Proposed Tech Specs Revising TS Consistent W/Sts & to Keep Units 1 & 2 TS Similiar by Providing Mathematical Symbols for Words Greater than or Equal To.

ML18100A530
Person / Time
Site:	Salem
Issue date:	08/03/1993
From:	Public Service Enterprise Group
To:
Shared Package
ML18100A529	List: ML18100A528 ML18100A530
References
NLR-N93115, NUDOCS 9308120028
Download: ML18100A530 (25)
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Text

• '

NLR-N93115 ATTACHMENT 1

, .- - -93oa12002a--9:3oso3 -- -~,1*

PDR ADOCK 05000272 t,_ ,

• P PDR ' :

e Salea Technical Specification Chanqe Paclcaqe PSB'G SALDI TECHNICAL SPECIFICATION INSERTS

. Ins ID A :

4.1.2.1 a. When the boric acid tank is a required water source, by verifying at least once per 7 days that:

(1) the tlow path from th* boric acid tank to th* boric acid transfer pWDp, the boric acid transter p'mlp, and the recirculation path from the boric acid transter puap to the boric acid tank is ~ &J*F, and (2) the flow path between the boric acid tranafer pUllp recirculation line to the charging puap auction line ia ~

50°P, .

Insert B; 4.1.2.2 a. By verifying at least once per 7 days that:

(1) th~ fl~w ~th fro~ the boric acid t;.nlt to thQ bo~ic a~id transtei:-. pWllp and from the recirculation line back to the bOric acid tarut i£ ~ 63°P, and *

(2) th~ fltN path between the boric acid tank re*ciroulation lin* to th* char9in9 pump suction line is ~ so*r, Insert, C: .

b. .ll'or the refueling water stora9* tank by:

1. verityinq the boron concentration at least once par 7 day*,

2. Verityin9 the bor~ted water volwaa at lea*t once per 7 day*, and

3. Verifyin9 the solution teaperatura at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, when it i* the source of borat.i water and the outaid* air te31Perature ia l*** than 35*r.

Insert D;

b. ror the retualing water storage tank by:

i. Veri1y1JHJ tba boron concentration at least once per 7

-..,~

2. V.riryin9 the borated water volume at least once par 7

. , . , , and .

3. v~ityi119 the aolution temperature at lea*t one* per 24 hourii wan l:he outaide air temperature ia* l*** than 35*p.

Inaert I:

tank in accord~ce with TS Fiqure 3 .1-2, and additional makeup from either: (1) the second boric acid tank and/or batchi119, or (2) a maximwa ot 41, BOO qallona of 2300 ppm borated water from the retueling water stora9e tank. With the refuelinq water *toraqe tank** the only borated water source, a **ximum of 73,800 qallons of 2300 ppm borated water is required.

..* e Salem Technical Specitication Change Packa9e In*trt r; The 37,000 gallon limit in the refuelin9 water storaqe tank tor Modes 5 and ' ia ~sed upon 21,210 qallona that ia undetectable due to lower tap location, 85.50 gallon* tor instrument error, 7100 gallons required for shutdown margin, and an additional 140 qallons due to roundinq up.

Inaert G; The boric acid tanks, pWDps, valves, and pipinq contain a boric acid solution concentration of between 3.7St and 4.0, by weiqht.

To ensure that the bOric acid remains in sol~tion, the tank fluid temperature and the process pipe wall temparaturea are monitored to an*ur* a taperatura ot 6J*F, or above i* uintained. The tank fluid and pipe wall taperatureo ara monitored in the main control rooa. A !5

• P marqin is provided to an sure the boron wi 11 not precipitate out.

Should ambient teaperature decraa** below 6l*F, ~"i* .boric acid tank heaters.; in conjuncti(')n with horic ~cid pump r=circulQtion,. ii,i;'ii Capable of maintaininq the boric ac14 in the tank and in the pump at or above 63°F. A saall amount of boric acid in th* tlowpath between th* tioric acid recirculation line and the suction line to the charging pwnp vill precipitate out, but it will not cauae tlow blockage even with temperatures below 50*P.

IBSW H; The aaximWD expected :boration capability (ainimu. boration volUlle)

• requireaent ia *tablish9Cl to conservatively bound expected operati119 condition* throughout core operatincJ lite. The analysi*

uewua that the most reactive control rod is not in . .rted into the core.

3/,.1 REACTIVITY CONTROL SYS!EMS 3/4.1.1 BORATION CCNiROL SHUiOOWN MARGIN - Tav9 , zoo*F LIMIT!NG CONDITION FOR OPE~AT!ON 3.1 .1.1 Th* SHUTDOWN MARGIN shall b* !. 1.61 Ak/k.

APPLICABILITY: MODES 1.i a*, 3, and 4.

ACTION:

W1th th* SHU WN MARG:N c 1.61 Ak/k, i11111ed1ately 1n1tiate ind ~antinue bo,.ation at> 19 1~111 ~f 2~ee ~~ Mrh !ei~ eelt11MeR gr !q1Ji.,,!lent I .

until the requirtd SHUTOOWN MARGIN 1s restored.

SURVEILLANCE REQUIREMENTS The SHUTOOWN MARGIN SN11 be d1t1rm1nld to bl 4.1.1.1.1 a.

-> 1.6S .:.k/k:

W1th1n one hour after detection of 1n inoperable control rod(s) and at lt1st once per 1Z hours thert1fter wn111 the rod( s) 1s 1nop1r1bl1. If the fnop1r1bl1 control rod 1s innov1bl1 or untr1pp1bl1, ttll above r1Qufrld SHUTDCWN MARGIN shal 1 be 1ner11sed by an UIOUnt at l11st IQUll to ttte w1thdra"'n worth of tlle inmov1bl1 or untr1p0tbl1 control roct(s).

b. When in MOCES 1 or 21 , at l111t once per 12 hour1 by verifying tftlt con~rol blnlc w1thdra~l .ts within the 11m1ts of Spec1fiation l.1..3.S.

C* .. Wlllft in MOOE z1', within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> prfor to 1chf1ving r11c:tor cr1t1cality by verifying Chit tlMt prld1cted critical c:antrol

~*position is.within the limits af spec1ficatian 3.1.3.5.

s.. Spec11l Test* E~CIDtion 3.10. 1

'With l(eff !. 1. 0

• ~ith l(*ff c 1.0 SALEM

• UNIT 1 3/4 1-1 1 ' It llD. 83 l

!pSitYITY comoL SY!i!MS Stlll'DGlll MARGIN

• i < 2oo*F iY9 -

L:Mii!NG CONOii!ON ~OR OPER.Ar!ON 3.1.1.2 Tb* SHUTOOWN MARGIN shall b*

• APP\. ICAB IL ITY: .UE 5 *.*

> 1.0I Ak/k.

ACTION:  ?>~GPM er~ c;:,~\..U't\ON CA"i'Ti:\°"'""~ ii! 65'6CP~l>afl.O~

W1tn th* SHUiOOWN MARG c 1.01 Ak/k, 1111111411t1ly 1n1t11t1 ind .

c!uan: A~t!1In: Lu:~*:*bo=c~,.=*": tE1~o: n~: : : :.-E": ~1 =e=f=2=~: ;: 0 =~=Dl ='9=e=P=4 4=~=H=l=w=,;='="

qu1va1: un:t~ t::*~uirff Sl<<ITOOWll IWIGlll ts ,..sto*td.

.. ::as='="="' =o e=1=e =o=,,.=*===I* *I

,.1.1.2 The SHUTOCWN MARGIN shill be dtUrm1ned to be > 1.0I ~k/k:

a.

and 1t l 11st once 0tr 1Z "°""

W1ttl1n ont hour after dttect1on of an 1nooer1bl1 control ~~d(s) tn1,..1fter wtt11 t ttt* r"Od ( s ) ; s 1nooerablt. If tfte 1nooeraolt control l"od 11 innovablt or untr; patalt, the SKJTDOWN MARGIN st.all be 1nc,..111d by 1n 1mcunt at l11st ~11 to tlle w1ttldra.n .ortft of tftt 1111av1bl1 or untri~~1=

control rocl(s).

b. At l111t OftCI per Z' hou" by. cons1dtrat10ft of tft1 'o11_owing factort:

1. Reactor coolant systail boron conc1ntrat1on,

z. Control rocl position, J. R11ctor coolant sys~ avtr*t* ten1Dtratu,..,

• e Fuel bu"'up based Oft gross tftef'ftlll energy i*"*~*tio"~

5. '~*non concentration,.and I. SJlftifil.illl conc1ntr1t1on.

SALEM * :JNIT 1 3/4 1.3 I , & II). 83 f

1-Silem Technical Specitication Chanqe Pac.Jcaqe A~CTlV[TY CONTi\OL SYSiEl4S l/*. 1.Z ISORATlON SYSiEHS FlOW PATHS

• S14UTDOWN LIMETINI CONOlTIQN FO@ OP!AATION l.1.2.1 .l.1 a afni-. ane of ell* followfnt baran injection ftaw ~ms

-' sh& It be OP!RAILI:

1. A flow p1~ fra tni boric acid tanks vi1 1 boric 1c1d transfer PWIP Ind chl"9hMJ PClllP co tM leactor Coolant S1s't* tf an11 tne bor;c &Cid StOl"lfl tint 1ft S~1f1Clt1on l.1.2.71 ts OPERAll.£. or i.. The naw SNCll ,,.. Ult refuelfnt wtlr 1tora99 tul& Tie 1 dllrtilWJ PUIP co tlle llHc'tor COolut S19t* tf Cllll t"I*

Mlfv~Hng wt1r storage tan in Spec1f1e1c1* l.1.Z. n.

ts OPllA8L£.

• MPl!CAI TT: MOOIS 5 and S*

.-.. . ~,.-A~~ of the 1bo'lt ~uirtcl '1aw 111CM shill a..,.._,._

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'Aa '911'1 ,._ .... ll111t1 Hfd CHiii t1 WIN;

o. Ai.1tllt OftCI per 31 d1ys by Ytr1fly1ftg that ttCft valve (..null, PGWr otttr1Cld or 1ut0111tttc) in tM '1ow Nelt tlll& fS noc locktd, se11 ... or OC"-"'ise securtd 1n PoltC1on. ts tft its corrtel

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Salem Technical Specitication Chanqe Packaqe AEACT[V[TY CON~ SYST£:'4S SURVUU.AllCI AEOUIR&l.m (Cont1nuecl)

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Salem Technical Specitication Chanqe Package IOUT!O 'JATQ SOUAC!$

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l. A stat- solutilft. twwatan of ef'C.i*Fi T1'e ~f\ml 111' "'ltl* starap tau vtU11 ~?i ooo)

1. A aiat- caatatMCI vol._ of la,11.r,Ki\u.

t. A llt**- bOIWI coac1Acnt1011 tf. 2300 PPll* ua

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SM.DI

• UNIT 1 11* 1.1& ._, at*.!

e 9 Salem Technical Specificati"on Change Package REACTIVITY COHTROI. SYSTEM SURYEILIAHCE REQUIREMENTS (Continued) b.

SALEM

• UNIT l )/'. 1-15

~ .'

Salen Technical Speeif icatl.*on Chanqe pac:.kaqe -

RE.ACT [V(TY COM1'10l SYSTEMS

,4 ~oN ,.,.,.,.,,-i:> 1/01.1.MW# "'

80A.AT£D WATER SOlJICES

• OP(llAT[NG c.)A'11111t /N ACt~WW~t:T ~,.,,, ,,:'iClllt:tZ" .

,_, _ e.

~. \.~.'2.

l.l.2.8

i. A ~;-tc u ~ d stor.1~ systttt ..,..~,.*Ill-.itrt-t-+4!i'H"11-4M-~...W4,.....-eM-~N+~

S,*IU* with:

l. A .tft1- solutton t"'erature af ~"3*FI b *. .fJte retue1tn1 ..,., storage tantt *i~h:

• 1. A eont11nec volu* of betwftfl 314 .soo and '00,000 911l0ftt of wner,

z. A bOron conc1ntr1cto" of bet*H" 2,300 and Z,500 ""* 111d

3. A 11tnt. . solutton c-..racure of 359F.

APPUCAI IUTY: MOIES l, 2, 3 ltHI 4*

ACTtOI:

1. W1 iJt tit* bot1 c act cl 1tont1 qst* t nataerab1e ud bet *9 111ec1 as ane of tit* lbove requt Nd taoratt* wn1r qst-, rnton &tit stor*** sylt ..

co ~DAILi 11at111 wtlltn 1Z 9'curs or be tn ti 1e1si *T STAHC'AY -1Uh*

• . Ut* 111d

• 9'cul"I 111cl barai.S to & SHUf IDll ~II IQVi q 1111t to at least 11 dl1ta Ilk It zao.,: NSto,.. U.. bal"ic K1cl 1tor1" s11t* to DPOMll dlCUS wttlltn th* '*a 7 dQS or ... tn COLD SHVfaMI wftfttn th ftllC. - " * .

be llt .. tile refue1t1t9 Wltlr stor191 tank 1~11, rtstore- tilt t1nk to

• llM&I tUbS wtU111 . . hair Qt bl in Ii 1Hii IGT SfM!!'f wttMft

• 1111& I lllln 1H In COLO SHUfllMI w1tbtn U.1 fo11Gwtnt 3D

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SlltYEIW 11" . .llllUB SAL!M

• UNIT l J/4 ... !6 .

.._; . }

Salem Technical Specific~tion Chan9ePaeka9a 1.

z.

J. *. 'i*r~f;rint ~* bol'il' .... ~*st.::'~* s11:lf' 1~\*:~::i *.

tea:araa&tt. *:

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• un ! T \

Salem Technical Specitication Change Package BORIC ACID TANK CONTENTS BASED ON RWST CONCENTRATION CJ) z . . - . . . .. . . . . . . - - ... . . . -*- - -

- ... - - -- . --. . . REGION 0 7,800 I I I

~

G>F I I . I

_J I I I I I I I

...J I I I ACC::EPTABLE ©PERA TION

- - ., - - - r - - - .. - - * * .- - - * ., - - - - .-

<( a - - "' - - - - ,. - -

c.::;

7,600 t-

~

-z 7,400 w

~

...J 7,200 0

cw 7,000 a:

0 f-en 6,800 2

~

-z

-~

6,600 6,600 6,700 6,800 6,900 7,000 CONCENTRATION IN BAT - ppm BORON SALEM

• UNIT 1 Figure 3. 1-2 3/4 1-1 71a,

3/4.9 REFUELING OPERATIONS BORON CONCENTRATION LIMIT!NG CONDITION FOR OPERATION J.9.1 With th* reactor vess*l head unbolted or removed, the boron con-centration of all filled portions of th* Reactor Coolant System and the refueling canal shall be maintained uniform and sufficient to ensure that the more restrictive of the following reactivity conditions is met:

a. EithiF i Keff of 0.95 or less, which includes a lS ~k/k conser-vative allowance for uncertainties, or

b. A boron concentration of > 2000 ppm, which includes a 50 ppm conservative allowance for uncertainties.

APPLICABILITY: MOOE 6*

ACTION:

With the requirements of th* above specif1cati not satisfied, irrmediately suspend all operations involving CORE ALTERATI S or posf tive reactivity changes and initiate and continue boration at > 19 ~""' ef 28,889 '~~

ber~e aei~ 9tlw*1** or its equivalent until K - is reduced to < 0.95 or the boron concentration is restor9d to > 2800 ppn, whichever-is the more restrictive. The provisions of Spec111cation 3.0.3 are not applicable.

SURVEILLANCE RE(JJIREMEMTS 4.9.l.1 The mare restrictive of th* above two reactivity conditions s ha n .. d*t*rmi necl prior to:

a. RCllOV1ng gr unbolting th* reactor vessel head, and

b. Withdrawal of any full length control rod in excess of 3 feet fn11 its fully inserted position.

4.9. 1.2 The boron concentration of the reactor coolant syst1111 ind tne refueling canal sti.11 bl det1M111ned by chtll1ca1 analysis at 1_.st 3 times per 7 da s with a maximum time interval b1twe1n samples of 72 noun. W \..J::,~~~ \.J~~~Y~

~~h~~~.,,.. ~~1~.r'~

• the reactor shall b1 maintained in MOOE e ....... Che "lieU11 'il&stl ~

~e1d is ~nbolttd er Pllll8¥eiv SALEM-UNIT 1 3/4 9-1

• ._j * ~

3/4.10 SP!CT~TEST EXCEPTIONS SHUTDOWN MARGIN LIMITING CONDITION FOR OPERATION 3.10.l The SHUTDOWN MARGIN requirem*nt of Specification J.1.1.1 may be .

suspend*d for ID9&aurmi.nt of control rod worth and shutdown margin provided the reactivity *quival.nt to at least the high*st estimated control rod worth is available for trip in**rtion from OPERABLE control rod(s), and APPLICABILITY: MOD! 2.

ACTION:

a. With any full length control rod not fully ins*rted and with lass than the above reactivity equivalent ~vailabl~ for trip insertion, immediately initiate and continue boration at ? 19 gp11 ef 291009 ppm berie aeid

~el~tien or its equivalent until th* SHUTDOWN MARGIN required by Specification 3.1.1.l is restored.

b. With all full length control rod* inserted and the reactor subc~itical by lesa than the above reactivity equivalent, immadiately initiate and continua boration at ? l'9 gpm of 20,000 ppa bo~ie aeid solution-or it*

equiv~lent until the SHUTDOWN MARGIN required by Specification 3.l.l.l is restored.

SURVIILLANCI RIQUIRIMBNTS 4.10.l.l The position of each full lmlgth and part lenath rod either partially or FULLY WITHDRAWN shall be determined at least once per 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

4.10.1.2 Each full len1th rod not fully inserted shall be demonstrated capable of full insertion when tripped from at l ...t th* 50% withdrawn position within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> prior to reducin1 the SllUTDOWH MAIGIM to lass than the limits of Specification J.1.1.1.

SALEM - UNIT l 3/4..-10-1 Amendment No. 91

Salem Technical Specitication Chanqe Packaqe RE.lCT IVITY CON'TltOL SYSTEMS IASES 3/4. l.2 BORAT_ION SYSTEMS The boron 1njectton s1ste11 ensures th*t ne t1~e rw1ctfvity control ts 1v1111D1e durtn9 t*ch llOO. of r1ctltt1 oper1tton The C0111Ponents requtred ta perfora thts functfon tnclucM: 1) bor~ted v1ter .-ctt, 2) dlar91Rt putijji, 3)

• ep1r1tt flow pith,, 4) bor1c 1ctd tr1n1fer puqJs. S) 111" .." ' 9'Ht tl'llhl

'¥,.*** ,*., i) 1n wrg1nc1 power suppl1 fr* OPIWI.! dtesel 99neraiors.

--++--~~

L!.:.::.=i.i;...*~H..... W1th Ule RCS average ,_.,..t.,ri" abave 200.P. 1 *nt** of two boron tnJect1on flaw piths *re required to eftSurt stngl* functtOftal cap*bl1tt1 tn t~e eygt !ft !!!M!!td rat 1ur~ rofld=" == cf th~ fl~ CNth; 1;;Gpii'iC.ht. Tit9 boratton ctpabtlity of etthtt flow INt~ ts sufftctent to prowtd9 1 SKVTll>\ll ~Gii tram*

expected** er1ttn9-cond1t10M of 1.51 dlltl k/t after *non dec.1 and cao1down

'"°"

---..~~2~00~'F~*._,. Tiie a.st** expected bor1tt0ft e1pabtltt1 .._t,.._nt acc:u" at £0L u 1 power .qutltbru* 11enon concUt:tans and requtNs UH 11H1nJ of *aHI borated w1 r f boric acid *"ra,. HM& ., MOOD 11l1 H1 el 3200 u*.

• H0tenr. to i. canststent wttll tfte ECCS teQUt,..nts, tll* IWST ti requ red to II ve 1 _.,.._. c0ftt1tned vo1um of 31%000 ~11ans *rtn9 aper1tfans tn MDCIS 2. 3 Md *. /l'IS

....+'Wth. Jes t**rature below 200.,. an tnJectton 111t* b *cc.Jt*1*

wtttiout stng1t f1ttu,.. constderatton on tttt basts of the stale re1cthtty concl1tton of th* reactor tftd tbe addtttOMl restrictions pralltbi\tn9 CCII ALTERATIONS Ind posttht NicthfC, chlnge ... the tvllt s11tet1 beca111s tnooer1bl1.

• ti** sfng1* tnJect10ft

.The bOron e1p1b111tJ reqytred lle1cw ., ts suff c:teat to provide a SHUTDIC Ml&JN of lS delU ' " after * ., Ind ,..,. , , . zoo~ to 140.,. Thts cOftdftfon requ1res etU.r ga11ons of boratld water

,,.. tlle bOrtc ac1d stora11 uau or *i:.ta11ons of Ji>> PPll borated water

'~!!- NfaeJ~ water 1t1re.. -

• _ .j ~ 100  !

I

~fli:,s. cllltatned *ter ._1_ 11u1 bof'Oft eo11c1ntratton o~ Ute MT also ensure 1 11111*-*1* of beMlft 1.5 _, u.a for t"- so11t1on rec1rcu1atecl w1thtn c:ont1t~ after 1 LDC&. Tlats pH bind lltnt*f as the ewo1ut1Clft of fodtn*

1ftd *1nt81111 _..dftct of d'1or1dt and caust1c stress cortoston on ..O*ntc11 s1st .... ind ca ria11ts. TJte cant1tnect **ter volume lt*tts tnc1*d9 111aw1nc* for

• 8ttr not !~lt!aal* ~s= of d1sct11r~ 11nc locatten and othar s;h7ste11 Ch1r1cter11ttc1.

The OP!WILITT of oft* Mf'Oft tnjectton syst* durtn9 R£F*Ll"8 lf'ISUttS that this s11t111 Is *v1tl1bl* for re1cttwtty control whtle tn MOIE '*

SA LEM

• lit IT l I 3/C l*l..

5

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• 83

3/4. 1 REACTIVITY CONTROL SYSTEMS 3/4. 1. 1 BORATION CONTROL SHUTDOWN MARGIN - Tavg > 200°F LIMITING CONDITION FOR OPERATION

3. 1. 1. 1 The SHUTDOWN MARGIN shall be greater than or equal to 1.6% delta .k/k.

APPLICABILITY: MODES l, 2*, 3, and 4.

ACTION:

With the SHUTDOWN MARGIN less than 1.6% delta k/k, immediately initiate and continue boration at gFeateP tRan gp eqYal ts lQ gp~ of a soluti~n containing gFeateF tRan gp ~q1.1al tg 20,0Q'l:13A1 boron or equivalent until the required SHUTDOWN MARGIN 1s restored. . (::;::::6'5'60PP'1W\\

SURVEILLANCE REQUIREMENTS

4. 1. 1. 1. 1 The SHUTDOWN MARGIN shall be determined to be greater than or equal to 1.6% delta k/k:

a. Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> after detection of an inoperable control roq(s) and at least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> thereafter while the rod(s) is inoperable.

If the inoperable control rod is immovable or untrippable, the above required SHUTDOWN MARGIN shall be increased by an amount at least equal to the withdrawn worth of the immovable or untrippable control rod(s).

b. When in MOOE 1 or MODE 2 with K greater than or equal to 1.0, at least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> by veri?~f ng that control bank withdrawal is within the limits of Specification 3.1.3.5.

c. When in MODE 2 with K less than 1.0, within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> prior to achieving reactor cri~ftality by verifying that the predicted criti-cal control rod position is within the limits of Specification 3.1.3.5. .

• See Special Test Exception 3. 10. 1 SALEM - UNIT 2 3/4 1-1

e-***

~. il REACTIVITY CONTROL SYSTEMS SHUTDOWN MARGIN - Tavg ~ Z00°F LIMITING CONDITION FOR OPERATION

3. 1. 1.2 The SHUTDOWN MARGIN shall be greater than or equal to 1.0% delta k/k.

APPLICABILITY: MOOE 5.

ACTION:

With the SHUTDOWN MARGIN less than 1.0% delta l</k, immediately initiate and continue boration at gPeateP tAan 9P equal .to 10 gpa of a solution containing greateP tl:lan or equal to 20,QQQ pplll~ron or equivalent until the required SHUTDOWN MARGIN is restored.  ?:6{560~Pm I .

SURVEILLANCE REQUIREMENTS

4. 1. 1. 2 The SHUTDOWN MARGIN sha 11 be determined to be greater than or equa 1 to 1. QI de 1ta l</k:

a. Within *l hour after detecti"on of an inoperable control rod(s) and at least once per 12 hour1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.s thereafter while the rod(s) is inoperable.

If the inoperable control rod is i11111ovable or untrippable, the SHUTDOWN MARGIN shall be increased by an amount at least equal to the withdrawn worth of the immovable or untrippable control rod(s).

b. At least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> by consideration of the following factors:

1. Reactor coolant system boron concentration,

2. Control rod position,

3. Reactor coolant system average temperature,

4. Fuel burnup based on gross thermal energy generation,

5. Xenon concentration, and

6. Samarium concentration.

SALEM - UNIT 2 3/4 1-3

.. ' I e e Sal*m Technical Specification Change Packaqe

~~crtv!7'Y c:HTilOl SYSic~S l/*. l.Z 90IAT?Olt SYSTE~S FLOW PATJo!S

• SHUTOOWll LlHITtHG COHOJTtOH POR O'ERATTOH J. 1.z.1 At & afftill!Y9, one ot C"8 'ollowfng bGl"04 fnJeciton ,, .. PiUIS sftllr lie QPWIU:

L A nw '4\Cla ,.,.. . the Dorf~ ICfct WU Yh I Darfe *f d tl"lft1f1r Dump

.,... Cll.l"li~ ...._ ui uae h1cur Coot111t S11c. ft u. torte ~f.-

tioraqe ~ fn Specfttcation l.l..Z.S1 fs OPOMt!Q eea

• rt. Tiie flow paift ,,_ U. rlfutl f ftl "-bP lcat"llJI UAll 'lfl I CMrtf "9 11- ca u.. *cur Caalant Srtu. tr ta* l"WfMllftl ~c.r H*"'9 '

unll f11 Spectrfc.~toa l.1.Z. 511 11 GHIMLL AINCMJ:LlTT: ..aOIS 5 n:I.

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SAUJt - UNIT z* l/' '1- 7 ~*n-.c *o. 40

Salem Technical Specification change Packaqe REACTIVITY COHTROL SYSTEMS FLOW PATHS

• OP~TIHG LIMITtMG COHOJTlON FOi O,ERATtON i.1.2.2 At 1,.. , \wo of tJ\e to11*i"I U\ree boron tnj1etton f1w pa&l'ls snail be OPEIAIL&:

a. T1'e f1ow i:Ntb fl"C9 tfte ~rte 1c1d tlftu vf1 1 bartc acid transfer l:lmlP Ind I d\argfftl PUllf to tfte **KUr C4o1u' S1*t*..

b. Two 11 ow INUW f1'0ll Ute Nfue1 tng water st.orate tank wt.a wrvtng pamps to U'9 lleacur Coo 1ant. Sy1ia.

APPLJCAllllTt: MDIO 1. %, l Ind 4.

i}* z~ l u. lllGV* ,.....,...

IN"'nd ,.,.... llJ'I - *1ew """

WI ,.. 3 t1* *CM sll&U 11t d**tirmd OPllAILE:

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t.al " If U.

...... M111 8 e*I ee 1ec?f, fr* g. **Iii* 11M s1n111tt1

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• m1 **

• autwt1c) f n tfte flw pita Hdl valve ( ......1, vaat. II nn 11CU4,

. . .,_,. .. 1-=unc1 fn po1tt.ton, 11 tn tu col'ftd pasttton.

• • At fuat ef9ft ,a"° II ~1 ciUrfng shutdalifn b1 ver1tyf,. Ula'. 1.a.

1uta.at.1c.w1h* tn *' r1 .. patai 1ctu.t11 to tb cornet posttton on 1 11t1ty tnJec:itan tall 11tnal.

J ,

SALEM 0 UNIT 2 l/4 l*I

Salem Technical specitieaticn Chanqe Package

~£.ACTtVtrt CCNTROl SYSTEMS 1011.lT&O ~ATiR SOURCES

• SHUTOOWN LJMlTTHG CONOITtOll '01 OPIUTIOll J. 1. z. S AJ * *fnf-, one of Ult totlowiftf ~r1"4 ..ier sourc11 sltll1 ' '

OPEIAIL£:

a. A boric **l' 1cara1* 1y1tua . . . 11 11111 .. , 11111 .. 11* heuc

. . . . . . . . , .... vi.th* 1 a C.OC> J

1. A 1tni- conu1ned v*h* *'--"'1*11*** 1 f~ ,,.-D '"'° f-= 2* le~,818 -.**H,IM PP9 If MPM!; ~

J. A ai11f- 101UCilft \MIDtratur. ef~l ....1 -I c.-s*F(

It. n. "full I,. *tat" stor119 ua vttm . ~~--

~33 ooo I

1. A af*f- conained wol~ of ia,s111'9a1\ou,

2. A. miaf- MNI concentrag1* ot 2, Joq. P19, aA4 J. A aiat- Mint* *"iur. ot 31.,.

) Al!\ICMIU1J: MDOIS I m I.

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J. Vl?fll4 :,,,.. UM wic act4 1toP'f.. UA* telu&f ... ~rnun wfteft It h Utt 1ourc1 of tor1Ud **Ctr .

SAUM

• UMIT Z l/4 l* 11

Sale~ Technical Specitication Chanqe Packa9e R£ACTIV[Tr cOHTIO~ SVS7E~s ao-..reo WATEJ SOURCES

• OPE~ATiHG A C'oN~u~ Vol.'*"~ oF *"'i3..e-..+ JllZ) wAl'lle. IN Ac~*~ 1.-r'IH R~f.ll:C"

. LIMITlHG COHOITION ~01 O,ERATtON 11- a 3.1.Z.6 As a *tnfaua, tilt to11owfnt borated ~*t*~ source 1 sh~ll be OJtAAILE 11 rtquired ~ SQ.ciff(lti~l.1. 2t ~J~* z. z.:

a. A boric acid 1tor199 syst.. ,,.. 1111\ *** .. *****'-* IM-' "'

=~~~*~h~lt:-i A-...- IO J. A afnflNI solutfon t_.ratul"9 ot~&*t=, ...j, *FI

b. The ,,fuelfnt waur storage tank wit~~ a .

- t. A cwaf* vol'* of betwtn 314,500 Ud 400,000 g11lon1 ot waur,

i. Aboro11 eoncutaonton ot beaMen 2.loo &nd 2,soo ppa. *nd

3. A *inf~ se1uttoa t11109r1turt ot 35*,. '

u'uCA11!J!!: au 1. z, J Uld '*

ACTION:

vttta tM Hric acid narate s1st.M fnoperul* lftd Hf,. us..a u one L

of CM IDO¥e .,._t,... *rated -aur 1aure.,, ...un ii. *COPllJI sysm to OPUMU aucus wit.ain 72 taoun or be f1 1c lusc MDT STAllCIY wttllin tae nai & 1'oun Md C.Oratad to a SlllTDNt INGIJf ca 1eai lS dllU t/k at zoo*': "°" tN borfc ecfd

• iv*l*'

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b. ViUt Ute "'*1tag weer star111 tlftk f noperlla1e, n1tare ue W\9' to OPUMLI IC.CUI VfU.fft OM houtt ot be fn at 1tut HOT STANGIY wfta1n CM nut I ....... and In CCU SMITIDll vftatn De fo11*tnv JG *"*

SUMJLUNCE 'RITE'!

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Salem Technical specification Change Package B:ORIC ACID TANK CONTENTS BASED ON RWST CONCENTRATION en z

0 7,800 * -t

• I

• * * ~

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• * * ~ * * *

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6,600 6,600 6, 700 6,800 6,900 7 ,000 CONCENTRATION IN BAT ppm BORON Figure 3. 1-2 SALEM

• UNIT 2 I 3/4 1 -121a)

3/4.9 REFUELING OPERATIONS 3/4.9.l BORON CONCENTRATION LIMITING CONDITION FOR OPERATION 3.9.1 With the reactor vessel head closure bolts less than fully tensioned or with the head removed, the boron concentration of all filled portions of the Reactor Coolant System and the refueling canal shall be maintained uniform and sufficient to ensure that the more restrictive of the following reactivity conditions is met:

a. Either a Keff of 0.95 or less, which includes a l% ~k/k conservative allowance for uncertainties, or

b. A boron concentration of greater than or equal to 2000 ppm, which includes a SO ppm conservative allowance for uncertainties.

APPLICABILITY: MOOE 6~

ACTION:

~6 m With the requirements of e above specification not satisfied, immediately (

suspend all operations in olving CORE ALTERATIONS or positive reactivity

z. ~~~ p~

_J f

changes and initiate an ontinue boration at greatev tAaA eP e~ijal te 19 §~m

• of a solution containing gt"utar 'dli.A or eq11al t.a .20,QQQ i:i~m. boron or its equivalent until Keff is reduced to less than or equal to 0.95 or the boron concentration is restored to greater than or equal to 2000 ppm, whichever is the more restrictive. The provisions of Specification 3.0.3 are not app.licable.

SURVEILLANCE REQUIREMENTS 4.9.1.l The more restrictive of the above two reactivity conditions shall be determined prior to:

a. Removing or unbolting the reactor vessel head, and

b. Withdrawal of any full length control rod in excess of 3. feet from its fully inserted pdsition.

4.S.l.2 The boron concentration of the reactor coolant system and the refueiing canal shall be determined by chemical analysis at least once per 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

• The reactor shall be maintained in MOOE 6 whenever fuel is in the reactor with the reactor vessel head closure bolts less than fully tensioned or with the head removed.

SALEM - UNIT Z 3/4 9-l

J/4.10 SPECIAL TEST EXCEPTIONS

... SHUTDOWN MARG*

_ LIMITING CONDITION FOR OPERATION 3.10.l Tha SHUTDOWN MARGIN requirement of Specification 3.1.1.1 may be suspended for me&surement of control rod worth and shutdown margin provided the reactivity equivalent to at least the highest estimated control rod worth is available for trip insertion from OPERABLE control rod(s).

APPLICABILITY: MODE 2.

ACTION:

a. With any full length control rod not fully inserted and with less than the above reactivity equivalent available for trip insertion, immediately initiate and continue boration at 1~satew than e~ e~~al tg 10 IP= of a solution containing g~aat*~ thane* eqWll te lQ,900-ppm boron or its equivalent until the SHUTDOWN MARGIN required by Specification 3.1.1.1 is restored.

b. With all full length control rods inserted and the reactor subcritical by less than the above reactivity equivalent, immediately initiate and continue boration at 1seater than e* eqltal

~g lQ gpm of a solution containing sweater than er eq'l:Wll te 20,aoe ppm boron or its equivalent until the SBU'l'DOWN MARGIN required by Specification 3.1.1.1 is restored.

SURVEILLANCE REQUIREMENTS 4.10.1.1 The position of each full length rod either partially or FULLY WITHDRAWN shall be determined at least once per 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

4.10.1.2 Each full length rod not fully inserted shall be demonstrated capable of full insertion when tripped from at least th* 50% withdrawn position within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> prior to reducing the SHUTDOWN MABGIN to less than the limits of Specification 3.1.1.1.

SALEM - UNIT 2 3/4 10-1 Amendment No. 66

• Salea Technical Specitication Chan9* Package REACT[YITY CONTROL SYSTEMS SA SES j/,.1.2 IORAT[ON STSTEMS The boron tnjtct1on s1st.. ensures th*t ~ ttvt re1cttv1t1 contra1 ts 1v1t11*1* during eac~ .-ode of f1c1ltt1 operation The ca-.onents requtrtcl to perfore t~ts functton tnc1ude: l) bor1tld w1ter aurces, 2J dl*"t1ng pu111Ps. J) sep1r1t1 flaw 01t1s, 4) boric 1ctd transfer_pu..,1, 5) 11111f11e~ -*** *r11tnt 1,-n** .-a,, 1n **rttnc, power supply ,,.. OPDAal.£ dhse1 11nerac0rt.

~~rEH&Jwfth the ACS 1v1r*1ge tet1Hratu~ *~.,, 200" ~ 1 lllfni!!!!!!! *o1 ~ ~F@ft iftJtcif~ flc. p~tRi irt required to insure stn9l1 functfon.l caplbtltt7 tn the Hent 111 assu*CI fat lu" .._.." on* of tit* flaw paths tnoper1*lt. nte borat.tGd\,

c*pabtltt)'"-of 1ttl\1r tloir p1U ts suff1ctent to pra*fd9 1 SHUrtDWll MMIPI tr*

up1ct1d operat1nt c:ond1t10ftl.Of .1.R de1t1 t/k 1ft1r llftOft decQ lftd cooldom ta zoo-,. Tfte- *~'~ e~Kttda.11Qc1Uo11~1Wltr..*.pqt.1i rtmtwt occurs at EOL t rom pawer iQUtltb,,,. ..... caad1\1ans and ~rtt 1111 91l10R1 ., Ma*

bar1ttd wa r fr bOl"fc 1ctd. .1MH*11-1_.....,..,.-s;i1VV11,....1+1-M...,.~i.,.....

Hawe11r. co bl consistent witll tilt £CCS nquf rtmMS, tbt RWST 1 ,..... red to ..... I llf11t . . conc1t11cl

. volu* of 350,000 91110M cllriftl aptr 1ons fft MOl!S 1. 2, l Uld "rli~i!~::J

) 41:~~\r. '-'s tMPeracurl IM1aw ZOO.,, one tnjec&tan s.rst* ts ICCIOC*blt wtthout stn9le fat111re cons1den"&t*

• the buts of the staa.11 re1cth1tJ coacttttan of the rt1ctor IR4 ille lddtttON1 rntrtcttont profttltfttnt call ALTERATIOflS 1nc1 post th* f'HcthftJ Clllfttl f n tftl 1ftftt th* 1f ntl1 .fnJtctton

• s1st*. becoms lftQtter1ble. 0~ . ~

T"9 bol"Oft ~p1btlft1 ,....,

SHUTllJWN MAAG JI ot 11 dll&I 11:/k ate .....

140'F. nt1 condtUon ,...,,,.. litae 1* ZOO., ts suf Ctetlt to pNYicle 1 1111ons ~

Ind 1. . ,,.. .zoo., to bor1ttd W1t1r

,,.. ne bor1c 1ctd 1tor111 tllb ar~p11M! Gt HOO "5 Hi°i~H water

~ Fefutiill Wllttt lttn.. tlM. y tioo l Tise 1tlltt1 *9'it* ..,.,. '11.,.. and baran eanclfttr1tt0tt of tile MT also 111sure 1 pll *1* fJI be-.. 1.5 lftd 11.0 tor th* :solutt* rectrc111*t**

w1thfn cont1tnllllll dttr 1 UXA* Tiits pH band llintllizu tit* wolucta. of 1od1n*

1n~ a1ntat11s tl9 lfflCt ot Cft11rtde lftd c;ust1c it~tt* corl"Olf Oii an lllcltentca1 11ste.. and campon..,1. The Cltltatned w1i1r volu.. lt*fts tnc1ude *11ow1nc* tor water not 1v1tl1D1* btCIUI* of' dtsdlarge lfftt loc1t1on and otfter ph19tc11

• cl\1r1c:i1risttcs.

Tiit OPIRAIJLJTY of ** boron t"Jtctton s1still 'dlrr1n9 AIFtaLJ* ensures that tftts syst.. ts 1v1tl1bl* for re1cttvtt1 control while tn ..011 I.

SAL!M

• I.JUT 2 I 'J/4 1*3