U-600079, Forwards Updated Draft Tech Specs for Review.Changes Constitute plant-specific Changes to Setpoints Resulting from Review of Design Documents & as-built Info,Per 850525 Meeting (2024)

{{#Wiki_filter:- _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ . _ _ _ _ _ _l U-600079 L30-85(05-23)-L 058-85(05-23)-L 1A.120 ILLINDIS POWER COMPANY CLINToN POWER STATION. P.O. BOX 678. CLINToN. ILLINOIS 61727 Decket No. 50-461 May 23, 1985 Director of Nuclear Reactor Regulation Attn: Mr. W. R. Butler, Chief Licensing Branch No. 2 Division of Licensing U.S. Nuclear Regulatory Commission Washington, DC 20555

Subject:

Clinton Power Station Unit #1 DRAFT Technical Specifications

Dear Mr. Butler:

l Illinois Power is enclosing various updated pages of the Clinton Power Station " DRAFT" Technical Specifications for your review. These changes constitute plant specific changes to setpoints as a result of our review.of design documents and as-built information, or simply to provide data which was not included in our submittal dated September 28, 1984 (U-0739). In all cases, these changes have been discussed with your Mr. Schulten of the Technical Specificatica Review Group in a meeting held the week of March 25, 1985 in Bethesda, Maryland.

 +

Should you have any questions or require additional information, please contact us.Sincerely yours,

 /

l K . Ok. Wf F. A. S angenherg kI Director - Nuclear Licensing and Configuration Nuclear Station Engineering TLR/ lab Enclosure cc: B. L. Siegel, Clinton Licensing Project Manager (w/o enclosure)NRC Resident Office (w/o enclosure) g Regional Administrator, Region III, USNRC (w/o enclosure) 1 Illinois Department of Nuclear Safety (w/o enclosure) i C. S. Schulten, NRC Technical Specification Review Croup I USNRC (with enclosure) L Mail Stop 509 Washington, DC 20555 M&a*, {& $ U 8505280219 850523 PDR ADOCK 050 g 1 A0D C.. M /#eC7 p / J

c - n>,L;H7U;OEFINITIONS CCRE ALTERATION , 4

1. 7 CCRE ALTERATION shall be the additien, reacval, relecation er movement cf fuel, scurcas, incere instruments or reactivity controls within the reactor pressure vessel with the vessel nead removed and fuel in the vessel. Suspension

• cf CCRE ALTERATIONS shall not precluda completion cf the movement of a ecmponent 3

A

 'to a safa conservative position. .

i CRITICAL PCWER RATIO f

 .. 1.S The CRITICAL PCWER RATIO (CPR) shall be the ratio of that power in the assembly which is' calculated by acclication of the (GEXL) correlation to cause seme peint in tne assaccly to experienca boiling transitien, divided by the actual assembly cperating pcwar. ,

DOSE EOUIVALENT I-131 l >> ,

 , 1.0 COSE EQUIVALENT I-131~shall be that concentration of I-131, microcuries per 3 gram, which alone would produce the same thyroid dcse as the quantity and isetcpic mixture of I-131, I-132, I-133, I-134, and I-135 actually present.

The thyrcid dcse conversion factors used for this calculation shall be those L

 .- listad in Table III of TID-14844, "Calculatien of Distance Fac:crs for Pcwer and Tes: Reactor Sites."

L ORYWELL INTEGRITY 1.10 ORYWELL INTEGRITY shall exist when:

a. All'drywell penetrations pequired t.c be closed during accident conditions '

are either:

1. Capable of being cicsed by an CPERAELE crywell automatic isolation system, or .,

2. Cicsed by at least one manual valve, blind flange, or deactivated !

automatic valve secured in its closed position, except as provided

 . in Table 3.5.4-1 of Specification 3.6.4. -

htcrywellecuipmenthatches#aeclosedandsealed. f

b. i doenn are closed and sealed I i 4

 .; c. The drywell airleckAf::.-- .i.r_~ pursuant Oc Scecification 3.5.2. 8 f ( , ; d. The drywell leakage ratas are within the limits of 5pecificatien 3.6.2.2.

F I e. The suppressica pcol is OPERABLE pursuant to Specificaticn 3.6.3.1.

 ) f. The saaling mechanism asscciated with each drywell penetraticn; e.g. , Curlock 0 95 L . welds, belicws or C-r,ings, is CPERAELE. f! .I . 1 CLINTON - UNIT 1 1-2 f

C d ~> SS.7 c Sd '>m 43

 = M-46W 2 sbes c 5

3 c#U *M C d .2 jgn >28 C C C C

 === = W C 6 06 L m 'D = 3 F= = == . o 4 U N .'

• w 3 .

a f)

 == > 4 cW W3 w<W =C=3 WW == 3 G N m

N -b F * = U r=0 M O <O M3 C3 == w #a M ,

 == m og g. -gw- -.-a c c= . = = T w = = 43; = r.t: = .= c U C c = *= h lee c 1 #M W 6'l == * -! -

3=M<

 =CJ E . wJ C aC m

NO74== ==W E = E a C

 ,X C d CCm C =

N-h$ 6 L JC *==a.;M i M

 *2 C- C * = * - - C*% *

• 1

 . M <M Nw = cc X O. =C M= e. m $'"* J J U e 1 U a t e 3W MW m U2. =m . O OO N

Nw O=c E t=1 W = W

 . M= N= n=D C = N ~ MM UQ)c =N O . *l. 'T4,3 O M O W

j

 $ W< - C N- C m -+ e-= - r-- < N G%' m c.. . .- N v m T<<

vi vi vi vi v1 = vi Al vi vi vi vi vi v1 = Al = =t

 .1 2

4 i

 .I. .

i 4a c

 . M . L g .* >= m C c c C - = = .= U$ >< >< 3 - C =J c C C. O C C m * .. C == = W .= 6 .C 6 C. 3 ~= L mo CC 3 >= = CC mC tG c -p >== ** - =W b<W WW N N - . W 6= >M W3 *C=3 P= 3 m m e Vi = =U P= C M C <C C3 03 *:* 6 - =m <c c: Ewa =m =s .= = . = = = *- = = = .f = C C:,' g:- =C - U c U c c = - 6 >s e. =o = . C 4 m= 3 - E 2 hJ m = E = E m X C m C< m m - >= N= h< C< p* *== = **= = C 4 6 == CM .ad C a 4

eC

 ==

W W

 -O Nb*

C C=MW

 = 3=M$M= @ C XC= =

c E -4 W c: W $r%at

 . m 6 -J C =m 6 -

J Uq , t4 UO .

 = C. N 4= m= f=*= *O N C. ff) M $ 57 \ W - mC m 7-= C 4 r=6 P= ,=4 - <N C g,C3m= = c -Q. $- .r%. v 4 Dy < <

5

 =

P= v1

• vi vi vi = vi Al vi o Al = =

i vt vi vi - vi vi vi a = .i ==4 >=d . (J1 .

N =

t N s a i.W W . -J >= -

 = @ *C >= .= n * >- M .C-

P

 . = = =

C s t .= f"') C .=s - X b C3 C2 6 C 4 W =M tu = - = .==s U W

 - h 3 = c> -

c m = t

 *J

• 6Q L C

I C > -C

• C t

 '-s C = $ 4 c U 1 = === = C y - c J - C e3 a b 4 6 c *J g * 'I b =

E = 3 = .= > = m

 *.* = =q o = 6 m C .= c c c m C *

• C C 3 C m J =2 > *== J C C.

t P= ll". h C .= c *== - = -

• O D =N .. *

 "= *J >= 6 I = C L c U c = * '

eC = L > l 6 3-W % C c 'C - - ed = eJ C

 = C +J m e

• c c c = C M m m
• 4 =J a== *J c E > > c c 3 C- C .a 1 1 ** =
• C C. C C C = * .= %3 =

j.

 =

C C .=Z ==

 =

E C

 .=

3

 = J W J t: 4 *J m CO *== E cW W C .= 1 4 'j = C = =T S -

U ll".E b Cb Ce *==C =

 = =- 1 > 1 . - 3 .= 's c =3 a me c .C4 -d W <C I C C 4 U 3 .; 3 = X m 3 X J C C =.* = > >- > c6 =J = c = = ts C = c m 3 3 0 = \ to = - c= - - > c c u o en -= 3 = 6 m= 6 w - - - - = = = =2 > Cm m * .: b r5 +4 C C C = *== m 6 L e .* c c = == 3 .= = 4 m m m J J m c c, J c c E =J =

3

 = --

C =C C3 C b a m c a c mc e a c .= C 6 U J

 = 6 C C. "O C

c uf i

 =

a-

 *=

L =J

 =

36 C

 =*. =J =

L > >C

 > c 4 C C L m =W U = mU 4 i' = c c c -^ ^ c = b b b J -.J == = c c ..= L E =3 = Wm N = = C .C C WW * - =- == =C C - J == 6 m e J =J c E a c c = = =

b

 , eC U U U 4 4 O C. U ; =

 =J C

C e5 Cm Ct-e

 = === "" T kb 6 U s = = 6 c 6= c = r-4 , - - - < = = u = = = = = = =m - -= = =; -

s y l .

 ! c = = . . . . . . . . . C -

N e.,. l

 - - N ri .:= e e s = m - - - - ,

s i CLINTON - UNIT 1 2-4 'a

 }

 %= ]!.D -i 'l

• J t

LIMITING SA:ETv 5% --8 So i dG5 "I N l 4 iI I, ?ASE3 1z

 .} ~

R:k.' C2 :RCTI TICM Sh d IE:s!.!MENTATICN SET:0INTS (C:ntinued) 5 4S. Crneil; sssu s-Hich fN ##$ "Y" 3 High prsssurs in the'crywell =uld indicata a break in the pri=ary pressure .

 .i beunda:/ systams. The rea:::r is tripped in Order O =ini=1:a the ;cssibility .1 ef fuel ca= age and rsduca = a a= c*nt of energy being addad t: the c:clant - The tri; sening was' sal.ectad as 1:w as ;cssible,yitheu: causing s;uricus trips.

g{

9. Sc-tm Discharea Vele=e Watar Level-Hieh h minimize head leads af .

 ;, ea.v/pmenf /ceoved w',fhin d a - .

i-he pAmary canicinmenf:4- The scra= discharge vele=e recaives the Watar displacad by the =ctica of the l c:ntr:1 red driva pistens,during a rsacter scra=. Sheuld this volu=a fill up q to a point whe s thers is insufficient volu=e t: a= apt the disclacad watar' i at pressures belew 65 psig, c:ntr:1 red inser:ica would be hindered. The reac-1 : r is thersfers tripped when the water level has reached a peint high encugh

 'i t: indicata t at it is indasd filling u;, but the velu=e is still great encugh . ?^ to a === data the watar fr== the =cvement cf the reds at pressures belcw

1. 53 psig when they art trip;:ed. The trip set:cini fer each scra dischafge ) ,

i, vele=e is ec;uivaian; te a c= afned vole =e of (g '(gallens cf water.4 W g cp3 pu j .0 . Tunine Ste: Valve-C1:surs

 ~ , 'y

h. '

1 The turbine st:; valve clesure tri; anticipatasJ ha t pressurs, neut :n f1tix,

 ' b; and heat flux inersasas that wculd result fr = cicsurs of the s :p valves.

4 With a tri; sening of 5% of valve :lesure frc= full c;en, the resultant l inersasa in hea: ' lux is such that adacuata thar=al =argins ars maintained 'j during te wcrs: casa transient.(:::=ir; tu t-ti: ':; _::: /:1;;; [fr.i: W t, n .,...,s .( [; . -t 11. Tusina Cent ci Valve Fast Clesum. Trio 011 pnssun-Lew -r

 'll ,wiw ec wiw ~t,~

Il The turbina c:nt 1 valvt fast c1:surs trip anticipates the pressurs, neutr:n

 )I flux, and hea flux ine easa that c:ul rssult fr = fast c1csurs of the tur:ine ~

d.' =nt :1 valves dua t: 1:ad rsja nienn =incidant M failurs cf the turbine u$ -typass valves'. Tha sea::r Pretactica Sys.a= initiatas a tri: when fast cle-

 .h;b surs =f ca.=nr:1 vt.1ves is initiatad by the fast acting sciencid valves and in less than 20 =filisa=nds aftar the sta-: ef =nte:1 valve fas . clesurs. l a This is a=f aved by the anien of the fas acting sciencid valves in rapidly 4{ reducing hycraulic trip cil prassurs at tha =ain tur:ina =nt 01 valve acua::r disc du= valves. This icss cf pressurs is sensed by pressure swit:hes whosa 4 ' =nta=:s This for= ca t.agM1csun ri; saning, ut--f-f ur ti=a, 1cgic' in:ut nd aa;differsn the Reacvalve :r Preta::icn characSysta=. aristic I

h'C ft:= cat of tha tu-tina s:= valve,: :ine: pr:duca transf ents which ars CN ,t

 - ! var / si=ilar to Oa: for the st:; valve. Ralevant transient analysas ars ,; .;, dis =ssad in Sectica 15.2.fcf tna .1..21 Saf a:y Analysis Repert.

h t4

 . 3 t , . 2 ~ . II 4

C*!!iT N - UNTT 1 32-9* ?a,[1 l

t

 - -a==

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• TV:..._- NT.-

 ~ ~ . . . .T?. . (.. . .. 4.nue.)

s i w.e

 ; b. At leasi :nce per 31 days by; _-din

1. Verifying the::ntinuity Of the explcsive cf.arge. 5.4- esdE"b.

4t96 n.fr . .

j 2. Deter =ining that the availableAweight of sodium pentaborat s g tater C##a . than er equal to ': lbs and the::ncentration.cf b:rar. 9fn solution

 } . is within the limits of .:igure 3.1.5-1 by chemical analysis."

8

3. Verifying that each valve, manual, pcwer Operated er aut:matic, in the flew path sna .is not locked, sealec, er ctherwise secured in position, , ,

is in its correct position. ,

 ; c. Ce nstrating that, when tested .tfursuant to 3pecification 4.0.3? (:t i:::t ; O r.:: ;;r 22 d:y::, the minimum fios recuirement of;(41.2?>gt=yat a pressure cP3 1 -;,. of greater than er equal to Ri2207 psig is met. per eo-p i '. d. At least once,per la senths during shutdown by; . 1. Initiating one Of the standby licuid cer.'r:1 system loops, including an explosive valve, and verifying that a ficw path frem the pumps to . . the reacter pressure vessel is availacle by pumping casinerali:ed

• water into the reacter vessel. The replacement charge for the .

I l .. ,explosive valve shall be from the same manufactured batch'as the one F ... fired or ft:m another batch which has been certified by having one of that batch su::essfully fired. 30th' injection leeps sna11 he testad in 35 months. - -i o

 &i. Datenstrating that the pt:0 relief valve setcoint is less'than or . equal to C.: , psig and verifying -hat :ne reli,2f valve d:es not cp3 r

actuate curing recirculation:: tha tast tank.7

3. e: nstrating that all h::t t.:::.Npijp ng between the storage tank -

and the reacter vessel is unbiccked by spumping frem the storage tank b 'to the test tanki'and then draining and flushing the piping with

 ~ '

j

 ~

demineralized water. gh ,i 4 Ge nstrating that the storage tank heaters are OPERASLE by verifying

 -L. .svu.4 4 4r ter:erature rise of the sodium centacorate solution in the s:Orage / '~ CPS 'ank r: :::- .'- ~ ' u:: after.the heaters are .i.

h.-anargi ac. .j.- .

 .P. ^in1s tes sna11 also be performed anytime water or boren ir added to the ;

11 solu:icn =r when the solution temperature dr:ps belcw th. Timi; :f ~i;ure

 '7 11: -

70* F > C?S .d5 ('**~his test shall also be perfer:ed wnenever both heat tracing circuits have a been found:: be in perable and may be perfer:ed by any series of.sepuential, y L veria;;ing r:::a1 flew pa:n steps su:n -hat the entire flew path is ~ 4g i I.4 inclu:ed. 'E %ii

 ?

a t

 .-...<s.,.. . . ns.,L- , .. , ,..e m* 3 1952 . . . . ./. . .. G:.u j

L

 . . . 3

i

 ] [%1-)1&)i 4 {

1 RE.4CTIVITY CONTRCL SYSTEMS f.\ .i 3 / * .1. 5 STANC5Y LIOUID CCNTROL SYSTEM 4 i

 -\ ! LIMITU:G CONDITION .:0R CPERATION t' i i -

i E! 3.1.5 The standby liquid control system shall be OPERABLE. ,! 3{p APPLICABILITY: OPERATIONAL CONDITIONS 1, 2 and 5*.l:

 ' ACTION:

i: a. 'In OPERATIONAL CONDITION 1 cr 2:L5 .J , -1. With one pump and/or one explosive valve incperable, restore the

 , incperable pump and/or explosive valve to OPERABLE status within 7 ;> days or be in at least HOT SHUTDOWN within the next 12 hours.

2. With the standby 1.iquid centrol system otherwise inoperable, restore the systan to OPERABLE status within 8 hours or be in at least HOT

 . SHUTDOWN within the next 12 hours'.

b. In GPERATIONAL CONDITION 58:

1. With one pump and/or one explosive valve inoperable, restore the' i incperable pump and/or explcsive valve to OPERABLE status within 30 ~

days or insert all insertable control rods within the next hour'. ,

2. With the standby liquid control system othersise inoperable, insert all insertable centrol rods within one hour. .

 ~ ~

SURVEILLANCERECU[REMENTS 1j 4.1.5 The standby liquid centrol system shall be demonstrated OPERA 8LE: ,

a. At least once per 24 hcurs by verifying that; g g j 1. The temperature of the sodium pentabcrate solutionl\is 'aithin the . CS *-

 . u.s.. . .e -r ... - - --

y w se w 3 y;;.,4. y qf. g -- - -- .w%1 2. The available volume of sodium pentaborate solution is grc: tor th:n i d er

 %.: &::1 hstookI5'2 Ry;;1 r e. h 3. .:.\ . S - \ .

CP5

 ) 3. The heat tr2;ing cir:uit is CPE.'a2'.! by detsmi-nin e tamperat re 3 a .{.1 cf the dump suction piping M c be greater than or equal to d 0 F.

{D

0 l "Witn any centrol red withdrawn. Not a;:plicable to centrol rods remcved per j Specification 3.9.10.1 er 3.9.10.2. -

1 i~ 'CLINTON - UNIT 1 3/4 1-18 .

 . . . .a;::-.: . w:. a c. x . .s ..a ~ .-.: a .. .w . . . . . ...a.. ....w.... .....w-.....s... . .

(*)TAlll E 4.3.1.1-1 (Continued)NMir-U

 =,

REACTOR PROTECTI0ll SYSILH INSIRilljENTATION SilllVEILI.AllCE REf}llliti:HENTS

 '8 O '

CllAllNEl. OPERATIONAL e . . CilAHilEL FUNCTIONAL CilAllNEL COHillTIONS Ill WillCll g filNCTIDHAL llHIT CllECK ' 1051 CAllllRATf0N("}' SilRVElli ANCE ItEQlilltfD El 9. Scram I)ischarge Volume Water Level-lligk s

 -. t. eve}__ High- a.7,w,4tter/rryuaisS R IGI ~

2 k) c,s I, Floats Swi M o NA 11 Q ft 1, 2 ,' S5(M

10. Turbine Stop Valve - Closure NA il ik 1 l'

11. Turbine control Valve Fast . -

Closure Valve Trip System Oil' 'Pressure - Low flA H; ik '1 ces

12. Reactor Mode Sw' itch '5 Shutdown Position NA R NA .

1,2,3,4,S

13. Manual Scram NA H. . NA 1,2,3,4,S w (a) Neutron detectors may be excliuled from CllANNEL CALIllRATION. '

1/2.D (h) The IRH and SRM channels shall he determined to overlap for at least-ene-decade during each startup l cts u afterentering)PERATIONALCONDIfl0H2andtheIRHandAPRHchannelsshallhedetermihedtooverlap.E for at least.-ohl-decade during each controlled shistdown, if not performed within the previous 7 days. lcrs . '(c) Within 24 hours prior to startup, if not performeil witidn the previous 7 days, (ii) This calibration shall consist. of. the adjustment. of the APRH channel t.o conform to the power values calculated by a heat balance during OPERAT10llAL CONilITI0li 1 when TilERHAL POWER > 25% of RATED THEltHAl.POWElt. Adjust the APRH channel if the absolute difference is greater than 2% of RATED THERHAL POWElt.Any APRH channel gain ailjustment made in compliance with Specification 3.2.2 shall not. he incliuled in determining the absolute difference.(e) This calibration shall consist of the adjustment of the APRH flow hiased channel to co$ form to a calthrated flow signal. .(f) The IPRHs shall he calibrated at. least once per 1000 ef fective full power hours (EfPil) using the Tir system.(g) Calibrate trip unit at least once per 31 days. -fBWR/6-relay only)- CPS

 -{lt)-Ve ri fy-measu red-ca re41 ow-to-l+e-grea te'e-than-oe-equal-to-estattl4shed-eare--A ow-a t-the-exist-i ng-H ow-cont retl- * -valve-poshion,- 0.6 (i) lhis calibration shall consist. of[erifying[-fadjustment, n required-ef-)- the 6d second simulated thermal power time constant.. . .

(j) lhis ifunction is not. required to he OPERAlltE when tIIe reacto'r pressure vessel head is removed per Specificat. ion 3.10.1.(k) Uith any control rod with drawn. Not applicable to control rods removed per Specification 3.9.10.1 or 3.9.10.2.--- --- --_--.---..-.-------~e t- - - - -- - -w = - 2- .- -- -. - -. -~ _

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lt iiCLAsiON ACTUATION :15 ACHEN ATICM ACTI;N II.hj ACTION 20 -Et in at least HOT 5HUTCOWN wi-hin 12 i:urs anc in 00LO 5HUTOCWN 1 within :na nex: 2* neurs. ' cps

'[ ' ACTION 11 -

C1:54 tna affactad sys a: isciatica valve (s) witnin :na hcur Or:

a. '

In C7ERATIONAL C NOITION 1, 2 cr 3, :s in at taast HOT t SHUTCOWN within tha nax 12 hours anc in COLO 5HUTCCWN .l .within the fellcwing 2A hcurs.

1. b.. In Ocarational C:ndi f n ", sus;end CORE ALTERATICNS, .

jf handling of irradiatad fuel in the c:ntainman: and CPS 1 cperatiens with a ;ctantfal fir training the reacter vassal.'.ACTION 22 -East:rt the =anual initiatica fun:tica:: GPERAELE sta::s

 . witnin *a hcurs or be in at leas: HOT SHUTCChN wi nin ne hex:

.! 12 hcurs and in COLD SHUTCC'aN within

na f:llcwing 2* n:urs. -

i .i ACTICN 23 -3e in at least STARTUP with taa assceistad isola-icn valves

 + -

closed within 5 h urs or te in at least HOT SHUTCCWN wi-hin I 12 hours and in COLD SHUTCOWN within the nex Zi hcurs. .I J ACTICH 2A -Be in at least STARTUP'within 5 hours. .l '. ACTION 25 - Establish fCONTAINNENT INTEGRITY with the stanchv gas treat:ent 9 i systa cpirating witnin one neur. yeg&p $ CP1

 ~

ACTICN,25 -Rast:ra the manual initiatica function t: GPERABLE status' h within 8 hours en ha in at least HOT 5HUTCCWN within the next 12 hcurs and in COLD SHUTCCWN within the fellcwing 24 h urs.i ACTION 27 Cicse the affected system isolation valves within ena hour and I declars tha.affac'ac systa: ine erabia. '

 .? ACTION 25' - Leck the affecta?.systas isola:ien. valves closed within ene" * . hcur. and declart the affectad system inc;erable. .

When hancling f rracia 'atrfuar in :ha #[$n. primary and or racondarytainm no7;g CPS and:: ara-icas with a ;c antial fcr draining -he raaet:r vassal. **

.My ta t.y:assed .':::::-:::.-::::'.r: 17.I':'::' :: : ;:': ? CPS v

 .sts - , ;.;; ; i::*:::t. by' use o{ keyloc.k bypa ss s'wltc'[es ': 2+ f)"; E k .N 3I.*I e ~0uring CORE ALTERATICNS and c: ara-icas with a ;ctantial f:r draining the (3 i react:r vessal. .

Q (a) A chanhal may be; laced in an ineperable status fer up te 2 h urs for ,{ required survaillanca withcut placing -ha tri; systa: in the tri;;ed::n-

 - diti:n ;r: viced at least ena c: Mar CPERASLE channel in ..a sa:a trip -3 systa is monit: ring tha: :araca ar.  ,

J (t) Als: ac tatas -ha s ancty gas traat: ant systas.

 ; s (:) Ats: ac aa:as tha::nti:1 c:c: a:argancy fii raticn sys a in :na iscia-i:n d * < ** :::s cf::arati:n. '

2

 '(:) Ais:. __ ri:s_..anc...is.:.latas ,tha .machtni:a1 vacuu: ::::s. C F .,

4 3-

 . . ... ..- r .. . . . . . .. ._. _. ... . . . . . . .. . . . . D e le i e (f) Alsc actua as sac:ncary c:ntain an van-ilati:n is lation :an;ars tac va. lves par. Ta..:.l a 3. 5. 5. 2-1.... I , s$,o 1

CP'

 ,,.., =. ...

_._,.u...

 ,,_a...__. .. .. . . ....

i . . . . . .... . '. .... . .

} ggstri

 .......-. :. ., r... ... .......

pp g .... ._ .9 _

4. '

4

 .h s i 1

3

 .e . . . a. e 6 *e.,. ./. . e4*.: g h

k

 ,, w .* e g e n w. W we P $ n. 6 """

8. a. e. , h YL4'

e. a. b V

a.L th y,,, -L %L n.y 1M.ll

 'W b 1 -

1 iLas.*",'.s dY a.m*.m*mmes .

 #p 9 . .=.!

I- . - -

 =

i p -%

 < a - ou --e s,

> . f o < c - --:9 C J 3* :*. "O .=

 .l:"

3 4 3 u w= .* -u3 1 u .== N = 3 W A =64 = W ::"." X c L a =-%

 $. 4 *= a iE 6 :p 4 -w w 4h 3 k p. sortr -% D W I' W . $% ,g h'%

M t1. u O re P* m 4 3W

• s P* * . i O c= b T ec.c . + r: 83 :0 = P'y.;.i
• C' (3 M

 -e v =

v.= y :r %, v "vt 4

4. > Al vl 'el = Al vl Al vt Alp .vl vi vt =.

i l

 = = .

' I c 4,,J L .a m

 . .y.

C 3 =

 .= -

u r3 4h' -i = * ,=2 .; *,

• 6 c . -

L %.,,W @

 - V1 3 '. ? = .*.

c

 =

SG

 == = (

c M mw ws Mvs 41 a c ut u o es b' i .E".'

 .= C J. K = C":4."" .

l (N w -

 .= ll3 .: u w = = u f . s 2 : O u = N" = vi e =. d

! e N W .'.'l = IA :

• X C O *.= p%

i

 .. = ==

w

 ===- O il W O 6.

W W O4 C :.i}c1 i i css ep .g:,i j g f.1 '==.L

 = m

m. "et q

• co ct N

 *M . "f" P. us. .a .

g M, a-s wt.*

 .M.

b wl.

 ..p Of J, a3 :C - Co ,

44, M v n 3

 = -. q v =

y %., a< - v c:: . i < i '

 ; et Al' vl ,

rt:= Al vi al vi A l p. vi vi v1 =

 . Ag.e .

a 4 '. - - I

 . =

J y r

 .= = c ; - 3 ~. =

O 1 1

 = c -s ' r= .= *; 4 a

I < . ~o e e u - t o = -c:

 .! c m = > .= > c o =

c o a - u o *

 ..+ . i = ae .a = i 3 - - = ,

h = q vi c; c c ',

 < t = -:

= ' a- - m : =.= = .= __

1

 .u.a .:.g c .a.a u

a = =a = u.=

c N t == > 5 6 - 3 :- *= = :

m. O *== es 9c = w ec == s a e= ~r >= = 3

 = C a.== c 4 = =d j * .: C g c b 1= = - o e c - ce c= c -

s. ~> -a c - . = = = = = 2- a 4

S O mo e s -ts m

 ~

C a} = .=u n

 ,.= c u .== ..=.wc -

1 ga..c t. m -.= u : .: a wm-u a s=

 > s : .a " 2o - = = > 3 a as e ea c es < > 3 A

• r m 6 r: i 4 . = .j c =. ~' = u u ou

 .o aL w % .e ~ *- % .a .U.* a .o.. s .oe u u .e a y -1 = c; ~ ~ c w m m = m te m c. ~

c -4 o = 5 --u;. e m ~ir m

 .-=a ej w u

• cc = = = = = = =

 = r= 5, s = .

m - .- .- = . = .u .a =c >. - u 6 - -: - u 1 e -

 = n ..: < - -4 =

"= = :*. = m = = = ld u = = d- d u SL; =

 .. =

s .4

 = :l:1 . . .; .. g . . . . . . . . S i w c.. 4 a *y . 1 .= u o = ::*. ." - .t 5 %**% ) W * =1 m .

4 79 "h.d w Ni W w a<.e Wm>

 *

• E5

 .: = n r.+a .: i.c -- ..- e9 w.,..~.e., .es * ....t . .; . - 6. =.* ./= ,*,I/ ,i i

L m, , .

i.e.1 . . . . . . . . . . . . . - . _ .3 -- -

j. _. _- _._ . . ._ . ( p . s/+ 3-i7 )

 !j iMSERT FOR. TA5LE 3. 3. 2 - 2 . ' ; -- -- mp A\\.-%

Tr.ip Fu n d.- ion gu. . u g gwe.

T..w , -g mn -_-

6 loc * *

 . c.c da._ J $9. 3 LtT~ ew , .i W E.(% A w RS..#e Nty ^

ma

• CO h' sg

d. O. 4 .*,w k w t "SiM ). Esk w d . ... .-. i 100 W

 ~ .L91 tt.s - Rt)\

e. d.Ja, _ + Ba).c.4.~.ws C . J..:, n ?.% <. LC.C.9) . . . . .

 . b im#h . . ' 'IC9h-D 45 1 LLw.h TJ.:d:,w - Ni k .. . . . - . . - . . _ . . . . - - - - . -- !8 ...- -.- n- ..- .. \ - .. . . - . _ . - . . .

4

 .6 . .)

I l .t i i b.

 .} 1 t

a 1 .. , ,

1.

 .j I

l 4TyssAT CLINTdN-l 3/y 3-/2

 )

O H

 'm ist 6

go 6W A

 . MM A L &

M v1 A Q-g Hb- (g 8" Q_. Q V O O U U U 8~l dummun o$e/J. Ne. mar.

; -ss" -

j "'===me w.t . - - = .m

. - =

3 4 m < -G m u < e u a s4 ..= 3

• m .=

. W 2 :. V s 2 =1 % 4 d'% C i w w } E =

i W , id :"l i O i W W 4a p.e

• p%

 't C %v 6 4 o o

p. A 10 e a

j

 == <s: . Prune:ts i us n . n .4 e e PM us y n -w S= + 9,a o . e u r.. tv n o y .a c ; a ,, r v

un ci v

 < <d gr v n

vQ i N gh o w

 %w .c > .Al v1 ~

rt -el = c:: vi w vi vi Al vi -vi = =t"=

 + .

vi

g. * *

,s p .

A u.

 . 3 .

s c

• s .

t m - t n Q

 =

c a %n\'

 , e = , "= c W Q M

• C n.= en M U en

 = r O <

• a C

 = aC H .= j. < to .= - >= =- y a ; . . . u . -J = a C =2 % .; "

S

 -'% C = w c w - C: % *==

C ~C. vt 0: C.i O ."."

 . >=

M. ee Mi C.,JE il Q %s W W DA *

• W 6

 ; s., ::: W p% o o ,p-s > vs use"o n * .4 e e .M u- y M.nc.

N Vi .M.ug v g. % . ui M g(, M "4"v M .g.l e = = ' . . e, w o A4 N .v ss N sys w% s*t

 =

t =r4

 < e T %s% s < vi =< =

m.. =

• Al vi s et s el = vi v vi vi Al vi c.:

m -

 == L'l w - + -. 5_ =

u Ai e-, < = .

 .! = 1a S .5' e w

[.1 =, .=a ,

- .a <

 < ~ , - u~ -. . .i = - . ---[ ,4 g3 en a.= - -

a c a mem u a =8 v1

 ~

c.-

 >=

g 4 .u

 * ** Te p=*"

C

 = s .J g 3 4 .a o c b us m . .a - -

• a - C '

C >= b c. C C U c b = ::vi e a b

c. o cs c vs

 .caN I > c= c sia 1 e e"9 48- c c

v1 E c >= .asaN .o = .a

 >= c p = = .t >= 3 a=. C a O f H .C 3- c b 4 C j z o w .L: ==r- 3 cn .L - g eo e =i = -

g -> = f- .J m as = = > = c. *== C .4

 .j 8 8

• 01*C
• I # 8 8 8 C *E u

 . ma vi :.P ~E ce - w a L h b oa ao J "a #8 1 * - in c .t- - 3 J a -

o < == vt >- a m .a c

• 6 - -

 - .L **e v = 5 - a a c

• 5 E - *-

 > a c. -

m .

 *s =

c a

i. a - == c se sc- =

w

 , e a a ** ** e a >b_8. Vi .* V1.au a- -e .c .m aa. c v e. - .

v C - a = c -m >= g EC. .Ca **

• m f

 ** 3 C .C C >==

C D z >

 . }. WG .$ -Q - '- *= U C M =

c

 = m < u :

5. g=s .Ce5= e m a w W = = ma c- e- a

 - .lE .C- , < v a = -s - == c w.. w = c < < w u = ,s. - = V1 = - s_. -

y e u

 .1 s u w . . . .

w ,. .= v = c

 . w w, r .= v - <

a = - e .= -r ,b.,es' .Ml -Lo pa% .e y '4

 . -t n hy ot* u f% 4 d6 <

1 CLLTitti - UlIT 1 ww uo ez%

 %5 w$*

2/4 2-13 ,

 - t.

I

2 3JNs RT FOR TABLE 3.3.2 - 2 , p. 3/4 3 18 1AI(*u t ele.

 .. . . . _ .. . . . . . M % p.to '~. + W1 we. .

g ,, g C. C J 4%m d 31 . I~od Tydv 10 0 hv . 500 kv-

 \Va:\ v.n %wn Mu4-n - A)L %E *R d.t C . 4 *.. ,,, o h% \A GskE .. . 10 0 W e- . SCO ' he.

3 M.di 4; w - Mh . .. . .. . . . .-. .

 ~'

l 6. .d.nh;wmd E\4), dowhWw.ws *} L 2

]

I c.a. ,_+ Ly (cc.e m .a tiog . 4:96/. ..J.;!

 .M's f;e - N.*.3k .-= ..._ ... .. - .%R mR

f.%\ h\S $.%~31l.Me a bk wd . . .. .Io b . . \~7 Y .

 ' ~

lM'.d'm-N ig5 4e .3 l

• b

 -i k

i h3 1 .

 ) ..g ,

I.

 ,D O

l t

',1 e r h e. .

4 4r hu.C f.INTo u -l 3N 3-lJ A ,i

C. Egay nurf hea. %perdee -//ty/r 7?9 5s/& nf . A//cand/e

V-fu a

 , i) Pump /2cem2 4 I 3 G. S

• F 4 \*l't.I*f a .
• s.n:..n 4 5 y

2) Weal fxebaqr kecms 4 20l

• f f 212 *f kb s .

1 s

 ' d. Ef rapmut Arm. A bp. High .

e i !) Pump Recms '4 54.S *F 4 So Y '

 !: d p

{ S ,

2) Heef Excbanger Rcoms 4. Sy.S *f f gc *f y(

I i .r i 5%w ..e .. .J rl t .1 -l(1 . .s .l4 t .t d.

 .. (n..!; - . .r ,

s .CUWC4-I f,y,gp./{3p/ 3-/2A i 4

 ' ' ' ' ~

 # S s s r 3 s 8 3 i _ . 5 r

5 r5 P # ' Pe r '- r '5 r f r _c c C # C kc lc l

 ' c iI ' c ll C c . l l _

• a s

 *s u e

y v s

u. _

r d;m y ;c a

 . 0s 2Jg g h- ) o 1

l ais i 5 t

u. E o s s L

 )" cp F F F F ( F F p

[p /.3 ll e- * *

• _* -

w %I* 8,1 A g' ) $ ) 1 6. *) g3 WE 62 s )32 0 o s.0 w,Ot Lt LA l2 (3 1( 3E5 32 h (1$ s -( ) 2, t5 7( 3 As.AV <51 < f_ g < 5 < ( 5 < < N _

 *

• s S -

T 'h a.N t.s I ,O E h,

P .

e TE Sf M d.m

 ) N /- . . F - ; A-l e O * : .

s. c I .

 ) : -

u T n A IT N 0s (x ig :t N I 2d g s) g n E O 1 1 ni i F- 5 e i o l P os s s

d. (

C N " cp 'I T F f F f F p .%( R E s.1 e s'7 [p * .

 . T S 70 i 5. ) W1 f, 42. *) 83 ~

2 S 5I 2 3 3C 0 0 2 4 4 5 7 5.[ '*)F

 - N P 2 2 G. . 2 I

• I R !

l

 - I -

f. . 2 (

t

 /f 5( -

o) s P 7 (- -l!A

 . 3 N T 0 <21 4 4 < i < ( 5 < . 1 H . .

O I .3 I T T A .E A l 'I Rl ll aS A C I h

 ~. T A r w 0 . . l l

e i N =o'a E i l .O T eL m t I S i u - n TA YS 1 8T- a r t . i et 0he gr h n p b t ao SG 1 ip e m m n ll 11 iu a i e A e 7

 . I i l s l b T i h . a =

m L - - s O m l l l b h 0

 = +

0 e A A e e e m 0C wwr oeP ts mg hm nh n0 n.r nnr Ah oi i0 i i l1 F Fy lu oi o ur u ue mi m l

 . N ah oi l o Tl i T Tn i ol i o- n w O e l hD R l f h o o e o I e np xl - e- eo e1 R - Re r i - T ni p El i t t n nl n r u t A iLu ne n ie i i ie t e t u s a w l

a L

 .S e-n er mu e Lr u

L tL r nr nt s i m u eu ea e t S mea m ie pt p mt m- mt mt mr r i I a et eea br ru ia sir iu aa er a .ep aa er pa ir pe i p PI n -E Rt S S S tTs us qe Ep E q t e S p t m Se t e Sp ue qp um qe ll l Ew O e m Em e a nem nem

 +

T ET C CC I C Ce n a Cr C e u

• N I P I T w -

O R ICC C IC C IC iT a iAa iT aRT RA y rn .O RRR R R t li li a i I T I R i l I lI R R D l I

 +

i C C w N A t lE .r e -P h-e i . . .

e. . e F R alie - l l

 < e e h l J k !

u._P . . .I - c J (, g. b i j .R .T 5 .G:s,=c e gA8- e g+ sh a gw

 ! ;I l

__.~: .s..::.-Ga:a..:.. .::. .: *.a , ...--:--... ~ ~.' w-. .e 1 - -,- - u"c-~'

• l AllLE 3.3.2-2 (Continue:1) j n '

C ISOI.ATION AClllATION INSTRilHCNTATION SETPalNIS M -9 ~ALLOWABLE e TRIP FUNCTION JTRIP SETPOINT

• val.UE

 ~

E 6. AllR SYSTEM ISotATION

 ~

a. AllR Equipment Area Ambient 838 6 /Y9 4- 7 Temperature - lifgh ,,i "F ure 5 Q 'I*F hl CPS ,

F' I s h. EllR Equipment Area A Temperature - '14.2 .79.G Iligh -

 $ -(---}*F $ -(---)*F lce3

[. EllR/RCIC 5, team Line Flow - liioh i l '. "th0 2 5 -OYb" ll2 0 [ l l*"Reactor Vessel Whter Level -

 ~ ' . al. s.3 ,

s.3 g low, Level 3 *1 -lG- inches * > -9d- inches_ l lc,5 .Reactor Vessel Uater Level -14 5.5 . I + 7.7 cr5 Low Low Low, Level 1 1 -(IE^) inches

• 1 -(MG inches [* l

{

 'i' f. Reactor Vessel (RilR Cut-in E Permissive) Pressure - Ili0h 1 35[psio -

1 5[psig** l *"y ' I.Gs 1.88 19 Drywell Pressure - liigh 5 ?S psi 0 1-1-93 psIGI l l *"

h. Manual Initiation . HA HA

 + ~*See Bases figure 8 3/4 3-1. ^^Init.lal setpoint. Final setpoint to be tietermined therino startup test. Any requireal change to this setpoint shall be submittect to the Commission within 90' program.elays of test completion.

h eb\ 'L ______. -- -- -

 .c a w u . . . - '

- ~s~ ' - ~ - ~ - - - -

 ... . .a . -.:..----......a-.-V--------- . 3 l n TAlllE 4.3.2.1-1 (Continued) h , ISal ATION AClllATI0li INSTRIIMENTATION SilRVEILLANCE REf)UIREHtNTS -7 .

CilAHi4EL

• OPERATIoHAL f.:*: -

CllAllllEL FUllCI10NAI. CilANNEL CONDITIDHS IN WillCil

 <- 1 RIP FIINCil0N CllECK , TEST . .CALIBRATldN SIIRVEll.l ANCE lilQlilRfil 2

G 6. RIIR SYST[H ISDI ATION - -e a. RilR Equipmeni. Xrea Ambient ..'

 ~ . Temperature - liigh . ilA ,- Il '

Q . 1, 2, 3 l

h. Rl!R Esgull ment Area .l i

A Temp. - liigh . . ilA .A H - 'Q 1, 2, 3 - I J ( RIIR/RCIC Steam Line -[ 1, 2, 3[UH flow - Iligh -S ,R , !

d. Reactor Vessel Water Level - .

low, Level 3 -S ..

 'M'.'-

R 1,2,3 ,ces

 -?

d Reactor Vessel Water Level - i tow Low Low, t.evel 1 ,S .H . , .

 . . R. 1,.2,3[ . ,' f. Reactor Vessel (RilR Cut-in . '

70 Permissive) Pressure - lilDh 5 -H~ R 1,2,3

d. Drywell Pressure - liigh 5 H N 1,2,.3[ l crs

 .A

h. Manual Initiation HA , MR[ ^

llA -1, 2, 3

 .~ l l a.J/., prie.ary * *When handling irrastiated fuel in the secondary containment. Y and during CORE ALTERATIONS and operations l CPS l

SEE with a potential for draining the reactor vessel, tasERT -" "" ... . m iu. als&= p c25 hie 1 (184M psig aro/e. eay "urLhw step va he b ei. a.

 #0nring CORE ALIERAlloil and operations with a potential for draining the reactor vessel. lcrs Nr rAC () /[*)H<inual-initia t-ion-swi te hes-shal4- he-testeel-a t--lea srt-enee-pee-} A-manths-durinef-shutdcun. f.ll elle CPS -tsceu i try-a ssoeia t ed -wi t h-ma nua l-i n i t-ia ti on-s ha-11-reeel ve-a-CllANNE L-FUNGT-10NAl-TEST-a t-l eas t-ence- -per-31mlays-as-pa rt-o f-+ i taeu i t e y-t eqtti red-te-lie-tesrted-fee-automa t-le-sys tem-i sel a t ka ..*, .

CPS (h) Each train or logic channel shall be tested at least every other,31 lays.l .I -

 . I. ,

l i1 .t

 . t .: e % ,s y *

 !il illl . . ' i . j l l l l s s s l

l rP cc "C e c3, c8 C'S PC il l 0 3 3 gw.l yl

 . I 3 3 - - 5 C 001&32321 4S 002 2 2 25 u 3, + A 333 3- 3 3- 33333 333 3 3 33 w

s.S S SS SS

• L ^ * ^ * * ^ ,

EASl 4 ; ' 4 444 i!. ' :

= L f H 4 0n0 , , , , ,,

s AI1 333 3 3 33 33 333 3 3 33 i

 - CTT IAl , , , ,S ,S * , , , , , , , ,35 ~ ' ,g.

LR0 222 2 -

 . PE1 i , 2 ,2222 222 2 2 22 N PP0 ,, , ,4 ,4 , , ,, , ,, , , ,

y

 - O I

AD0 111 14141111 111 1 1 11 e T 5 A

• T )

to H "f I - -L.i l ) 1 ~l I N =

 . R PO ,

c 'T EII ~s.S NLRT 1C ny .s l l e i I A H .v

e. RRi l 4

4 (l H EEf ) )' / (' a'.:. D PP( bb )1 l ))) t.

 ,. " _" v I

T

 .A l

O HLS0l l((22 ((1 1(l

 - d[ (1 21

(( )'2 2 1 1

 + - 1/

1- -

 . 1 Ef i

T ihitl 2 '2 22 2l 3 C I HS

 . A NAY a.

3 I Il i S

• HC(

3 D . - - - ) ) ) -T ' e e w .

 . E S . ) v v o .

Y .I D S

 ! C] , ' yw, wi~i s s R "

o. -

 .. E s s - M w . T G _ H i' i d m E o .. .N I

I er m m r r u mT SL ' .ce

?. L - c ~ 1t;d o' s , emmPe PC ~ . e a: i n

Y wm.

 .O S o ' h O . .. L i e.eH yi L 0 C

w iC nS I C i lP I w w hu i.i TE o HP P ge ( -R o o i lR OL (L(I( teH g T L L l ie r 96

• C -

yL r H e u ='s s Y ew u a o E r s y" gBb ll t o o l t l i se C NE ll ev .rL -L

 - D e wi l n l

S Ye vl ev ss ae rE S e h ae e fo S e h e e P

 . G R

Y SL ol r r ue H L 0 l) r e5 r

 . if u a c H i eP e u0 b E .

r i l s s i gr D r i l rv G 2I D S e es s T re I e eie r s s A

% C P

t a

 - ge rr e

r t . h on ew T At a

 - t sG asr h a

n er f .W ta s .L eaP P rcPo Z

 'E W e r Uia c o P ib rh as i I ' mh s i *- A l i cl a l ti st R l u l rc)i)t n e sse e SDua l I I D e s eeseDea i

l i'a H ) s ssis s I i S N s s sPiv vi c n f E eDs s A A t S A s e s(DiAit o u.T S0 0e V1P r .e V e p (.1i nE RI eV1PrV3pspsn r e s si y T s Y H .V m .nI PA e mimiI r l

* - S rll ir .

r a e.o E rll mrl a mum D c I oel Po o P Pil D oeli oePrP rl

 'C P C t ve t t - sa t veTt v e ea u L . -

I RP IceuSc aL yE a ca I Ii u CC vn CI IG cev aL yS aLC(C( n D o ceSPI P u 5 n e e T ( r P e PfiaDM T O e rDe P P a 41 .A R D LR R I I A lL R DAI l L L l l A H

 . l N - a S u O N

O til T l D . . .I I lA a h ce

 .h .

h- u.- r. +. t A A d hc4 e fL T S - e. t 9h C I c d e /H lV I .9 g, 'i .F D 1 2

 *s P lR .

I A se

 . nC'iG ,g ' .

R#' E

 ' ! m, e

l lil'

 . . .. u = u a...~.s...a....uuz:.- . .. .. .. .,. . . .. . .:. .. a . 1. . -.u.- ~.u w ... au ..~.. . l TARI E 3.3.3-1 (Continneel) .

j

 . 1 '52 , n filERGENCY CORE C00L1HG SYSTfH ACTUATInit INSTRilHfHIATION i 4

9 IIIHittill DPERAllLE APPLICAllLE CilA14NELS PER 1 RIP DPERAT10llAL I

 . g 11tlP FilNCTInfl' (SYSTEM)(filHCTIGHl"I CONDIllalls $11014 !

M i .

 ~' !

II. GIVIS1014 2 TRIP SYSTEH i.. 2 .

 *~~ ~

1. RilR R A C (IPCI 1100E) ... ,

l ,

~. 1

a. Reactor Vessel Uater Level - Low,' Low Low - -

g .Level 1 .2gg,)) 1, 2, 3, 4 * , S^ 30 li. Drywell Pressure - 111 01: .2 1,2,3 30 i

c. Reactor Vessel Pressure-Low (LPCI Permissive) 4-(11/ala 1, 2, 3 33-se- lcrs

 '.4** S* 33 i M

d. LPCI Pimp (R) Start Time Delay hto9 c iCar <l 1, 2, 3, 4^, S* 32 CPS

 .. tPC: P._,. ::e.+ c:u tg m im rlu) (:)/% '

1, 2, 3, e , e 3i-M .e -h !)ivision 211us Power Honitor 2 1, 2, 3, 4^, S* 34, [,', .y-+t, flanual Initiation 2 -lhyeken- 1,2,3,4^,S* 3S'

• 2

 !3 2. AllInflATic GEPHESSilRIZATinta SYSTril TRIP SYSTEll 'tH2'# CPS ADS LOGlc f AND 'F8 a -

a.- Reactor ?cssel Water Level - Low Low Low, y Level 1 30 2 1, 2, 3 Is. Dr well Pressure - lli01 2 -1 , 2 , 3 30

c. Alis Timer 1 1,2,3 32 cl. Reactor Vessel Water Level - Low, Level 3 (Permissive) '

1 1,2,3 32 i e. IPCI Pimp (!! and C) DischarDe Pressure -2-1-/ pump 1,2,3 32 CPS

 , .. 11101: (Permissive) . E- d Hanual Initiation 2 '/=I=- 1, 2, 3 35 9 /)DS Dr.pmu Pressure yT pass . The .

g .

 , , 2, 3 g it. 1%wc.t .hMhil ADS%'ilc4 / /,2, 3 35 N

t ae *

 .~ , _- ._.

(44 A- '.2 (C bb b" kO w VI U p' p y -. 9. k T. V =' i J O*

 . pf, ,. W U * - ^* -r 2; M X k%%, /%~99.4 l%= Q: $ -. :l-: y , :- = .- /on.jj w r- ,. N g r .. g oc u. : q --

c 'N-

 .C: -,- -- . , . 3 -- c. -- . 1 I .. =,; g -

e < >T .i *. <* 4 % .3 .1 .i

 .f 4 .i *

• 4 4 . .' '4 == ..O .

 -; . .7 .*: .*. .* . ' .1 ."1 e E A L

1 ..

 .c . .. . .. . < g =: .,. , *- J f. d er * . . << s .i .e y= ,1 !- < .t: ac* eev=*** v at:* aC .* ' au* e .6 4C >. - 4, .1 - , =, = = e . . .. . .. . = 0 Or . = = s.J ' ,$ 4 .= = f"1 f"I f'? f'i M?*ri f'i M *C - -l "1 M ="::. L .G .c.

U:.g . . c= = .

 . . . .. . . . . . . . . 6 =

L; a E:s - NNNNN:Jf4NN ;E= N N b m .c4

• A ti.J Z -

h G .1

 , =" g:.,,, c . . .. . ... 3. a. c = . g;; g ,. .c.,. eC c t.; ; .-e p.* m m -. rea= m -e aC O r J P=t * .d 4

• vt =

 ,O = .; "O C" s

• C C &

i *C. .

 . e ;,g a r ..C. = =,

t =! .T, gaa l bc . L 5l ,=4

 = .=C= -KZ a

A

 = =

A ca Ae --

 = , M.

,.'1 o

C

 =- u; .L .O Z ' aC O 4 O 1 . 4 ,a== e'=s = % N c e's ,i c=3 4* *

• A => a2 ZOU. P'* N *- - J . -4 l* :.. :=: -U v M%

L 1. b

 -= *C lill' * =*8 C Wt e 22= TT N M ~4 h.' ', N e == :lll- s a s.a b. %e* 7% e""* e"% et C t y C a a. w "" * ""U 'O

• v' ' "%*T* N .J a. M *: ii * -

 = = f f6.s * .4,% .,N e. N %e%,

v v e4r* .L:a .= 6c g.at.s = m-= Z2 m e =*= :/ wt

 *C' =

2 J:l*Z r- = = C= .e: f=1 =J =f $, = O .O -d

 , = : E-.;= . ,. . . s % .. = 'A a s = = = t.; ::l: 1 Um m N N6 C. b ; :,J <C = <l: ) .

• A = =

w - ll.: ,

 . J e g ; ll . c.; * ,e * .C .8 C . r e - ! 6 ,

e .. c 6,3 y . e

g. -J =

{ g p.. s ...y .y - -

 ~

M .- v,: 6

 's f=1 e.g #"* d C C h -.J C. * .p I ~ .%;,a = aC =e = **

r=5 M * . . - * *

3 CZ b '3 ! U eC C .

E2 .cg c.L.J g

 , 8 .'.- .

C C . L tt H. .: . -.' ** g

 ~ . h CLU > *1 - L. ' 'I. A e e e v .u =- . >' h. ..O wa= , J _. ,;g . -C. .

• C [.

aC (J = E.E,

e. Q

 .6. + ... m I .- :P . O. ., ' .,.. E ,- e , . U ~. \' C6 , % %

• aG e
• C U U r:

 ... 1 , > c M c q L .= g - , *. "m". ,-:_. :X - - -

f

= -. '..[

l

 .a E u a ,: ,: .A. -

a 85: - $ * * =" E e = r: e . c bJ, . ,./::r !. ** l u

 .=

C ^.

 = i., ::

C od 6Lv

 =a:-=

i > - .c. eb

 ** =- - = e "= C U - .J = t; PS <C = c I8= ""'*.

O.p = ==..C : a C *: a >2 Ca

 =

s

 }O> .[w:.v . e 5 .a m .d t: .= .= % .s -. 2 ~j

.. . tJ u

 'J*.i . r,.,; , *J C .i.d C: >e .4 2h C

C C = c =L." =.6*U b

 .= --". llll: g 40- J. 'ais > j> &

C .=C. ==e [" =.4 O 0 0 6 f t.- .4 O .4 C b:. 6 b = = > U. 6:g C =EL= 1= c bu. "...C

 = > 3: 0 L :':ll 4 d .d T "3 Q eOm 9 =, . ..

y y9

1. .:.

 = 2 . C a .O*  **..2, .= ..e. .. .a. - e= V.J . .===.t e -a ..

ru g

 . . > , - . - a ._4 '. ... .. 2 u ll: =-: . # e =4 =

r' L :2 .a :a = l "3 c 1..b. . =<C_. ;

 .- = == .':.C= = = :ll, _ = g"J3 *:" .{k. L'J i ur.=*. O eC 1. .. . tJ e"'t "O = s* U s1 US i . .t er. . { C' 1 ee0 ;. 3 *.4= he"* h C 0 b O C U%".""- 4 .* <=== o e C e llll:: E C .J V OW C U -, e .*, c = L .

U b c *: .L= 3=0 EeW=b

 ?' ? ) '.""".*--- . O%. j ==

4 ll> N L > b= ." 1 J.*4 1 A O O

 =.""4:: -

O ."."t';L;; .0 .C 0

 "O 0

l \e .A % L .C. An . >3 %-% 3 .* A

 > .y .O. .e% A a ~

G

 .a ~.,.- '" =;= c .oauL ."n4u=- g * = > c e j "llll* 3. -.a >c a b i a >l E . O A -. =" = 34 0 .* w, g -. ,:== A = 1.4 ' ": = : G -d == A L' r3 .C .d &"* r U == U y '(LJ U C M " U h "C =e C mv= .L eu==mu=

s.,,.

 .1 e. . J :>. u t

t re u uuU _

 = u = .n:. .52 = 2 w ,. .>a= >a =: E = u - = = >..= u . ' I t :g.' =c*g{ M M

w G.e b C: - -1 a n=e A e 3 ..b = = = .h

• C::: I = '

 = U 4.2. . m (*

O-U C C .d A A C "3: C .

 ,[ e.m*""".

i

 .O C U . . . .. . ... L .4 .= l C .J BU "J U= c O* O I

ll". . '" 4 W 'O C N :". .y

• C C =. - ".=. .*.:. -d 6 0

 == = T *=* *E:" w , . t . m r . . .. 6 y . :

1 ", y - M 4W .y, ,e O>>=3

 ) ')==g','," > M 4 C .1 = = fJ " .3 5 '

i I E == . O e e ;

 === J:: == 6 6 - C . =i- - - N < 2 - < =.:. 5 =U =< I. .l : . I,:% o o,.s o s i

u

 - ,; t,J = I.4,

, u, . , < < == w

 .c as l .T ./,* *, .* . * *+* *'.,..m.<*f. . . ** .. ,. m )

e de .- e ..

 . J

 - .m . ,,, =a %J .e M -==- e.

U M , "". ._=._=in '.rt i.a M t.l 2 *a-a 8 a _ e.:>bb w y b b n.ww cc ==, 2.=.,3 .f in

 ==:: .=

C win c g. c in - -o e = e .=

.je

 - - . .= - ==U . -C J -, . U -s= U ==

i i i

3. .:a=ma m w

U

 =

wi E - - o y. C .

c. c. o vi in

 ,ts ms =. =. n v.% ,

C W:no

 =. , # = . = . - i d ; = p. n s nn i .pn n , n

p c~,

,.:m n .e e n%. c c-sw e. so.i.nc

(c c,c .. .r ,,, .m gn.. -i -m ,

 ; e= x .,,. 3 m . . ,o, , , <._ + s,.,-

c,- ,i ,, , .

 %3 ,,,4 ; %5s %

g%s y %s%.s %s s% ,ll.l i h. m -

 .C . W .

N!/*d" s I/*4 > M

 .j = .e.* ' ' '

F1 88 C

• c C3 CC y Ci'c CC ;

i a g(, in - * = =

 . . = wi o ' W 4 f*J C f"J f5 , in c c. C C C 2 ' %% U %% = UU .y 42 U U * .* O> 4r ,

ec in W C .i *== n 1 4r in ..C= .8 W W W W . C at: >- c C3 . . in 4.J c - M= ==4 >- = .= - .

 .= m aU ci e ' = U [ em ex c. .

in =w n-. in i -- C iE* U C-- g C C C.; C d. e : *= to *

• g G w :n C. C. U :3% e - - 's M ei ."*

cg m U n,, g3 C'n r N n c ee% ,.=s Ul #% gC eg C't e%=C. C.

 *A "PT*

(

 >= 4r1 3gC3%.ePt.s4 

dC> . . = F. W 4 Q s 4/5 L') es so ( .C" N

 = - .C ' [f%sC r9 = e4 %g%sg W 't.f3 %sv * .61 -9 %..e *r9Ca4 %sC"I e9 ' % d Q cc i *C e leNI < s}I3 N = >= l

• W ' WN!/N!/%"\/*./N!/N= /'N! We :".

I C .

• m .

m. > ., . . .

 *. -~

o D*

 .e:

• 2 m.

 ..: < /*'s o =% IC M k . wa oe=h .

• t > *5 -

W .U a: . *G *; = --

 .C3 - + .a w w 3 . , =:=: w = - >- C M ( *

a. .I. Ew m J e

 .. p . > - M . . . '3 ww >.

M 3 43 .g .C A a. o; D .= ,M J M ,,, g> c. G C3 L ,c UV

 - a .= .- L .

3 c: 3 .- c =,i

 =

C J

6. a.

 .J !c g '. r a 4 *: =c g4 4 ! c a ='

w a :t

 %,e N.(a L w = I C e 6 4 c= 'T 4 '*t. =

C F 13 33mic e i b W y 3 i U M r .4 C C- J =J W - - = in rw 3

 >. c i -d J c C *== >. c 4J V1 C }** g l* W M > lC e I C M > > in b = c 4c ;3. C A.

L C 43 .= c c C. f

 .l C to a re bc bc c = 4 C -J b d O - o. = i s= = a. l, =

o u u - C. c ' c I C. L in in > p bc in in c.=s L *'l*. L - C3 "3 .g '>. J > ccb w u .ca e in c 43 e3 .c: .c.a .J c1 e a 4 2". C -J L b b 4J aC C C M r%. 4 64C 48 9=3* w c =s: 3 cgAh 6b 3"" f 2 -ci -W 3 0 b 3 =minu=J -C d .',.C .

 . cc ll"* - = %3 = - .5.e .J. in .J = =c - = - U *

• W w s". c in 45 c c V C = r3 m ** c in C _g

 ' C >= W W in . in in = M o in in .in == C *=!G ~,

w M C vs c C o to atl .u: .4 '.aa 4 in C in C aC J 5 {3 Q c =4% $ *c l> c

 ==* 3 C *% C = e %, > C A ' .]

4/5 c.g L s. g f". C=-O.:w .( 33L4- A b 3l> 1

• a c sgg

 'l". ";

s c3 UC.s C

 =J - C -C. C ed .C a C. ii C. n*=f5- =

O C

 =U =4 ** c >= *J - . = = C C. C. -

tl'!o **3 $P= J U c Li U U == *4. == - ($ U c UW-= 4 Cg

 . v ett > U tc t > c >= c ': > M tc U U =** Q & cc Q4 c=c"J a co= .c =: Q d2 C,. C.- M = .:: =e J c . $. .J =C::o =G .J C. .J = <C f C = _2c= .

0 C g

 == c cf >= , =

J. hq (q t ' :7 =

 > ~ . . .4. .

g . .....g

 = ,3 "'*

m_ 1 4: .t == <C: ec = u '= c +- c 5 3. -c

 . . u'a o q. o m C .g .

C.

 .. , == .

j .Ct.INTCH - UNIT 1 3/4 3-22 i e i

w Au.se w w w 2,i ,qy;.3

 .a . a. =.,. s. b n. - . v u - u u u m a jg e m = a * ,% C C b = u u 1

br m ?a um C .=. '.s.ea

 $ m .E c .

g % = - C - =

 - r~ u Cs . D u m = u 1E C u m C- g j - **"8 l

W =.

 = = C3 f. =

d: >

 ;l3% , . - = C. , o -a C.

J m aW% ,3 .- : p e.,% en c,r%nm ymd% eQ e c3 m - * - -

 =c:

W h *cJ wI a0 0 #% gf3 e9. 3

 < 4"%-<: dit? cJ- * = Tm e* % 3e %) q I as: ; w w ., w%,, v at: $w%

4 p v*.<1%e

 -ie =

v.:

 <> Al I'

V' i

 ./M2 s

d at q V1

 /N W % /NZ 1- M -

1 en m C2 .C + C l G WC =W -C T =

 = m e

Vi

• C C

 .: M C b.

1 2 tia %

• u u *
• C b - C# =

I Iw

 >.=

eC >==W m0 u.c C3*C "O aN WeJ 4C WC e W 4c a.=

 =

h = 4 - C - 4 **= U C3 ,

• 2 m u m *C II C u m C-j .

 .W C = C. C3 u S. > c - M x =

C.H e%

 , a mw m

p% d %x=.

 .' e=% = W gi .,a% e00P) #9#% % 5)= W W<3 gpC3. e **% W1.C3 # gC3e%== r.*

a c- U*

 & +61 p **,.e pi M L.3 .

asa me == e4c3e.*

 . 4N O == =

e, ssv "w .

 = % p =

g ,a .vc)%4 C 1 2 e . < I <c"

 *J g H Al .,, V M2 /N W V Z gQ t 0 l . e .% N 4 Q 1

a

 - g i;; $ qU - y = .

cm W :., * .,

 . e y . . .* .s .,i e , *E a... . >

e , tv1 as: *'"w ,d 3 ,

 'e ./

 . ,,c '.J "

f*?. W ,' .-1 C3 e., r , . ' M.W U1 3 e V1 3 ::l".

 >= C' A. 43 C f*1 e . .= M J ra"

 =: >4 d2 - -b 4 ac; e 3 ua C: 3 c=

 - a &., >, a em . {.

A v to *l" J Q

 =

C I a== 'B b

 . W 3 6 4 C 3C O C >= C a C. v3 a.f . U .

g Wc DG EC ECC I C [C

 # V1 I J C3 e b 4 1"

}, C a Cu- = = n n m .e U *- =>= C U UR

 >= #%

b C

 =m=M b m > >u .

C >= c 4 C m IO LLA *J 8 Q b "I adll -.J C3 J *== 0N.2 WC g **t bM C & *J tt! A C C C N

 - 6 = $C %O 3

3 C M = m b

 =m V1 4 @ m =4 *** O = =

LA.C

 =4 i Ce% *J 43 a

mS o

,$, W W a= C . U m=1 v1 " d's 9 = w ' = >= c m W M*"."== V1 C 3 0 3 "ll* C 4 W M C. W a G bo W N C': N- .4 W = g '2 b = - m .a C - C.= 0d V1 %w' > C. > C* l

 ]

. *== C - Ch == -

em C b c -3

• 2

 >=

C

 = *J e C -.s uC ** u w ====

u wu >C. L > C. c c

 'p-4.,,,,

4 4 > 4 U (!3 > c H C b-- E b =E e-=

 = N cll C C C". = C C:

CG

 =3 C.

ac' C C

": ad .4 - c >=. *J m === CLOG c I J C = C U C uw V") T l - C 2 >= M tts > M tc

 = C oC c U cc c >= - . . . . . . . =

 ~ = cu= o .:: < = - = =c = .C. =-< . .=:

W

 . . q; e.4 . . . . . . . . . . , C , m N m = u:: c - c i s* .m 1

M

• cc l

 * >= 0 C l 1

l CLINTON - UNIT 1 3/4 3=23 l 1

 - M sq g,, %8 ' '%Q g tJAlL f M.4 y . .g 43 >. - - * % m, c .3

 *

 * . Mp -- .1 . a w }

C' -I

 @ gr-se. ~ > 4 E -d O ^ "."" dM .E ~_ == 4

 . ..".4O a -. > :'::

C L- * * * *

 ~ > U == C A >- s T T:. ' l> N 8 .- ".%., O %s C-M .4 L. g* w ~e.% .i w -, p% --.-- - = . p *,a4l. 40 e.,: . . -%-%,== -. c e'"*

e== - 'l,- 3-a:: ll3:' .g **% v d'"% J1 %,g3 ";P'.;

• e O -s O N .1 3u f 4

 *g 't s. p c N C =

c =; . s'

 ,, -..';<at %,e e y %e%.a%.* O ==%

c w *w.

 ;.ll* =

r=%C EO w el*.I aC N :: ri * - ea **= w

 .j asl' . ll> e .W. ./W's M, N;AZ %* *%.' Vj %, w w .4 .a +r , st:

m % l rs m ~,.:.

 .=

j r g4" 2 . .

 =+ <s. . S-v P d' .: o ; e; vi -. U L%S ** A ;C **=

sf a w so.' 1J 3 1' a. ,. OR N -

 =

ac as

 -s -a .;>.o:a =3 . r ll> - ..E. - a-. y C.; }; O/ h e ""e"l ( A e

I O, -4 -h4 3 6 J3

 *J ,3 . l 4 e'*

j c'.

 -- 4C d 9 -y 6

c C *== ea% U

 . o " A .- O - N.

pas *>g -a a ,=b

 ,c 3

al*,m b=

 = , A c .-

CW :J di U .; ==4 N' =m 4

 %e 4 . si 4", "J = O A %e %e i -t 6"1 t .- .J h C *J b

g lllll = 61.lll: '"; .;3 .::: > *t :lll: at:* *> -4 = ras C Q ;" =3

 - e U c. U : y: . .<= a -'[ >O an v -- x^ c. -ll -ll s_ r- s * = = .-. :: ?ll.w c > -e O ll% N > m .6 4. =a . a.c

ce s f: CN c -.3 ,=% 0 :g -t 00;"i *-*r%^.=% m o O e'% wa -g = --* N C O - C E

 ,*::- = . w= -.4 W

C 1.

 -a X. >C = . ,a e

g . N N::eq* %e ==%, V.*

 . f9 N m O-C w a= w ll>%, 4 . ". e.d O. = = . .=. , "4" ==.4 ., 't, ;g,,,e==- =b t = sy', ,r%,,%s%,

c::C -d

..- ==, e

 . . . . . . 4.

a 2 -=s - /"Ni .%V l<%, MZ C O U O U *

 *p CC4

 ~

h

 . e $ = =_ 5 1W C aw ew -. - =l; Wt e . *::gC l N, u .~ . :: >. . ... . 2-e4 yI . ; ra

 . J . . a::l . ;'- l . .t' - ;JL o j f"1 Z'

g f '. . .l =ng C

 . 6 ** > . * ** : :. g bb t9 w ~.3c St. *- 'I Ca e -

{*%;:::si .*!

 = = . : -% >, O I **

3 ." *- .

 "J O : l". ll~.

1 IN, - tw:,; . .- a": *.J c .-.

 ? lllll t. "J "J :l. >b= . 1..i,,,,,,, .. e.

J J

• 7 .,,. C' t 1.C - *a = #3 O c C'.J I
• L -..%= , & C:" 4 -d -J ;J 1 gg m == > '; - - -* 1. ': r l .1 U U 8 U .. C C ed a t a

 *-.;; . l > > > > ;. ."')e .' ll =*

' .j c b

 .- . =, . 0- . b 0 l

Ot a b O O *J : > j O .= >0 *Jb .:-s 5"

 . l l * .** .g; = e O - "c i ** b ll=, b CJ ec =.." Og g C.=.=i4 i . . . l>. c U e .': 't lllll ^ ll'; .

7.

 't 1l=X *-**U.- -.a -.a O'J .*T. C #'% - -..u-;= , ,t a ~

1..

 .: =.: .

c:::L

.le ccJ=-:.j,,b

 - 1 g == --

a =w A ==

 = == = = r.:e -en. a o

t -- -

• MS*=

r- U =r) - - = -- .e .a u;=i l b-*

• J =!

 'A L: ;10 ". ": > #% *>. U *%. .J E E .li }; L C,% :ll w = .1 "1 A. 0 - *: - U *: WO r" ,.:> .- .A :". O 3 .=.*

W 0 "

 -d O O ': a .d -. ==r*= lp= 0 U C =. 0 4 4 -. E . a .;; &

t -

 ,8 .l. ,9* 5 - 4 :ls h

 . lll> b= . ".=

J p A .0 b= b-

 * -d

 % :: ,,': -: 0 b L a 2 .-

i i ,'.

c. E* .. =+ :N N - 6 c Aa .- - . g=

 -.6 "t

c: c> u.4 a u :.c e-) -

=

w

 = - c .=.e 6 - A c:'l: u =-

E> E 64 O

 = =-J

 .;: >3 y s- ' - M U U 3: 6' W L .* . ' 4M S > >. *: - L i GW =

gg

s. >C b=

 > 'O C = - a = "

1: C =

 .~. "G i ** ,., 4 (S e c*J 6 0W = ,, LL "; O M M " = .-- $: oA **, C =l *::: ::: = = 4 ".:". ". Zi*. L A L 0* l> 0 -:-

aC".

 " *2 C, M @ C A C;;;". . #%% A *J == =- LU

g.O . . lllt c ,e :: J

f. .* tl Al " . Y%* T %.* 0 C 4.

d 1 ".

j.

 =.:: =. ==,e,

m .Ie .

 ,1 =

A -i c-lll l4""* - -i = = . . . bO O1_s -I.C,e* : .- .:lll O > .O

 *l ".

i :ll:t - N :J !e j t t

 'a ta ta 2"l -. O c . e i )e i I 8 *' ** .f ;=; .,.i,..W. .,M.,

s 13 %

b.% .) .

J

i

 't i i N SERT FOR NOTES To TA Bl.E 3.3.3 - 2 -

4 '6oTTOM OF p. 3/4 3-3+

 ]4 !

3 s>i3

 =

E@ +

 *

 .,i. 'a j " Y is suppre ssien o high w24er }evej ,

a 4

 .)

s

 .3 s

I 1 .t .

 .j di -a . .i i ;I l j' s e

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f HAI E RDV 22222 22 22 222 22 22

 - 3 E ENR 2, - R POU , , , , , , ,,, , , , , , ,, '

i I OCS 11 111 11 11 111 1 1 11 l

 = U : . Q , ..

f .R E

a. C .

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l A i l )1 0

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w E VR LA ER l l l l RRyRR (fQy(l ll A l RRQ IR QgRMI AI R

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U L0 ' '-1 R EI NT a,"- '

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n Y S v ev 1 s.1 e l i aee o e e

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 =.~, C E )

I tl ae N WvemPP r

 - iee rrrt d 4Phn L w o

Z It vl ae-Wl e r I t Wa ar h ac no F_e eR A eri a e Iest R hhshi P i.u

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C ET C ,sseeSC sI ua 5 Sl eus os l 3cgi gt e siDia H tpu TE siss l i sli i i i i.

c. Y S1 )

sueDssA c A It E sL e sed lA-l t A e uCl lY0 l SI eor- ee V L P pV V p m o.i ge

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R PE' Qse o VwP rVeprprn re ev e ei

 'A i

G PI rwl irrut m - ilo D M rLl mr L mumuI us is

 ' e E

R IR P T L C oolPooP#tI e ct t wS ccI e! i u yI' sa E o C T t weit w S cow li o .P sPsl e ea G CI ~b sa %

a. coS rI ru l I

[ ( awyC aaCl 0 vn T Y al ysaLCPCPn O o wO 1N l-eor ': eeP e ARLi LRI Ll LDl l ll l i a l A S e MO P Rrl l e DAR P.l PL M aS LA m aI T Oli I . . . - 2 -w; T I lR . . . . B .C SI ll a h l e eh ul - i-t hcI c fg A h i ll uI VcJe - .AT%f I .I3 .

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r. I A s,

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e 1lllll

 - -._ :.e =,,u.:n . , < . . _.. . . .; c. . n;; .. ..s u . . . . , , ,,,,,,,.,,,,,,,,,.,.s,,,., ,,.......,.,,,3.,,,..y. - t -

TAllt.E 4.3.3.1-1 (Cont.jpued) -n eE. EMERGENCY CORE COOLING SYSTEM AC1tlAT10N INSTRilHENTATION SilRVEllLANCE RE0illREHENTS y- ..

 ~

l @ CllANNEL e OPERAT10HAl.CilAHHEL fuHCTIONAL CilANNEL' C0 Holt 10HS EON WilICil-c TRIP FilNCTION . CllECK TEST . . CALIllRATION SilRVEll.1 ANCE llO)HIREn i H. DIVISION 2 TRIP SYSTEM , ~ ..p. , , ,i 1. RilR 11 AND C (LPCI H00E) ' l. . . ' -l . a. Reactor Vessel Water Lewbl - -

 - Low Low Low, Level 1- S'E...'M .-i. , R 1,2,3,4*,5* i li. Drywell Pressure - Ili0h 5 7 ' .: *J H . .

R(a) 1, 2, 3 1

 +

S J.5'~ , H 2, 3, 4*, 5*c.. Reactor Vesjel Pressure-l.ow ,'.J.~ R .

 ,y.,

hc,3 .2 l.PCIPumpfilfstart.TimeDelay I

d. h.. .'.: ,

a! .%3ayE t.e .c Cc.cd -HA .,+ 6 H q 1,2,3,4^,$* !

m. LPC' P. . )im.:.-.f Tlw Le MA M Q , 1, 2, 3, 4','S' CPS j l -

 . R- -e-6 '

Ilivision 2 Bus Power Monitor HA H - (NA) . - 1,2,3,4^,$^NA 1,2,3,4*,5^4[,

 $-32 Hanual Init.iat.lon HA ,[,

f ,l i li 2. AllIGHATIC DEPRESSilRIZATION SYSTEM '

 - I 1

YNIP SYSTEM "B"#ADS to6tc '8 8 AND'F' l -l cpg

a. Reactor vessel Water Level -

Low Low low, Level 1 5 H R 1,2,3

h. Iirywell Pressure-Hi0h 5 H R 1, 2, 3

c. ADS Timer . HA H Q '

1, 2, 3 Reactor Vessel Water Level -1 d. - r Low, Level 3 5 ~,H R(a) 1, 2, 3

 - e. LPCI Pimqi (R and C) DischarDe -

cP5

 ' 1, 2, 3 1 '

RM*)

 , Pressure-Ill0h -NA- S l l f. Manual Initiat. ion HA - [H-MR[ . HA -

1,2,3 il S. %eassb;mc AD5 Dr wt bswe uA g R t23 y

 + .

M '13 ,h hi Tnhad Abs Na - M -! i

 .Lwk a-

p! . E, .. -i . .

 . t =s-_. _1.___-___u_

 .. s a. . . . - . . 2- m_, . . . . . , . . - . . , . . , , . . . . . . .. . . _ . . . . . . . . .

8 , - *I

 - c - .' i N '

__Till5 PAGE OPl H l'illP J. . : i INF0llMM10fI H10M 'tili. .. . .i'rAnii 4.j.3. i-i (C.intinue.i)

 --........e !. I'lli RGlllCY C010 i:00LfilG SYS11H AClllAIlull 1115(Rullf.IlIAllull SilRVL11I AllCI NfJtillliHiIll!.

Ol'! HAI lullAl eCilAllflCI. Colloill0lis lun trills:ll

 *? CllAllllEl.

CllAHilft. r filllCTIONAl. SilllVI Ill Allt.:1, i:liplil:lli CllLCK 11:5T CAllilllAlloll -

 . .:: --INIP fill!Cll0!!-

tilVIS10!! 3 'llllP SY.S_ill.t C. >-

1. lil'CS SYSIffl ,

 "1 , 2 , 3 , 4^ ,!,^ ces

 '..' .; H  R .?I.ou Low,ievel 27 S RM . .-1, 2, 3 DryueI1 Pressure-Ili!!h dlA .. g . ..../ H l ~'r

4^,!.^Level-liigh, llA '.H I*',-

c. ' 1, 2, 3, R M*I

 .itcactor levelMi V[e:.sel Vater e

el. C.,. :... 3.-ac St ora!!c lank , Level - . .

 "#1., 2, 3, 4^,!.^ .

k RCIC flA iHa' R -M*I .I.tni ~Supprest.isin l'ool Vater 1, 2, 3, 4 ^ ,!

• cps s c.

level - liiqli flA - 'N R -M*I : .: ,:. e,- .

 ,[, -

L.L 1..... llA :: !}1, 2, 3, 4^,!,^(IIA) so H

8. ry--Ill4S-Syst...

1,7 f l.... HA

 -}{R[ llA 1, 2, 3, 4^,!,^ g.

flA

g. --i,Ilanual

 'llt'CSInitiationllu . l'ower lionitor :

D. 1055 OF I'0VCit

 .HA R 1, 2, 3, 4^^,fe^^

4.16 kv Imergency the, linaler- ilA .: '1.l voltage (l.oss ul Voltage) 1, 2, 3, 4^^,!^^

2. - 4.16 kv Imergency flus lin<ler- S

 '. H 11 volta!!c (Degranteil Valla!!c) ll<it requireal to lie Ol'8 NAlltf when reactor SLCan slome pressure is less than or equa ' .- llCP i.' ^ llhen the system is requireal to be Ol'[HAllLE per Specif ication 3.5.2. .

M- ^^ llequireal uhen LSI equipment is requirect to be Ol'I'llAllili. ' ~(a) Calibrate trip Imit at. least. Once per 31 tiays, .;.;c i;cr 10 .:.0;;t';; durie.5 sh;;Ldr..... f.: L..L!;. ..:. L ., . c

 .PIb)-Homt.tMtEWee; ^..i tchc: sha'! bc Lcs tcd .;:. h..est-+iveestry automat-le-6yste:: .:suadalel-wi48t-manu+ cr5) 31-elays .. , .;-p o+-e! .; r;.;;i try reyetire;! La:- Le te!- h.. ;6 ... - _ _ _ _ _ _ _ _ _ __ -r-- -v--.er - * * =a<wm. r -W

 . , . " .uM* s. .Af& . s-. . . . '. *a . .- s * .e . .-.a... .a s :. . C. . .m. .a i >s s . '~.-

W i i e.A.e.. .e.-. .a

 ',TAlli E 3.3.5-2 MFf -

p

 - REACTOR CORE ISol ATInti C00LIlr SYSTEH' ACTilAT10tl INSTRilHEN1,,ATIoll SETPOINTS S

2 ALLOWARI.E ElllicTIOllAL InflTS , TRIP SETPGlHT VAlIIE

 ,c- - 45.5 47.7 5

l _.

a. ReactorVesselWaterLevel-[owLaw, Level 2[ } ) inches * } -44 inclics l CPS 52.0 54.2.

h. Reactor Vessel Water Level - lii0h. Levol k ..

 '. . '{ -(W)- inches * {-(52.5) inches (CFS i

c.RCIC Storage Tank IcVel - Low -s; -X+if* W -V

• r CPS

 ' } -fit)- inche geNo'd.g,, } -fW 19,cp[,,y, '

l al. Suppression Pool Water Level - lilah . , ' . { { -fee i hesr g cr5

 '. el u l4l% 752.g "

I

e. Hanual Initiation .

I.'

 .a 'NA -

NA i * ,i R , ,

; 4*

s-

 . 'j' . .

E' .l >1 -

 *See Bases floure B 3/4 3-1. - %alue--tkai ensures-NPSH-aml wo verte=Inf . -

l CPS l My a uiguale,.-level 4. sed- . pol-l...l-. arysd g[crs-C

 .a.si.':.e J L GM .h' s.k. s e. ...,;f. . aW . . - a *s ' . ~ ' . *=**v- - =-'s-- * * * ' ' ' - *-

TAlli.E 3.3.6-1 . j

 " CONTR01. R0D lil0CK INSTRill-lENTATION f.

M HIlllHillt -APPLICABl.E O OPERAlltE CilAllHEl.S OPERATIDHAl. .

 . TRIP FilHCTION . PI:ll 1 RIP FtlllCTI0ll CONDITIONS ? ACTION .Ei, 1, Run PATTERH CONTROL. SYSTEli ., ^ ~' a. l.ow Power Setpoint 2 1, 2 -

60

 '" C P:,

60 h .(-t u i.u

 -Hmiter-Set oint-gg RWL - liigh ower Scip* int i melinte-floti-W Rheirawat-2 .

1 -e-l a. Flow tilaseil llentron Flux - -lipscale -G . 3 .. .;' , , 1 61 CP!

h. Inaperat.lve

 -6 '3 ... " *.1 .:i 1, 2, S ~ 61

1 ,61 al. lleutron Flux - tipscale, Startup 3 7,. .7-

 ,..o.

61

 ; so 3. SollRCE RAllGE Itall! Tolls .

s 'cP!I

a. Detector not. full in(" -4' 2, 5

 ^ ' '

61

 " ]j SEE INSERT , .l. h. lipscale(b) 1' t' " '" , ot

  " "' - ){r. (HE)(T PA GE ) ,- al. Downscale l

 ! a. Detector not full in(' 6' . 2, S . 61 I

 , c. Inoperative 6- 2, S 61 DownscaleI 'I)

y

 ' - h. Seram-Irip-flypass - .@,

t t - (1,, 2, , ) . E'_ n

 .-69 g$

n N

6. IIEACTOR C00lANI SYSTDI RECIRCllLATI0li F10W 1 ' )

c .;

a. Lipscale 2 , 1 62 .

InoperaHvc CPS ~

 --h. 2 1 c2 -

 '/. REACTOR MO DE. SWITcil . Cri

2 3,4 62

 . b . R , f..,1 M n,1, 2 si G2 N., ,, N ' . .A -m , u l . - - - -""

w . a e. n a a, _ . .$ J _.

t-. ...-. ..: .. . ... .a. ..:............._sw__..,_.,.. . . . . , ,

 'W " -s u a M . '...- ~ u. . ~llll.'i l' AGE 01El 'I'hr.i. . . :.'f UF .' -

IHiOilMM10llill0M li . Y!1 ( iAun@Lp2 ,

 .j - - - - - - - .. .. . cnnlig)l.. llull..lll0CK IH5 fittifillll ATIDil SETPalill5 lillP SElP0lill All0WAllt.l. VAltfl f+ '. IRIP l'lHICfl0H renpre C'S G 1. Ilull PAlllilli C01111101 SYSilli .(**) si { -luelinclirst slye pressutQ (A -(10-8-1... A)psig lutleine OE'firs as;;MHHf l slagic ItilAl-+0WHd ~

E.~~lfoiii' shier seipIslu*t \. . -(fl liklFil-lllEllHAl-P0lkil-

 .l 0%-u l-ll A l lilH ilElH IA l-Poin:ll-- u%o f'll Ai Hi-tilHfH^t-t inn-It--

. _. le. -I n te t meel i d le-llo.1-W iple**We l N- ~{ W(A A[ psi [3 lurhinedir$I slap pressure..,A t)psig lurbiac {irrI sla pressort

 -trimite Selperint-t

( ItWL - liig i Power. sci o, int.

 . . p. -

 .Ayln;'Ims

( 0.66 W t 42%^ { 0.6G W s 45%^ *

 - IIliscale '

lIA llA

h. Inoperative .

c. Dmni:,cale . } 5% of'llATil0 TilEllHAl. POWER' 13% of itAll.Il 'lillfulAl. l'inflit '

si. lieutron flux - lipscale .! Startup .( 12%'of IINIO) llidlHAl. POWEll

 $ 14% of IIAllll lillittlAl. I'010 ft

 ~ Ij

 .'i' a .

t

a. lletector no't. lii'll in -

llA ,t 100/125 siivision of full scale (N0/125 allvision ni full scale.b.c.lip:.cale Inoperalive iA .iA ki al. Onunscale } 5/125 ellvision of full scale > (Fi2sdivision of fois scaio r

 /N( 75'l *5 er g r e # ^ e g y A s' y

 -luswam- r fi p-Ilypasa I f. !P! 6.

c" til'ACluft tipscale C001 Alli $YSilH. IIEClllcl*t.ATiull Ollfl lj fC of rated flow . . .kilk of ralmi ilou j

! a. I A- -1, . Innperabiw. .!.A SEE

(-(-l 1-)%-(-law-elevi.ilrion--

 .. 'GompocoI:nt-)-(lloemseale) .( (-10)%-f-low-<leviaL4on 3. '~~

I N !k '8 lfiie Averone-Pmter-linoge-Itonitor-rewl-Irleelt-funeblon-is-varical s-e-f teneki tin-n i-re e l rentl et ki nts-l oop--l-l ent--

 -{ W )s--l he- t r i p-s e lli net-o f-Lh it-f une bi n n-mus t-lie-sia i n ta i neel-i nt-necertionee-w i t.h-6pe c i f-i ca Ei nn-3:-i'ri'- ~

ADDITIOf4 -{;(NEXT l' AGE' .

 'T. RE ACTO R 140DE SWITCil ~ (.a a. Skuldown Mode NA gA l i

IlA NA r b. Re {uel lio.le . ~ces!

 ~m=

_ _. - ~ - , , - - - -

w..:..-.... u. d.2 A n a'-a~.*.

 . 2.. . nm..am.:. .w . w., _ e .: . . J.,.. ... . . .a . -: . v.o..' e -' "- . T,A"LE 4.3.6-1 4"4 .

E. . C0ilTROL R0D lit.0CK INSTRilHEllTATION SilRVEILI AllCE RE0tlIRTHENTS ,

 'i .

O , CllANNEL OPERATlallAl.CllAllilEL filHCTIONAL CllAllHEL CONDITI0lis IN WillCll CALIllRATI0llI "I e fRIP filHCTinti CllECK TEST SilRVElli AllCE lifQllIllEI)

 *!I

e-* a. l.ow Power Setpoint. HA S/I"fd)(e)Q l 2

 ' . S/il II'I I ' ~

CI8' li. -4ntermeellate-Ilael-WRhdrawal-- IIA

 . -Hwiter-Setpoint-- ', . .: lif "I,HI 'III"I Q 1 -e-p (11WL - liigh Powr- Selpenni ,

a .- Flou Blasect flautron Flux -h.tipscale Inoperative s

 .hA[ ., . 5 S/t1 llA " ,I k -

1 1, 2, S lCFS S/U(I'} ,H - ,CPS',

c. Downscale S/U l D 3.

 <l. lieutron Flux - tipscale, Startup 4flA S0tlRCE RAllGE HONITallS TilA (( .~S/UII 'I,ll,H - 'I , U(( . 2S i <;> a. Detector not fuff in flA S/U ,W NA 2, 5 <gi h. Upscale flA * .

S/ilg ,W Q 2, 5

 , c. Inoperative flA _S/Ug ,)),W llA 2, S I al. Downscale llA S/U ,W Q 2, 5 i

S/U(h)'Ugg,),W llA ,2' , 5 al. Downscale llA S/U ,W . Q 2, S 'S. SCRAM DISCllARGE V01.tlHE

 )

 -h. Scram-Trip-Hypes. NA N -NA. O, 2 5)p N #h

 -L. Inoperd t-ivc HA S/Ug ,!! NA 1 CPS

CPS

a. . ShuMowa Mode NA R NA 3,4

b. Refuel ikode NA .

R NA . 5_.-wL_ _ _ _- _

 'r * "Y 1 T 14 _ - h- ."-A29' s . _ _ . _ _ ___ . - _ _ _ _ _ _ . _ _ _ . . _ _ _ _ _ _ _ _ _ . - _ . .

 .i -

TABLE 3.3.7.2-1 I, SEISMIC '0 :ITCRI: 3 It:STRUL'E*: TAT IO*:t il .MEASU?. EVE!!T R 1:3E i ~MIt;It'UM[ IriSTRUMEilTS l a FREQJE!:CY DY:(.'dIC INSTRUME"TS A;;D SE!!SCR LOCATI0t:5 RA!!GE Hz) RA' 3E Nr CPERABLE f j_ \

 ] 1. Triaxial Time-Histcry Acceleregraphs 1

Cenerate pad (cutside) El. 712' 1 to 30 -2.to +2 1(a) a.-1 to 30 -2 to +2 1(*)I 4. b. . Fuel Bldg. , El. 712 ' g, Centainment 31dg., El. 851' -1 to 30 -2 to +2 1(a) j c.Centain: ent Bldg., El. 778' I to 30 -2 to +2 1(a) d.

e. Centrol Bldg., El. 737 ' I to 30 -2 to +2 1(*)

2. Triaxial Peak Accelerographs (Passive) i a. Fuel Sidg. , El. 707 ' 6" O to 20 0.02 to 3 1 I b. DG Bldg., El. 712' O to 20 0.02 to 3 1 V e. Containment 31dg., El. 778' O to 20 0.02 to 3 1

3. Triaxial Seismic Switches

a. Fuel Sidg., El. 712' O.1 to 30 0.005 to 0.2 1(a)(b) 4 i Triaxial Response-Spectrum Reeceders g

 ,: 4.

 ! b. Digital Cassette with Playback 1 to 30 tiA l' }.

Featura (Active) ,

 .- }

_. . t - ~

1. -

l 1-9.i.j- I'I With main c:ntrol rec = annunciatien .

 ~

(b) Adjustable set'pcint f ;l r. V 1V .s 4N ;

 - CLI!!T0tt - U:1!T 1 3/4 3-63 i - -- -- s

 . . _ _ _ . . _ . _ _ . . . . _ _ _- . _ ._. . _ _ _ - - -_- ~.--.. - . . i '. i TABLE 4.3.7.2-1 +

17 -i 3 2 - i SEISMIC M0f!!TCRI?:G!!!STRUME:ITATION - SUR'!EILLA? CE REQUIREMEfiTS iV . 9 1 ~8 CHA!!::EL 3 . !. FUNCTIO::AL CHANlEL INSTRUMENTS A?!O SENSCR LOCATIONS ,TEST Call 5RATI0t!

1. , Triaxial Time-History Acceleregraphs .

a. Cenerete pad (cutside) El. 712' SA R 2

b. Fuel 31dg., El. 712' SA R j c. Containment Bldg., El. 851' SA R I d. Containment Bldg., El. 778' SA R .

e. Centrol Bldg., El. 737' SA R (t

2. Triaxial Peak Acceleregraphs (Passive) j a. Fuel Bldg. ,' El . 707 ' 6" .NA . NA

 .e ~

NA NA

c. Containment Bldg., El. 778' NA NA

3. Triaxial Seismic Switches .

I a. Fuel Bldg., El. 712' SA R h, 4. Triaxial Respense-Spectrum Reeceders ,RI ")

 ~

j *

a. Circulating 'Jater House (Passive) NA

b. Digital Cassette with Pla~ybac'< SA R y Feature (Active)

j' .

 ~ . . }

J <i >_ ftpf} ~(a) Four different freRuency ree~'.. s calibrated each surveillance.

 \

o CLINTON - UNIT 1 3/4 3-5g th. , Q

 ****#N W emammte ** - .en een w.- e. g,, ,, *, y-w---- ,r--r - ,.-,. .-- - - - , - - . , , , . , - y. -,7,%7 w , - - - m , y-

 . .m . u . 2. . .. . . .. ._.,m.... . . . . . . . .. ............__m......

Tills PAGE OPirl iWi ,P - i!EIt,Ill E 4. 3. 7. 5 .1 -i.

 .r .1 ., ~ - -

 ,ACCllli.ill H0lll10ltilHi IllSilIllifill ATII)l1 f.OltVEll.1 ANCE Itrt}lilitOll ] gs '

i '.)I .:Al'I'l ICAlli I .

 .i CllANHEl. EllAllllEl. OPl itA1 lullAl Clll CK CALillitAlloll 00ll111110l!', ;.. -lilS'iltilHillI .

I 1. lleactor Vessel Pres:.ure ... H R 'i,2

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T-H- Drywell llystrogen Concentration Analyzer anal HoniLor D 0;)C:.".) = -ft* N/A 1, 2 h 8 Containment Prer.r.ure

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I 10 -l-1-- ConLainmenL llysirnuen Concentralion Analyzer anal Honitor D*-t+- ' 4} NA t, 2 i 11 if- Safety /flelief Valve Acoustic Honitor HA 11 1, 2

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 %% 11dl Allarle J NOTE . W r wis~ rat t uslag ?saq\e llJ 3- n os gas l

supp y inle(ral anal to f ur epipment ,h*N 1

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 + he. cavily is flecded or being fleeded , the. reacler 5 '

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i INSTRUMENTATICN d.l CHLORINE CETECTION SYSTEM 'l LD1ITING CONDITION FOR OPERATICN r.

 ]' .. _- ..

3.3.7.8 Two indecerpnt lorine detection system subsystems shall be OPERABLE I i with their-(&'e. G o ip r setpoints adjusted to actuate at a chlorine concen- S tration of less than or equal to ppm. ll c ~.:5 ~ '{

 . .,-- . .5 - .

i APPLICABILITY: All CPERATIONAL CCNDITIONS. .

 ! ~ . ACTION: '

j a. With cne chlcrine detection system subsystem ' inoperable, restore the l

 -3 inoperable detection subsystem to OPERABLE. status within 7 days, or within the next 6 hours, initiate and maintain operation of at least one control room emergency filtration systam subsystem in the chlorine mode of . 'cperation. l

 . initiata and maintain cperation of at least one control recm emergency , filtratien' system subsystem in the chlorine made of operation. ; . .- - l .

0; c. Tne previsions of Specification 3.0.4 are not applicable. "

 ' ~ ' - -n:$.A, :. . . . ',.. .;. - -

SURVEILLANCE REOUIREMENTS 41 4.3.7.8 Each of the above required chlorine detection system subsystams shall

 .3 be demonstrated OPERABLE by perfordanca of: ( ., a. CHANNEL CHECX at least once per 12 hours,

J ,

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0 $ :

 ; REACTOR CCOL2NT SYSTE-! .

3 3/1.1.2 SAFE'! VALVE 5 ',

 $AFETY/ RELIEF VALVE 5 . l' LIMITING CCN0!TICH FOR Cp5 RATION ~ - * * .- 3.4.2.1. Of the follcwing safaty/ relief valves, the safety valve function of; .

l at Iout 5 valves and the relief valve function of at least 5 valves other l" S than those satisfying the safety valve function requirscent shall be OPERAELE with the specified . lift settings: - myfg, gaJ JC.PS j Numcer of Valves Functien Safety Setceint" (esic) 1155 1% sa.4 g 7

 .( ), E Safety 1180 2 \ > 4 -

Safety . . 1190 \ .y . 1. - . Relief- 1102 -W

 '..- Relief q

8 7

 . Relief . 1123 . j i %- i !.i)

APPLICA3ILITY: OPERATIONAL CONDITIONS 1,. 2 and 3.ij ACTION:

 .. '. \ yj i With the safety and/or relief valve functicn of cne cr =cre of the abcve

 'i within.12 hcurs and in COLD SHUTUGWN within the next 24 hcurs. ,

c,F t b.. .

 't[ .j. With cne or =crs suppressicn peel safetyaverage / relief watarvalves ta:cerature stuck is cpen, less previded than ('.:~:"thatf, cicsa [c.ps i ,1 . the stuck cpen safaty/rslief valve (s); if unable te clcse the cpen valve (s) -

J .within 2 minutas or if suppressien peci average water ta:perature is' (10~),*F HQ F [c.y~.

 , .cr greatar, placa the reacter cede switch in the Shutdcwn positicn. .-

least HOT SHUTCOWN within the next 12 hcurs and in COLD SHUTCCWN within~

 .: the fcilcding 24 hcurs.

 .s SURVEILL2.NCE RECUIREMENTS - .

d 4.4.2.1.1 The accustic :eniter(-effer aach safety /rsif ef valve shall be l l 1de cnstratad CPERA5LE with the setpoint verified te be I;:: . (;; p;u "- cp3 !

 ]; ( e.a m t. - ) by perfer:anca cf a: , A. g, L i '} . a. CHANNEL MUNCTIONAL TE5T[,((bC:W a5,least enes 3- 31 days, and a !

i b. CHANNEL CALIERATICM at least enca per 13 enths.N . c.*> ;le 4 4.4,2.1.2 The relief valve functicn pressert actuatien instru enta-icn shall be

 'j demonstra.ad CPERAELE by per'er anca cf a: - ]

1 ence per 31 days.

 ' b.

CHANNEL CALIERATION, LCGIC SYSTEM FUNCTICHAL, TEST and st=ulated aute=stic l.- ]4 icperatien cf the entirs sys a: at least enes per 13 :entns. /l! 1 "Tne hf se ting ;rtssurs shall ccrrespend te ancient cenditfens 'cf the .j tl valves at nc=inal ccerating ta geraturts and pressures.. !n.-.s ......>a...-

 ....a>>. . . . . . . . . . . . . ...

g.,.... .. ,..... .y i

en ^.i'One: i:;;- ': ne d ,i thi.. 1". ' ...n a f tsc c ie ,.. .4. ,.c u . .. . . .I 1

tqu.tc ic ;cr#:-- ..: .ce t. %g.

t CLI.WCN - UNIT 1 ' 3/4 4.E /I

M,1f1[ }8 TABLE 3.4.3.2-1 -

REACTOR CCOLANT SYSTE4 CRESSURE ISOLATION VALVES 1

j VALVE NUMBER SYSTE4 *~ ~~ ""' "" ~'

1h041A LPCI frem RHRA Testable Chk Ts -*54: (cps 1E12F0413 LOCI frca RHRS Testable Chk 1 1E12F041C LPCI frem RHRC Testable Chk 3 1E12F042A LPCI frem RHRA Shutoff .

 .! 1E12F0423 LOCI frca RHR3 Shuteff t-1512F0AEC -

LPCI frem RHRC Shut ff

 . IE12F023 RHR 3 Su;:p to Rx Head Spray .

1521F005 - LeCS Inj Isol ,

1E21F006 LPCS Inj Testable Chk i 1522F004 HPCS Inj Isol i-1522F005 HPCS Testable Chk Disc 1E51F066 RCIC Pmp Disch to Rx Testable Check -

IE51F013 RCIC .c m p Disch to Rx Ottd Isol 1551F054 RHR & RCIC St Supp Otbd Isol -

 .-.. . ..y_ _ ,.,a. , n .. . _,__. , , , . u

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m_.>,..~-m..

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[ .. .i

 ./ -; . . TABLE 3.4.3.2-2 . REACTOR COOLANT SYSTE4 INTERFACE VALVES LEAXAGE PRESSURE MONITORS j ALARM . SETPOINT -l VALVE NUMBER SYSTE4 (osicy t = .

L.A TER C PS

 '.}i .t .

3 .

 'I . .

j it .t t .r CLINTCH - UNIT 1 3/4 4-10 1

 .. . . ..~. . . .. .. . ... . ..-. . 4 - . . . . -- ..t 2 *

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 -:.... .:m: . . . . . . . ~ .

l 2. - At. laast er:s ;te 13 c:nths:1

 .{ a) ?arfer=ing a system fyn ticnal tast which includes simulated e aut:matic actuatien cf tna system thr:ughcu- its emerg.ancy * } c;arating saquenca, but excluding actual valve actuation. s .!: h) Manually c:aning each ADS valve when .ha reac'(-- team de=a .? pressure is greater thar. er equal:: 100 psig and observing -

the ex;ected change in the indicated valve positten and that i'

• the accustic tail pipa mentt:r alarms. conirc{ valve ae bypcu g

 .I. .

c) Performing a CHANNEL CALI3P.ATICN of the nc:umulater backup::m-

! pressad gas system ew crassure alar = sys:am and verifying an alarm set;cint of s f * '. ' f;sig en de. creasing pressure. .

h L [g m.84 CPS

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 *e. .4 I . I

.'- 7 ^i .a pr:vis::..s. cf 5::scificat. ten 4.0.4 a're not a:;11:abla ;r:vidad the surrail- l N- lance is perf:rma: within 12 h urs after rea::r stets pressure is adaquata j 9 :: perform the tast.'r*-'* . .1

 , s . . r . -q .

4 , .

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l 4 .

 ~

I IsMR 16 i$33

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s .

1. ,

 ~akir.g e .1:wsu::f:n pressura frc c:ra spray (L?CS) systa= wi-h a ficw path capable of . througn the s; ray sparger ;to the reacter vessel.the su ;ression pect and . p, 4 .- .

9, b. . . .

s. .. .

 ; L:w pressure c:clant. injec .icn (L?CI) subsysta: "A" of the RHR systa= with a ficw path capable of taking section fr: the su;;ression ;cck,and trans- } ferring the watar t: the react:r vessel. .

s i c.

 . 9n dq manuit3 co.ugns] -

L:w ;ressurs::: Tant injection (LPCI) subsysta: "5"~ cf the RHR systan with ;.3 j a flew path capable cf taking sucticn frc the suppressica pcci and trans- )ferring the water to the reacter vessel.t J h 1 d. Lew pressure c:clant injection (LPCI) subsysta: "C" cf the?..MR system with' j,

 - a 't:w ;ath :a;1ble Of taking suctica frc:

ferring the water to the.reacter vessel. the suppression pc61 4 and trans j e.

 .; . ha axing highsuction ;rtss:. ire frc:;;re enes; 0.'. ray (HFCS) systa= with a flew path capable of .

i f. - the folicwing water scurcas and transferring , :

s. tha. watsr thr: .ugh tha spray sparger tc the rea:: r vesse.1: . . .zK.6-

- t. . .:.y . .;;.g...,.

-(I 1Fr

s - e su;;res.s,ien,;:01, c r . . [3 V. T 5.,;.::rr. 4 " . ;w. W'..

_ _ s .-: -

 .f. .

ts . . , , . .t7 i *,

 ' .. .w

 'rihan the su:;rassion peol level is less than the li=it er is drained,.

i fr:: ...e RCIC s::rsga tank c:ntaining at least 125,000 availa::le gailcas ef. water, acuivalen: to a level of 4-.M.o... re.,.. .

 .o.. .L.r v. Or.::n . . .n. .c..,

95% U ,

 , . . y .Cv.h.0I u.C.,t .,, and .ex.

 ,t J. . eu s .G..: . ' e .c .

i j

, . . . . y

a. .

i With ene cf the ateve recuired subsysta':s/ systems ine;erable, rast:re at

• 3~ -

 , lets: wo su: systems /systats: GPERAELE s stus within

1 . ,. s11 c: err.i:..s that have a ;c:antial for draining -he rea:::r vessel. .

 .s. .. w ..,.s. s... ..,3 ... . a,".i . u.. s u." sy '"

1 C:RE ALTER.:IC.*i! and all cparatiens . s .a....s, s, s .=.. s i.. y*.. . .=b'i .a , s us e....' . .

 ].

 .]. . wf r is. ... hin .o, 4 . . .hours er establish SECONDARY CCNTAISMENT INTEGRITY within t .s .v..s. .

1 .

. * * ~

t

 ,. .~ i-. '. .i h ^Tne .,3 i005 is n:: rtquired 0:::a o, C?ERAELE ;r vidsd *that the its:t:" vessel head

 ..g. .c s. .. . . ... ..,.astl .: s.,, ,. .,a.as are ,.a . t , ... _. -.. . ____ , .. . .

s - . . . . .

a. P , ._.,... ,...s 3. ,. ./..1 y 4.s .,4.

 . . . ... .,in4,. 4. = ... 4.. ... .w5 1 4. 4... s c .4 .c,. 4,. 4. s. s.. . .. . . . . . . . .e . . c .....

w: .t . .s... c . .M

 .i: 1.:. ..%.s.m.c s j, a* g,,;sgg . \

t g N ." . .

 -- . - - - -, - - - , - . - g - , . , , . - , , - - , - - , - , - - , . . . - - , - - , . - . - - , - , - e ---.y,.m.----... .-,r--- %.%.- -,-

NO

3., :c.r_uev

 - 'A al . . .. 1wa ra ww. s..:. ran bww6. e 96 .uc )v. .e. l :ved , 4 9

_ e:

 .iww - .-_ s. s . .s1.._ .s ,,1y. o-

li 4.5.2.2 The HPCS systam shall be datar ined OPERABLE at laast enca per i " hours by veri'ying. he RCIC storage tank r2 quired volume when the +ee 9'-j~ M:':n st: rage tank is required to be OPERASLE per Speci'icatica 3.5.2.e.l 'c.P5'

 . RC.t C. .

L p

 - - ~ ..f f.

f 1

 . 1 CLINTcti - L* NIT 1 3/4 s-7 F 31 a vten.w w

 = %

EugggjNCY CORE COOLING SYSTEMS hi 3/a.E.3 SUP?RESSICN FCOL ,

 '~ . LIMITING CONDITION FOR OPERATION

. 9 j' 3.5.3 The suppression pool .shall be OPERABLE:

 -l

1 least 146,400 ft3 , equivalent to a level of 18'11".l.y l' b. In OPE." TION I CONDITION 4 and E* with a contained water volume of at -#

[ 1 east ft 3, equivalent to a level of d.2'8"X except that the '((c.91 j uppression pool level =ay be less than the limit or may be drained pro vided that: ; c .. .

', { -R 1. ' No, operations are performed that have a potential for draining the j; g.. reactor vessel, ,

 ? os

 . 3. The RCIC storage tank contains at least "'

125,000 available gallons l of water, equivalent to a level of 1( c,n 955,and- ,3

4. The HPCS system is OPERABLE per Specification 3.5.2 with an OPERABLE flow path capable of taking suction from the RCIC storage tank a,nd transferring the water through the spray sparger to the reactor vessal. [

,-!,? . o ... . .

c j APPLICABILITY: OPERATIONAL. CONDITIONS 1, 2, 3, 4 and 5*..'p ,

 ' ACTION: . ~ '

less than the above limit, restore the water level to within the limit -i within 1 hour or be in at least HOT SHUTDOWN within the next 12 hours and

 ; in COLD SHUTDOWN within the following 24 hours.

p b. In OPERATIONAL CONDITION 4 or 5" with the^ suppression pool water level [

 ; less than the above li.mit or drained and the above required c'enditions !

i not satisfied,, suspend CORE ALTERATIONS and all operations that have a ,

 } potential for. draining the reactor vessel and,. lock the reactor mode switch :

in the Shutdown position. Establish SECONDARY CONTAINMENT INTEGRITY-with-2, in 8 hours.s

 ~

i .

 ,, . . i I aine suppression pool is not required to be' OPERABLE provided that the reactor '

h vessel head is removed, the' cavity-is flooded 5 being floodejg in. t.% 3 / 6 ;j pr::' , M the reactor vessel to steam dryer pool gatas W removed, the k w j

 'j ' sdfuel pool gates are removed -6 hen the cavity is floodedC and the water

 ~ ,i .

L l CLINTON - UNIT 1 3/4 5-8

 )

l

 - .,e . . . ..

l 1_-, , . e 0 r-y c . . , ..... ..... 's --

 .a' EME?.GD!MCE.d..a L *.Eh 6 q.;n,2a v.,.

n((n [r.~, n lSYSTEMS.AI . W '" ' ,wusw ~ 'l -li _eU.:.. ..., . _ _ . ,u. _ : - ,_. iJ - a. _v.:.N e. . i s s-i 4.5.3.1 The su;;ressica.pcol shall be gater=ined 0?ERASLE by verifying the watar level to be greater than or equal to, as applicable:8

 ) a. 13'11" at least once per 24 hcurs. .kr ersee. bel esnch%m 1, 2. A b l c83

at least ence per 2[ hours. b of*Soa*\ co^d$ b^5 4,F C.P3 {l-) . .' l.i 4.5.3.2 With the succression pool level less than the above limit or drained l .' in 0?E?.ATIONAL CCNDITION 4 or 5", at least once per 12 hours:l I a. Verify the recuired conditions of Specification 3.5.3.5 to be satisfied, .l .i

 . or . .: b. Verify footnote conditions

 . T. - ,.

r .u .-

.. . ' *~.. . . . . . _ . Q.; . .

 '. + . ~. ' .'. .: . .t . . .. . . ..;.- . = . . . ..;. .. ~ y. e .... .. . ....... . , ...: m.y . . u. ..o* '

li. .

 ~

1

  .l l CLINTON - UNIT 1 3/4 6-1E

 . .s .

CCNTAINMENT SYSTEMS

 . M: 1 F]

r .'.1 #33 .i . ~8 {. ORYWELL EY? ASS t.EAUGE LIMITING CONOITION FOR OPERATION capwi nit

3. 6. 2. 2 Dr.me11 bypass 4';d:;y r shall be less than er ecual to 1~"':' h: ,

c' ' ur ,2-:-t-b': *' 9:::!

 ., ft'.%. dx w .,tt.w.t,ge. w h.d j WOM *a- A/E vAb e. es,;r. M; .: :f 1.::F 2< .t;Qeeo.J6 \ pss e of 3psz, 4 g

APPt.ICASIt.ITY: When ORYp! HTEGRITY is required per Specification 3.5.2.1. [ACTION: /, /S' '1 .

 %dv c.LuJ.\

i With the drywell bypass leakage grestar than 10% cf the' '- ':- ---:::tv 'i -

 *f,* f::'; : 'u::" 1.00 'i , rest:re t the drywell bypass leakaga t= witnin l'-

3 .the limit prict t: increasing react:r c:clant systa= tamperature ateve 2cc*F. y 4-3

 .~ .

v

 =

n . .ew & vi.- e s.E e A \s e,s% ,,,4 j, t, Cohw *depte4 ile , w + <.

 *** 5#< A b siwve.hes. v.b J,vo :E ,

T suRytittanCE RECUIREMENTS

 #*0*I'l \ j -i j

j j A 4 5 2.2 Ndrysell bypass leakage rate test shall be c:nducted

t :9 F 'PS

 -s#

c!

 '. (Ger 10 .:..@ at a4 ?r.iti:'. differential pressure of 3.0 psi.:..d n: * / . . . c.e '. i 3 & '-- ' W .:::.... h ..'.:;r. One drysell airlecKE wx cpee.=dering the crywell leakage test such that each is cryvtil d:ch:cr shall rem ,{ fA leak tastad

fa. If any drysell. bypass leakage. test" fails t meet the specifie schedule fer subsequent tests sna11 he reviewed and a::;r:ved the C:=- b)ifcit, the ,

 . missica. If two censecutive tests fail t: =eet the lisit, .a test '

shall .E s i

• be perfer=ed at least every4- months limit, at which tima 9 *: " *est schedukmv until tuc c:nsecu-ive be r*su ac.1 tes s =ee the. d c.P5 j, - ,

The provisions of Specificatica 4.0.2 are net a;:plicacie.Gw~4.c..t.7...y. ~J' .f b. j . ,3

t * .

 ~ . - i .) * ' : .1 s *) *

 % m pJd k k ee.h. i: .5 ps:, ), .!% 4.*$9 eve M \ pressee 'is ~3 t.,cd scSw l '}' . .' d' k ces ve i.p e- .f.: is 1 0 *J , ,Q. p g

, j 'wx i%-e.bwdde leh'd s ,.4 l i4 j *-s,

 ~ % o.vh 4 A[E ,i.o(it. , , ,

I .% =* g d 4t, ,

 ! CLINTCN - UNIT 1 3/4 6-17 .

q.- .

 ~ ***;, -*.--

CONTAINMENT' SYSTEMS .Ms JJ Gd 'CP 4 CONTAINMENT' ' ' ': '. l: .'" ~ . T_ _', S p e,Ay 1 gs .i LIMITING CC'NDITION FOR OPERATION i 13.5.3.3 The /cIn:ainment:::nd :;r;:::: spray cede of the residual heat .jcP 1 removal (RHR) system shall be OPERABLE with two independent loops, each loop consisting of: .-I.. a. One OPERABLE RHR pump, and .1 b.

 .i An poolOPERAELE through a :h ficw id:rpath ::r!::capable .ct:r heat of-exchanger recirculating water -and thefrca the sucpression dentainment [CP

[1 (and) (drywell) spray sparger. A RHR APPLICABILITY: OPERATIONAL CONDITIONS 1, 2 and 3. .

 ? ACTION: , !

5 a. Withone[cntainment lb.i':r: l dry;::bsprayloopincperable, restore [CP

 - the inoperable loco to OPERABLE status within 72 hours or be in at least HOT

following 24 hours. , . 1

b. Withboth[ containment:::nd/:r: ldrg-:::: spray loisps inocerable, be in [CP

 .at .least HOT SHUTCOWN within 12 hcurs and in COLD SHUTDCWiP within the S,; ' -next 24 hcurs. . .;. -- ~

'i .' . . . t.'.'- ,l SURVEILL%NCE REOUIREMENTS - -

 ~ '

4.'6.3.2 TheY.ccntainment: D.2:"Cid..;:: spra)modeoftheRHRsystemshall ~ lCP ,

 " be demonstrated CPERABLE: . -

l a. At least'once per'31 days by verifying that each valve, manual, pcwer cperated or autcmatic, in the ficw path that is not locked, ' sealed or otnerwise secured in position, is in'its correct position.

 .- s#T

j 5

 . fog.a c:n:4.u.a..;;r:::i:.;;:U:gr: leer" I h;W-

l which includes simulated autcmatic actuation of the system throughout I,

its emergency cperating sequence and verifying that each autcmatic valve

 .i~ in the ficw path actuatas to its cerract position. Actual spraying of l coolantintothefcentainment: ldr;,::" may be excluded frca this test. IcP p . Byperformanceof;anairersmokeficwtestofthedentainment:::nd: !CP ;

ldrg..:::: spray no:hles at least once <per 5 years and verifying that each il ! <l spray nozzle is uncbstructed.)

• I 4 .

1 -y

 ~l %henever cc n RH?, subsystems are incperable, if unable to attain COLD SHIF- i j DOWN are required by this ACTION, maintain reacter coolant temperature as ; low as practical by use of alternate heat receval methods.

I 6i

 .* CLINTCN - UNIT 1 3/4 6-25 -

 .h - CCNTAINMENT SYSTEMS .g 4 ; SUPcRESSICN POOL MAKEUP SYSTEM ,, ,

s 3 I LIMITING CONDITION FOR OcERATION 3.5.3.4 The suppression pcol makeup system shall be OPERABLE.,4 3 APPLICABILITY: _0PERATIONAL CONDITIONS 1, 2 and 3.

 . ~ .

l

 ..t-ACTION: . .'Si' 1 a. With one suppressicn peo'l makeup line inoperable, restore the incperable i: makeuc line to OPERAELE status within 72 hours or b2 in at least HOT SHUT- . .j COWN within the next 12 hcurs and in COLD SHUTDOWM within the folicwing .1 , 24 hcurs.

r .i b. With the upper containment pool water level less than the limit, restore

 - the watar level to within the limit within 4 hcurs or be in at least HOT SHUTOOWN within the next 12 hours and in COLD SHUT 00WN within the folicw-ing 24 hours. . -' c. With upper containment pcol water temperature greater than the limit, restore the upper containment pool water temperature to within the limit within 24 hours. or be in at least HOT SHUTOOWN within the next 12 hours -;, .and in COLD SHUTCOWN -- wit.hin the follcwing 24 hcu.rs.

j -(URTM LLANCE REOUIREMENTS

 .., ..v .

4.6.3.4. The suppression pool makeup system shall be demonstrated OPERABLE:

a. At least once per 24 hours by verifying the upoer centainment pcol water:

8 27 '- 3" * 'l 1. Level to be greater than or equal to "".", and .O Cf i

2. Temperature to be less than.or equal to 120*F. -

l At:least once::er 31 days by verifying thak, kf b.

1. The upper containment steam dryer sierage pool / roc cr pool gafe f Q cl

 ~ -- indry.:'.'

cos* tion :t:r.(close :/f=M tr:.:f:r;;:1; t: .. n z:.:d.',{ i i3; fach valve, manual, pcwer cperated or autcmatic, in the ficw path that is net lockad, saalad, or otherwise secure in position, is in ji 'its corredt position. .L -04 c. At least once per 18 months by performing a system functional test which ei includes simulated autcmatic actuation of the system throughout its emer-I gency operating sequence and verifying that each autcmatic valve in the

flow path actuatas to'its correct position.. Actual makeup of water to

{ the suppression pcol may be excluded frca this test.y

 *f CLINTON - UNIT 1 3/4 c-28

a C"NTAINMENT' SYSTEMS &[].q gfgj" ff."li 3/4. 5. a C"NTA:NMENT AND ORYWELL ISOLATION VALVE 5 i a,

 .4 LIMITING CCNDITICN :0R OPERATION .k ac, 4i 3. 5.

 .::::  :n: h::i;;I?ij)shcun in Table 4.o.+-1 snail:::t:r ' :t::. -(() F CP! $ ::t t: . :::i;r ': ce GF5KA5L5 o *isa isciation times less taan or equal tc these shcwn in Table 3.6.4-1.

s, yf i

 . . .g i i j- APPLICA3ILITY:

As shcwn in Tabl e 3. 6. 4-1.[ -(~':.~ -u . .wu. ..m . . ...w _, 2 :ndh l

 . ... ==, m 3 ,

L ACTICN:J-1 4 '

a. With one er more of the centainment or drywell ' isolation valves shewn in 1 Table 3.6.4-1 incperable, maintain at least cne isolation valve OPERAELE

'} . in each affected penetratica that is cpen and within 4 hcurs either:

 ] 1.

 .. a . . . .

Isolata each affected penetration by use of at least one c1csed manual

 ~

t.3.1 valve cc, blind flange." -

 >m- .i . Otherwise, in OPERATICNAL CONDITION 1, 2 or 3, be in at least HOT SHUT-OCWN within the next 12 hours and in COLD SHUTCGWN within the fcilewing' 24 hcurs. -

1 Otherwise, in Ocerational Ccndition "", suspend all cperations involving CORE ALTERATICNS, handling of irradiated fuel in the sacendary c:ntainmen:

 . and with a potential for draining the reactor vessel. The previsions of .- Specificatien 3.0.3 are nct applicable.

1 :

b. ' ' $ th 2 7. -:

T. :X: - #I:^u :h--h CI f f . . . .

 ..~........r. . . " 7. r: Of ...th: . 7::t:r #T.r.......... ..e..._.. t..,......, r u.T. " ..".t , . *. *.. .i ." .. .. ... ... ....s... ..a. . . . . . .us.. . }, ;:".#:#: .:.ss. :

I.20 ##i :ti:."." 3.0.2 27.d 2.0." Jr: . ~ .:;;II::bI: ;r-'/'d:d

• e s....;_

 . s .y . . . e ~

t "ls......,

 .. .. . ...: : i::::':::d :nd th::::::i:::d ' :trun:nt f:

r......... N' e_... ,1 .

 .t ... .. ... r. .. . _ . - - ... . . ,,:..:. . .u. ..a r. .I .... . . . . . . ,_...s... .~.. . . . . . . - .. . . . . . . . .. .. . . .. , _ c. "i ^Iscia ton valves closed to satisfy these recuire= ants may be reopened en an ~

intar=ft: ant basis undar ac=inistrative c:ntrols.l i ""When hindling irradiated fuel in the sacendary centainment and during C~RE l j ALTERATICNS and cpera:icas with a ;ctantial 'cr draining -he reacter vessel. j i .l'! CLINION-UNIT 1 3/4 5-29

 . O..cu.

c tsE2

 ..w .- _ ,,.-_,.._r.,,.. , . _ , .,-,,,_-y._._,, _,.,..m ,,,,___..,.,_,...,,,__,_.,,.c___r..m. _ _ _ _ _ _ , , _ _ _ , _ . . . - _ _ . _ , . , _ , _ . _ _ , , , , . . .

 ~ . %~ '  TABLE 3.6.4-1 l

CONTAINMEN* AVD DRLT *, ISOLATION VALVES

 'I i' MAXIMUM SECONDARY $ APPLICABLE ISOLATION CONTAINMENT TEST VALVE PENE! RATION OPERATIONAL TIME BY? ASS PATH PRESSURE i NUMBER NUMBER CONDITIONS (Seconds) (Yes/No) (psig) ) ~ 1. Automatic Isolation Valves

 ] 1321-7028C 3-5 .l. 1321-7067C 21 ' k.

t

 ? 2) Main Steam Line A 6 1, 2, 3 No 9.0 I 1321-F022A 3-5 .j 1321-F028A 3-5 i 1321-7067A 21 . 3) Main Steas Line ') 7 1,2,3 No 9.0 8

1321-7022D 3-5 .

 ! 1321-7028D 3-5 j 1321-F0672 21 1 -' 4) Main Steam Line 3 8 1, 2g 3 . No 9.0 .' 1321-F0223 3-5 .

1321-F0283 3-5 .4

 ; 1321-F0673 21

 . 1321-7032A J 1E12-7053A 44 . 1 .) 6) Feedwater/RER Line 3 10 1, 2, 3 1 1321-70323 0.5 Yes 9.0 . 1E12-F0533 44 .I 7) RER Shutdeva cooling 14 1,2,3 No 9.0 '3 II12-7008 39 'd 1E12-F009 39 .j . . 8) RER A To Fuel? col 15 1, 2, 3 9.0 Cooling 1 y 1E12-F037A 135 No I j 1 :

9] 9) RER 3 To Fuel 7eol 16 1,2,3 9.0 y Cooling g IE12-70373 135 No p- -4 r 11 ;h 3/4 6-31 )fi

TA3LE 3.6.4-1 CONTAINMENT AND DELT L ' ISOLATION VAL 7ES

 -l MAI!ML7. SECONDARY i APPLICABLE ISOLATICN CCNTAINMENT TEST ! ~

VALVE PENETRATION OPERATIONAL TIME 3YPASS PATR PRESSL*RE 1 NUMBER ,NL*MBER CONDITIONS (Seconds) (Yes/No) (psig)Automatic Isolation Val *tes (Continued) l

 .,'; Prisarr Contain=ent (Continued) -

No 9.9 l- 1E12-F024A 90 i- 1E12-7011A 54 1E21-F011 24

 , 1E21-F012 135 ') LE12-7064A 8 l 11) RHR C Test Line 19 1, 2, 3 & ## No 9.9 .t 1E12-7021 189 2 1E12-F064C 8 i

i 12) RER 3 Test Line 20 1, 2, 3 & f f No 9.9 3 1E12-F0243 90 j 1E12-F0113 '54

 ! 1E12-F0643 8 -

 ? 13) RCIC Suction i 1E51-F031 28 1,2,3 34 No 9.9 1 , 14) EPCS Test Line 33 1, 2, 3 & ## No 9.9 . 1E22-7023 135 j 1E22-7012 19 .j ' . 15) Supp Pool Cleanup 34 1, 2, 3 & ## Yes 9.9 Suction /' -I 1S7004 66 .Y j

I. 16) EPCS Injection Line

 *j 1E22-F004 35 1,2,3 27 No 9.0 8

 . 18) RCIC 1E51-F077 41 1, 2, 3 21 No -9.0 ~~f 19) RCIC/RHR Eead Spray 42 1,2,3 No 9.0

 ,t;, 1E12-7023 54 V 20) RCIC Steam Supply 43 1,2,3 No 9.0 33 - -2 1E51-7063 T 1E31-7064 33 1E51-7076 14 3/4 6-32 'p .}

t

 * ~~ . .t . * =, - . . . ~ . . . . .' *****~.v'-'