI~ EVENT INSTRlJMENl'S OODES EFFECTS OF FAIWR&S AVAILABLE REIJUNDANl' FUNCTIOOS Oiannels SGl23" See TE-441A-B Sheet 5 TE-431A Ch III low See TE-441A-B Sheet 5 - All reactor ooolant tenperature TE-431B Ch III low instruments in hot and cold legs for loops 121, 122 and 124 remain operable.

SGl22 See TE-441A-B Sheet 5 TE-421A Ch II low See TE-441A-B Sheet 5 - All reactor ooolant tenperature TE-421B Ch II low instruments in hot and cold legs for loops 121, 123, and 124 remain operable.

SGl21 See TE-441A-B Sheet 5

'IB-411A Ch I low See TE-441A-B Sheet 5 - All reactor ooolant tenperature TE-4118 Ch I low instruments in hot and cold legs for loops 122, 123, and 124 remain operable.

CCNI'ROL SYSTF.M FAIUJRES TABLE 42 - BREAK OF ~ INSTRIJMEtn' LINES SYSTF.M: STEAM DUMP SHEET 7 FAIUJRE l'DJES EFFECTS OF FAIUJRES AVAILABLE REDUNDAm' ruNCTIOOS REMARKS Cllannels Pl'-505 Cll I low - If these instruments are being - Cllannel II is available as a N/A - Steam dump control PL-183 low used for control INhen the postu- redundant channel for steam is not a safety re-PA-8529 low lated failure occurs, the fol- dump control. lated system and PD-459 low lowing FALSE Signals are therefore does not initiatecr.- require redundancy.

If Steam Pressure is controlling Steam IAJrnp then the false low pressure signal is sent to the condenser dlJlli> valves. (IAJrnp Valves nr:idulate to equalize turbine and reactor loads).

If Tavg is controlling Steam IUnp then a False low Tavg signal is used in a control of load rejection. (!Unp valves respond to F.qualize Tavg and Tref).

- False low signal for first stage turbine irr{lulse pressure to steam dump control.

- False low signal for load rejec-tion in Electro-hydraulic Control.

- False low signal for turbine trip in Electro-hydraulic Control.

- False low pressure annunciation, locally and in *the main control roan.

- Failure of instrument line causes a small steam leak.

- False low signal blocks rod with-drawals Pl'-506 Cll II low - If these instruments are being - Cllannel I is available as a redun- N/A See Pl'-505, Sheet 7 PA-6110 N/A used for control INhen the postu- dant channel for steam dump control.

lated failure occurs, a false low signal for the first stage turbine imp.llse pressure to steam dump control is initiated.

CXNI'ROL SYSTEM FAIWRES TABLE 12 - DREAK OF (J)tfil'I lNSTRUMENT LINES SYSTE?l: STEAM llJMP SHEP.I' 8 FAIWRE AVAILABLE REOONDANI' ruNCTIOOS REMARKS r-DDES *---E=F""F"'E"'CTSc=_O""F'-~F°":AI=WRES==-

Channels Pl'-506 - False low ~ssure annunciation in PA-6110 the main control roan.

(Cont'd) - Failure of instrument line causes a small stean leak.

CONTROL SYSTEMS FAILURES ANALYSIS - TABLE #3

CTWroL SYS'J'F.H FAJWRFS TAllLF. #3 - FAIWRE OF F.XCORE NUCLFJ\R JNSTRIJMFNI'ATIGI SYSTEM: NUCLEAR INS'l'RUMENI'ATIOO SHRP.P 1 FAIWRE MODF.S F.FFECl'S OF FAILURES AVAILARLE RF.OONlW'1'I' FllNCI'IOOS Channels NEl-35 Ch I High -If this channel is being used when -Channel II is available as the -'!'he event is bounded by the postulated failure occurs, the redundant channel for protection. the Uncontrolled Rod following FAI..5E signals are trans- Cluster Control Assembly mitted: - - Bank Withdrawal at Power.

(1) 1/2 High Neutron* Flux Reactor trip signal. ('Ibis coincident with the pc:Mer above P-6 but less than P-10 trips the Reactor).

(2) 1/3 High Neutron Flux Rod Stop signal (Block Rod Withdrawal).

('Ibis coincident with an unini-tiated Trip Bypass and Rod Stop Block provides Rod Step).

(3) 1/2 P-6 permissive Signal. ('Ibis coincident with Manual Rod Block provides block of High Neutron Flux Reactor Trip).

(4) False high Neutron Flmc annunciation in the Main Control Roan.

NB-36 Ch II High See NE-35, (High) Sheet 1 -Channel I is available as the re- See NFl-35 (High), f:heet 1 dundant channel for protection.

NEJ-35 Ch I If this channel is being used when -Channel II is available as the See NFJ-35 (High), Sheet 1 the postulated failure occurs, the redundant channel for protection.

follCMing FALSE signals are transmittea=-

(1) 1/2 LCM Neutron Flux Reactor Trip Signal.

(2) 1/3 LCM Neutron Flux Rod Stop Signal.

(3) 1/2 LCM P-6 permissive signal.

(4) False LCM Neutron Flux annunciation in the Main Control Roan.

CCNrRIJL SYSTF.M FAIUIRF.S TABLE 13 - FAIUIRE OF EXOORE NUCLEAR INSTRUMEm'ATICJil SYSTEM: NUCLEAR INSTHJMEm'ATICJil SHEET 2 FAIUJRE IOJES EFFECTS OF FAIUJRES AVAIUtBLE REIXlNDl\Nl' FUOCTICJilS BOONDING EVEm' Channels NE-36 di II Low. See NE-35, (low) Sheet 1 -channel I is available as the re- See NE-35 (Hiqh), Sheet dundant channel for protection.

NE-41 CH I High -If this diannel is being used When -Olannels II, III, and 'N are avalla- see NE=lS (H1qh), Sheet the postulated failure O<.."'Cllrs; the ble as redundant channels for pro-followinq FALSE signals are trans- tection.

mitted: - -

(1) 1/4 High Neutron Flux Rate Reactor Trip Signal (2/4 re-quired for trip).

(2) 1/2 High OU'erpower ~ Stop signal. ('nlis coincident with uninitiated Manual Bypass blocks Autanatic and Manual ~ With-drawal).

(3) 1/4 P-8 permissive High siqnal (2/4 required for P-8 permissive).

( 4) 1/4 P-7 and P-10 permissive High signals (2/4 required for P-7 and P-10 permissive).

(5) 1/4 Hiqh Neutron Flux Reactor trip siqnal-High Setpoint (2/4 required for Reactor trip).

(6) 1/4 Hiqh Neutron Flux Reacto~

Trip signal-Low Setpoint (2/4 required for Reactor trip).

(7) 1/4 False High siqnal to Upper and IDWer Flux l'inplifiers which supply inputs to the CNertemper-ature~ T and CNerpower.AT Reactor Trips, (2/4 each is required for trip), and to the CNertemperature

.AT and CNerpower AT Auto Tl.lrbine Runback and Block Auto. and Manual ~ Withdrawal (2/4 each is required).

(8) False High Neutron Flux annun~

elation in the Main Control

!ban.

CONl'ROL SYSTF.'1 FAIIJJRES TABLE .13 - FAHJJRE OF EXalRE NUCLEAR INSTR!lMENl'ATIOO SYSTEM: NOCLFAR INSTRlJMENI'ATIOO SHEET 3 FAIWRE INS'l'RllMElfi'S !ol)OES EFFF.CTS OF FAIIJJRES AVAILABLE REDClNllAm' FmCJ'IOOS BOONDIOO EVEm' diannels NE-42 Cl"I II High. See NE-41, Sheet 2 -channels I, III, and IV are availa- See NE-35 (High), Sheet ble as redundant channels for pro-tection.

NE=43 di III High See NE-41, Sheet 2 =<::flannels I, II, alii IV are availa- see NE-35 (Hiqh), Sheet ble as redundant channels for pro-tection.

NE=44 Qi IV High see NE-41, Sheet 2 =<l'iannels I, II, aiil III are availa- see NE-35 (High) , Sheet ble as redundant channels for pro-tection.

NE-41 di I -If this Channel Is being used iJlen =tfiannels II, III, ai'rl IV are availa- See NE-35 (High), sheet the postulated failure occurs, the ble as redundant channels for pro-following FALSE signals are trans- tect ion.

mitted: - -

( 1) 1/ 4 row Neutron Flux Rate Reactor Trip Signal.

( 2) 1/2 low Ollerpower lbd Stop Signal.

(3) 1/4 P-8 permissive IDw signal.

(4) 1/4 P-7 and P-10 permissive low signals.

(5) 1/4 low Neutron Flux Reactor

  • trip signal - High Setpoint.

(6) 1/4 IDw Neutron Flux Reactor trip signal - Iow Setpoint.

(7) 1/4 False low signal to Upper and rower Flux Amplifiers wich supply inputs to the Oller-temperature /jT and Ollerpower AT Reactor trips, and to the Oller-power .!lT Auto. 'l\Jrbine Runback and Block Auto and Manual lbd Withdrawal.

(8) False row Neutron Flux annun-ciation in the Main Control

!ban.

CDll'ROL SYSTEM FAIUJRES TABLE 13 - FAIUJRE OF EXOORE NUCLF.J\R INSTruJMEtll'ATION SYSTEM: WCLEAR INSTRUMENTATION SHEP.l' 4 FAIWRE INSTRUMENIS MOOES EFFOCTS OF FAIUJRF.S AVAIUIBLE REIXlNDIWl' FUOCTIONS BOONDING EllENl' REMARKS Oiannels NE-42 Oi II row See NE-41, Sheet 3 -channels I, III, and r.v are availa- Se NE-35 (High), Sheet ble as redundant channels for pro-tection.

NE-43 Of III row see NE-41, Sheet 3  ::Channels I, II, aiii r.v are availa- see NE-35 (High), Sheet ble as redundant channels for pro-tection.

NE Qi IV I.ow See NE-41, Sheet 3 :cliannels I, II, and III are availa- flee-NE-35 (High), Sheet ble as redundant channels for pro-tect ion.

-:-'t*

CONTROL SYSTEMS FAILURES ANALYSIS - TABLE #4

CONTl!OL SYSTEM FAILURES Sheet TABLE H4 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-455 Ch. I A If Channel I is being used as the Channel III is available as the These events are Ref:

control channel when the postu- redundant control channel. bounded by the Appendix A-pages 1, lA, lated failure occurs, the follow- Channels II and IV are also available analysis asso- 5 and 7.

ing happens: for reJundant control of Auto Turbine ciated with the

-Loss of related operation of: Runback and Block Auto and Manual Rod Acci den ta 1 De-(1) Heater Control-Variable pressuri za tion Signal. Iii thdrawa 1. of the Reactor (2) Spray Valves PSl and PS3. Coolant System.

(3) Group 21 and 22 Back~up Heaters.

(4) Power Operated Relief Valve PR2. .

(5) Auto Turbine Runback and Block Auto & Manual Rod Wi thdrawa 1.

B None None c If Channel I is being used as the control channel when the postu-lated failure occurs, the follo~i None ing happens:

-Loss of related operation of:

(1) Heater Control-Variable Signal.

(2) Spray Valves PSI and PS3.

(3) Group 21 and 22 Back-up Heaters.

(4) Power Operated Relief Valve PR2.

D If Channe 1 I is being used as the control channel when the postu-1a ted failure occurs, the fo 11 owing None happens:

-Loss of related operation of Power Operated Relief Valve PR2.

CONTROL SYSTEM FAILURES Sheet 2

. TABLE #4 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-456 Ch. II A If Channel II is being used as the See PT-455, Ref:

relief channel when the postulated Sheet #1. Appendix A-pages 2, 2A, failure occurs, the following None 5 and 8.

happens:

-Loss of related operation of Power Operated Relief Valve PRl.

B If Channei II is being used as the Channels I, III and IV are available relief channel when the postulated for redundant control of Auto Turbine failure occurs, the following Runback and Block Manual and Auto Rod happens: Wi thdrawa 1.

-Loss of related operation of:

(1) Power Operated Relief Valve PRI.

(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.

c If Channel II is being used as the relief channel when the postulated failure occurs, the following Ncine happens:

-Loss of related operation of Power Operated Relief Valve PRl.

D None None

CONTROL SYSTEM FAILURES Sheet 3 TABLE 04 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-457 Ch. Ill A If Channel III is being used as the See PT-455, Ref:

control channel when the postulated Sheet #1 .~ppendix A-pages 3, 3A, failure occurs, the following None 5 and 9.

happens:

-Loss of related operation of Power Operated Relief Valve PRl.

B If Channel III is being used as the control channel when the postulated failure occurs, the following None happens:

-Loss of related operation of Pm~er Operated*Relief Valve PRl.

c If Channel Ill is being used as the Channels I, II and IV are also available control channel when the postulated for redundant control of Auto Turbine failure occurs, the following Runback and Block Auto and Manual Rod happens: l~i thdrawa l.

-Loss of related operation of:

(1) Power Operated Relief Valves PRl and PR2.

(2) Heater Control-Variable Signal.

(3) Spray Valves PSl and PS3.

(4) Group 21 and 22 Back-up Heaters.

(5) Auto Turbine Runback and Block Auto and Manual Rod Hithdrawa l.

D If Channel III is being used as the Channel II is available as the redundant control channel when the postulated channel for operation of Power Operated failure occurs, the following Relief Valve PRl.

happens:

-Loss of related operation of Power Operated Relief Valves PRl and PR2.

CONTROL SYSTEM FAILURES Sheet 4 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-474 Ch. IV A If Channel IV is being used as the Channel III is available as the re- See PT-455; Ref:

relief channel when the postulated dundant channel for operation of Power Sheet #1 ~ppendix A-pages 4. 4A, failure occurs, the following Operated Relief Valve PR2. 5 and 10.

happens:

-Loss of related operation of Power Operated Relief Valves PRl and PR2.

B If Channel IV is being used as the relief channel when the postulated failure occurs, the following None happens:

-Loss of related operation of Power Operated Relief Valve PRl. *

c. If Channel IV is being used as the relief channel when the postulated fa i1 ure occurs, the fo 11 owing None happens:

-Loss of related operation of Po~1er Operated Relief Valves PR! and PR2.

D If Channel IV is being used as the Channel II is available as the re-relief channel when the postulated dundant channel for operation of Power failure occurs, the following Operated Relief Valve PR!.

happens: Channels I, II and III are available

-Loss of related operation of: for redundant contra l of Auto Turbine (1) Power Operated Relief Valves PRl and PR2. Runback and Block Auto and Manual Rod (2) Auto Turbine Runback and Block Wi thdra1*1a 1.

Auto and Manual Rod Withdrawal.

CONTROL SYSTEM FAILURES Sheet 5 TABLE H4 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS .

(Loss)

Channels LT-459 Ch. I A If Channel I is being used as the Channels II and Ill are available as See PT-455,' Ref:

control channel when the postulated redundant control channels. Sheet #1 Appendix A-pages 6, nA, failure occurs; the fo 11 owing 45 and 46. NOTE: Worst happens: case-lo~s of VP" signal

-Loss of related operation of: to heaters. *

(I) Channel I operation.

(2) Block *Auto Control and opera-tion of Group 21 and 22 Back-up Heaters.

(3) Speed Signal to Charging Pump.

(4) Block Closed Letdown Isolation Valves CV 2, 3, 4, 5 and 277.

B If Channel I is being used as the Channel III is available as the redun-control channel when the postulated dant control channel except for operation failure occurs, the following of Letdown Isolation Valve CV277.

happens:

-Loss of related operation of:

(1) Block Auto Control and opera- (NOTE: Channel I operation is only partially tion of Group 21 and 22 Back- available.)

up Heaters.

(2) Speed Signal to Charging Pump.

(3) Block Closed Letdown Isolation Valves CV 3, 4, 5 and 277.

c If Channel I is being used as the Channel II is available as the redundant control channel when the postulated control channel for Letdown Isolation failure occurs, the following Valve CV 3, 4, 5 and 277 and Block opera-happens: tion of Group 21 and.22 Back-up Heaters.

-Loss of related operation of:

(1) Block Auto Control and opera- (NOTE: Channel 1 operation is tion of Group 21 and 22 Back- only partially available.)

up Heaters.

(2) Speed Signal to Charging Pump.

(3) Block Closed Letdown Isolation Valves CV 2, 3, 4 and 5.

CONTROL SYSTEM FAILURES Sheet 6 TABLE 04 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INSTRUMENTS VITAL BUS EFFECTS.OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels LT-459 Ch. I D If Channel I is being used as the Channels II and III are available as (Cont'd) control channel when the postulated redundant contra l channe 1s for Let-failure occurs, the following down Isolation Valves CV 3, 4, 5 and happens: 277 and Block operation of Group 21

-Loss of related operation of: and 22 Back-up Heaters.

(1) Block Auto Control and opera-tion of Group 21 and 22 Back-up Heaters. (NOTE: Channel I operation is only (2) Speed Signal to Charging Pump. partially available.)

(3) Block Closed Letdown Isolation Valves CV 2, 3, 4 and 5.

LT-460 Ch. II A If Channel II is being used as the Channel III is ~vailable as the redun- See PT-455, Ref:

control channel when the postulated dant control channel. Sheet #1 Appendix A-pages 6, 6B, failure occurs, the following 45 and 46. !!QU:_: Wars t happens: case-loss of S/P signal

-Loss of related operation of: (NOTE: Channel II operation is only to heaters.

(1) Block Auto Control of Group 21 partially available.)

and 22 Back-up Heaters.

(2) Speed Signal to Charging Pump.

B If Channel II is being used as the Channels I and III are available as control channel when the postulated redundant control channels except for failure occurs, the following operation of Letdown Isolation Valve happens: CV277.

-Loss of related operation of:

(1) Channel II operation. .

(2) Block Auto Control and opera-tion of Group 21 and 22 Back-up Heaters.

(3) Block Closed Letdown Isolation Valves CV 2, 3, 4, 5 and 277.

(4) Speed Signal to Charging Pump.

CONTROL SYSTEM FAILURES Sheet 7

. TABLE 04 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUllDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels LT-460 Ch. II c If Channel II is being used as the Channel I is available as the redun- See PT-455,"

(Cont'd) control channel when the postulated dant control channel for Letdown Sheet #1 failure occurs, the following Isolation Valves CV 3, 4, 5 and 277 happens: and Block operation of Group 21 and

-Loss of related operation of: 22 Back-up Heaters.

(1) Block Auto Control and opera-tion of Group 21 and 22 Back-up Heaters. .

(2) Block Closed Letdown Isolation (NOTE: Channel II operation is only Valves CV 2, 3, 4 and 5. partially available.)

(3) Speed Signal to Charging Pump.

D If Channel II is being used as the Channels I and ill are available as control channel when the postulated the redundant control channels for failure occurs, the following Letdown Isolation Valves CV 3, 4, 5 happens: and 277, and Block operation of Group

-Loss of related operation of: 21 and 22 Back-up Heaters.

(1) Block Auto Control and opera-tion of Group 21 and 22 Back-up Heaters. (NOTE: Channel II operation is only (2) Speed Signal to Charging Pump. partially available.)

(3) Block Closed Letdown Isolation Valves CV 2, 3, 4 and 5.

LT-461 Ch. III A If Channel III is being used as the Channel II is available as the redun- See PT-455, Ref:

control channel when the postulated dant control channel. Sheet #1 Appendix A-pages 6, 6C, failure occurs, the following 45 and 46. NOTE:

happens: Uors t case-I oss Ci"fS/P

-Loss of related operation of: (NOTE: Channel III operation is only signal to heaters.

(1) Block Auto Control of Group 21 partially available.)

and 22 Back-up Ilea ters.

(2) Speed Signal to Charging Pump.

CONTROL SYSTEM FAILURES Sheet 8

_TABLE U4 - LOSS OF POWER SOURCES SYSTEM: PRESSURIZER PRESSURE AND LEVEL CONTROL INS TRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels LT-461 Ch. I I I B If Channe 1 I I I is being used as the Channel I is available as the redund-(Cont'd) control channel when the postulated ant control channel except for Let-failure occurs the following down Isolation Valve CV277.

happens:

-Loss of related operation of:

(1) Block Auto Control and opera- (NOTE: Channel III operation is only tion of Group 21 and 22 Oack- partially available.)

up Ilea ters.

(2) Speed Signal to Charging Pump.

(3) Block Closed Letdown Isolation Valves CV 3, 4, 5 and 277.

c If Channel III is being used as the Channel II is available as the redund-control channel when the postulated dant control channel for Letdown Iso-failure occurs, the following lation Valves CV 3, 4, 5 and 277 and happens: Block operation of Group 21 and 22

-Loss of related operation of: Back-up Heaters.

(1) Block Auto Control and opera-tion of Group 21 and 22 Back-up lleaters.

(2) Speed Signal to Charging Pump.

(3) Block Closed Letdown Isolation Valves 2, 3, 4 and 5.

(4) Channel III operation.

D If Channel III is being used as the Channels I and II are available as re-control channel when the postulated dundant control channels for Letdown failure occurs, the following Isolation Valves CV 3, 4, 5 and 277 and happens: Block operation of Group 21 and 22

-Loss of related operation of: Back-up Heaters.

(1) Block Auto Control and opera-tion of Group 21 and 22 Back-up Heaters. (NOTE: Channel III operation is only (2) Speed Signal to Charging Pumps. partially available.)

(3) Block Closed Letdown Isolation Valves CV 2, 3, 4 and 5.

CONTROL SYSTEM FAILURES Sheet 9 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER COIHROL - REACTOR COOLANT TEllPERATURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels TE-411A Ch. I A If Channel I is being used as the Channels II, III and IV are available These events Ref:

control channel when the postulated as redundant control channels, except are bounded by Appendix A-pages 1, 7, 7A, failure occurs, the following for related Steam Dump. the analyses 40, 44, 45 and 46.

happens: covering exces-

-Loss of related operation of: Loops #22, #23 and #24 remain operable. sive Heat Re-( 1) Channel I operation. moval due to (2) Auto Turbine Runback and Block Feedwater System Auto and Manual Rod Withdrawal. malfunction and/

(3) Rod Control. or Loss of Normal (4) Modulation of Feedwater Valves Feedwater.

(11 & 12 BF 19 &40).

(5) Steam Dump.

(6) Speed Signal to Charging Pump.*

(7) Block Auto Control of Group 21 and 22 Back-up Heaters.

B None Channels III and IV are available as redundant control channels.

Loops #21, #23 and #24 remain operable.

(NOTE~ Channel I is only partially available.)

c If Channe 1 I is being used as the Channels II and IV are redundant control control channel when the postulated channels for Auto Turbine Runback and failure occurs, the following Block Auto and Manual Rod llithdrawal.

happens: All Loops (#21, #22, #23 and #24) are

-Loss of related operation of: unavailable. *

(1) Rod Control.

(2) Modulation of Feed11ater Valves (NOTE: Channel I is only partially (11 & 12 BF 19 & 4D). available.)

(3) Steam Dump.

(4) Speed Signal to Charging Pump.

(5) Block Auto Control of Group 21 and 22 Back-up Heaters.

CONTROL SYSTEM FAILURES Sheet 10

.TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - 1\EACTOR COOLANT TEMPERATURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels TE-tlllA Ch. I D If Channel I is being used as the Channels II and III are available as (Cont'd) control channel when the postulated redundant control channels for Auto failure occurs, the following* Turbine Runback and Block Auto and happens: 11anual Rod Withdrawal, Modulation of

-Loss of related operation of: Feedwater Valves (11 & 12 BF 19 & 40)

(1) Rod Control. and related Steam Dump.

(2) Steam Dump.

(3) Speed Signal to Charging Pump. Loops #21, #22 and #23 remain operable.

(4) Block Auto Control of Group (NOTE: Channel I is only partially 21 and 22 Back-up Heaters. available.)

TE-411B Ch. I A If Channel I is being used as the Channels II, III and IV are available These events are Ref:

control channel when the postulated as redundant control channels. bounded by the Appendix A-pages 1, 7, failure occurs, the following analyses cover- 7A, 40, 44, 45 and 46.

happens: ing excessive

-Loss of related operation of the Heat Removal due Auto Turbine Runback and Block to Feedwater Auto and Manual Rod IJithdrawal. System malfunc-

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - tion and/or Loss B None Channels III and IV are available as of Normal Feed~*

redundant control channels. water.

Channel I remains operable.

c None Channels II and IV are available as redundant control channels.

Chaunel I remains operable.

D None Channels II and III are available as redundant control channels.

Channel I remains operable.

CONTROL SYSTEM FAILURES Sheet 11 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels TE-42IA Ch. II A If Channel II is being used as the Channels III and IV are available as See TE-411A, Ref:

control channel when the postulated redundant control channels, except Sheet #9 Appendix A-pages 2, 8, failure occurs, the following for related Steam Dump. SA, 41, 44, 45 and 46.

happens:

-Loss of related operation of Steam Loops #22, #23 and #24 remain operable.

Dump. (NOTE: Channel II is only partially available.)

B If Channel* II is being used as the Channels I, III and IV are available control channel when the postulated as redundant control channels.

failure occurs, the following happens: Loops #21, #23 and #24 remain operable.

-Loss of related operation of:

(I) Channel II operation.

(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.

(3) Rod Control.

(4) Modulation of Feedwater Valves (11 & 12 BF 19 & 40).

(5) Steam Dump.

(6) Speed Signal to Charging Pump.

(7) Block Auto Control of Group 21 and 22 Back-up lleaters.

c If Channel II is being used as the Channels I and IV are available as re-control channel when the postulated dundant control channels for Auto failure occurs, the following *Turbine Runback and Block Auto and happens: Manual Rod Withdrawal*.

-Loss of related operation of:

(1) Rod Control. All Loops (#21, #22, #23 and #24) are (2) Modulation of Feedwater Valves unavailable.

(11 & 12 BF 19 & 40). (NOTE: Channel II is only partially (3) Steam Dump. available.)

(4) Speed Signal to Charging Pump.

(5) Block Auto Control and Group 21 and 22 Back-up Ilea ters.

CONTROL SYSTEM FAILURES Sheet 12

.TABLE U4 - LO~S OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels TE-421A Ch. II D If Channel II is being used as the Channels I and Ill are available as control channel when the postulated redundant control channels for Auto failure occurs, the following Turbine Runback and Block Auto and happens: Manual Rod Withdrawal, Modulation of

-Loss of related operation of: Feedwater Valves (11 & 12 BF 19 & 40)

(1) Rod Control. and related Steam Dump.

(2) Steam Dump. Loops #21, #22 and #23 remain operable.

(3) Speed Signal to Charging Pump.

(4) Block Auto Control of Group (NOTE: Channel II is only partially 21 and 22 Back-up Heaters. available.)

TE-42IB Ch. II A None Channels Ill and IV are available as See TE-411A, Ref:

redundant control channels. Sheet #9 Appendix A-pages 2, 8, BA, 41, 44, 45 and 46.

Channel II remains operable.

B If Channel II is being used as the Channels I, Ill and IV are available as control channel when the postulated redundant control channels.

failure occurs, the following happens:

-Loss of related operation of the Auto Turbine Runback and Block Auto and 1-lanua l Rod fJithdrawa l.

c None Channels.I and.IV are available as re-dundant control channels.

Channel II remains operable.

D None Channels I and III are available as redundant control channels.

Channel II remains operable.

CONTROL SYSTEM FAILURES Sheet 13

_TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels TE-431A Ch. III A If Channel III is being used as the Channels II and IV are available as See TE-411A,' Ref:

control channel when the postulated redundant control channels, except for Sheet #9 Appendix A-pages 3, 9, failure occurs, the follm*1ing Steam Dump.

  • 9A, 4 2, 44 , 45 and 46.

happens: Loops #22, #23 and #24 remain operable.

-Loss of related operation of Steam Dump. (NOTE: Channel III is only partially available.)

B None Channels I and IV are available as redundant control channels.

Loops #21, #23 and #24 . .remain operable.

(NOTE: Channel III is only partially available.)

c If Channel III is being used as the Channels I, II and Ill are available as control channel when the postulated redundant control channels for Auto failure occurs, the following Turbine Runback and Block Auto and happens: Manual Rod Withdrawal.

-Loss of related operation of: All Loops (#21, #22, #23 and #24) are (1) Channel Ill operation. unavailable.

(2) Auto Turbine Runback and Block Auto and Manual Rod Withdra~ia l.

(3) Rod Control.

(4) Speed Signal to Charging Pump.

( 5) Steam Dump.

(6) Modulation of Feedwater Valves (11 & 12 BF 19 & 40).

(7) Block Auto Control of Group 21 & 22 Back-up Heaters.

CONTROL SYSTEM FAILURES Sheet 14

.TABLE H4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMEtlTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels TE-431A Ch. I II D If Channel Ill is being used as the Channels I and II are available as control channel when the postulated redundant control channels for re-failure occurs, the following lated Steam Dump, to modulate feed-happens: *water Valves (11 & 12 BF 19 & 40),

-Loss of related operation of: and Auto Turbine Runback and Block (1) Rod Control. Auto and Manual Rod l'li thdrawa l.

(2) Steam Dump. Loops #21, 1122 and #23 remain operable.

(3) Speed Signal to Charging Pump.

(4) Block Auto Control of Group (NOTE: Channel III is partially 21 and 22 Back-up Heaters available.)

TE-4316 Ch. III A None Channels II and IV are available as See TE-411A, Ref:

redundant control channels. Sheet #9 Appendix A-pages 3, 9, Channel III remains operable. 9A, 42, 44, 45 and 46.

B None Channels I and IV are available as redundant control channels.

Channel Ill remains* operable.

c If Channel III is being used as the Channels I, 11* and IV are available as control channel when the postulated redundant control channels.

failure occurs, the follm~ing happens:

-Loss of related operation of the Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.

D None Channels I and II are available as re-dundant control channels.

Channel Ill remains operable.

CONTROL SYSTEM FAILURES Sheet 15

  • TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT . REMARKS (Loss)

Channels TE-*141A Ch. IV A If Channel IV is being used as th,e Channels II and III are available as See TE-411A, Ref:

control channel when the postulated redundant control channels, except Sheet #9 Appendix A-pages 4, 10, failure occurs, the following for related Steam Dump. lOA, 43, 44, 45 and 46.

happens: Loops #22, #23 and #24 remain operable.

-Loss of related operation of Steam Dump. (NOTE: Channel IV is only partially available.)

B None Channels I and III are available as redundant control channels.

Loops #21, #23 and #24 remain operable.

(NOTE: Channel IV is only partially available.)

c . If Channel IV is being used as the Channels I and II are available as re-control channel when the postulated dundant control channels for Auto failure occurs, the following Tur*bi ne Runback and Block Auto and happens: 11anua l Rod llithdrawa l.

-Loss of related operation of: A11 Loops ( #21, #22, #23 and #24) are (1) Rod Control. unavailable.

(2) Modulation of Feedwater Valves

. (11 & 12 BF 19 & 4D). (NOTE: Channel IV is only partially

( 3) Steam Dump. available.

(4) Speed Signal to Charging Pump.

(5) Block Auto Control of Group 21 and 22 Back-up Heaters.

CONTROL SYSTEM FAILURES Sheet 16 TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - REACTOR COOLANT TEMPERATURE

. INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels TE-441A Ch. IV D If Channel IV is being used as the Channels I, II and III are available control channel when the postulated as redundant control channels for Auto failure occurs, the following Turbine Runback and Block Auto and happens: Manual Rod Withdrawal and to Modulate

-Loss of related operation of: Feedwater Valves (11 & 12 BF 19 & 40).

(1) Channel IV operation.

(2) Auto Turbine Runback and Block Loops #21, #22 and #23 remain avail-.

Auto and Manual Rod Withdrawal. able.

(3) Rod Control.

(4) Modulation of Feedwater Valves (11 & 12 BF 19 & 40).

( 5) Steam Dump.

(6) Speed Signal to Charging Pump.

(7) Block Auto Control of Group 21 and 22 Back-up Heaters.

TE-4418 Ch. IV A None Channels II and III are available as See TE-411A, Ref:

redundant control channels. Sheet 9 Appendix.A-pages 4, 10,

hanne l IV remains operable. lOA, 43, 44, 45 and 46.

B None Channels I and Ill are available as redundant control channels.

Channel IV remains operable.

C None Channels I and II are available as redundant control channels.

Channel IV remains operable.

D If Channel IV is being used as the Channels I, II and III are available as control channel when the postulated redundant control channels.

failure occurs, the following happens:

-Loss of related operation of the Auto Turbine Runback and Block Auto and Manual Rod IH thdrawa l.

CONTROL SYSTEM FAILURES Sheet 17 TABLE H4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG#21 Channels FT-510 Ch. I A If Channel I is being used as the These events Ref:

control channel when the postulated a ri> bounded by Appendix A-pages 11, llA, failure occurs, the following In Steam Generators #21, #22, #23 and the analysis 13, 27 and 31.

happens: #24 all other level protection remains covering Exces-

-Loss of related operation of: operable. sive Heat Re-(1) Channel I operation. moval due to (2) Feedwater Control Valve Feedwater System (21 BF 19). malfunction.

B If Channel I is being used as the control channel when the postulated

,failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24 all other level protection remains

-Loss of related operation of Feed- operable.

water Control Valve (21 BF 19).

(NOTE: Channel I is only partially available.)

C, 0 If Channel I is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated le*vel protection remains failure occurs, the following available.

happens: tlOTE:

-Loss of related operation of Feed- (1) Channel I is only partially avail-water Control Valve (21 BF 19). able.

(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).

CONTROL SYSTEM FAILURES Sheet 18

. TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #21 Channels FT-511 Ch. II A If Channel II is being used as the Steam Generators #21 and #24 control See FT-510, Ref:

control channel when the postulated and level protection remains operable. Sheet #17 Appendix A-pages 12, 12A, failure occurs, the following In Steam Generators #21, #22, #23 and 13, 27 and 31.

happens: #24, all other level protection remains

-Loss of related operation of Feed- operable.

water Control Valve (21 BF 19).

(NOTE: Channel II is only partially available.)

B If Channel II ls being used as the Steam Generators #22 *and *#23 control.

control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24, all other level protection remains

-Loss of related operation of: operable.

(1) Channel II operation.

(2) Feedwater Control Valve (21 BF 19).

C, D If Channel II is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel II is only partially avail-water Control Valve (21 BF 19). able.

(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).

CONTROL SYSTEM FAILURES Sheet 19

.TABLE 114 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOl.J/STEAM FLOl4 INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #21 Channels FT-512 Ch. I A If Channel I is being used as the Steam Genera tors #21 and #24 control These events Ref:

control channel when the postulated and level protection remains operable. are bounded by Appendix A-pages 11, 118, failure occurs, the following In Steam Generators #21, #22, #23 and the a~alysis 13, 23, 27 and 31.

happens: #24, all other level protection remains E~veri~gNthe

-Loss of related operation of: operable. ss o onna 1 (1) Channel I operation. Feedwater.

(2) Feed Pumps and Turbine Speed Channel II is available for redundant Control. control of Feed Pumps and Turbine Speed (3) Feedwater Control Valve Control.

(21 BF 19).

B If Channel I is being used as the Steam Generators* #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24, all other level protection remains

-Loss of related operation of Feed- operable.

water Control Valve (21 BF 19).

(NOTE: Channel I is only partially available.)

C, D If Channel I is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the following available.

happens: flOTE:

-Loss of related operation Feed- (1) Channel I is only partially avail-water Control Valve (21 BF 19). able.

(2) Part of all other Steam Generators 1 level protection is unavailable (each bus implies different level protection).

CONTROL SYSTEM FAILURES Sheet 20

_TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEm-JATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOll INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (loss)

Channels SG #21 FT-513 Ch. II A If Channel II is being used as the In Steam Generators #21, #22, #23 and See FT-512, Ref:

control channel when the postulated #24, all other level protection remains Sheet #19 Appendix A-pages 12, 12B, failure occurs, the following operable. 13, 24, 27, 31 and 32.

happens: (NOTE: Channel II operation is only

-Loss of related operation of Feed- partially available.)

water Control Valve (21 BF 19).

B If Channel II is being used as the In Steam Generators #21, #22, #23 and control channel when the postulated #24, all other level protection remains fa i1 ure occurs, the fo 11 o~li ng operable.

nappens: Channel I is available for redundant

-Loss of related operation of: control of Feed Pumps and Turbine Speed (1) Channel II operation. Control.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (21 BF 19).

C, D If Channel II is being used when Steam Generators #21, #22, #23 and #24 the postulated failure occurs, the level *protection remains operable.

following happens: NOTE:

-Loss of related operation of Feed- (1) Channel II is only partially avail-water Control Valve (21 BF 19).

(2) ~~~~*of all other Steam Generators 1 level protection is unavailable (each bus implies different avail-able level proteGtion.)

CONTROL SYSTEM FAILURES Sheet 21

.TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEOWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOH/STEAM FLOW INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #22 Channels FT-520 Ch. I A If Channel I is being used as the Steam Generators #21 and #24 control See FT-510, Ref:

control channel when the postulated and level protection remains operable. Sheet #17 Appendix A-pages 14, 14A, failure occurs, the following In Steam Generators #21, #22, #23 and 16, 28, and 31.

happens: #24, all other level protection remains

-Loss of related operation of: operable.

(1) Channel I operation.

(2) Feedwater Control Valve (22 BF 19).

B None Steam Generators #22 and #23 control and level protection remains operable.

In Steam Generators #21, #22, #23 and

  1. 24, all other level protection remains operable.

(NOTE: Channel I operation is available.)

C, D If Channel I is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated control and level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel I is only partially avail-water Control Valve (22 BF 19). able.

(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).

CONTROL SYSTEM FAILURES Sheet 22

.TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEEm~ATER CONTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOH INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss}

SG #22 Channels FT-521 Ch. II A If Channel II is being used as the Steam Generators #21 and #24 control See FT-510, Ref:

control channel when the postulated and level protection remains operable. Sheet #17 Appendix A-pages 15, 15A, failure occurs, the following 16, 28, and 31.

happens: In Steam Generators #21, #22, #23 and

-Loss of related operation of Feed- #24, all other level protection remains water Control Valve (22 BF 19). operable.

(NOTE: Channel II is only partially available.)

B If Channel II is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24, all other level protection remains

-Loss of related operation of: operable.

(1) Channel II operation.

(2) Feedwater Control Valve Channel :r is available as the redun-(22 BF 19). dant control channel.

C, D If Channel II is being used as the Steam Generators #21, #22, 923 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel II is only partially avail-water Control Valve (22 BF 19).- able.

(2) Part of all the Steam Generators' level protection is unavailable (each bus implies different avail-able level protection).

CONTROL SYSTEM FAILURES Sheet 23 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDl~ATER COflTROL - STEAM GENERATOR, FEEDWATER FLOW/STEAM FLOW INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #22 Channels FT-522 Ch. I A If Channel I is belng used as the Steam Generators #21 and #24 control See FT-512, Ref:

control channel when the postulated and level protection remains operable. Sheet #19 Appendix A-pages 14, 148, failure occurs, the following 16, 23, 28, and 31.

happens: In Steam Generators #21, #22, #23 and

-Loss of related operation of: #24, all other level protection remains (ll Channel I operation. operable.

(2 Feed Pumps and Turbine Speed Channel II is available as the redun-Control. dant control channel for Feed Pumps (3) Feedwater Control Valve and Turbine Speed Control.

(22 BF 19).

B None Steam Generators.#22 and #23 control and level protection remains operable.

In Steam Generators #21, #22, #23 and

  1. 24, all other level protection remains operable.

(HOTE: Channel I remains operable.)

C, D If Channel I is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: tlOTE:

-Loss of related operation of Feed- (I) Channel I is only partially avail-water Control Valve (22 BF 19). able.

(2) Part of all other Steam Generators' level protection is unavailable (each bus implies different level protection).

CONTROL SYSTEM FAILURES Sheet 24 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDHATER FLOlUSTEAM FLOW INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #22 Channels FT-523 Ch. I I A If Channel II is being used as the Steam Generators #21 and #24 control See FT-512, Ref:

control channel when the postulated and level protection remains operable. Sheet #19 Appendix A-pages 15, 15B, failure occurs, the following In Steam Generators #21, #22, #23 and 16, 25, 28, 31, and 32.

happens: #24, all other level protection remains

-Loss of related operation of Feed- operable.

water Control Valve (22 BF 19).

(NOTE: Channel II is only partially available.)

B If Channel II is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens:

-Loss of related operation of: #24, all other level protection remains (1) Channel II operation. operable.

(2) Feed Pumps and Turbine Speed Channel I is available as the redundant Control. control channel.

(3) Feedwater Control Valve (22 BF 19).

C, D If Channel II is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the follm~ing operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel II is only partially avail-water Control Valve (22 BF 19). able.

(2) Part of all the Steam Generators'.

level protection* is unavailable (each bus implies different avail-able level protection).

CONTROL SYSTEM FAILURES Sheet 25

.TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOfl/STEAM FLOU INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #23 Channels FT-530 Ch. I A If* Channel I is being used as the Steam Generators #21 and #24 control See FT-510, Ref:

control channel when the postulated and level protection remains operable. Sheet #17 Appendix A-pages 17, 17A, failure occurs, the following In Steam Generators #21, #22, 1123 and 19, 29, and 31.

happens: #24, all other level protection remains

-Loss of related operation of: operable.

(1) Channel I operation.

(2) Feedwater Control Valve (23 BF 19).

B None Steam Generators #22 and #23 control and level protection remains operable.

In Steam Generators #21, 022, ~23 and

  1. 24, all other level protection remains operable.

(NOTE: Channel I operation is available.)

c None Steam Generators #21, #22, #23 and #24 level protection remains operable.

NOTE:

(1) Channel I remains operable.

(2) Part of all other Steam Generators' level protection is unavailable.

(3) Channel II is available as the re-dundant contro 1 channe 1. .

D If Channel I is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the following operable, happens: NOTE:

-Loss of related operation of Feed- (1) Channel I is only partially avail-water Control Valve {23 BF 19). able.

(2) Part of all other Steam Generators' level protection is unavailable.

CONTROL SYSTEM FAILURES Sheet 26 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDl~ATER CONTROL - STEAM GENERATOR, FEEDl~ATER FLOW/STEAM FLOW INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels Ch. JI A If Channel Iris being used as the Steam Generators #21 and #24 control See FT-510, Ref:

control channel 1~hen the postulated and level protection remains operable. Sheet #17 Appendix A-pages lB, IBA, failure occurs, the following In Steam Generators #21, #22, #23, and 19, 29, and 31.

happens: . #24, all other level protection remain

-Loss of related operation of Feed- operable.

water Con'trol Valve (23 BF 19).

(NOTE: Channel II is only partially available.)

B If Channel II is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens:

-Loss of related operation of: #24, all other level protection remains (1) Channel II operation. operable.

(2) Feedwater Control Valve Channel I is available as the redundant (23 BF 19). control channel.

c None Steam Generators #21, #22, #23 and # 24 level protection remains operable.

NOTE:

(1) Channel II remains operable.

(2) Channel I is available as the re-dundant control channel.

(3) Part of all other Steam Generators' level protection in unavailable.

D If Channel:II:is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel JI is only partially water Control Valve (23 BF 19). available.

(2) Part of all other Steam Generators 1 level protection is unavailable.

CONTROL SYSTEM FAILURES Sheet 27 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, FEEDWATER FLOH/STEl\M FLOfl INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #23 Channels fT-532 Ch. I A If Channel I is being used as the Steam Generators #21 and #24 control See FT-512, Ref:

control channel when the postulated and level protection remains operable. Sheet #19 Appendix A-pages 17, 17B, fa i1 ure occurs, the fo 11 owing In Steam Generators #21, #22, #23 and 19, 26, 29, and 31.

happens: #24, all other level protection remains

-Loss of related operation of: operable.

(1) Channel I operation.

(2) Feed Pumps and Turbine Speed Channel II is available as the redun-Control. dant control channel for Feed Pumps (3) Feedwater Control Valve and Turbine Speed Control.

(23 BF 19).

B None Steam Generators #22 and #23 control and level protection remains operable.

In Steam Generators #21, #22, #23 and

  1. 24, all other level protection remains operable.

(NOTE: Channel I remains operable.)

c None Steam Generators #21, #22, #23 and #24 level protection remains operable.

NOTE:

( 1) Channel I remains operable. 1 (2) Part of all other Steam Generators level protection is unavailable.

D If Channel I is being used as the Steam Generators #21, '122, #23 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel I is only partially water Control Valve (23 BF 19). available.

(2) Part of all other Steam Generators1 level protection is unavailable.

CONTROL SYSTEM FAILURES Sheet 28

.TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDl~ATER CONTROL - STEAM GENERATOR, FEEDl-IATER FLOW/STEAM FLOU INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG 1123 Channels FT-533 Ch. II A If Channel I I is being used as the Steam Generators #21 and #24 control See FT-512, Ref:

control channel when the postulated and level protection remains operable. "heet #19 1\jipendix A-pages 18, 188, failure occurs, the following In Steam Generators #21, #22, 1123 and 19, 24, 29, 31, and 32.

happens: #24, all other level protection remains

-Loss of related operation of Feed- operable.

  • water Control Valve (23 BF 19).

(NOTE: Channel II is only partially available.)

B If Channel II is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24, all other level protection remains

-Loss of related operation of: operable.

(1) Channel II operation.

(2) Feed Pumps and Turbine Speed Channel I is available as the redundant Contra l. control channel.

(3) Feedwater Control Valves (23 BF 19).

c None Steam Generators #21, #22, #23 and #24 level protection remains operable.

NOTE:

(1) Channel II remains operable.

(2) Channel I is available as the re-dundant control channel.

(3) Part of all other Steam Generators 1 level protection is unavailable.

D If Channel II is being used as the Steam Generators #21, #22, 1123 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel II is only partially water Control Valve (23 BF 19). available.

(2) Part of all other Steam Generators' level protection is unavailable.

CONTROL SYSTEM FAILURES Sheet 29 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDl-JATER CONTROL - STEAM GENERATORS, FEEDHATER FLOW/STEAtl FLOH INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #24 Channels FT-540 Ch. I A If Channel I is being used as the Steam Generators #21 and #24 control See FT-510, Ref:

control channel when the postulated and level protection remains operable. Sheet #17 Appendix A-pages 20, 20A, failure occurs, the following In Steam Generators #21, #22, #23 and 22, 30 and 31.

happens: #24, all other level protection remains

-Loss of related operation of: .operable.

(1) Channel I operation.

(2) Feedwater Control Valve (24 BF 19).

B If Channel I is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24, all other level protection remains

-Loss of related operation of Feed- operable.

water Control Valve (24 BF 19).

(NOTE: Channel is only partially available.)

c None Steam Generators #21, #22, #23 and #24 level protection remains operable.

NOTE:

(1) Channel I remains operable.

(2) Part of all other Steam Generators' level protection is unavailable.

D If Channel I is being used as the Steam Generators #21, #22, 923 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel I is only partially water Control Valve (24 BF 19). available.

(2) Part of all other Steam Generators 1 level protection is unavailable.

I

CONTROL SYSTEM FAILURES Sheet 30

_TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDHATER CONTROL - STEAM GENERATORS, FEEDllATER FLOIUSTEAM FLO:-/

INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #24 Channels FT-541 Ch. II A If Channel II is being used as the Steam Generators #21 and #24 control See FT-510, Ref:

control channel when the postulated and level protection remains operable. Sheet #17 Appendix A-pages 21, 21A, failure occurs, the following In Stearn Generators #21, #22, #23 and 22, and 31.

happens: #24, all other level protection rearnins

-Loss of related operation of Feed- operable.

water Control Valve (24 BF 19).

(NOTE: Channel II is only partially available.)

B If Channel II is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24, all other level protection remains

-Loss of related operation of: operable.

(1) Channel II operation.

(2) Feedwater Control Valve (24 BF 19).

c None Steam Generators #21, #22, #23 and #24 level protection remains operable *.

NOTE:

(1) Channel II remains operable.

(2) Part of all other Steam Generators'

  • level protection is unavailable.

D If Channel II is being used as the Steam Generators #21. #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the following operable:

happens: NOTE:

-Loss of related operation of Feed- (1) Channel II is only partially available.

water Control Valve (24 BF 19). ( 2) Pa rt of a11 other Steam Genera tors 1 level protection is unavailable.

CONTROL SYSTEM FAILURES Sheet 31

.TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDVJATER CONTROL - STEAM GENERATOR, FEEDl~ATER FLOW/STEAM FLOW INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #24 Channels FT-542 Ch. I A If Channel I is being used as the Steam Generators #21 and #24 control See FT-512, Ref:

control channel when the postulated and level protection remains operable. Sheet #19 Appendix A-pages 20, 208, failure occurs, the following 22, 26, and 31.

happens: In Steam Generators #21, #22, #23 and

-Loss of related operation of: #24, all other level protection remains (1) Channel I operation. operable.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (24 BF 19).

B If Channel I is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following happens: In Steam Generators #21, #22, #23 and

-Loss of related operation of Feed- #24, all other level protection remains water Control Valve (24 BF 19). operable.

(NOTE: Channel I is. only partially available.)

c None Steam Generators #21, #22, #23 and #24 level protection remains available.

flOTE:

(1) Channel I remai11s operable.

(2) Part of all other Steam Generators' level protection is available.

(3) Channel II is available as the re-dundant control channel.

D If Channel I is being used as the Steam Generators #21, #22, ..'.'23 and #24 control channel when the postulated level protection remains failure occurs, the fallowing available.

happens: llOTE:

-Loss of related operation of Feed- (1) Channel I is only partially water Control Valve (24 BF 19). available.

(2) Part of all other Steam Generators'

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

level protection is unavailable.

CONTROL SYSTEM FAILURES Sheet 32

.TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEm~ATER CONTROL - STEAM GENERATOR, FEEDHATER FLOIUSTEAl1 FLOfJ INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #24 Channels FT-543 Ch. II A If Channel If is being used as the Steam Generators #21 and #24 control See FT-512, Ref:

control channel when the postulated and level protection remains operable. Sheet #19 Appendix A-pages 21, 21B, failure occurs, the following In Steam Generators #21, #22, #23 and

  • 22, 25, 30, and 32.

happens: #24, all other level protection remains

-Loss of related operation of Feed- operable.

water Control Valve (24 BF 19).

B If Channel II is being used as the Steam Generators #22 and #23 control control channel when the postulated and level protection remains operable.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: f.124, all other level protection remains

-Loss of related operation of: operable.

(1) Channel II operation.

(2) Feed Pumps and Turbine Speed *Channel I is available for redundant Control. control of Feed Pumps and Turbine Speed (3) Feedwater Control Valve Control.

(24 BF 19).

c None Steam Generators #21, #22, #23 and #24 level protection remains operable.

NOTE:

(1) Channel II remains operable. 1

( 2) Part of a 11 other Steam Genera tors level protection is unavailable.

D If Channel II is being used as the Steam Generators #21, #22, #23 and #24 control channel when the postulated level protection remains failure occurs, the following operable.

happens: NOTE:

-Loss of related operation of Feed- (1) Channel II is only partially water Control Valve (24 BF 19). available.

(2) Part of all other Steam Generators 1 level protection is unavailable.

CONTROL SYSTEM FAILURES Sheet 33

. TABLE U4 - LOSS OF POWER SOURCES SYSTEM: FEEmlATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-514 Ch. I A If Channel I is being used as the Channel II is available for redundant These events "are Ref:

control channel when the postulated control of Feed Pumps and Turbine bou11tled by the Aopendix A-pages 11, 13, failure occurs, the following Speed Control. ana lys 1s cover- 23, 23A, 27, and 31.

happens: Also see FT-512, Sheet #19. ing the Loss of

-Loss of related operation of: Nonna] Feedwater.

(1) Channel I operation.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (21 BF 19).

B If Channel I is being used as the Channel I remains available except for control channel when the postulated operation of Feedwater Control Valve failure occurs, the following (21 BF 19).

happens: Also see FT-512, Sheet #19.

-Loss of related operation of Feed-water Control Valve (21 BF 19).

C, D If Channel I is being used as the Channels I and II are only partially control channel when the postulated avail.able for .control operation.

failure occurs, the following Also see FT-Gl2, Sheet #19.

happens:

-Loss of related operation of Feed-

~iater Control Valve (21 BF 19).

,.J

CONTROL SYSTEM FAILURES Sheet 34

_TABLE 04 - LOSS OF POWER SOURCES SYSTEM: FEED:.IATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-515 Ch. II A If Channel II is being used as the Channel II is available for control of See PT-514,

  • Ref:

control channel when the postulated Feed Pumps and Turbine Speed Control. Sheet #33 Appendix A-pages 12, 13, failure occurs, the following Also see FT-513, '.;heet #20 24, 24A, 27, 31, and 32..

happens:

-Loss of related operation of Feed-water Control Valve (21 BF 19).

B If Channel II is being ~sed as the Channel I is available as redundant control channel when the postulated control for Feed Pumps and Turbine failure occurs, the following Speed Control.

happens:

-Loss of related operation of: Also see FT-513, Sheet #20.

(1) Channel II operation.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (21 BF 19).

C, D If Channel II is being used as the Channel I and II are available for control channel when the postulated con tf'.O 1 of Fef!d Pumps and Turbine failure occurs, the following Speed Control.

happens: Also see FT-513, Sheet #20.

-Loss of related operation of Feed-water Control Valve (21 BF 19).

CONTROL SYSTEM FAILURES Sheet 35

.TABLE H4 - LOSS OF POWER SOURCES SYSTEM: FEEm~ATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels *I PT-524 Ch. I A If Channel I is being used as the Channel II is available as redundan~ See PT-514, Ref:

control channel when the postulated control of Feed Pumps and Turbine Sheet #33 Appendix A-~ages 14, 16, failure occurs, the following Speed Control. 23, 238, 28, and 31.

happens:

-Loss of related operation of: Also see FT-522, Sheet #23.

(1) Channel I operation.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (22 BF 19).

B None Channel I remains operable.

Also see FT-522, Sheet #23.

C, D* If Channel I is being used as the Channels I and II remain operable for control channel when the postulated control of Feed Pumps and Turbine fa i1 ure occurs, the fo 11 o~ii ng Speed Contra 1.

happens:

-Loss of related operation of Feed- Also see FT-522, Sheet #23.

water Control Valve (22 BF 19).

CONTROL SYSTEM FAILURES Sheet 36 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDflATER CONTROL - STEAM GEllERATOR, STEA11 PRESSURE INSTRUMENTS VITAL BUS

  • EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-525 Ch. I I A If Channel II is being used as the Channel II is only partially available. Si:e PT-514," Ref:

control channel when the postulated Sheet #33 ~ppendix A-pages 15, 16, failure occurs, the following Also see FT-523, Sheet #24.

25, 25A, 28, 31, and 32.

happens:

-Loss of related operation of Feed-water Control Valve (22 BF 19).

B If Channel II is being used as the Channel I is available as the redundant control channel when the postulated control channel.

failure occurs, the following happens: Also see FT-523, Sheet #24.

-Loss of rela.ted operation of:

(1) Channel II operation.

(2) Feed Pumps and Turbine Speed Control.

(3) Feed~1ater Control Valve (22 BF 19).

C, D If Channel II is being used.as the Channels I and II are available for control channel when the postulated control of Feed Pumps and Turbine failure occurs, the follm1ing Speed Control.

happens:

.~lso see FT-'i23, Sheet #24.

-Loss of related operation of Feed-water Control Valve (22 BF 19).

CONTROL SYSTEM FAILURES Sheet 37 TABLE H4 - LOSS OF POWER SOURCES SYSTEM: FEEDl~ATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-534 Ch. I A If Channel I is being used as the Channel II is available as redundant See PT-514; Ref:

control channel when the postulated control for Feed Pumps and Turbine Sheet #33 Appendix A-pages 17, 19, failure occurs, the following Speed Control. 26, 26A, 29, and 31.

happens: Also see FT-532, Sheet #27.

-Loss of related operation of:

(1) Channel I operation.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (23 BF 19).

B, .C None Channel I remains operable.

Also see FT-532, Sheet #27.

o. If Channel I is being used as the Channels I and II remain operable for control channel when the postulated control of Feed Pumps and Turbine Speed failure occurs, the following Control.

happens: Also see FT-532, Sheet #27.

-Loss of related operation of Feed-water Control Valve (23 BF 19).

CONTROL SYSTEM FAILURES Sheet 38 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEDWATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REOUNOANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-535 Ch. II A If Channel II is being used as the Channel II is only partially available. See PT-514, Ref:

control channel when the postulated Sheet #3~ Appendix A-pages 18, 19, failure occurs, the following Also see FT-333, Sheet #28.

happens: 24, 24B, 29, 31, and 32.

-Loss of related operation of Feed-water Control Valve (23 BF 19).

B If Channel II is being used as the Channel I is available as redundant control channel when the postulated control for Feed Pumps and Turbine failure occurs, the following Speed Contra l.

happens:

-Loss of related operation of: Also see FT-533, Sheet #28.

(1) Channel II operation.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (23 BF 19).

c None Channel I is available as the redundant control

. channel.

Also see FT-533, Sheet #28.

D If Channel II is being used as the Channel I and II are available for control channel when the postulated control of Feed Pumps and Turbine failure occurs, the following Speed Control.

happens:

-Loss of related operation of Feed- Also see FT-533, Sheet #28.

water Control Valve (23 BF 19).

CONTROL SYSTEM FAILURES Sheet 39

. TABLE #4 - LOSS OF POWER SOURCES SYSTLM: FEEDliATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT (Loss) REMARKS Channels PT-544 Ch. I A If Channel I is being used as the Channel II is available as redundant See PT-514~ Ref:

control channel when the postulated control for Feed Pumps and Turbine Sheet #33 Appendix A-pages 20, 22, failure occurs, the following Speed Control. 26, 26B, 30, and 31.

happens:

-Loss of related operation of: Also see FT-342, Sheet #31.

(1) Channel I operation.

(2) Feed Pumps and Turbine Speed Control.

(3) Feedwater Control Valve (24 BF 19).

B If Channel I is being used as the Channel I is only partially available.

control channel when the postulated failure occurs, the following Also see FT-542, Sheet #31.

happens:

-Loss of related operation of Feed-water Control Valve (24 BF 19).

c None Channel II is available as the redun-dant control channel.

Also see FT-542, Sheet #31.

D If Channel I is being used as the Chann2l II is avail~ble as the redunant control channel when the postulated control of Feed Pumps and Turbine Speed failure occurs, the following Centro l.

happens:

-Loss of related operation of Feed- Also see FT-542, Sheet #31.

water Control Valve (24 BF 19).

CONTROL SYSTEM FAILURES Sheet 40

. TABLE #4 - 1.0SS OF POWER SOURCES SYSTl.H: FEEmlATER CONTROL - STEAM GENERATOR, STEAM PRESSURE INS TRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-545 Ch. II A If Channel II is being used as the Channel II is only partially available. See PT-514, Ref:

control channel when the postulated Also see FT-543, Sheet #32. Sheet #33 Appendix A-pages 18, 19, failure occurs, the following 24, 24B, 29, and 31.

happens:

-Loss of related operation of Feed-water Control Valve (24 BF 19).

B If Channel II is being used as the Channel I is available as the redundant control channel ~1hen the postulated control channel for Feed Pumps and failure occurs, the following Turbine Speed Control.

happens: Also see FT-343, Sheet #32.

-Loss of related operation of:

(1) Channel II operation.

(2) Feed Pumps and Turbine Speed Control. *

(3) Feedwater Control Valve (24 BF 19).

c None Channels I and II remain operable.

Also *see FT-543, Sheet #32.

If Channel II is being used as the Channel I and II are only partially control channel when the postulated available.

fa i1 ure occurs, i:he following Also see FT-543, Sheet #32.

happens:

-Loss of related operation of Feed-water Control Valve (24 BF 19).

CONTROL SYSTEM FAILURES Sheet 41

_TABLE #4 - LOSS OF POWER SOURCES SYSTEM: FEEm~ATER COtlTROL - STEAM GENERATOR LEVEL, ilARROW RANGE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #21 Channels LT-519 Ch. I I A If Channel II is being used as the In Steam Generators #21, 1122, 323 and These events are Ref:

control channel when the postulated #24, all other level protection remains bounded by the Appendix A-pages 11, 12, failure occurs, the following available. analysis cover- 13, 27, 27A, and 31.

happens: ing excessive

-Loss of related operation of Feed- Heat Removal due water Control Valve (21 BF 19). to Feedwater

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ' i y s t e m malfunc-B lf Channel II is being used as the

control channel when the postulated and level protection remains available.

failure occurs, the following In Steam Generators #21, #22, lj23 and happens: 324, all other level protection remains

-Loss of related operation of Feed- available.

water Control Valve (21 BF 19).

C, D If Channel II is being used as the In Steam Generators #21, #22, #23 and control channel when the postulated 124, all other level protection remains failure occurs, the following available.

happens: NOTE: Part of all Steam Generators' level

-Loss of related operation of Feed- protection is unavailable (each bus water Control Valve (21 BF 19). implies different level protection).

CONTROL SYSTEM FAILURES Sheet 42 TABLE #4 - LOSS OF POWER SOURCES SYSTLM: FEEDWATER CONTROL - STEAM GENERATOR LEVEL, NARROW RANGE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #22 Channels LT-529 Ch. I A If Channel I is being used as the In Steam Generators #21, #22, #23 and See LT-519; Ref:

control channel when the postulated #24, all other level protection remains Sheet #41 Appendix A-pages 14, 15, failure occurs, the following available. 16,* 28, 28A, and 31.

happens:

-Loss of related operation of Feed-water Control Valve (22 BF 19).

B None Channel I remains operable.

C,

  • D If Channel I is being used as the In Steam Generators #21, #22, #23 and control channel when the postulated #24, all other level protection remains failure occurs, the following available.

happens: NOTE: Part of all Steam Generators' level

-Loss of related operation of Feed- protection is unavailable (each bus water Control Valve (22 BF 19). implies different level protection).

CONTROL SYSTEM FAILURES Sheet 43

. TllBLE U4 - LOSS OF POWER SOUllCES SYSTEM: STEAM GENERATOR LEVEL, 1IARROW RANGE INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

SG #23 Channels LT-539 Ch. I A, D If Channel I is being used as the In Steam Generators #21, #22, #23 and See LT-519, Ref:

control channel when the postulated #24, all other level protection remains Sheet #41 Appendix A-pages 17, 18, failure occurs, the following available. 19, 29, 29A, and 31.

happens: tlOTE: Part of a 11 Steam Generators*

-Loss of related operation of Feed- level protection is unavailable (each water Control Valve (23 BF 19). bus implies different level protection).

B, C None Channel I remains operable.

LT-549 Ch. II A, D If Channel II is being used as the In Steam Generators #21, 922, n3 and See LT-519, Ref:

control channel when the postulated #24, all other level protection remains Sheet #41 Appendix A-pages 20, 21, failure occurs, the following

  • available. 22, 30, 30A, and 31.

happens: NOTE: Part of all Steam Generators'

-Loss of related operation of Feed- level protection in unavailable (each water Control Valve (24 BF 19). bus implies different 1evel protection).

B If Channel II is being used as the Steam Generators #22 and #23 control and control channel when the postulated level protection remain available.

failure occurs, the following In Steam Generators #21, #22, #23 and happens: #24, all other level protection remains

-Low of related operation of Feed- avail ab 1e.

water Control Valve (24 BF 19).

c None Channel II remains operable.

(

CONTROL SYSTEM FAILUrtES Sheet 44 Tl\DLE 04 - LOSS OF POWEn sotmCES SYSTEM: STEAM DUMP INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-505 Ch. I A If Channel I is being used as the Channel II is available for redundant N/A Ref:

control channel when the postulated Iii-Steam Flow Protection and related Appendix A-pages 11, 13, failure occurs, the following Steam Dump (Load Rejection). 14, 16, 17, 19, 20, 22, happens: 31, 31A, 44, and 46.

-Loss of related operation of:

(1) Channel I operation.

(2) #21, #22, #23 and #24 Feed-11a ter Control Valves.

(3) Rod Control.

( 4) Steam Dump (Load Rejection).

B None Channel I remains operable.

c If Channel I is being used as the Channels I and II remain available for control channel when the postulated control of Hi-Steam Flow Protection, Rod failure occurs, the following Control, and related Feed11ater Control happens: Valves.

-Loss of related operation of Steam Dump (Load Rejection).

D If Channel I is being used as the Channel II is available for redundant control channel when the postulated Hi-Steam Flow Protection and related failure occurs, the following Steam Dump (Load Rejection).

happens:

-Loss of related operation of:

(1) #21, #22, #23 and #24 Feed-water Control Valveso (2) Rod Control.

(3) Steam Dump (Load Rejection).

CONTROL SYSTEM FAILURES Sheet 45

. TABLE #4 - LOSS OF POWER SOURCES SYSl EM: STEAM DUMP INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT~506 Ch. I I A, D None Channel II remains operable. fl/A Ref:

Appendix A-pages 12, 15, 13, 21, 32, and 32A.

B If Channel II is being used as the Channel I is available as the redundant control channel when the postulated control channel.

failure occurs, the following happens:

-Loss of related operation of:

(1) Channel II operation.

(2) Steam Dump (Load Rejection).

c If Channel II is being used as the Channels I and II are available for control channel when the postulated Hi-Steam Flow Protection, Rod Control, failure occurs, the following and related Feedwater Control Valves.

happens:

-loss of related operation of

_Steam Dump (Load Rejection).

PT-507 A,B,D None Instrument remains operable. N/A c If this instrument is being used All atmospheric steam relief valves Ref:

when the postulated failure occurs, (MSlO's) and steam safety valves remain Appendix A-pages 33 and the following happens: operable. 33A.

-Loss of related operation of:

( 1) Condenser Steam Dump Valves (21 & 22 HS 31, 33, 35, 37, 39 & 41).

(2) Feed Pumps and Turbine Speed Control.

CONTROL SYSTEM FAILURES Sheet 46 TABLE #4 - LOSS OF POWER SOURCES SYST[M: STEAM DUMP INSTRUMENTS VITAL BUS -EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REM/IRKS (Loss)

Channels PT-508 A,B,C None Instrument remains operable. N/A Ref:

Appendix A-page 33 and 33B.

D If this instrument is being used when the postulated failure occurs, the following happens:

-loss of related operation of Feed Pumps and Turbine Speed Control.

PT-516A Ch. A If Channel I is being used as the Channels II, III and IV remain operable. N/A Ref:

control channel ~1hen the postulated All steam safety valves remain operable. Appendix A-pages 34 and failure occurs, the follm~ing 34B.

happens:

-Loss of related operation of atmo-spheric steam dump valve (21 MS lD).

B, C None Channels I and IV are available for atmospheric steam dump.

All steam safety valves remain operable.

D If Channel I is being used as the Channels II and III remain operable.

control channel when the postulated All steam safety valves remain operable.

failure occurs, the following happens:

-Loss of related operation of atmo-spheric steam dump valve (21 MS 10).

CONTROL SYSTEM FAILURES Sheet 47

. TABLE 04 - LOSS OF POWER SOURCES SYSTEM: STEAM DUMP INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AV/\ILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels PT-526A Ch. II A, D None Channels II and III remain operable. :I/A Ref:

All steam safety valves remain operable. Appendix A-pages 35 and 35B.

B If Channel II is being used as the Channels I, III and IV remain operable.

control channel when the postulated All steam safety valves *remain operable.

failure occurs, the following happens:

-Loss of related operation of atmo-spheric steam diimp valve (22 MS 10).

c If Channel II is being used as the Channel I is available for atmospheric control channel when the postulated steam relief.

failure occurs, the following All steam safety valves remain operable.

happens:

-Loss of related operation of atmo-spheric steam dump valve (22 llS 10).

PT-536A Ch. III A None Channels II, III and IV are available N/11 Ref:

for atmospheric steam relief. Appendix A-pages 36 and All s*team safety valves remain available. 36B.

B None Channels I, III and IV are available for atmospheric steam relief.

/Ill steam safety valves remain operable.

c If Channel III is being used as the Channel I is available for atmospheric control channel when the postulated steam dump.

failure occurs, the following All steam safety valves remain operable.

happens:

-Loss of related operation of atmo-spheric steam dump valve (23 MS 10).

D None Channels I, II and III are available for atmospheric steam relief.

All steam safety valves remain operable.

CONTROL SYSTEM FAILURES Sheet 48 TABLE 04 - LOSS OF POWER SOURCES SYSTEM: STEAM DUMP INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT (Loss) REMARKS Channels PT-546A Ch. IV A None Channels II, III and IV remain operable. N/A Ref:

All steam safety valves remain operable. Appendix A-pages 37 and 37B.

B None Channels I, III and IV r~nain operable.

All steani safety valves remain operable.

c If Channel IV is being used as the Channel I is available for atmospheric control channel when the postulated steam dump.

  • failure occurs, the following happens: All steam safety valves remain operable.

-Loss of related operation of atmo-spheric steam dump valve (24 MS 10).

D If Channel IV is being used as the Channels II and III remain operable for control channel when the postulated atmospheric steam dump.

failure occurs, the following happens: All steam safety valves remain operable.

-Loss of related operation of atmo-spheric steam dump valve (24 MS 10).

~ .

CONTROL SYSTEM FAILURES Sheet 49 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels NE-35 Ch. I A If Channel I is being used as the Channel II is available as the redun- These events are Ref:

control channel when the postulated dant control channel. bounded by the Appendix A-page 38.

failure occurs, the following analysis cover-happens: ing the Uncon-

-Loss of related operation of trolled Rod Channel I Intermediate Range Cluster Control Detector. Assembly Bank Hithdrawa l at B,C,D None Channel remains operable. Power.

NE-36 Ch. II A,C,D None Channel II remains operable. See NE-35, Ref:

Sheet #49 Appendix A-page 39.

B If Channel II is being used as the Channel I is available as the redun-control channel when the postulated dant control channel.

failure occurs, the following happens:

-Loss of related operation of Channel II Intermediate Range Detector.

CONTROL SYSTEM FAILURES Sheet 50 TABLE #4 - I OSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels i~E-41 Ch. I A If Channel I is being used as the Channels II, Ill and IV are available See NE-35, ' Ref:

control channel when the postulated as redundant control channels. Sheet #49 Appendix A-pages 7, 40, failure occurs, the fa 11 owing

  • and 44.

happens:

-Loss of related operation of:

(1) Channel I operation.

(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.

(3) Rod Control.

B None Channels Ill and IV are available as redundant control channels.

Channel I remains operable.

c None Channels II and IV are available as redundant control channels-Channel I remains operable.

D None Channels II and III are available as redun~ant control channels.

Channel I r;,emains operable.

CONTROL SYSTEM FAILURES Sheet 51

. TABLE #4 - LOSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE RFDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels NE-42 Ch. II A None Channels Ill and IV are available as See NE-35, . Ref:

redundant control channels. Sheet #49 Appendix A-pages 8, 41, Channel II remains operable. and 44.

B If Channel II is being used as the Channels I, Ill and IV are available control channel when the postulated as redundant control channels.

failure occurs, the following happens:

-Loss of related operation of:

(1) Channel II operation.

(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.

(3) Rod Control.

C None Channels I and IV are available as redundant control channels.

Channel II remains operable.

D None Channels I and III are available as redundant control channels.

Channel II remains operable.

CONTROL SYSTEM FAILURES Sheet 52 TABLE #4 - LOSS OF.POWER SOURCES SYSTCM: NUCLEAR INSTRUMENTATION INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels NE-43 Ch. III A None Channels II and IV are available as See NE-35, Ref:

redundant control channels. Sheet #49 Appendix A-pages 9, 42, Channel III remains operable. and 44.

B None Channels I and IV are available as redundant control channels.

Channel III remains operable.

C If Channel III is being used as the Channels I, II and IV are available as control channel when the postulated redundant control channels.

failure occurs, the following happens:

-Loss of related operation of:

(1) Channel III operation.

(2) Auto Turbine Runback and Block Auto and Manual Rod Wi thdrawa 1.

(3) Rod Control.

D None Channels I and II are available as re-dundant control channels.

Channel III remains operable.

CONTROL SYSTEM FAILURES Sheet 53 TABLE #4 - LOSS OF POWER SOURCES SYSTEM: NUCLEAR INSTRUMENTATION INSTRUMENTS VITAL BUS EFFECTS OF FAILURES AVAILABLE REDUNDANT FUNCTIONS BOUNDING EVENT REMARKS (Loss)

Channels NE-44 Ch. IV A None Channels II and III are available as See NE-35,. Ref:

redundant control channels. Sheet #49 Appendix A-pages IO, 43, Channel IV remains operable. and 44.

B None Channels I and Ill are available as redundant control channels.

Channel IV remains operable.

C None Channels I and JI are available as re-dundant control channels.

Channel IV remains operable.

D If Channel IV is being used as the Channels I, II and III are available as control channel when the postulated redundant control channels.

failure occurs, the following happens:

-Loss of related operation of:

(I) Channel IV operation.

(2) Auto Turbine Runback and Block Auto and Manual Rod Withdrawal.

(3) Rod Control.

CONTROL SYSTEMS FAILURES APPENDIX A

APPENDIX A TABLE OF. CONTENTS System: Pressurizer Pressure and Level Control t Instrument Page Pressurizer Pressure. PT-455 CH I l,lA,5 r Protection and Control PT-456 CH II 2,2A,5 PT-457 CH III 3,3A,3B,5 1 PT-474. CH IV 4,4A,5 I'

Pressurizer Level LT-459 Prot I 6,6A Protection and Control , LT-460 Prot II 6,6B LT-461 Prot III 6,6C,6D System: Reactor Coolant Temperatures Instrument Page Jl.T and Tavg Protections TE-411 A Loop 21 7,7A TE.;..411 B 7 TE-421 A Loop 22 8,8A

~ TE-421 TE-431 B

A Loop 23 8

9 TE-431 B 9,9A

'1 TE-441 A Loop 24 10 TE-441 B 10,lOA System: Feedwater Control Instrument Page 1 Stearn Generator Feedwater FT-510 SG#21 Prot I 11,llA ,13 Flow Protection FT-512 11,llB,13 FT-520 SG#22 Prot I 14,14A,16 FT-522 14,14B,16 FT-530 SG#23 Prot I 17,17A,19 FT-532 17,178,19 FT-540 SG#24 Prot I 20,20A,22 FT-542 20,20B,22 Steam Generator Steam FT-511 SG# 21 Prot II 12,12A,13 Flow Protection FT-513 12,12B,13 FT-521 SG#22 Prat II 15,lSA,16 FT-523 15,158,16 FT-531 SG#23 Prot II 18,18A,19 FT-533 18,lSB,19 FT-541 SG#24 Prat II 21,2.lA,22 FT-543 21,21B,22

System: Feedwater Control (Cont'd)

Instrument Paqe Steam Generator Steam Line PT-514 SG#21 Prot I 23,23A Pressure Protection PT-524 SG#22 23,23B

~\ PT-515 SG#21 Prot II 24,24A PT-535 SGt23 24,24B

, PT-525 PT-545 PT-534 SG#22 SG-i¥24 SG#23 Prot II Prot I 25,25A 25,25B 26,26A PT-544 SG#24 26,26B I Steam Generator Level LT-519 LT-529 SG#21 SG#22 Prot Prot II I

27,27A 28,28A LT-539 SG#23 Prot I 29,29A,29B LT-549 SG#24 Prot II 30,30A r

System: Steam Dump High Steam Flow Instrument PT-505 CH I Paqe 31,31A,31B PT-506 CH II 32,32A,32B Steam Generator Header Pressure PT-507 33 Steam Generator Inlet Header Pressure PT-508 33 Steam Sump to Atmosphere PT-516A SG#21 CH I 34,34A,34B PT-526A SG#22 CH II 35,35A,35B PT-536A SG#23 CH III 36,36A,36B PT-546A SG.# 24 CH IV 37,37A,37B System: Nuclear Instrumentation Instrument Paqe Intermediate Range #1 Detector NE35 38 Intermediate Range t2 Detector NE36 39 Power Range Detector NE41A 40 l NE41B NE42A 41 NE42B NE43A 42 I NE43B

System: Nuclear Instrumentation (Cont'd)

Instrument* Page Power Range Detector (cont' a) NE44A 43 NE44B System: Rod Control Page 44 System: Tavg and Steam Dump Page 45 and 46

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