ML18106B159: Difference between revisions

From kanterella
Jump to navigation Jump to search
(Created page by program invented by StriderTol)
 
(StriderTol Bot change)
 
(3 intermediate revisions by the same user not shown)
Line 17: Line 17:


=Text=
=Text=
{{#Wiki_filter:I I Document Control Desk Attachment 3 LR-N990149 Supplement to LCR S98-04 SALEM GENERATING STATION UNIT N0.1 SUPPLEMENT TO CHANGE TO TECHNICAL SPECIFICATIONS DEFERRAL OF SURVEILLANCE REQUIREMENTS TECHNICAL SPECIFICATION PAGES WITH PROPOSED CHANGES Technical Specification 4.1.2.2.c Table 4.3-1 Table 4.3-1 Note (4) 4.3.2.1.3 Table 4.3-2 item 1 a Table 4.3-11 Table 4.3-11 item 17 4.5.1.d 4.5.2.e.1 4.7.6.1.d.2 4.7.10.b 4.8.1.1.2.d.7 4.8.1.1.2.d.7 (footnote) 4.8.2.3.2.f 4.8.2.5.2.c.2 4.8.2.5.2.d 4.8.3.1.a.1 9904140021 990331 -PDR ADOCK 05000272 P PDR 3/4 1-9 3/4 3-11 3/4 3-13 3/4 3-14 3/4 3-31a 3/4 3-57 3/4 3-57a 3/4 5-2 3/4 5-5 3/4 7-20 3/4.7-34 3/4 8-5 3/4 8-5a 3/4 8-9a 3/4 8-12 3/4 8-12 3/4 8-14 
{{#Wiki_filter:Document Control Desk                                   LR-N990149 Attachment 3                              Supplement to LCR S98-04 SALEM GENERATING STATION UNIT N0.1 SUPPLEMENT TO CHANGE TO TECHNICAL SPECIFICATIONS DEFERRAL OF SURVEILLANCE REQUIREMENTS TECHNICAL SPECIFICATION PAGES WITH PROPOSED CHANGES Technical Specification 4.1.2.2.c                           3/4 1-9 Table 4.3-1                         3/4 3-11 Table 4.3-1 Note (4)                 3/4 3-13 4.3.2.1.3                           3/4 3-14 Table 4.3-2 item 1a                  3/4 3-31a Table 4.3-11                         3/4 3-57 Table 4.3-11 item 17                 3/4 3-57a 4.5.1.d                             3/4 5-2 4.5.2.e.1                           3/4 5-5 4.7.6.1.d.2                         3/4 7-20 4.7.10.b                             3/4.7-34 4.8.1.1.2.d.7                       3/4 8-5 4.8.1.1.2.d.7 (footnote)             3/4 8-5a 4.8.2.3.2.f                         3/4 8-9a 4.8.2.5.2.c.2                       3/4 8-12 4.8.2.5.2.d                         3/4 8-12 4.8.3.1.a.1                         3/4 8-14 I 9904140021 990331 -
!llCmaT! ccarn, ..,.,.. c.11:: A& 1-c*aace pes 11 mnm. duriD9 abucdilMs by V9rityiA9 Cbac ..cm auccmacic:
I PDR ADOCK 05000272 P                   PDR
val" in cu flow pach ac:cuac**
 
to it* correc:c po9itica ca a .a!ecy injeccica U*C eigaal. d, Ac l***C once per 11 mnch9 by verifyiq Cbat the flow path required by 81>9C:if icacica 3 .1. 2. 2, a d9U. ver* ac leuc ll gs-to th* Reactor Coolant Sy*t-. SAT IM
!llCmaT!       ccarn, ..,.,..
* 01'1T l 3/4 1*' Amendment No. 145 '-
c.11:: A& 1-c*aace pes 11 mnm. duriD9 abucdilMs by V9rityiA9 Cbac
TABLE t.3-1 CllANHl:L NODES nr llBICM CllAIDIKL l'UllCTIOHAL SUllWILLAllCE l"OHCTIOllAL OllIT casca CALIUATIOH T&ST UQUI!f!> ' 1. lllanual .. actor 'Irie ....... M.A. M.A. *.. , 1, a,* ..... * : 2. i>CMMr 8ange, 11euc.na n-s 0121' Niii Q 1, 2, and'J* and 0 1*1 3. Power aanp, *utroa Wlua, M.A. **** Q 1, 2 8igb l'oaili,,.
              ..cm auccmacic: val" in cu flow pach ac:cuac** to it* correc:c po9itica ca a .a!ecy injeccica U*C eigaal.
aac. t. Power llaft99, ... uuoa *lua, II.A. **** Q 1, 2 8igb llegalive aac. 5. Intelm9Cl.i.ate  
d,     Ac l***C once per 11 mnch9 by verifyiq Cbat the flow path required by 81>9C:if icacica 3 .1. 2. 2, a d9U. ver* ac leuc ll gs- to th* Reactor Coolant Sy*t-.
.....,., .. utroa *lua a **** S/0 111 1, 2 and * '* aouroe .....,., .. utroa *lua s*'* *.. , Q and S/0 111 2, 3, t, 5 And e ., . OV'ertellferatuze A'I s a Q 1, 2 ** OV'ezpot19r AT
Amendment No. 145 SAT IM
* a Q 1, 2 I. Preaauri .. r *reaaw:e--1.ov
* 01'1T l                       3/4 1*'
* a Q 1, 2 10. *reaauri .. r >>zeaaw:e--tigb
 
* a Q 1, 2 11. >>reaauri .. r Water i.v.1--8igb a a Q 1, 2 12. Lo** of *low -8ingl* Loop
TABLE t.3-1 CllANHl:L     NODES nr llBICM CllAIDIKL                 l'UllCTIOHAL   SUllWILLAllCE casca l"OHCTIOllAL OllIT                                         CALIUATIOH         T&ST           UQUI!f!>
* R Q 1 UNIT l 3/4 3-11 Amendment No. 205
: 1. lllanual . .actor 'Irie .......           M.A.     M.A.                           1, a,* ..... *
* (1) * (l) * ( l) * (4) * ( 5) * (I) * (7) * (II * (ti
: 2. i>CMMr 8ange,   11euc.na n-                 s       0121' Niii     Q               1, 2, and'J*
* Tt911 +.1-1 <Conti.:ued> tM re.eta trip *Y*C* bl'e&ker*
and 0 1* 1
clo*ecS and the coatrol roct dri'V'9 9YWC* Of l'od withdrawal.
: 3. Power aanp, *utroa Wlua,                   M.A.     ****           Q               1, 2 8igb l'oaili,,. aac.
If not pel'foZ994 ill previoua ll day*. Heat balance only, UoV9 lH of IATID IUIJal. POWD. COft!P&r*
: t. Power llaft99, ...uuoa *lua,               II.A.   ****           Q               1, 2 8igb llegalive aac.
incore to e.xcore axial off *et a>>ove 15t of IATID TBSIJ0.1.
: 5. Intelm9Cl.i.ate .....,., . .utroa *lua       a                     S/0 111         1, 2 and
POWSJl.
* s*'*         ,        Q and S/0 111
if difference a l percent. Manual SIPI functioaal input check *very 11 moacu. -J1' If lach train or log'ic cbamlel *hall be tHUcl at leut *v*ry 5l day* on a STAGGSUD TUT IAIIS. Neutroa detector*
'*., . aouroe .....,., . .utroa *lua                                                     2, 3, t, 5 And     e OV'ertellferatuze A'I                       s     a             Q               1, 2
may be e.xcludecl fro. c::BAIDlm.
**     OV'ezpot19r AT
OLIUATIOll.  
* a             Q             1, 2 I. Preaauri . .r *reaaw:e--1.ov
..low P*f (lloclc of lourc* lange **actor Trip) **tpeint.
* a             Q             1, 2
Deleted The OW1nL Ptme"fIODL TUT *hall independently V9rif y the OPDMILITY of the ondel"YOlta9e and Shunt Trip *c:Auli .. for the Manual Reactor Trip P\Klctioa.
: 10.   *reaauri. .r >>zeaaw:e--tigb
Tb* T**t *hall almo verify OPSIAa?LITY of the iypa9* lr*ak*r Trip circuit*.  
* a             Q             1, 2
: 11.   >>reaauri . .r Water i.v.1--8igb             a     a             Q             1, 2
: 12. Lo** of *low - 8ingl* Loop
* R             Q             1 UNIT   l                           3/4 3-11                               Amendment No.       205
 
Tt911 +.1-1 <Conti.:ued>
* Wi~ tM re.eta trip *Y*C* bl'e&ker* clo*ecS and       the   coatrol roct dri'V'9 9YWC* ~le Of l'od withdrawal.
(1)
* If not pel'foZ994 ill previoua ll day*.
(l)
* Heat balance only, UoV9 lH of IATID IUIJal. POWD.
( l)
* COft!P&r* incore to e.xcore axial off *et a>>ove 15t of IATID TBSIJ0.1.
POWSJl. lecali~rate if ~olut* difference a l percent.
(4)
* Manual SIPI functioaal input check *very 11     moacu.     -J1' If
( 5)
* lach train or log'ic cbamlel *hall be tHUcl at leut *v*ry 5l day* on a STAGGSUD TUT IAIIS.
(I)
* Neutroa detector* may be e.xcludecl fro. c::BAIDlm. OLIUATIOll.
(7)  *
            ..low P*f (lloclc of lourc* lange **actor Trip) **tpeint.
(II
* Deleted (ti
* The OW1nL Ptme"fIODL TUT *hall independently V9rif y the OPDMILITY of the ondel"YOlta9e and Shunt Trip *c:Auli .. for the Manual Reactor Trip P\Klctioa.
Tb* T**t *hall almo verify OPSIAa?LITY of the iypa9* lr*ak*r Trip circuit*.
(10)
(10)
* Clt.rrSD ( 11 > -The PmlCUCllaL TllT *Ull iDdepcdeDCly verify the OPDMIL%TY of Clle ... ctor Trip lru.ker trndel"YOltqe and Shunt Trip mec:Auli-. ( l2) -Cm.&TID .. SALIM
* Clt.rrSD (11 >   - The ~ PmlCUCllaL TllT *Ull iDdepcdeDCly verify the OPDMIL%TY of Clle ...ctor Trip lru.ker trndel"YOltqe and Shunt Trip mec:Auli-.
* UHIT 1 l/t l*U , .. adlwnt No. 175 I UfSTRQMiNIAI!Ol!
( l2) -   Cm.&TID SALIM
3/t,l,2 QGI'!Qlp SAliTX f'iATPM AC'IVATION SXSTQ INSTRUME?n"AIION LIHITIRG CCBDlT109 POR OPERATION 3.3.2.1 The ln9ineered Safety Feature Actuation Sy*tem (ISFAS) inatru* mentation c:hannela and interlock*
* UHIT 1                           l/t l*U                       , . .adlwnt No. 175 I
1hown in Ta.bl* l.3*3 *hall be OPERABLE with their trip **tpcinta  
 
**t conaiatent with the valuea 1hown in the Trip Setpcint column of Tal::lle 3,3-t and with USPONSI TIMES aa *hewn in Ta.ble 3.3*5. AfPLICAIILITX:
UfSTRQMiNIAI!Ol!
Aa ahown in Table 3,3*3, ACTlOD: a. With an BSFAS inatrumentation channel trip **tpoint l*** conaerva*
3/t,l,2     QGI'!Qlp SAliTX f'iATPM AC'IVATION SXSTQ INSTRUME?n"AIION LIHITIRG CCBDlT109 POR OPERATION
tive than the value shown in the Allowable Value* col1.1111n of Tal::lle l.3-t, declare th* channel inoperal::ll*
*m************~********~******************************************************
and apply the applicable ACTIOR requirement of Ta.bl* 3.3*3 until th* c:hmmel i* reatored to OPIRAILI atatua with the trip **tpoint adjuated conaiatent with the Trip Setpoint value. b. With an ISFAS inmtrumentatica channel inoperable, take th* ACTIOR ahown in Ta.bl* 3.3*3 . **************************************************************************
3.3.2.1 The ln9ineered Safety Feature Actuation Sy*tem (ISFAS) inatru*
t.3.2.1.1 lach ISFAS inatZ"Ull9Dtatiaa channel *hall be demonatrated OPIRAII.I by th* performance of the CHARRl1. CHICK, CHARBIL CALIBRATION and CHARldL FmlCTlOIGL TIST operation*
mentation c:hannela and interlock* 1hown in Ta.bl* l.3*3 *hall be OPERABLE with their trip **tpcinta **t conaiatent with the valuea 1hown in the Trip Setpcint column of Tal::lle 3,3-t and with USPONSI TIMES aa *hewn in Ta.ble 3.3*5.
during the ll:>DIS and at the frequenci**
AfPLICAIILITX: Aa ahown in Table 3,3*3, ACTlOD:
shown in Ta.bl* t.3*2. t.3.2.1.2 1'he logic for the iAterlocka shall be d9mcmatrated OPIRAmLa during th* autc:11atic actuaticm 109ic tHt. "nl* total interlock function 8b&ll be d netrated OPDUX.. at leut cace per 11 mcmtha during CHAlll'mL CALIBRATIOll t**ting of eacb ctwmel affected by interloct operation .
: a. With an BSFAS inatrumentation channel trip **tpoint l*** conaerva*
* t.J.2.1.J  
tive than the value shown in the Allowable Value* col1.1111n of Tal::lle l.3-t, declare th* channel inoperal::ll* and apply the applicable ACTIOR requirement of Ta.bl* 3.3*3 until th* c:hmmel i* reatored to OPIRAILI atatua with the trip **tpoint adjuated conaiatent with the Trip Setpoint value.
'1'M DaU'ildD SUl'l'1' rD1'UU1 RUPCllS* TDll of Heb ISPAS fuuc:cica a&ll lie to b9 withiA the limit at leaat once per 11 11C1Dth8..  
: b. With an ISFAS inmtrumentatica channel inoperable, take th* ACTIOR ahown in Ta.bl* 3.3*3 .
.... teft ebal.1 include at leut aae logic train much that bot.b logi--J *i :l** an teeted at leut cmce per H llCDtha mid cae chazm*l per f"UDCCi ..... dlat all c:hunela are t**ted at leaat once per
t.3.2.1.1 lach ISFAS inatZ"Ull9Dtatiaa channel *hall be demonatrated OPIRAII.I by th* performance of the CHARRl1. CHICK, CHARBIL CALIBRATION and CHARldL FmlCTlOIGL TIST operation* during the ll:>DIS and at the frequenci** shown in Ta.bl* t.3*2.
* tim1H 11 llCIDt.ba  
t.3.2.1.2 1'he logic for the iAterlocka shall be d9mcmatrated OPIRAmLa during th* autc:11atic actuaticm 109ic tHt. "nl* total interlock function 8b&ll be d       netrated OPDUX.. at leut cace per 11 mcmtha during CHAlll'mL CALIBRATIOll t**ting of eacb ctwmel affected by interloct operation .
..._
t.J.2.1.J '1'M DaU'ildD SUl'l'1' rD1'UU1 RUPCllS* TDll of Heb ISPAS fuuc:cica a&ll lie ~ted to b9 withiA the limit at leaat once per 11 11C1Dth8.. .... teft ebal.1 include at leut aae logic train much that bot.b logi--J *i :l** an teeted at leut cmce per H llCDtha mid cae chazm*l per f"UDCCi       ..... dlat all c:hunela are t**ted at leaat once per
* tim1H 11 llCIDt.ba . . . _
* i* the toUl amber of rectundent c:baanela in a specific 1sru fuuc:cicm u 8howD -in *the -*Total *:Ro*,. of Cb*nneb
* i* the toUl amber of rectundent c:baanela in a specific 1sru fuuc:cicm u 8howD -in *the -*Total *:Ro*,. of Cb*nneb
* ColUID of Ta.bl* 3.J-l. "n1e proriaioaa of Specificatic:m t.O.t are not applica.ble to llSIV cloaure time te*ting. "nl* proviaiona of Specificadm  
* ColUID of Ta.bl*
: 4. O. 4 are not applica.bl*
3.J-l. "n1e proriaioaa of Specificatic:m t.O.t are not applica.ble to llSIV cloaure time te*ting. "nl* proviaiona of Specificadm 4. O. 4 are not applica.bl* to the turbine dri WA awd.liary fHdwater pump provided th*
to the turbine dri WA awd.liary fHdwater pump provided th* aurveillance i* performed rithiA 2t hour* after the Hcoaduy .ceaa generator pre*aur* i* iZ'*ater than 610 p*ig. SAUDI
aurveillance i* performed rithiA 2t hour* after the Hcoaduy .ceaa generator pre*aur* i* iZ'*ater than 610 p*ig.
* tJ1'IT 1 3/t J*U No, 188
SAUDI
'!'ABLE 4. j-2 ENGINEEJU.:D SAFETY FEATUIU: ACTUATION SYSTEM INSTRUMENTATION  
* tJ1'IT 1                         3/t J*U                 Amen~nt      No, 188
-* -----*****
 
*--. -----**-*-
                                                                  '!'ABLE 4. j-2 ENGINEEJU.:D SAFETY FEATUIU: ACTUATION SYSTEM INSTRUMENTATION
--*----*--------------*
                                                      ~-~f{V~ !~~<;~_R~QU I ~~~ENTS CHANNEL  MODE'.i IN WHICH CHANNEL              CHANNEL    FUNCTIONAL  SURVEILLANCE FUNCTIONAL UN IT                                       CHECK           CALIBRATION       TEST
FUNCTIONAL UN IT I
                                                                                                    !H::QU I RED I.     SAFETY INJECTION, TURBINE TRIP ANIJ l:'EEDWATE-:R ISOLATION
CHANNEL CHECK CHANNEL CALIBRATION I. SAFETY INJECTION, TURBINE TRIP ANIJ l:'EEDWATE-:R ISOLATION  
: a. Manudl Initiation                           N.A.                 N.A.         R          1,2,3,4
: a. Manudl Initiation N.A. N.A. b. Automatic Actudtion Logic N.A. N.A. c. Contdinment Pressure-High s R d. Pressurizer Pressur-e--Low s R e. Di ffecentidl Pressure Between s R Steam Lines--High  
: b. Automatic Actudtion Logic                   N.A.                 N.A.         M(2)      1,2,3,4
: f. Steam flow in Two Sledm s R Lines--High coincident with Tavg--Low-Low or Steam Line P1e:1sur-e-Low  
: c. Contdinment Pressure-High                   s                     R           QI 3J      I, 2 I 3
: 2. CONTAINMENT SPRAY a. Manual Initidtion N.A. N.A. b. Automatic Actuation Logic N.A. N.A. c. Containment Pre:;:;ure--High-High s R :;/\l.l::M  
: d. Pressurizer Pressur-e--Low                 s                     R           Q        I, 2 I 3
-UN IT I CHANNEL FUNCTIONAL TEST R .. M(2) QI 3J Q Q M(2) QI 3) MODE'.i IN WHICH SURVEILLANCE
: e. Di ffecentidl Pressure Between             s                     R           Q        I, 2 I 3            I Steam Lines--High
!H::QU I RED 1,2,3,4 1,2,3,4 I, 2 I 3 I, 2 I 3 I, 2 I 3 I, 2 I 3 I, 2 I 3, 4 I, 2 I 3, 4 I, 2, 3 Arm:11dme111 No. 142 I INSTRUMENT  
: f. Steam flow in Two Sledm                     s                     R                     I, 2 I 3 Lines--High coincident with Tavg--Low-Low or Steam Line P1e:1sur-e-Low
: 1. Reactor Coolant Outlet Temperature  
: 2.       CONTAINMENT SPRAY
-T HOT (Wide Range) 2. Reactor Inlet Te11perature  
: a. Manual Initidtion                           N.A.                 N.A.                 I, 2 I 3, 4
-T COLD (Wide Range) TABLE 4.3-11 SURVEILLANCE REQUIREMENTS FOR ACCIDENT MONITORING INSTRUMENTATION CHANNEL CHECKS CHANNEL CALIBRATION M R M R 3. Reactor Coolant Pressure (Wide Range) M R 4. Pressurizer Water Level 5. Stea11 Line Pressure 6. Ste1111 Generator Water Level (Narrow Range> 1. Stea11 Generator Water Level (Wide Range). 8. Refueling Water Storage Tank Water Level 9. deleted 10. Auxiliary Feedwater Flow Rate 11. Reactor Coolant System subcooling Margin Monitor " M M M " s/ut:F yr M R R R R R R CHANNEL FUNCTIONAL TEST IAuxiliary Feedwater System is used on each startup and flow rate indication is verified at that tl*e. *The instru11ents u1ed to develop RCS subcooling 11argin are calibrated on an 18 11onth cycle; the 11onitor will be co11pared  
: b. Automatic Actuation Logic                   N.A.                 N.A.       M(2)      I, 2 I 3, 4
*quarterly with calculated subcooling 11argin for known input values. SALEM -UNIT 1 3/4 3*57 A*end11ent No. 147 ( .
: c. Containment Pre:;:;ure--High-High           s                     R           QI 3)    I, 2, 3
:;/\l.l::M - UN IT I                                                                               Arm:11dme111  No. 142
 
( .
TABLE 4.3-11 SURVEILLANCE REQUIREMENTS FOR ACCIDENT MONITORING INSTRUMENTATION CHANNEL CHANNEL                      CHANNEL                FUNCTIONAL INSTRUMENT                                       CHECKS                  CALIBRATION                TEST
: 1. Reactor Coolant Outlet Temperature -         M                          R T HOT (Wide Range)
: 2. Reactor Cool~nt Inlet Te11perature -         M                          R T COLD (Wide Range)
: 3. Reactor Coolant Pressure (Wide Range)         M                           R
: 4. Pressurizer Water Level
                                                  "                          R
: 5. Stea11 Line Pressure                         M                          R
: 6. Ste1111 Generator Water Level                 M                          R (Narrow Range>
: 1. Stea11 Generator Water Level                 M                          R (Wide Range).
: 8. Refueling Water Storage Tank Water Level                                 R
: 9. deleted s/ut:F
: 10. Auxiliary Feedwater Flow Rate                 yr                          R
: 11. Reactor Coolant System subcooling             M Margin Monitor IAuxiliary Feedwater System is used on each startup and flow rate indication is verified at that tl*e.
*The instru11ents u1ed to develop RCS subcooling 11argin are calibrated on an 18 11onth cycle; the 11onitor will be co11pared *quarterly with calculated subcooling 11argin for known input values.
SALEM - UNIT 1                                           3/4 3*57                       A*end11ent No. 147
 
IABLE t.l-11 (Continued)
IABLE t.l-11 (Continued)
SURVBILLNfCI RBQUIRBMIN'J'S FOR ACCIDllfT MQHITQBIHG IHSTBtlmf'l'AllON CHAHNBL* CHANNEL IHSTBtlgHT CHBCICS CALIBRATION  
SURVBILLNfCI RBQUIRBMIN'J'S FOR ACCIDllfT MQHITQBIHG IHSTBtlmf'l'AllON CHANNEL CHAHNBL*                       CHANNEL               FUHCTIOHAL IHSTBtlgHT                                     CHBCICS                     CALIBRATION                   TISI
: u. ll. u. 15. 16. 17. 18. 19.
: u. POJlV Po*ition Indicator                       M                             _...- N.. A, I
* POJlV Po*ition Indicator M PORV Block Valve Indicator M Pr***urizer Saf*'V ""',,. itoaition M Indicator Containment Pr ... ure -llarrow Range M Conta.U..Ot Pruaure -Wide Range M Containment llater Level -llide Range M Core bit Tbe1WOCOUple*
R ll. PORV Block Valve ~ioa    Indicator           M                             .JM<N,A,                Q*
M Reactor V****l Level Inatrumentation M Syat-(RVLIS) unle** the bl0ck valve i* clo*ed in order to meet the requir..anta of Action b, or c in *pecification 3.,.3. SALEH -UNIT l 3/4 3-57a _...-N .. A, .JM<N,A, JI<< tJ.A, ,,.j1IC' R R R R CHANNEL FUHCTIOHAL TISI R I Q* .* ' . .JUr tJ,A. -)Iii( Al. A. )II( H1 f-t I . .-tJ.A* .JJK f./. A. Amendment No. 155 
: u. Pr***urizer Saf*'V ""',,. itoaition             M                               JI<<    tJ.A,          .*
... -. E*S t/t t .illltl
Indicator
* MnYS 0 TWU6T* 2**:&
: 15. Containment Pr...ure - llarrow Range           M                             ,,.j1IC' ~            ..JUr  tJ,A.
A:&*J**
: 16. Conta.U..Ot Pruaure - Wide Range               M                               R                    )Iii( Al. A.
* JO 2dT*D*.a uodn Att*DT2ftlle2nw
: 17. Containment llater Level - llide Range         M                               R  ~"*-              )II( H1 f-t  I
*uedo *ATWA UOl2*tO*l .ao:&*tnmn==*
: 18. Core bit Tbe1WOCOUple*                         M                               R                    ..- tJ.A*
qow* 2wq2 Aq *q2uom IT .:red *=uo 2***t 2Y *p
: 19. Reactor V****l Level Inatrumentation Syat- (RVLIS)
* 2ft01(Dot Z911lod eq2 2wq2 6UTAJT.:r**
M                              R                    .JJK f./. A.
AQ 6T*d 000! .i*2**.a6
* unle** the bl0ck valve i* clo*ed in order to meet the requir..anta of Action b, or c in *pecification 3.,.3.
*l ezn***zd
SALEH - UNIT l                                       3/4 3-57a                                 Amendment No. 155
*q:&  
 
*A*P TC zed *=uo 2***! *= 0 UOl2ftlO* .ZC2*tnmn==*  
  ~
*q2 JO uc.aoq 6uTAJT.:S*A Aq 9amtOA 1fU*:& 10 u 10 ****.:rDUl e.n'f*o.
  -.                                           E*S t/t                        t .illltl
q=** .:re2;w *.:rnoq t PU* *A*p TC .:red eouo a***T *q .................................................................. . .....
* MnYS 0
S:.HIHJ'llnaz.
TWU6T* 2**:& UOT2De~UT A:&*J**
a::NiVTII&A-.os rwncxs 51d'lco5 fies X5Ri5aBt:
* JO 2dT*D*.a uodn Att*DT2ftlle2nw *uedo *ATWA UOl2*tO*l
.... ,., tit .. ...
      .ao:&*tnmn==* qow* 2wq2 6ulA1l~** Aq *q2uom IT .:red *=uo 2***t 2Y
=twull* in:
                                                                                      *p
A2*Jn
*~no~=ot u~ *~ qD2l~* 2ft01(Dot Z911lod eq2 2wq2 6UTAJT.:r** AQ 6T*d 000!
* JO vodn Att*=>l:w.c:nw edmnd flalAOtt01 9q2
u*q~ .i*2**.a6 *l ezn***zd a:>>~ *q:& ueq~ *A*P TC zed *=uo 2***! 2~          **=
.. 29'q2 6alA;l.Z*h
0 UOl2ftlO* .ZC2*tnmn==* *q2 JO UCl2*Z~U*DUOD uc.aoq eq~ 6uTAJT.:S*A Aq 9amtOA 1fU*:&    10 u ~ 10 ****.:rDUl e.n'f*o.
't *twa!l* 2**:
uo~2n101  q=** .:re2;w *.:rnoq t  UTq:&~M  PU* *A*p TC .:red eouo a***T ~y.     *q IP*nuT:&UO~) S:.HIHJ'llnaz. a::NiVTII&A-.os rwncxs 51d'lco5 fies X5Ri5aBt:z
* ao llOT2T*od
 
::>*.Z.ZO:>
                                                    ,., tit
*:l c: **:W"n::>* ADU Mt: Vl M.t*A =>l29902ftW it:>** klAJl.Z*h.
~**'ON :u~
t :Aq 'QAOP2ft'C{e 6uT=P '9'1:{2ilOlll It .t9d *:>ao 2***t 2Y '* 'GOl*O.Z.ZO:> .ZO ***.t:*TP tw.zn::>iu:1 JO *:>a.ptAa oa "&deg;"' 1*:>:* 'ell9*.t:>1
                                                                            ... -~.,,.~
'8'1=>*.z
                              =twull* in: UO'f2~~Vl A2*Jn
*:aeuodlllo:>
* JO 2dl*~.z vodn Att*=>l:w.c:nw ~:e edmnd flalAOtt01 9q2 JO~:>.. 29'q2 6alA;l.Z*h                      't
dim* a'C{: :9'{: .l"ft et.zqep }.q pe::>T.t:*a.z  
                *twa!l* 2**: aol2=>*~1" A~*J**
:ou *.t* 82*TVl UO'f::>ne
* ao llOT2T*od ::>*.Z.ZO:> *:l c: **:W"n::>* ~9d ADU Mt: Vl M.t*A =>l29902ftW                  it:>** 2~ klAJl.Z*h. t
.. 28A8qT\I :wq: 6VlA1l.Z*A puw dmnl 2U911ZUT*:uc:>
:Aq 'QAOP2ft'C{e 6uT=P '9'1:{2ilOlll It .t9d *:>ao 2***t 2Y    '*
a'C{2 JO UOT2:>9d*Vl twn*lA y 't 'P9it*nc:TW:**
                                'GOl*O.Z.ZO:> .ZO ***.t:*TP tw.zn::>iu:1 JO *:>a.ptAa oa  "&deg;"'    1*:>:* 'ell9*.t:>1 '8'1=>*.z ~**.z:> *:aeuodlllo:> dim* a'C{: :9'{:
S'T 1.J.l'IDaJ.Hl 119'1:{111 A.t:ua tWVH 6ut.tnp paw A.t:u* 2uauRltw:uc:>
        .l"ft et.zqep }.q pe::>T.t:*a.z :ou *.t* 82*TVl UO'f::>ne .. 28A8qT\I *~:
AQ :V911Nt*:ue:>
:wq: 6VlA1l.Z*A puw        dmnl  2U911ZUT*:uc:>  a'C{2 JO UOT2:>9d*Vl twn*lA    y  't
Vlq:t111 p*:=>*11*
                  'P9it*nc:TW:** S'T 1.J.l'IDaJ.Hl J.RIWNIY.UC~ 119'1:{111 A.t:ua tWVH
***.t* (POl.z*d *Al:n:1aeuc:> .tnoit ttl AllW'F *:>uo :***t :y PU'f '1.J.I'ICIJ.lll o: .zot.td aq: ;e ***-'*
      *~:   6ut.tnp paw A.t:u* 2uauRltw:uc:> AQ :V911Nt*:ue:> Vlq:t111 p*:=>*11*
tt* .zoJ '?
              ***.t* *~: (POl.z*d *Al:n:1aeuc:> .tnoit ttl AllW'F *:>uo :***t :y              '?
aq TTW\tl twn*tA Y.)O'l sucit::>ns dmnd aq: 10 VOl2=>l.t:**.z
PU'f '1.J.I'ICIJ.lll ~lY.1.MC~ 6ut~l'TT~*:**
**n*= pin dams :uawat*:uo:>
o: .zot.td  :v..utw:uc~      aq: ;e ***-'* *t~l***==>* tt* .zoJ
aq: o:
:p~o;.z*d aq TTW\tl vot::>~eut twn*tA st~~ **uot:~c:> Y.)O'l 6ut~ sucit::>ns dmnd aq: 10 VOl2=>l.t:**.z **n*= pin dams :uawat*:uo:> aq: o: p.~uw.z:
9ci Ptnc= sr.tn{111 2U9'1R:tw:uo:>
9ci Ptnc=    sr.tn{111 2U9'1R:tw:uo:> aq: Vl :v***.zd et 1*:>:* '&ul~:Ot:> JiV**.t:
aq: Vl :v***.zd et 1*:>:*
          '*6*.tl *l.tqep **oc1 ou :~: **t;t.tah q:>lq111 vot:o9d*vl ttrnsiA * ~I                -~
JiV**.t: '*6*.tl *l.tqep **oc1 ou **t;t.tah q:>lq111 vot:o9d*vl ttrnsiA
 
* PI.ANT SYSTEM&sect; SURVEILLANCE REQOIREMENTS
PI.ANT SYSTEM&sect; SURVEILLANCE REQOIREMENTS 4.7.6.l Bach control room emergency air conditioning *Y*tem filtration train
**********************************************************************
*hall be demanatrated OPERAllI.a:
4.7.6.l Bach control room emergency air conditioning
: a. At leaat once per 31 daya by initiating flow through the HEPA filter and charcoal adaorber train<*> and verifying that th* train<*>
*Y*tem filtration train *hall be demanatrated OPERAllI.a:
operate* with each fan operating for at leaat 15 minute*.
: a. At leaat once per 31 daya by initiating flow through the HEPA filter and charcoal adaorber train<*> and verifying that th* train<*> operate* with each fan operating for at leaat 15 minute*. b. At leaat once per 18 montha or prior to return to **rvice (l) after any *tructural maintenance on the HEPA filter or charcoal adaorber houainga, or (2) following painting, fire or chemical r*l**** in any V9ntilation zone COC1111W1icating with the *Y*tem, by: l. Verifying that the charcoal adaorbera remove a99t of a halogenated hydrocarbon refrigerant t**t ga* when they are te*t*d in-place while operating the ventilation 1yatem at a flow rate of 9000 cfm : lOt. 2. Verifying that the HBPA filter banka remove a99t of the DOP when they are teated in-place while operating.th*
: b. At leaat once per 18 montha or prior to return to **rvice (l) after any *tructural maintenance on the HEPA filter or charcoal adaorber houainga, or (2) following painting, fire or chemical r*l**** in any V9ntilation zone COC1111W1icating with the *Y*tem, by:
V9ntilation 1y1tem at a flow rate of 1000 cfm : lOt. 3. Verifying within 31 daya after removal that a laboratory anal yd* .of a carbon *ample from one of the charcoal adaorber*
: l. Verifying that the charcoal adaorbera remove a99t of a halogenated hydrocarbon refrigerant t**t ga* when they are te*t*d in-place while operating the ventilation 1yatem at a flow rate of 9000 cfm
demol19trates a removal *ff iciency of a9H for radioactive methyl iodide when the *ample i* teated at 30*c, 95t relative humidity.
: lOt.
: c. After every 720 hour* of charcoal adaorber operation by verifying within 31 day* after removal that a laboratory an.alyai*
: 2. Verifying that the HBPA filter banka remove a99t of the DOP when they are teated in-place while operating.th* V9ntilation 1y1tem at a flow rate of 1000 cfm : lOt.
of a carbon aample obtained frca a teat cani*t*r demonatrat**
: 3. Verifying within 31 daya after removal that a laboratory anal yd*
a removal efficiency of a Ht for radioactive methyl iodide when the aampl* i* teated at 3o*c, 9St relati'Y9 lwaidity.
            .of a carbon *ample from one of the charcoal adaorber* demol19trates a removal *ff iciency of a9H for radioactive methyl iodide when the *ample i* teated at 30*c, 95t relative humidity.
: d. At leut once per 11 llCllthm by: 1. VerifyiDg t.hat tm pru*ure drop aero** the combined RIPA filter and cMrcoal adaar!Mr baDk i*
: c. After every 720 hour* of charcoal adaorber operation by verifying within 31 day* after removal that a laboratory an.alyai* of a carbon aample obtained frca a teat cani*t*r demonatrat** a removal efficiency of a Ht for radioactive methyl iodide when the aampl* i* teated at 3o*c, 9St relati'Y9 lwaidity.
* 3.5 inch** water gauge while C!le ayat .. at a flow rate of aooo cfm: 10,. a__ . ; ""T"* 2. Veritlllal that ca a aafety injection t .. t *ignal or control room iDC..--ldp radiation teat aipal, the syat* autcmatically accuat .. iD*the pr .. aurisation modeby opening the outaid* air aupply and diverting air flow through the DPA filter and charcoal adaorber bank. J. Verifying that the ayat* can the control roo11 at a poaitive pre**ur* a 1/1* wat*r gauge relative to the adjacent area* du.ring syat* operation with makeup air being aupplied through th* BSPA filter* and charcoal adaorber*
: d. At leut once per 11 llCllthm by:
at th* d*aign mak*up flow rate of
: 1. VerifyiDg t.hat tm pru*ure drop aero** the combined RIPA filter and cMrcoal adaar!Mr baDk i*
* 3.5 inch** water gauge while
              ~ C!le ~tilation ayat.. at a flow rate of aooo cfm: 10,.
a__      . ;
          ~        ""T"*
: 2. Veritlllal that ca a aafety injection t ..t *ignal or control room iDC..--ldp radiation teat aipal, the syat* autcmatically accuat. . iD*the pr..aurisation modeby opening the outaid* air aupply and diverting air flow through the DPA filter and charcoal adaorber bank.
J. Verifying that the ayat* can main~in the control roo11 at a poaitive pre**ur* a 1/1* wat*r gauge relative to the adjacent area* du.ring syat* operation with makeup air being aupplied through th* BSPA filter* and charcoal adaorber* at th* d*aign mak*up flow rate of
* 2200 cfm.
* 2200 cfm.
3/4 7-20 Amendment No.190
s~ ON~~{~                            3/4 7-20                       Amendment No.190
?LANT SYSTEMS LIMITING CCllDlTION FOi OPERATION  
 
********---------
  ?LANT SYSTEMS LIMITING CCllDlTION FOi OPERATION ACTION:          ...............~-------*********************************
...............
MODU. 5 And 6* or duri.nq movem*nt of irradiU*d !ud assemblies. *
MODU. 5 And 6* or duri.nq movem*nt of irradiU*d  
: a. With one chill*r i.nop*r*bl*:
!ud assemblies.
l.
* ACTION: a. With one chill*r i.nop*r*bl*:  
Remov* th* appropri*t* non-ess*ntial h**t lo*ds from the chilled w*t*r syst*m within 4 hours and; OPE~A-SL 2.
: l. 2. 3. Remov* th* appropri*t*
Restor* the chill*r to ''*rael~ status within 14 days or;
non-ess*ntial h**t lo*ds from the chilled w*t*r syst*m within 4 hours and; Restor* the chill*r to status within 14 days or; Suspend CORE ALTERATIONS and movement o! irradiated fuel assemblies.  
: 3. Suspend CORE ALTERATIONS and movement o! irradiated fuel assemblies.
: b. With two chillers inop*r*ble:  
: b. With two chillers inop*r*ble:
: c. l. Remove the appropriat*
: l. Remove the appropriat* non-essential heat loads from th*
non-essential heat loads from th* chilled wat*r syst*m within 4 hours and; 2. Aliqn the control room em*rqency  
chilled wat*r syst*m within 4 hours and;
*ir conditioninq system (CREACsl !or sin;l* !iltr*tion operation usinq th* Salem Unit 2 train within 4 hours and; oPe"fZABt.G  
: 2. Aliqn the control room em*rqency *ir conditioninq system (CREACsl !or sin;l* !iltr*tion operation usinq th* Salem Unit 2 train within 4 hours and; oPe"fZABt.G
: 3. Restore at least on* chille-r to ''**181* st*tus within 72 hours or; 4. Suspend CORE ALTERATIONS and movement of irradiated fuel assemblies.
: 3. Restore at least on* chille-r to ''**181* st*tus within 72 hours or;
D pG'e.A6L-G" With one pump inoperabl*, restor* :he chilled pump to opetable st*tus within 7 days or suspend CORE ALTERATICNS and movement of irradiated fuel asselllbli*s.
: 4. Suspend CORE ALTERATIONS and movement of irradiated fuel assemblies.           D pG'e.A6L-G"
SURVEILLANCE REQUIREMIH'l'S  
: c. With one   chill*~*r        pump inoperabl*, restor* :he chilled     ~ater pump to opetable st*tus within 7 days or suspend CORE ALTERATICNS and movement of irradiated fuel asselllbli*s.
.......................................................................
SURVEILLANCE REQUIREMIH'l'S 4.7.lO     The chilled water loop which servic*s the saf*ty*r*l*t*d loads in the Auxiliary Buildin; shall be demonstrated OPERABLE:
4.7.lO The chilled water loop which servic*s the saf*ty*r*l*t*d loads in the Auxiliary Buildin; shall be demonstrated OPERABLE:  
: a. At leaat once per 31 day1 by verifyin; that *ach manual valve in ~he
: a. At leaat once per 31 day1 by verifyin; that *ach manual valve in water 1y1t .. flow path serv1c1n; safety r*l*t*d components thlllti* not locked, sealed, or otherwise secured in position, is ln i ta correct poai ti on. b. At leut once per 11 montJ:ls, by verityin;  
            ~led water 1y1t.. flow path serv1c1n; safety r*l*t*d components thlllti* not locked, sealed, or otherwise secured in position, is ln i ta correct poai ti on.
.. that each automatic valve actuates to it1 correct position on a Safe;uards Initiation signal. c. At le*st once per 92 days by verifyin; that each chiller starts and runs.
: b. ~*At leut once per 11 montJ:ls,       by verityin; .. that each automatic valve actuates to it1 correct position on a Safe;uards Initiation signal.
: c. At le*st once per 92 days by verifyin; that each chiller starts and runs.
* Ourinq Modes 5 and 6 And durinq movement of irradiat*d fuel assemblies, chilled wat*r components are not consid*r*d to be inoperable solely on th* basis that th* backup emer9*ncy power
* Ourinq Modes 5 and 6 And durinq movement of irradiat*d fuel assemblies, chilled wat*r components are not consid*r*d to be inoperable solely on th* basis that th* backup emer9*ncy power
* Jil is inoponblo.
* Jil s~H~?5ntor, is inoponblo.
SALEM -UNI 3/4 7-34 Amendln*nt No.
SALEM - UNI                     ~        3/4 7-34                       Amendln*nt No. :;~
... EN'T'ICH pqge 'XIT" ******************************************************************************
 
c> Verifying tlsat all none**.atial automatic die .. 1 generator trip* (i.e., otaer than engine overspeed, lube oil pr***ure low, 4 rv bu9 differeatial and g.aerator differe11tiall . ara auco.atic:ally bypa**ed upon lo** of volta9e Oil ca. vital bu. concurrent witll a *afety injection accu.ation  
EN'T'ICH pqge 'XIT" c>   Verifying tlsat all none**.atial automatic die..1 generator trip* (i.e., otaer than engine overspeed, lube oil pr***ure low, 4 rv bu9 differeatial and g.aerator differe11tiall . ara auco.atic:ally bypa**ed upon lo** of volta9e Oil ca. vital bu.
*i911&l. 7. Verifying t!M di***l generator operate* for at lea*t 24 hcur1*. D\lrin9 the fir*t 2 bou.r* of chi* t**t. ca. di***l 9.a.rator  
concurrent witll a *afety injection accu.ation *i911&l.
*hAll be loaded to 2710*2110 Jnr.** D\lring th* r ... ini119 22 bour* of thi* te.c, tbe diHel generator  
              ~~
*ball be loaded to 2500-2100  
: 7. Verifying t!M di***l generator operate* for at lea*t 24 hcur1*.
>cw**. Th* aceady .Cate volta9* and frequ8ftey  
D\lrin9 the fir*t 2 bou.r* of chi* t**t. ca. di***l 9.a.rator *hAll be loaded to 2710*2110 Jnr.** D\lring th* r ... ini119 22 bour* of thi*
*ball be *incained at
te.c, tbe diHel generator *ball be loaded to 2500-2100 >cw**. Th*
aceady .Cate volta9* and frequ8ftey *ball be *incained at
* 3950 and
* 3950 and
* 4510 volt* and 10 t l.2 Bl during thi* te*t. I. Verifying that the auto-connected loacb to each di***l generator do not exceed the two hour rating of 2HO kw. 9. Verifying that with the die**l generator operating in a te1t mode (connected to it* bu.I. a aimulated aafety 1nJ*ction  
* 4510 volt* and 10 t l.2 Bl during thi* te*t.
*ignal override*
I. Verifying that the auto-connected loacb to each di***l generator do not exceed the two hour rating of 2HO kw.
the teat mode by Ill returni119 the di***l generator to operation and (21 automatically energizing the emergency loacb with off*it* power. ** At l***t once per ten year* or after any modification*
: 9. Verifying that with the die**l generator operating in a te1t mode (connected to it* bu.I. a aimulated aafety 1nJ*ction *ignal override* the teat mode by Ill returni119 the di***l generator to atan~ operation and (21 automatically energizing the emergency loacb with off*it* power.
which could &!fee: di***l generator interdependence by 1tartin9 all dieael generator*
    **     At l***t once per ten year* or after any modification* which could &!fee:
simultaneou*ly*, during ahutdown.
di***l generator interdependence by 1tartin9 all dieael generator*
and verifying thAt all di***l generator*
simultaneou*ly*, during ahutdown. and verifying thAt all di***l generator* accelerate to at lea*t 900 rpa in le** than or *~l to lO 1eco~.
accelerate to at lea*t 900 rpa in le** than or to lO  
: f.     At lea*t once per 11 montha, the following te*t 1h&ll be performed w1th1n s m1nut** of die*el ahutdovn after th* dieael hA* operated for at lea1t two hour* at 2500*2100 kw":
: f. At lea*t once per 11 montha, the following te*t 1h&ll be performed w1th1n s m1nut** of die*el ahutdovn after th* dieael hA* operated for at lea1t two hour* at 2500*2100 kw": verifying the di***l atart* and accelerate*
verifying the di***l atart* and accelerate* to 900 rpa in l*** th&n or equal to 10 aeconda*. Tb* generator voltage and frequency 1hAll be a 3950 volt* and
to 900 rpa in l*** th&n or equal to 10 aeconda*.
* 4510 volt* and 10 t l.2 Hz within ll aeconcb after the start ai911&l.
Tb* generator voltage and frequency 1hAll be a 3950 volt* and
4.B.l.l.l The di***l fuel oil atorag* and tranafer *Y*tem *hall be demcnatrated OPIL\al.I:
* 4510 volt* and 10 t l.2 Hz within ll aeconcb after the start ai911&l. 4.B.l.l.l The di***l fuel oil atorag* and tranafer *Y*tem *hall be demcnatrated OPIL\al.I:  
: a.   *At l***t once per ll '1aya by:
: a. *At l***t once per ll '1aya by: l. Verifying the level in each of th* above required fuel 1corage tank*. 2. Verifying th&t both fuel cran1fer pump* can be atarted and tranafer fuel from th* fuel 1corage tanlca co the day tank* . SA.I.EM
: l. Verifying the level in each of th* above required fuel 1corage tank*.
* UN l:T l l/4 1*5 Amendment No. . . -: I w StJ'RVSII.I.AllCS (Continued)  
: 2. Verifying th&t both fuel cran1fer pump* can be atarted and tranafer fuel from th* fuel 1corage tanlca co the day tank* .
-------------------------------------------
SA.I.EM
: b. At leaat onae per 12 day* by .,.rityiq that a *a-.l* of di***l fuel traa each of th* required fuel atorap tank* ia w:i thin the ac:oepta>>le liaita apecU.f:ied in Table 1 of AS'l'N Dl75-77 when checked for vi*coaity, water and aed.iamnt.
* UN l:T l                       l/4 1*5                   Amendment No. .. -
t.1.1.1.t  
: I w
!!porta -ll0'1' OlaD
 
* Surv9illuaae teati119 *hall be conduc:ted in ac:c:ordance with the recJarclin9 en9in* pr*lube, waza-up and loac:li119 Cmal*** loadiq time* are apec:ified in the individual lurv'9illuaae a.qairem.nta).  
I StJ'RVSII.I.AllCS l&QUI~s        (Continued)
*
: b.         At leaat onae per 12 day* by .,.rityiq that a *a-.l* of di***l fuel traa each of th* ~ required fuel atorap tank* ia w:i thin the ac:oepta>>le liaita apecU.f:ied in Table 1 of AS'l'N Dl75-77 when checked for vi*coaity, water and aed.iamnt.
* Thi* band ia_ -ant .aa --CJUidanc:e to--preclua  
t.1.1.1.t       !!porta - ll0'1' OlaD
-routine exc:eedanc:e*
* Surv9illuaae teati119 *hall be conduc:ted in ac:c:ordance with the man~acttaze~** ~ndationa              recJarclin9 en9in* pr*lube, waza-up and loac:li119   Cmal*** loadiq time* are apec:ified in the individual lurv'9illuaae a.qairem.nta).
of the d.:i***l generator deaip ratiqa. Loac:U in ezc*** of thJ.s band for apecial teatiq or ._..ntary variation*
**     Thi* band ia_ -ant .aa --CJUidanc:e to--preclua -routine exc:eedanc:e* of the d.:i***l generator ~utac:turer'* deaip ratiqa. Loac:U in ezc*** of thJ.s band for apecial teatiq or ._..ntary variation* due to chan91n9 bua loada *hall not invalidate the t*at.
due to chan91n9 bua loada *hall not invalidate the t*at. SALDI -CHIT 1 3/t 1-5* Amendamnt No. 203
SALDI - CHIT 1                               3/t 1-5*                   Amendamnt No. 203
... s:;,,;;;;:a:;:n;.  
 
;cwp nsnm ** __ mu 1conuouod1
s:;,,;;;;:a:;:n;. ;cwp       nsnm
* a:* l. ;* Th* ccnneccion re1:i.1c&nce u:
__ mu             1conuouod1
* a:*
: l. ;* Th* ccnneccion re1:i.1c&nce u:
* lSO m:i.crc ohlna for :i.ncer-cell cannecc:i.ona.
* lSO m:i.crc ohlna for :i.ncer-cell cannecc:i.ona.
* 35.0 m:i.cro ohnll for :i.ncer-rack CQN\ecc1on1.
* 35.0 m:i.cro ohnll for :i.ncer- rack CQN\ecc1on1.
* lSO m:i.cro ohnll for :i.ncer-t:i.er caNiect1on1.
* lSO m:i.cro ohnll for :i.ncer-t:i.er caNiect1on1.
* 1 0 m:i.cro chnla fer field cal:ll* cerm:i.n.al cennecc1ons. * :soo m:i.cro ohnll fer the total battery connect1or.
* 1 0 m:i.cro chnla fer field cal:ll* cerm:i.n.al cennecc1ons. ~~j
re111tAnce which 1nclude1 all inter-cell bus bar1l. all :i.nter-rac:ll conzlect:i.on1 cal:ll* rea:i.1cance1.
                                    * :soo m:i.cro ohnll fer the total battery connect1or.
all 1.Ater*t:i.er connect:i.en*  
re111tAnce which 1nclude1 all inter-cell connec:~:ns i:i.nclud:i.~g bus bar1l. all :i.nter-rac:ll conzlect:i.on1
!including cable re1:i.1e.ncel, and all tenn:i.nal connecc:i.on1 at th* battery. ** At lease once per ll mcnth1 by ver:i.fyiDIJ that th* battery charger w:i.ll supply at lea1t 110 ampere* at llS vcltl for at lea1c heur1 . .,.. f. At least once per U month*. durinCJ by venfy:i.ng that th* battery capacity 11 ta 1upply and  
(:&.nclud~ng cal:ll* rea:i.1cance1. all 1.Ater*t:i.er connect:i.en* !including cable re1:i.1e.ncel, and all e~eld
:i.n OPER.AaLI 1tatu1 all of the actual or 1111Nlated emergency load* for th* de1ign duty cycle when en. battery i* sub]ected te a battery service te1t. g. At lea1t once per 'O monthl. during shutdown, by ver:i.fy:i.ng that th* battery capacity :i.* at l***t IOt of th* mAnufaccurer*1 ratinCJ when to a perfon1&nc*
              **                    tenn:i.nal connecc:i.on1 at th* battery.
discharge te1c. Sati1factory ccmpletiCD of thil perfor.ftance d:i.1charge teat 1hall al10 1ati1fy th* r911Uir.-.nt1 of Spec:i.!*
                    **       At lease once per ll mcnth1 by ver:i.fyiDIJ that th* battery charger w:i.ll supply at lea1t 110 ampere* at llS vcltl for at f.
4.1.2.J.2.f if th* perfor..nce cli1charge test u co:-..
                      .,.. lea1c ~ heur1 .
duriA9 a 1hutdown where tMC t**C and th* battery 1ervic* teat would both be required.  
At least once per U month*. durinCJ sh~dcwn, by venfy:i.ng that th* battery capacity 11 ade~te ta 1upply and rna:i.nta:i.~
: h. Ac l***C one:* per* 12 lllOllthl, duriniJ 1buUuin, if th* battery 1how8 1ig119 or deciradacion ga hA* readlmll 1st or ch* service life wiell a capacity le** thaa 1oot or ...aufactur*r*
:i.n OPER.AaLI 1tatu1 all of the actual or 1111Nlated emergency load* for th* de1ign duty cycle when en. battery i* sub]ected te a battery service te1t.
rating. by vec:UyiDI tn&C cu battery capacity ia ac luac IOt of th*
: g.       At lea1t once per 'O monthl. during shutdown, by ver:i.fy:i.ng that th* battery capacity :i.* at l***t IOt of th*
* raeint wt\ea wbjeccecl to a perfonianc* ceac. Degradation i* indicated wtwa ch* battery -..ci.cy ckop8 more than iot of rated fr=-it*
mAnufaccurer*1 ratinCJ when *~J*cted to a perfon1&nc*
* c:apmciey GD the previoua perfor1Mftc:*
discharge te1c. Sati1factory ccmpletiCD of thil perfor.ftance d:i.1charge teat 1hall al10 1ati1fy th* r911Uir.-.nt1 of Spec:i.!* ~*tion 4.1.2.J.2.f if th* perfor..nce cli1charge test u co:-.. ..o~tecl duriA9 a 1hutdown where tMC t**C and th*
c.-, or i* below 90t of Ciiia Mm&fact\&l'er**
battery 1ervic* teat would both be required.
racing. i. -*Ac l***C once per 24 lllOftthl.
: h.       Ac l***C one:* per* 12 lllOllthl, duriniJ 1buUuin, if th* battery 1how8 1ig119 or deciradacion ga hA* readlmll 1st or ch* service life wiell a capacity le** thaa 1oot or ...aufactur*r* rating.
* durift9 1tmcc1DWD.
by vec:UyiDI tn&C cu battery capacity ia ac luac IOt of th*
if tho battery hAa reached 1st of th* service life wit!& capacity greater than or equal co 1oot of manufacturer*
                              ~aft11ftr'
rac1D1. by verifying th* batcer/ capacity i* ac leaac lot of Che manufacturer**
* raeint wt\ea wbjeccecl to a perfonianc*
ratift9 vhen to* perfcr111&Dc*
                              ~ ceac.                 Degradation i* indicated wtwa ch* battery
t**t.
                          -~ -..ci.cy ckop8 more than iot of rated ~city fr=- it*
J/4 1*9a Amendment No 1@0 SUl.VIIIJ..\MCI l!QUtllM!MTS (Concinued)
* c:apmciey GD the previoua perfor1Mftc:* c.-, or i* below 90t of Ciiia Mm&fact\&l'er** racing.
_ .2. -Th* pUoc cel.1 1pecitic 1rav1cy, correcced co n*r. and ! 11 eleccrolyc*
: i. -   *Ac l***C once per 24 lllOftthl.
level, 1* 1reacer Chan or co l.200. u l. The piloc cell volc*1e L* 1reacer chan or co 2.oa voles. 4. The overall baccery volca1* 11 1reacer chan or eq1.&&l co 27 volc1. b. Ac leaac once per 92 dAy1 by ver1fy1n1 chac: 1. The volca1* of **ch connected cell 11 1r*acer chan or *qu*l co 2.ll volc1 \U\der floac chars* ancl haa noc decr****d  
* durift9 1tmcc1DWD. if tho battery hAa reached 1st of th* service life wit!& capacity greater than or equal co 1oot of manufacturer* rac1D1. by verifying
=ore ch&n 0.27 vole* froa che val\ae ob1erved che original accepcanc*
                                ~~at th* batcer/ capacity i* ac leaac lot of Che manufacturer** ratift9 vhen *~Jecced to* perfcr111&Dc*
ce1c. 2. The *1*cit1c 1ravt.cy, corrected co n*r and !1.&11 *hccrolyce level, of 1acb connected cell 11 1reac1r chan or *qi.&&1 ca 1.200 and ha1 noc decr1a11d more chan 0.02 froa ch* val"'9 ob1erved d\&%tn1 ch* pr1vio"8 c11c. 3. Th*
        .~charge t**t.
level of *acb coanecc1d call 11 bei:v1en ch* *inia\MI and aas1mua 11v1l irwilcacion aars.. c. Ac hue oN:a per 11 Mnch1 by verifyiq chac: 1. The cell*, cell plac11 and bacceiy rack.a 1how no vt1U&l 1nd1cac1on of phy1ical c&aaa1* or abnanaal decerioracion.
SAL--;~                                              J/4 1*9a                         Amendment No 1@0
2."* The cell*to*c*ll and ceraiul coanecctona are dean, ci&hc. and coacad vtch anct*corro11on  
 
.. cerial. 3. The bacca17 char11r vill "'l'PlY ac leuc 150 amper11 ac 29 volt* for ac leuc
SUl.VIIIJ..\MCI l!QUtllM!MTS (Concinued)
* ho1.&r1. Ac leaac once per 11 llOftCiw, durtn11hucclown, by verifyin1 chat .. the bacce17 Cafa&lCJ 11 auquace Co l\lfply and .. tnta1n in OPERAJU 1cat11a all of cbA &eC\lal or 11aaalac1d  
_ .2.     -Th* pUoc cel.1 1pecitic 1rav1cy, correcced co n*r. and !
... r11nc7 load.a for.ch* d111gn1 d1.&C, cycle wMD cbe baccary 1* 1ul>>Jecce4' ce a bacc117 1ervtc1 cue. 1. AC 1 ... c oma ,., 60 MftW. durlftl 1bucckMl, by verifyiftl chac cbe bacca17 *atae1CJ 1* ac hue IOt of the 1 racing ve..a aultJ .. ca4' co a parforaanc*
eleccrolyc* level, 1* 1reacer Chan or *q~l co l.200.       u 11
dl1cb&r1*
: l.     The piloc cell volc*1e L* 1reacer chan or *q~l co 2.oa voles.
c11c. Saci1faccory c..,lecl .. *f chi* perfor.ance d11cbar1*
: 4.       The overall baccery volca1* 11 1reacer chan or eq1.&&l co 27 volc1.
c11c 1ball al10 1aci1fy ch* r-.air .... ef Speclficacion 4.1.2.5.2.d if the perfor.anc1 d11charp ceac 1* conducced du.riq
: b.       Ac leaac once per 92 dAy1 by ver1fy1n1 chac:
* atnacdown vh*r* we cHc and cM -.cc117 .1erric* ceac W\&ld ,bocta be H4"1irecl  
: 1.       The volca1* of **ch connected cell 11 1r*acer chan or *qu*l co 2.ll volc1 \U\der floac chars* ancl haa noc decr****d =ore ch&n 0.27 vole* froa che val\ae ob1erved d~rtn1 che original accepcanc* ce1c.
* ... SAU:K
: 2.       The *1*cit1c 1ravt.cy, corrected co n*r and !1.&11 *hccrolyce level, of 1acb connected cell 11 1reac1r chan or *qi.&&1 ca 1.200 and ha1 noc decr1a11d more chan 0.02 froa ch* val"'9 ob1erved d\&%tn1 ch* pr1vio"8 c11c.
* UNIT 1 3/4 1*12 Ameftdmenc Mo. 111
: 3.       Th* 1l1ccroly~* level of *acb coanecc1d call 11 bei:v1en ch*
. -. IL. I tt*I t/t t .i:um -NnYs *pedt89P *.* 80la:tUl\J  
                      *inia\MI and aas1mua 11v1l irwilcacion aars..
*aTU.Tt:t
: c.     Ac hue oN:a per 11 Mnch1 by verifyiq chac:
* pvw *.zmrwuq atn:azro s-ea*t-**
: 1.       The cell*, cell plac11 and bacceiy rack.a 1how no vt1U&l 1nd1cac1on of phy1ical c&aaa1* or abnanaal decerioracion.
PY* A*tu 11n*
2."* The     cell*to*c*ll and ceraiul coanecctona are dean,     ci&hc.
paw .. uA* 10 aota*n=* DTa99Danw P9a*t..,*  
and coacad vtch anct*corro11on ..cerial.
**PfttDVl 1fD"" ***a tWUO'JWRJ  
: 3.       The bacca17 char11r vill "'l'PlY ac leuc 150 amper11 ac 29 volt* for ac leuc
*a*.'8 ..... * .,, wy pn 'd9tu Hla:tewd s-ea*tooe**
* ho1.&r1.
eqa 10  
d.~ Ac         leaac once per 11 llOftCiw, durtn11hucclown, by verifyin1 chat the bacce17 Cafa&lCJ 11 auquace Co l\lfply and .. tnta1n in OPERAJU 1cat11a all of cbA &eC\lal or 11aaalac1d ... r11nc7 load.a for.ch* d111gn1 d1.&C, cycle wMD cbe baccary 1* 1ul>>Jecce4' ce a bacc117 1ervtc1 cue.
'J8lllllllllil
: 1. AC 1... c oma ,., 60 MftW. durlftl 1bucckMl, by verifyiftl chac cbe bacca17 *atae1CJ 1* ac hue IOt of the         um&fac~*r' 1   racing ve..a aultJ ..ca4' co a parforaanc* dl1cb&r1* c11c. Saci1faccory c..,lecl. . *f chi* perfor.ance d11cbar1* c11c 1ball al10 1aci1fy ch*
* C*> :10 *:tn.ao1aed ,..,, ... CL aed NUO u**t ** l'llWO en  
r-.air....~ ef Speclficacion 4.1.2.5.2.d if the perfor.anc1 d11charp ceac 1* conducced du.riq
-.. antou .aou.u tt9 awqa  
* atnacdown vh*r* we cHc and cM -.cc117 .1erric* ceac W\&ld ,bocta be H4"1irecl
'aTuzto dmlld antom a""9.t Al tt*t eao .... t ** r*t . ISUU* It aed U**t IY *w *l'JIWl*o peaw.aanomp eq ttwtf* **tMP utwewd
* SAU:K
* an:Japuoo 90'Ja*a'9Ued PN"J..._, tty t*r*t*t  
* UNIT 1                         3/4 1*12           Ameftdmenc Mo. 111
.. .......................  
 
............. . .. **.anoq Ot 6uT-.OttOJ eqa V'fqlTA ""O"!'RI enc= vi ,... ...... ' .-.u eqa vtqatA illClllYU .liOll ***t ** UT .. *q . ao 1na1**a9'fa
IL. I tt*I t/t                             t     .i:um - NnYs
*Awp L aed *:nao ****t P9ACll99.I ao aao P9llD*.1 *Dt.wp dmrowq ao .taw.,ad 9'12 ao 'p9ddtaa *q *=lMll dtarowq .ao Anwt.1d 9'12 AJT.Zh pvw '*tcrwaedolrr IU9Uod9oo .ao .... "8 P91MU* aqa *ntHP '*.znoq EL Vl'l2TA *=l*9P drurowq .ao A.a9wtad eqa lvTA099.1 .ao ano 6vl1fo*.1 ao '*:tt**P dftJID*q ao A.a9wtad eqa aaqat* lvtddt.za Aq C*>atu.zto eqa ao *nawa1 l'tl.,...o oa hta:>>*ao.zd eqa aaoa*-. ** **tqwa..Sou1 C*)*DT**P
                            *pedt89P *.* 80la:tUl\J *aTU.Tt:t *t~a=
**TW.Wd aoa:>>npuoo uota*.zaauad aue.u1*auo:t pea1n1>>a.z 10 a.a* ao euo 1fllA *ldflfl5V "rtlY*l*o 9C( tTWlf* 8VOT**.zaauad JO UOT=*ao.zd 9PTAO.ad oa
pvw *.zmrwuq atn:azro s-ea*t-** PY* A*tu 11n*           *~
**=,**P **la:te'&deg;"'4 aueua:aa*ot.0 aua.r,*auoo tty t*r*1*r ** pvw t 'r 't naow *Ui1fiV5ficH
  ~u~h;~.1*A paw . .uA* ~ 10 aota*n=* DTa99Danw P9a*t..,*
................................................................
            **PfttDVl 1fD"" ***a tWUO'JWRJ *a*.'8 .....~* .,, wy         *~,
***-* *._ .;-_ i25%Xid &#xa3;\il5ildid lRIAifbdi iiSfWl'D f 'I flt ikiliXS iiA&i JiSi Wi'li
pn   'd9tu Hla:tewd s-ea*tooe** eqa 10 llO%~Yal'ft:) 'J8lllllllllil
*1
* C*>
* Document Control Desk Attachment 3 ' INSERT 1 LR-N990005 LCR S98-04 A one time extension to this surveillance requirement which is satisfied by performance of the Manual SI test is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
:10 *:tn.ao1aed ~ ,..,,... CL aed NUO u**t ** l'llWO pen.za*~ en **t~o -.. antou .aou.u tt9 awqa
* INSERT2 A one time extension to this surveillance requirement for performance of relay time response and sequence testing of the safeguard equipment control (SEC) system, which partially satisfies the surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
        ~=n* 'aTuzto dmlld antom a""9.t Al tt*t eao ....t ** ~ r*t
INSERT 3 A one-time extension to this surveillance requirement is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
                                                                .       ~-- ~
INSERT4 A one time eXtension to this surveillance requirement for inspection calibration and meggaring of the 1 F 4KV Bus overload relays, which partially satisfies this surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance testing is to be completed at the.appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
ISUU* It aed ~ U**t IY                       *w
INSERT 5 A one time extension to this surveillance requirement for inspection calibration and meggaring of the 1A, 1 B, and 1 C 460 transformer relays and CT's, which partially satisfy this surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance Document Control Desk Attachment 3
                                    *l'JIWl*o peaw.aanomp eq ttwtf* **tMP utwewd
* LR-N990005 LCR 898-04 testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion }}
* au*.z~uo an:Japuoo 90'Ja*a'9Ued au~wauo:t PN"J..._, tty                       t*r*t*t
  ~..............................          .. ....................... ............. ...
                                      **.anoq Ot 6uT-.OttOJ eqa V'fqlTA ""O"!'RI enc= vi ,... ...... ' .-.u eqa vtqatA illClllYU .liOll    ***t **   UT . .         *q .
ao 1na1**a9'fa *Awp L aed *:nao      ****t
    ~* P9ACll99.I ao aao P9llD*.1 *Dt.wp dmrowq ao .taw.,ad 9'12 ao 'p9ddtaa
*q c~ *=lMll M-T~d dtarowq .ao Anwt.1d 9'12 AJT.Zh pvw '*tcrwaedolrr IU9Uod9oo .ao ...."8 P91MU* aqa *ntHP '*.znoq EL Vl'l2TA
          *=l*9P drurowq .ao A.a9wtad eqa lvTA099.1 .ao ano 6vl1fo*.1 ao '*:tt**P
  *Al,=*~o.1d dftJID*q ao A.a9wtad eqa aaqat* lvtddt.za Aq C*>atu.zto eqa
  *zT6~*u*-*p ao *nawa1 l'tl.,...o oa C*>*o~.ep hta:>>*ao.zd eqa aaoa*-.                     **
                                                        **tqwa..Sou1
~u*~~n=~*Ao aoa:>>npuoo uota*.zaauad aue.u1*auo:t pea1n1>>a.z        *~* C*)*DT**P      **TW.Wd 10 a.a* ao euo 1fllA
                                                                                              *ldflfl5V
                                                    ** pvw t 'r 't naow *Ui1fiV5ficH "rtlY*l*o 9C( tTWlf* 8VOT**.zaauad JO UOT=*ao.zd tww.zaq~ 9PTAO.ad oa P9.ZT~.I
**=,**P **la:te'&deg;"'4 aueua:aa*ot.0 ao~npuoo uol~*.za*ued aua.r,*auoo tty                    t*r*1*r i25%Xid &#xa3;\il5ildid lRIAifbdi iiSfWl'D f 'I flt ikiliXS iiA&i JiSi Wi'li
 
*1 Document Control Desk Attachment 3
* LR-N990005 LCR S98-04 INSERT 1 A one time extension to this surveillance requirement which is satisfied by performance of the Manual SI test is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
* INSERT2 A one time extension to this surveillance requirement for performance of relay time response and sequence testing of the safeguard equipment control (SEC) system, which partially satisfies the surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13).
The surveillance testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
INSERT 3 A one-time extension to this surveillance requirement is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13).
The surveillance is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
INSERT4 A one time eXtension to this surveillance requirement for inspection calibration and meggaring of the 1F 4KV Bus overload relays, which partially satisfies this surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance testing is to be completed at the.appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
INSERT 5 A one time extension to this surveillance requirement for inspection calibration and meggaring of the 1A, 1B, and 1C 460 transformer relays and CT's, which partially satisfy this surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance Document Control Desk
* LR-N990005 LCR 898-04 testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion
                                    }}

Latest revision as of 09:25, 23 February 2020

Proposed Tech Specs Allowing Plant Operation to Continue to Thirteenth Refueling Outage (1R13),currently Scheduled to Begin on 990918
ML18106B159
Person / Time
Site: Salem PSEG icon.png
Issue date: 03/31/1999
From:
Public Service Enterprise Group
To:
Shared Package
ML18106B158 List:
References
NUDOCS 9904140021
Download: ML18106B159 (19)
v  d  e


Text

Document Control Desk LR-N990149 Attachment 3 Supplement to LCR S98-04 SALEM GENERATING STATION UNIT N0.1 SUPPLEMENT TO CHANGE TO TECHNICAL SPECIFICATIONS DEFERRAL OF SURVEILLANCE REQUIREMENTS TECHNICAL SPECIFICATION PAGES WITH PROPOSED CHANGES Technical Specification 4.1.2.2.c 3/4 1-9 Table 4.3-1 3/4 3-11 Table 4.3-1 Note (4) 3/4 3-13 4.3.2.1.3 3/4 3-14 Table 4.3-2 item 1a 3/4 3-31a Table 4.3-11 3/4 3-57 Table 4.3-11 item 17 3/4 3-57a 4.5.1.d 3/4 5-2 4.5.2.e.1 3/4 5-5 4.7.6.1.d.2 3/4 7-20 4.7.10.b 3/4.7-34 4.8.1.1.2.d.7 3/4 8-5 4.8.1.1.2.d.7 (footnote) 3/4 8-5a 4.8.2.3.2.f 3/4 8-9a 4.8.2.5.2.c.2 3/4 8-12 4.8.2.5.2.d 3/4 8-12 4.8.3.1.a.1 3/4 8-14 I 9904140021 990331 -

I PDR ADOCK 05000272 P PDR

!llCmaT! ccarn, ..,.,..

c.11:: A& 1-c*aace pes 11 mnm. duriD9 abucdilMs by V9rityiA9 Cbac

..cm auccmacic: val" in cu flow pach ac:cuac** to it* correc:c po9itica ca a .a!ecy injeccica U*C eigaal.

d, Ac l***C once per 11 mnch9 by verifyiq Cbat the flow path required by 81>9C:if icacica 3 .1. 2. 2, a d9U. ver* ac leuc ll gs- to th* Reactor Coolant Sy*t-.

Amendment No. 145 SAT IM

  • 01'1T l 3/4 1*'

TABLE t.3-1 CllANHl:L NODES nr llBICM CllAIDIKL l'UllCTIOHAL SUllWILLAllCE casca l"OHCTIOllAL OllIT CALIUATIOH T&ST UQUI!f!>

1. lllanual . .actor 'Irie ....... M.A. M.A. 1, a,* ..... *
2. i>CMMr 8ange, 11euc.na n- s 0121' Niii Q 1, 2, and'J*

and 0 1* 1

3. Power aanp, *utroa Wlua, M.A. **** Q 1, 2 8igb l'oaili,,. aac.
t. Power llaft99, ...uuoa *lua, II.A. **** Q 1, 2 8igb llegalive aac.
5. Intelm9Cl.i.ate .....,., . .utroa *lua a S/0 111 1, 2 and
  • s*'* , Q and S/0 111

'*., . aouroe .....,., . .utroa *lua 2, 3, t, 5 And e OV'ertellferatuze A'I s a Q 1, 2

    • OV'ezpot19r AT
  • a Q 1, 2 I. Preaauri . .r *reaaw:e--1.ov
  • a Q 1, 2
10. *reaauri. .r >>zeaaw:e--tigb
  • a Q 1, 2
11. >>reaauri . .r Water i.v.1--8igb a a Q 1, 2
12. Lo** of *low - 8ingl* Loop
  • R Q 1 UNIT l 3/4 3-11 Amendment No. 205

Tt911 +.1-1 <Conti.:ued>

  • Wi~ tM re.eta trip *Y*C* bl'e&ker* clo*ecS and the coatrol roct dri'V'9 9YWC* ~le Of l'od withdrawal.

(1)

  • If not pel'foZ994 ill previoua ll day*.

(l)

  • Heat balance only, UoV9 lH of IATID IUIJal. POWD.

( l)

  • COft!P&r* incore to e.xcore axial off *et a>>ove 15t of IATID TBSIJ0.1.

POWSJl. lecali~rate if ~olut* difference a l percent.

(4)

  • Manual SIPI functioaal input check *very 11 moacu. -J1' If

( 5)

  • lach train or log'ic cbamlel *hall be tHUcl at leut *v*ry 5l day* on a STAGGSUD TUT IAIIS.

(I)

  • Neutroa detector* may be e.xcludecl fro. c::BAIDlm. OLIUATIOll.

(7) *

..low P*f (lloclc of lourc* lange **actor Trip) **tpeint.

(II

  • Deleted (ti
  • The OW1nL Ptme"fIODL TUT *hall independently V9rif y the OPDMILITY of the ondel"YOlta9e and Shunt Trip *c:Auli .. for the Manual Reactor Trip P\Klctioa.

Tb* T**t *hall almo verify OPSIAa?LITY of the iypa9* lr*ak*r Trip circuit*.

(10)

  • Clt.rrSD (11 > - The ~ PmlCUCllaL TllT *Ull iDdepcdeDCly verify the OPDMIL%TY of Clle ...ctor Trip lru.ker trndel"YOltqe and Shunt Trip mec:Auli-.

( l2) - Cm.&TID SALIM

  • UHIT 1 l/t l*U , . .adlwnt No. 175 I

UfSTRQMiNIAI!Ol!

3/t,l,2 QGI'!Qlp SAliTX f'iATPM AC'IVATION SXSTQ INSTRUME?n"AIION LIHITIRG CCBDlT109 POR OPERATION

  • m************~********~******************************************************

3.3.2.1 The ln9ineered Safety Feature Actuation Sy*tem (ISFAS) inatru*

mentation c:hannela and interlock* 1hown in Ta.bl* l.3*3 *hall be OPERABLE with their trip **tpcinta **t conaiatent with the valuea 1hown in the Trip Setpcint column of Tal::lle 3,3-t and with USPONSI TIMES aa *hewn in Ta.ble 3.3*5.

AfPLICAIILITX: Aa ahown in Table 3,3*3, ACTlOD:

a. With an BSFAS inatrumentation channel trip **tpoint l*** conaerva*

tive than the value shown in the Allowable Value* col1.1111n of Tal::lle l.3-t, declare th* channel inoperal::ll* and apply the applicable ACTIOR requirement of Ta.bl* 3.3*3 until th* c:hmmel i* reatored to OPIRAILI atatua with the trip **tpoint adjuated conaiatent with the Trip Setpoint value.

b. With an ISFAS inmtrumentatica channel inoperable, take th* ACTIOR ahown in Ta.bl* 3.3*3 .

t.3.2.1.1 lach ISFAS inatZ"Ull9Dtatiaa channel *hall be demonatrated OPIRAII.I by th* performance of the CHARRl1. CHICK, CHARBIL CALIBRATION and CHARldL FmlCTlOIGL TIST operation* during the ll:>DIS and at the frequenci** shown in Ta.bl* t.3*2.

t.3.2.1.2 1'he logic for the iAterlocka shall be d9mcmatrated OPIRAmLa during th* autc:11atic actuaticm 109ic tHt. "nl* total interlock function 8b&ll be d netrated OPDUX.. at leut cace per 11 mcmtha during CHAlll'mL CALIBRATIOll t**ting of eacb ctwmel affected by interloct operation .

t.J.2.1.J * '1'M DaU'ildD SUl'l'1' rD1'UU1 RUPCllS* TDll of Heb ISPAS fuuc:cica a&ll lie ~ted to b9 withiA the limit at leaat once per 11 11C1Dth8.. .... teft ebal.1 include at leut aae logic train much that bot.b logi--J *i :l** an teeted at leut cmce per H llCDtha mid cae chazm*l per f"UDCCi ..... dlat all c:hunela are t**ted at leaat once per

  • tim1H 11 llCIDt.ba . . . _
  • i* the toUl amber of rectundent c:baanela in a specific 1sru fuuc:cicm u 8howD -in *the -*Total *:Ro*,. of Cb*nneb
  • ColUID of Ta.bl*

3.J-l. "n1e proriaioaa of Specificatic:m t.O.t are not applica.ble to llSIV cloaure time te*ting. "nl* proviaiona of Specificadm 4. O. 4 are not applica.bl* to the turbine dri WA awd.liary fHdwater pump provided th*

aurveillance i* performed rithiA 2t hour* after the Hcoaduy .ceaa generator pre*aur* i* iZ'*ater than 610 p*ig.

SAUDI

  • tJ1'IT 1 3/t J*U Amen~nt No, 188

'!'ABLE 4. j-2 ENGINEEJU.:D SAFETY FEATUIU: ACTUATION SYSTEM INSTRUMENTATION

~-~f{V~ !~~<;~_R~QU I ~~~ENTS CHANNEL MODE'.i IN WHICH CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE FUNCTIONAL UN IT CHECK CALIBRATION TEST

!H::QU I RED I. SAFETY INJECTION, TURBINE TRIP ANIJ l:'EEDWATE-:R ISOLATION

a. Manudl Initiation N.A. N.A. R 1,2,3,4
b. Automatic Actudtion Logic N.A. N.A. M(2) 1,2,3,4
c. Contdinment Pressure-High s R QI 3J I, 2 I 3
d. Pressurizer Pressur-e--Low s R Q I, 2 I 3
e. Di ffecentidl Pressure Between s R Q I, 2 I 3 I Steam Lines--High
f. Steam flow in Two Sledm s R I, 2 I 3 Lines--High coincident with Tavg--Low-Low or Steam Line P1e:1sur-e-Low
2. CONTAINMENT SPRAY
a. Manual Initidtion N.A. N.A. I, 2 I 3, 4
b. Automatic Actuation Logic N.A. N.A. M(2) I, 2 I 3, 4
c. Containment Pre:;:;ure--High-High s R QI 3) I, 2, 3
/\l.l
:M - UN IT I Arm:11dme111 No. 142

( .

TABLE 4.3-11 SURVEILLANCE REQUIREMENTS FOR ACCIDENT MONITORING INSTRUMENTATION CHANNEL CHANNEL CHANNEL FUNCTIONAL INSTRUMENT CHECKS CALIBRATION TEST

1. Reactor Coolant Outlet Temperature - M R T HOT (Wide Range)
2. Reactor Cool~nt Inlet Te11perature - M R T COLD (Wide Range)
3. Reactor Coolant Pressure (Wide Range) M R
4. Pressurizer Water Level

" R

5. Stea11 Line Pressure M R
6. Ste1111 Generator Water Level M R (Narrow Range>
1. Stea11 Generator Water Level M R (Wide Range).
8. Refueling Water Storage Tank Water Level R
9. deleted s/ut:F
10. Auxiliary Feedwater Flow Rate yr R
11. Reactor Coolant System subcooling M Margin Monitor IAuxiliary Feedwater System is used on each startup and flow rate indication is verified at that tl*e.
  • The instru11ents u1ed to develop RCS subcooling 11argin are calibrated on an 18 11onth cycle; the 11onitor will be co11pared *quarterly with calculated subcooling 11argin for known input values.

SALEM - UNIT 1 3/4 3*57 A*end11ent No. 147

IABLE t.l-11 (Continued)

SURVBILLNfCI RBQUIRBMIN'J'S FOR ACCIDllfT MQHITQBIHG IHSTBtlmf'l'AllON CHANNEL CHAHNBL* CHANNEL FUHCTIOHAL IHSTBtlgHT CHBCICS CALIBRATION TISI

u. POJlV Po*ition Indicator M _...- N.. A, I

R ll. PORV Block Valve ~ioa Indicator M .JM<N,A, Q*

u. Pr***urizer Saf*'V ""',,. itoaition M JI<< tJ.A, .*

Indicator

15. Containment Pr...ure - llarrow Range M ,,.j1IC' ~ ..JUr tJ,A.
16. Conta.U..Ot Pruaure - Wide Range M R )Iii( Al. A.
17. Containment llater Level - llide Range M R ~"*- )II( H1 f-t I
18. Core bit Tbe1WOCOUple* M R ..- tJ.A*
19. Reactor V****l Level Inatrumentation Syat- (RVLIS)

M R .JJK f./. A.

  • unle** the bl0ck valve i* clo*ed in order to meet the requir..anta of Action b, or c in *pecification 3.,.3.

SALEH - UNIT l 3/4 3-57a Amendment No. 155

~

-. E*S t/t t .illltl

  • MnYS 0

TWU6T* 2**:& UOT2De~UT A:&*J**

  • JO 2dT*D*.a uodn Att*DT2ftlle2nw *uedo *ATWA UOl2*tO*l

.ao:&*tnmn==* qow* 2wq2 6ulA1l~** Aq *q2uom IT .:red *=uo 2***t 2Y

  • p
  • ~no~=ot u~ *~ qD2l~* 2ft01(Dot Z911lod eq2 2wq2 6UTAJT.:r** AQ 6T*d 000!

u*q~ .i*2**.a6 *l ezn***zd a:>>~ *q:& ueq~ *A*P TC zed *=uo 2***! 2~ **=

0 UOl2ftlO* .ZC2*tnmn==* *q2 JO UCl2*Z~U*DUOD uc.aoq eq~ 6uTAJT.:S*A Aq 9amtOA 1fU*:& 10 u ~ 10 ****.:rDUl e.n'f*o.

uo~2n101 q=** .:re2;w *.:rnoq t UTq:&~M PU* *A*p TC .:red eouo a***T ~y. *q IP*nuT:&UO~) S:.HIHJ'llnaz. a::NiVTII&A-.os rwncxs 51d'lco5 fies X5Ri5aBt:z

,., tit

~**'ON :u~

... -~.,,.~

=twull* in: UO'f2~~Vl A2*Jn

  • JO 2dl*~.z vodn Att*=>l:w.c:nw ~:e edmnd flalAOtt01 9q2 JO~:>.. 29'q2 6alA;l.Z*h 't
  • twa!l* 2**: aol2=>*~1" A~*J**
  • ao llOT2T*od ::>*.Z.ZO:> *:l c: **:W"n::>* ~9d ADU Mt: Vl M.t*A =>l29902ftW it:>** 2~ klAJl.Z*h. t
Aq 'QAOP2ft'C{e 6uT=P '9'1:{2ilOlll It .t9d *:>ao 2***t 2Y '*

'GOl*O.Z.ZO:> .ZO ***.t:*TP tw.zn::>iu:1 JO *:>a.ptAa oa "°"' 1*:>:* 'ell9*.t:>1 '8'1=>*.z ~**.z:> *:aeuodlllo:> dim* a'C{: :9'{:

.l"ft et.zqep }.q pe::>T.t:*a.z :ou *.t* 82*TVl UO'f::>ne .. 28A8qT\I *~:

wq: 6VlA1l.Z*A puw dmnl 2U911ZUT*:uc:> a'C{2 JO UOT2:>9d*Vl twn*lA y 't

'P9it*nc:TW:** S'T 1.J.l'IDaJ.Hl J.RIWNIY.UC~ 119'1:{111 A.t:ua tWVH

  • ~: 6ut.tnp paw A.t:u* 2uauRltw:uc:> AQ :V911Nt*:ue:> Vlq:t111 p*:=>*11*
      • .t* *~: (POl.z*d *Al:n:1aeuc:> .tnoit ttl AllW'F *:>uo :***t :y '?

PU'f '1.J.I'ICIJ.lll ~lY.1.MC~ 6ut~l'TT~*:**

o: .zot.td :v..utw:uc~ aq: ;e ***-'* *t~l***==>* tt* .zoJ

p~o;.z*d aq TTW\tl vot::>~eut twn*tA st~~ **uot:~c:> Y.)O'l 6ut~ sucit::>ns dmnd aq: 10 VOl2=>l.t:**.z **n*= pin dams :uawat*:uo:> aq: o: p.~uw.z:

9ci Ptnc= sr.tn{111 2U9'1R:tw:uo:> aq: Vl :v***.zd et 1*:>:* '&ul~:Ot:> JiV**.t:

'*6*.tl *l.tqep **oc1 ou :~: **t;t.tah q:>lq111 vot:o9d*vl ttrnsiA * ~I -~

PI.ANT SYSTEM§ SURVEILLANCE REQOIREMENTS 4.7.6.l Bach control room emergency air conditioning *Y*tem filtration train

  • hall be demanatrated OPERAllI.a:
a. At leaat once per 31 daya by initiating flow through the HEPA filter and charcoal adaorber train<*> and verifying that th* train<*>

operate* with each fan operating for at leaat 15 minute*.

b. At leaat once per 18 montha or prior to return to **rvice (l) after any *tructural maintenance on the HEPA filter or charcoal adaorber houainga, or (2) following painting, fire or chemical r*l**** in any V9ntilation zone COC1111W1icating with the *Y*tem, by:
l. Verifying that the charcoal adaorbera remove a99t of a halogenated hydrocarbon refrigerant t**t ga* when they are te*t*d in-place while operating the ventilation 1yatem at a flow rate of 9000 cfm
lOt.
2. Verifying that the HBPA filter banka remove a99t of the DOP when they are teated in-place while operating.th* V9ntilation 1y1tem at a flow rate of 1000 cfm : lOt.
3. Verifying within 31 daya after removal that a laboratory anal yd*

.of a carbon *ample from one of the charcoal adaorber* demol19trates a removal *ff iciency of a9H for radioactive methyl iodide when the *ample i* teated at 30*c, 95t relative humidity.

c. After every 720 hour* of charcoal adaorber operation by verifying within 31 day* after removal that a laboratory an.alyai* of a carbon aample obtained frca a teat cani*t*r demonatrat** a removal efficiency of a Ht for radioactive methyl iodide when the aampl* i* teated at 3o*c, 9St relati'Y9 lwaidity.
d. At leut once per 11 llCllthm by:
1. VerifyiDg t.hat tm pru*ure drop aero** the combined RIPA filter and cMrcoal adaar!Mr baDk i*
  • 3.5 inch** water gauge while

~ C!le ~tilation ayat.. at a flow rate of aooo cfm: 10,.

a__ . ;

~ ""T"*

2. Veritlllal that ca a aafety injection t ..t *ignal or control room iDC..--ldp radiation teat aipal, the syat* autcmatically accuat. . iD*the pr..aurisation modeby opening the outaid* air aupply and diverting air flow through the DPA filter and charcoal adaorber bank.

J. Verifying that the ayat* can main~in the control roo11 at a poaitive pre**ur* a 1/1* wat*r gauge relative to the adjacent area* du.ring syat* operation with makeup air being aupplied through th* BSPA filter* and charcoal adaorber* at th* d*aign mak*up flow rate of

  • 2200 cfm.

s~ ON~~{~ 3/4 7-20 Amendment No.190

?LANT SYSTEMS LIMITING CCllDlTION FOi OPERATION ACTION: ...............~-------*********************************

MODU. 5 And 6* or duri.nq movem*nt of irradiU*d !ud assemblies. *

a. With one chill*r i.nop*r*bl*:

l.

Remov* th* appropri*t* non-ess*ntial h**t lo*ds from the chilled w*t*r syst*m within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> and; OPE~A-SL 2.

Restor* the chill*r to *rael~ status within 14 days or;

3. Suspend CORE ALTERATIONS and movement o! irradiated fuel assemblies.
b. With two chillers inop*r*ble:
l. Remove the appropriat* non-essential heat loads from th*

chilled wat*r syst*m within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> and;

2. Aliqn the control room em*rqency *ir conditioninq system (CREACsl !or sin;l* !iltr*tion operation usinq th* Salem Unit 2 train within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> and; oPe"fZABt.G
3. Restore at least on* chille-r to **181* st*tus within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> or;
4. Suspend CORE ALTERATIONS and movement of irradiated fuel assemblies. D pG'e.A6L-G"
c. With one chill*~*r pump inoperabl*, restor* :he chilled ~ater pump to opetable st*tus within 7 days or suspend CORE ALTERATICNS and movement of irradiated fuel asselllbli*s.

SURVEILLANCE REQUIREMIH'l'S 4.7.lO The chilled water loop which servic*s the saf*ty*r*l*t*d loads in the Auxiliary Buildin; shall be demonstrated OPERABLE:

a. At leaat once per 31 day1 by verifyin; that *ach manual valve in ~he

~led water 1y1t.. flow path serv1c1n; safety r*l*t*d components thlllti* not locked, sealed, or otherwise secured in position, is ln i ta correct poai ti on.

b. ~*At leut once per 11 montJ:ls, by verityin; .. that each automatic valve actuates to it1 correct position on a Safe;uards Initiation signal.
c. At le*st once per 92 days by verifyin; that each chiller starts and runs.
  • Ourinq Modes 5 and 6 And durinq movement of irradiat*d fuel assemblies, chilled wat*r components are not consid*r*d to be inoperable solely on th* basis that th* backup emer9*ncy power
  • Jil s~H~?5ntor, is inoponblo.

SALEM - UNI ~ 3/4 7-34 Amendln*nt No. :;~

EN'T'ICH pqge 'XIT" c> Verifying tlsat all none**.atial automatic die..1 generator trip* (i.e., otaer than engine overspeed, lube oil pr***ure low, 4 rv bu9 differeatial and g.aerator differe11tiall . ara auco.atic:ally bypa**ed upon lo** of volta9e Oil ca. vital bu.

concurrent witll a *afety injection accu.ation *i911&l.

~~

7. Verifying t!M di***l generator operate* for at lea*t 24 hcur1*.

D\lrin9 the fir*t 2 bou.r* of chi* t**t. ca. di***l 9.a.rator *hAll be loaded to 2710*2110 Jnr.** D\lring th* r ... ini119 22 bour* of thi*

te.c, tbe diHel generator *ball be loaded to 2500-2100 >cw**. Th*

aceady .Cate volta9* and frequ8ftey *ball be *incained at

  • 3950 and
  • 4510 volt* and 10 t l.2 Bl during thi* te*t.

I. Verifying that the auto-connected loacb to each di***l generator do not exceed the two hour rating of 2HO kw.

9. Verifying that with the die**l generator operating in a te1t mode (connected to it* bu.I. a aimulated aafety 1nJ*ction *ignal override* the teat mode by Ill returni119 the di***l generator to atan~ operation and (21 automatically energizing the emergency loacb with off*it* power.
    • At l***t once per ten year* or after any modification* which could &!fee:

di***l generator interdependence by 1tartin9 all dieael generator*

simultaneou*ly*, during ahutdown. and verifying thAt all di***l generator* accelerate to at lea*t 900 rpa in le** than or *~l to lO 1eco~.

f. At lea*t once per 11 montha, the following te*t 1h&ll be performed w1th1n s m1nut** of die*el ahutdovn after th* dieael hA* operated for at lea1t two hour* at 2500*2100 kw":

verifying the di***l atart* and accelerate* to 900 rpa in l*** th&n or equal to 10 aeconda*. Tb* generator voltage and frequency 1hAll be a 3950 volt* and

  • 4510 volt* and 10 t l.2 Hz within ll aeconcb after the start ai911&l.

4.B.l.l.l The di***l fuel oil atorag* and tranafer *Y*tem *hall be demcnatrated OPIL\al.I:

a. *At l***t once per ll '1aya by:
l. Verifying the level in each of th* above required fuel 1corage tank*.
2. Verifying th&t both fuel cran1fer pump* can be atarted and tranafer fuel from th* fuel 1corage tanlca co the day tank* .

SA.I.EM

  • UN l:T l l/4 1*5 Amendment No. .. -
I w

I StJ'RVSII.I.AllCS l&QUI~s (Continued)

b. At leaat onae per 12 day* by .,.rityiq that a *a-.l* of di***l fuel traa each of th* ~ required fuel atorap tank* ia w:i thin the ac:oepta>>le liaita apecU.f:ied in Table 1 of AS'l'N Dl75-77 when checked for vi*coaity, water and aed.iamnt.

t.1.1.1.t  !!porta - ll0'1' OlaD

  • Surv9illuaae teati119 *hall be conduc:ted in ac:c:ordance with the man~acttaze~** ~ndationa recJarclin9 en9in* pr*lube, waza-up and loac:li119 Cmal*** loadiq time* are apec:ified in the individual lurv'9illuaae a.qairem.nta).
    • Thi* band ia_ -ant .aa --CJUidanc:e to--preclua -routine exc:eedanc:e* of the d.:i***l generator ~utac:turer'* deaip ratiqa. Loac:U in ezc*** of thJ.s band for apecial teatiq or ._..ntary variation* due to chan91n9 bua loada *hall not invalidate the t*at.

SALDI - CHIT 1 3/t 1-5* Amendamnt No. 203

s:;,,;;;;:a:;:n;. ;cwp nsnm

__ mu 1conuouod1

  • a:*
l. ;* Th* ccnneccion re1:i.1c&nce u:
  • lSO m:i.crc ohlna for :i.ncer-cell cannecc:i.ona.
  • 35.0 m:i.cro ohnll for :i.ncer- rack CQN\ecc1on1.
  • lSO m:i.cro ohnll for :i.ncer-t:i.er caNiect1on1.
  • 1 0 m:i.cro chnla fer field cal:ll* cerm:i.n.al cennecc1ons. ~~j
  • :soo m:i.cro ohnll fer the total battery connect1or.

re111tAnce which 1nclude1 all inter-cell connec:~:ns i:i.nclud:i.~g bus bar1l. all :i.nter-rac:ll conzlect:i.on1

(:&.nclud~ng cal:ll* rea:i.1cance1. all 1.Ater*t:i.er connect:i.en* !including cable re1:i.1e.ncel, and all e~eld

    • tenn:i.nal connecc:i.on1 at th* battery.
    • At lease once per ll mcnth1 by ver:i.fyiDIJ that th* battery charger w:i.ll supply at lea1t 110 ampere* at llS vcltl for at f.

.,.. lea1c ~ heur1 .

At least once per U month*. durinCJ sh~dcwn, by venfy:i.ng that th* battery capacity 11 ade~te ta 1upply and rna:i.nta:i.~

i.n OPER.AaLI 1tatu1 all of the actual or 1111Nlated emergency load* for th* de1ign duty cycle when en. battery i* sub]ected te a battery service te1t.
g. At lea1t once per 'O monthl. during shutdown, by ver:i.fy:i.ng that th* battery capacity :i.* at l***t IOt of th*

mAnufaccurer*1 ratinCJ when *~J*cted to a perfon1&nc*

discharge te1c. Sati1factory ccmpletiCD of thil perfor.ftance d:i.1charge teat 1hall al10 1ati1fy th* r911Uir.-.nt1 of Spec:i.!* ~*tion 4.1.2.J.2.f if th* perfor..nce cli1charge test u co:-.. ..o~tecl duriA9 a 1hutdown where tMC t**C and th*

battery 1ervic* teat would both be required.

h. Ac l***C one:* per* 12 lllOllthl, duriniJ 1buUuin, if th* battery 1how8 1ig119 or deciradacion ga hA* readlmll 1st or ch* service life wiell a capacity le** thaa 1oot or ...aufactur*r* rating.

by vec:UyiDI tn&C cu battery capacity ia ac luac IOt of th*

~aft11ftr'

  • raeint wt\ea wbjeccecl to a perfonianc*

~ ceac. Degradation i* indicated wtwa ch* battery

-~ -..ci.cy ckop8 more than iot of rated ~city fr=- it*

  • c:apmciey GD the previoua perfor1Mftc:* c.-, or i* below 90t of Ciiia Mm&fact\&l'er** racing.
i. - *Ac l***C once per 24 lllOftthl.
  • durift9 1tmcc1DWD. if tho battery hAa reached 1st of th* service life wit!& capacity greater than or equal co 1oot of manufacturer* rac1D1. by verifying

~~at th* batcer/ capacity i* ac leaac lot of Che manufacturer** ratift9 vhen *~Jecced to* perfcr111&Dc*

.~charge t**t.

SAL--;~ J/4 1*9a Amendment No 1@0

SUl.VIIIJ..\MCI l!QUtllM!MTS (Concinued)

_ .2. -Th* pUoc cel.1 1pecitic 1rav1cy, correcced co n*r. and !

eleccrolyc* level, 1* 1reacer Chan or *q~l co l.200. u 11

l. The piloc cell volc*1e L* 1reacer chan or *q~l co 2.oa voles.
4. The overall baccery volca1* 11 1reacer chan or eq1.&&l co 27 volc1.
b. Ac leaac once per 92 dAy1 by ver1fy1n1 chac:
1. The volca1* of **ch connected cell 11 1r*acer chan or *qu*l co 2.ll volc1 \U\der floac chars* ancl haa noc decr****d =ore ch&n 0.27 vole* froa che val\ae ob1erved d~rtn1 che original accepcanc* ce1c.
2. The *1*cit1c 1ravt.cy, corrected co n*r and !1.&11 *hccrolyce level, of 1acb connected cell 11 1reac1r chan or *qi.&&1 ca 1.200 and ha1 noc decr1a11d more chan 0.02 froa ch* val"'9 ob1erved d\&%tn1 ch* pr1vio"8 c11c.
3. Th* 1l1ccroly~* level of *acb coanecc1d call 11 bei:v1en ch*
  • inia\MI and aas1mua 11v1l irwilcacion aars..
c. Ac hue oN:a per 11 Mnch1 by verifyiq chac:
1. The cell*, cell plac11 and bacceiy rack.a 1how no vt1U&l 1nd1cac1on of phy1ical c&aaa1* or abnanaal decerioracion.

2."* The cell*to*c*ll and ceraiul coanecctona are dean, ci&hc.

and coacad vtch anct*corro11on ..cerial.

3. The bacca17 char11r vill "'l'PlY ac leuc 150 amper11 ac 29 volt* for ac leuc
  • ho1.&r1.

d.~ Ac leaac once per 11 llOftCiw, durtn11hucclown, by verifyin1 chat the bacce17 Cafa&lCJ 11 auquace Co l\lfply and .. tnta1n in OPERAJU 1cat11a all of cbA &eC\lal or 11aaalac1d ... r11nc7 load.a for.ch* d111gn1 d1.&C, cycle wMD cbe baccary 1* 1ul>>Jecce4' ce a bacc117 1ervtc1 cue.

1. AC 1... c oma ,., 60 MftW. durlftl 1bucckMl, by verifyiftl chac cbe bacca17 *atae1CJ 1* ac hue IOt of the um&fac~*r' 1 racing ve..a aultJ ..ca4' co a parforaanc* dl1cb&r1* c11c. Saci1faccory c..,lecl. . *f chi* perfor.ance d11cbar1* c11c 1ball al10 1aci1fy ch*

r-.air....~ ef Speclficacion 4.1.2.5.2.d if the perfor.anc1 d11charp ceac 1* conducced du.riq

  • atnacdown vh*r* we cHc and cM -.cc117 .1erric* ceac W\&ld ,bocta be H4"1irecl
  • SAU:K
  • UNIT 1 3/4 1*12 Ameftdmenc Mo. 111

IL. I tt*I t/t t .i:um - NnYs

  • pedt89P *.* 80la:tUl\J *aTU.Tt:t *t~a=

pvw *.zmrwuq atn:azro s-ea*t-** PY* A*tu 11n* *~

~u~h;~.1*A paw . .uA* ~ 10 aota*n=* DTa99Danw P9a*t..,*

    • PfttDVl 1fD"" ***a tWUO'JWRJ *a*.'8 .....~* .,, wy *~,

pn 'd9tu Hla:tewd s-ea*tooe** eqa 10 llO%~Yal'ft:) 'J8lllllllllil

  • C*>
10 *:tn.ao1aed ~ ,..,,... CL aed NUO u**t ** l'llWO pen.za*~ en **t~o -.. antou .aou.u tt9 awqa

~=n* 'aTuzto dmlld antom a""9.t Al tt*t eao ....t ** ~ r*t

. ~-- ~

ISUU* It aed ~ U**t IY *w

  • l'JIWl*o peaw.aanomp eq ttwtf* **tMP utwewd
  • au*.z~uo an:Japuoo 90'Ja*a'9Ued au~wauo:t PN"J..._, tty t*r*t*t

~.............................. .. ....................... ............. ...

    • .anoq Ot 6uT-.OttOJ eqa V'fqlTA ""O"!'RI enc= vi ,... ...... ' .-.u eqa vtqatA illClllYU .liOll ***t ** UT . . *q .

ao 1na1**a9'fa *Awp L aed *:nao ****t

~* P9ACll99.I ao aao P9llD*.1 *Dt.wp dmrowq ao .taw.,ad 9'12 ao 'p9ddtaa

  • q c~ *=lMll M-T~d dtarowq .ao Anwt.1d 9'12 AJT.Zh pvw '*tcrwaedolrr IU9Uod9oo .ao ...."8 P91MU* aqa *ntHP '*.znoq EL Vl'l2TA
  • =l*9P drurowq .ao A.a9wtad eqa lvTA099.1 .ao ano 6vl1fo*.1 ao '*:tt**P
  • Al,=*~o.1d dftJID*q ao A.a9wtad eqa aaqat* lvtddt.za Aq C*>atu.zto eqa
  • zT6~*u*-*p ao *nawa1 l'tl.,...o oa C*>*o~.ep hta:>>*ao.zd eqa aaoa*-. **
    • tqwa..Sou1

~u*~~n=~*Ao aoa:>>npuoo uota*.zaauad aue.u1*auo:t pea1n1>>a.z *~* C*)*DT**P **TW.Wd 10 a.a* ao euo 1fllA

  • ldflfl5V
    • pvw t 'r 't naow *Ui1fiV5ficH "rtlY*l*o 9C( tTWlf* 8VOT**.zaauad JO UOT=*ao.zd tww.zaq~ 9PTAO.ad oa P9.ZT~.I
    • =,**P **la:te'°"'4 aueua:aa*ot.0 ao~npuoo uol~*.za*ued aua.r,*auoo tty t*r*1*r i25%Xid £\il5ildid lRIAifbdi iiSfWl'D f 'I flt ikiliXS iiA&i JiSi Wi'li
  • 1 Document Control Desk Attachment 3
  • LR-N990005 LCR S98-04 INSERT 1 A one time extension to this surveillance requirement which is satisfied by performance of the Manual SI test is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.
  • INSERT2 A one time extension to this surveillance requirement for performance of relay time response and sequence testing of the safeguard equipment control (SEC) system, which partially satisfies the surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13).

The surveillance testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.

INSERT 3 A one-time extension to this surveillance requirement is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13).

The surveillance is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.

INSERT4 A one time eXtension to this surveillance requirement for inspection calibration and meggaring of the 1F 4KV Bus overload relays, which partially satisfies this surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance testing is to be completed at the.appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion.

INSERT 5 A one time extension to this surveillance requirement for inspection calibration and meggaring of the 1A, 1B, and 1C 460 transformer relays and CT's, which partially satisfy this surveillance requirement, is granted during fuel cycle thirteen allowing Unit 1 operations to continue to the thirteenth refueling outage (1R13). The surveillance Document Control Desk

  • LR-N990005 LCR 898-04 testing is to be completed at the appropriate time during the 1R13 outage, prior to the unit returning to Mode 4 upon outage completion
Retrieved from "https://kanterella.com/w/index.php?title=ML18106B159&oldid=2505383"