Proposed Tech Specs Requesting Changes to Make TS Changes Consistent W/Standard TS & to Keep Units 1 & 2 TS Similar, Mathematical Symbols Were Provided for Word Greater than or Equal To.

ML18100A488
Person / Time
Site:	Salem
Issue date:	07/19/1993
From:	PENNSYLVANIA POWER & LIGHT CO.
To:
Shared Package
ML18100A487	List: ML18100A486 ML18100A488
References
NLR-N93115, NUDOCS 9307270036
Download: ML18100A488 (25)
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Text

.,.. NLR-N93115 ATTACHMENT l

Salem Taehnical specif ic!on Chanqe Packaqe PSZ'G SALIX TECHNICAL SPECIFICATION INSERTS * :Insert A.: 4.1.2.1 a. When the boric acid tank is a required water source, by verifying at least onca per 7 days that: (1) the !low path from the boric acid tank to the boric acid transfer pump, the boric acid trans!er pUllp, .and tha recirculation p*th trom the boric acid transfer PUllP to the boric acid tant is &J*F, and ( 2) the flow path between the boric acid tran.ter pump recirculation line to the charging .puap auction line ia so 0 r,

• Insert B; 4.1.2.2 a. By verifying at least once per 7 days that: (1) th* flow path froa the boric acid tank to th* boric acid transfer.

pump and from the recirculation line back to the boric acid tank is 63°F, and * (2) the flov path between the boric acid recirculation line to th* cb&r9in9 pump suction line is so*r, In1ert C: b. Por the water storaqe tank by: 1. VerifyiiMJ boron concentration at l&Ast once per 7 clay*, 2. Verityinq the water volume at once per 7 day*, and 3. Verifyin9 the *olution teaperature 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 1* the source of boratacl w*ter and the outaide air temperature ia l*** than 35*p. Insert D; b. Por the refueling water stora9e tank by: 1. Verifying th* concentration at least once per 7 --* 2. Y.a-11ying th* borated wat*r volume at least once per 7 .,.. and . J.

tb* solution temperature at leaat once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> wben. outaide air temperature ia l*** than 35

• F. Inaart I: tank in accord&r1ce with TS Fiqure J .1-2, and additional makeup from either: .(1) the second boric acid tank and/or batchift9, or (2) a maximWI ot 41, 800 qallon* of 2300 ppm borated water from the retueli119 water storaqe tank. With tne refuelinq water storage tank a* the only borated water source, a maximua of 73,800 qallons of 2300 ppm borated water is required.

... .. e hn *t* e Sala11 Tee ical Spec1 ication Change Package In1m r; The 37,000 9allon liait in the refuelin9 water storaqa tanlc tor Modes 5 and ' ia based upon 21,210 qallona that ia undetectable due to lower tap location, 8550 gallon* tor instrument error, 7100 gallons required for shutdown mitrcJin, and an additional 140 due to roundinq up. In11rt Gj The boric acid tanks, pumps, valves, and piping contain boric acid solution concentration of 3.7St and 4.0, by wei9ht. To ensure that the boric acid remains in solution, the tank fluid temperature and the process pipe wall temperature*

are monitored to *n*ur* a taperatura ot 63 *r, or above i* .. 1ntainad.

Th* tanlc fluid and pipe wall teaparaturaa ara monitored in the main control room. A s*F marc;in is provided to ensure the boron will not precipitate out. Should ambient t-perature clecruae below 6J *F, t."la boric acid tank heaters; in conjunction with boric acid pump recirculation, ara -eapal)le of maintaining the boric acid in tha tank and in the pump at or above 63°F. A *-11 amount of boric acid in th* flowpath between th* boric acid recirculation line and the suction line to th* charqing pwnp_vill precipitate out, but not cauaa tlow blockage evan with tmaperaturea below so*r. IHSIBT H: Th* aaximWll expact9d boration capability

(*ini11u.

boration voluae) requiraent ia utabliahed to conservatively bound expec:tac:l operatin9 condition*

throughout cora operatin9 life. 'l'h* analy*i* u8\Ul8a that th* llO&t reactive control rod is not inserted into the core. I !

" lt*.1 REACTIVITY CONTROL SYSrEMS 3/4.1.1 BORATION SHUTCOWN MARGIN -iav9 ) 2oo*F LIMIT!NG CONDITION FOR 3.1.1.1 The SHUTDOWN MARGIN shall be!. 1.6S APPLICABILITY:

MODES 1., a*, 3, and 4. ACTION: With the SHU WN MARG:N < 1.6S f11111ed1at1ly 1nftiat1 ind eantinue boration at > 19 ef 2e,eea berie or equivalent until the required SHUTDOWN MARGIN is r11torld.

SURVEILLANCE REQUIREMENTS 4.1.1.1 .1 Th* SHUTOQWN MARGIN sh&ll be determ1ned to be> 1.61

-a. Wtthin one hour 1ft1r detection of 1n inoperable control rod(s) ind It l11st once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> ther11fter wftile tne ra4(s) is tnop1r1ble.

If the tnoptrailt control rod is fnnov1bl1 or untJ-1pp1ble, tN lbovt requtrld SHUTDOWN MARGIN sh111 be tncr11sld by an UIOUnt It l*st tqUll to the w.ithcirawn worth of the tnmavable or untrf PMblt control rod(s). I b. Whttt tn MOOES 1 or 2 1 , at l111t once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> by verifying tftlt blnlc wttncsra_.1 .ts within tht 11m1ts of Specifiation 3.1 .* J.5. c *.. WMll tn MOOE 2 1', 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 crtt1ca1ity by verifying thlt t..e predicted critical eontrol rod position is.within the 1fm1ts of spec1ftcat1on 3.1.3.S. s .. Sptc111 Test 3.10. 1 ' W1 tn Keff !. 1

• 0 flW1th Ktff < l.O SALEM

• UNIT 1 3/ 4 1.1 I ' Ito llo. 83 l

,, . T .. -, !US!tYITY CONTROL SYSTEMS CONCii!ON OPERAr!ON

3. 1

• 1

• 2 The SHUTOOWN MARGIN sha 11 be > 1 . OS k. -* APP\.ICABILITY:

..:KlE 5 *.* ACTION: I CZ.C.'-U,.\ON

-;a With th* SHUT'OOWN MARGJ.. c 1.01 1111111d1ate1y 1n1t1ate Ind . continue bo.-at1on at !_fl.a "' ef 20;000 .. "'"4e 111.-selw*h" or* equivalent until the required SHUTO<nlt fl'AAGIN is ,..stored.

'!

,.1.1.Z Th*

...UGIN sl'lll1 be detenn1neft to be 1.0I

-1. W1tft1n one hour after detection of an 1nooerab1e contro1 and at 1 east once oer 1 Z hourt the"after wni 1 e tt\e rod ( s l

• s 1nooerab1e.

If tfte 1nooerab1e control .-ad 11 11191Dvab1t or untr; paile, tftl SHUTDOWN MARGIN st\&11 be 1nc"1sld by an 1mcunt ac least equtl to tfte w1tltdrl"'9 wortft of tl'le 11111av1bte o.-

control rod(s). b. At least OftCt 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 'o11o*ing factort:.

1. Reactor coolant systlit boron concentration, z. Control rod pos1t1on, 3. Reactor coolant 1vera11 temDerature, 4.

• Fuel burnuo bastcl on grass tfterftlll energy gener1tio"*

5. :<enon concentra t1 on, .1nd e. SJlftiril.lftl concentr1tion.

SALEM * :JNIT 1 3/4 1-l I ' It la. 83 r

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• I I L ----*-Salem Technical Specitication Chanqe PacJcaqe RE.olCTtVCTY SYSi£MS ll'* 1.Z IORATlON SYSTE14S FlOW PATHS -SMUTDOWN LIMITtNC CONOlTI91!

FO@ OP!AATtON 3.1.2.1 1 *'fni-. one of CJle fol1owin9 bol"Oft injection flow pnhs shAi1 be OPOAI&.£:

&. A flow path fra11 thi boric acid tanks vi1 1 boric acid transfer P* and chl'1i1MJ pgnp co tM le1cto* Coalut S1st* tf onl1 ttll bor;c acfd storate tant 1n 3.1.2.71 ts OPERA&£. or i.. The now SNth ff"09 CM ... .,., fnt .. tar storage tull Tie I chlrti"9 PUIP to tlle ll11ctor Coo1u* Sl'lt* tf an11 ttte 1"1fu1!1ng weer storage tan fn Spec1f1cac1oe 3.1.Z. 7' ts onlAaE. ' APPUCAI TT: MODES 5 and & *

-1.t-l!un of tM above flow l)leltt IM11 be.,.._..

+.

J ,, **. '114** ............. , * '111*.hii**

..... ,. * .,, .... at.1 flew ,,..., ta !.,.141 1 F. 1*en. * . Aas "7ii _. CHiii t1 WIMu b. At. ltalt once per ll days by Ytr1ty1ng that .. dt valve (111nul, pen.er otter1Ctd ar in tM '1ow PHJt tN& fs noc loc9'td, se11_.. or secured 1n Pol1t1on.

ts tn iCS corr.el *po1tito"

• SAUM -UN IT I

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• Salem Technical Specific&tion.Chanqe Pacxaqe REACT[VlTY CONTROi. SYSTV.S SURYUU.MCI AEOUIUHl.'ITS (Cont1nutd)

c. At ltHt once per 18 mnths dur1n9 shutdawn 111 w1r1 tying c.N'

• Heft 1Utolllt1C Vil¥9 in the f10W p&tb iCci.HH tll i :S pasttion Oft & Hftty h'\JICtiOA test S11J1111 e J. L6ASr fC'fft. J/lleN'/11&

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• Salem Technical Specification Chanqa Package IOUT'!!) :J.1!£8 SOUAC!$

• COHOITlOH FIJI OPEitATtO" z. A mt*i-baron caacencrat1o*

tf. 2300 ppa, ua J. A st11i-solut1an t*Hn...,.

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• MDOCS S w 1. !CTJCll1 vua *...,..wear source OHJtMU. 1111*** 111 ..nc1-fh01'11MJ caa ALTllATIGllS ar DOSfCh* reeci1wicy c1111111 .en 11111 . Mraa.I .-rca t1 restore.I tD OPWIU sia* * . ...... , fte .... ,...1rw tllrUlld .. , ... ....a saan .. -HPUM

__ # "'"'t...a.-.-J:\i;l . I. '-t& teat 011C1 IMP 7 aYtiit\ 1. YertfJtllll 1-.. *ren coacuv.actu of

• 4'1UrQ 2. Y1rif1t"9 tM .. ,,r ... ;, U. cull, UC l. V1rf'r,9 tftt bartc ac1d scar1 .. ta*.,_.., u.er1c11n wft9ft ': t 1 Cl\t source of aoru" -.. CIP

• SAUM

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• * '* e e Salem Technical Specification REACTIVITY CONTROL SYSTEM SURVEILLANCE REQUIREMENTS (Continued)

I I I I I b. SALEM -UNIT 1 1-15 Change Package

. ; ' * *. Salen Technical Specilic*ti"on Q Change Paek.age REACT IYITY CONTIOl SYSTEMS 80UTE D WATER SO\JICES

• OP!RAT lHG A

&/oL&Mtrl° o/& CA)A.,.. 11U f!i'l7't ,r:"ic111ttr . '*'-1. A bort c ae t*d stor199

• rCC* w1tll: l. A 11tftt-solutton te-..erature af

• b. -.Jllla l"'lfua1ht water storatt tanle

1. A COftC1tne4 voh1* of betwftfl 3'4.SGO 1nd 400,000 911lont of w11.er, z. A bOron conc1ntr1cton of between 2.300 1nd Z,500 ppc1, ind J. A .tnt-solutton t1111MtHure of 359F'. APPUCAI tun: MOllS 1. z. l Ind 4

• ACTIOI: 1. W1Ut tll* Mtic Ktd 1torat1 srst* tn*rable 111d behg 111ed 11 one ot tilt lllow requtl"H tlorattan wn1r 17st-. rntore &tie nor*t* s11t .. to OfllAILI Sllhl wtlttn 1Z llours or be tn a&

HGT STAIU'AY wittat11 tft* *d * *" Uld barat-4 to a SHUflDll l'Mlll *h111ilt to 11 lent 11 dl1u IC/k IC ZOO.,: rata,.. U.. llar1 c ac1 Cl stor199 s1st* to DPIUlll siac111 wttfttn Ute *a 1 dQs

• be tn COLD SHUfmwM w1tlttn CJ91 ne.c 3D *n.

• tt. wu* U1e rdueU119 wat1r storage tanl 111cioerU1e, "'"°"'tilt tank to O.llM&I SUtll wtU1* .. hour ar bl 1n at 1Hli tGT SfAllllY wttltflt -: lliil I *rs 1M tn COLO SHUTIDll w1ibtn Uii f'a11-1119 JD hours. r.1. SlllYI I W I'* -llllUh 4.1.Z.I hclt 110r1et* w1t1r saurc1 st11'1 bt dttloftstratad OHWll: SA L!J4

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• Chanqe Pac:kage :\F-. '\'O..o.

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• • e e Salem Technical Speci!ication Chanqe Package BORIC ACID TANK CONTENTS BASED ON RWST CONCENTRATION

(/) z 7,800 0 ...J .. ----. --. . . . -.. . . -. . -. .. . . ---. -*--. I I I REGION QF I I I ...J <( (.!) 7,600 ._ <( aJ 2: 7,400 -w :::> 7,200 __. 0 > c 7,000 w a: 0 I-en 6,800 ::> ::? -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 LIMITING CONDITION FOR OPERATION 3.9.1 With the reactor vessel head unbolted or removed, the boron centration of all filled portions of th* Reactor Coolant System and the refueling canal shall be maintained unifann and sufficient to ensure thit the more restrictive of the following reactivity conditions is met: a. b. Either a K@ff of 0.95 or Tess, which includes a lS ak/k eonser* vative allowance for uncertainties, or A boron cancentrat1on of > 2000 ppn, which includes a 50 ppm conservative allowance for uncertainties.

APPLICABILITY:

MODE 6* ACTION: With the requirenents of the above specificati not SAtisffed, irrmediately suspend all operations invalvf119 CORE ALTERATI S or positive reactivity changes and initiate and continue baratian at > 18 of ee,eee aei9 1elw*i1R or fts equivalent until K -is reduced ta < 0.95 or the baron concentration fs restored to > zeoo ppm, whichever-is the more restrictive.

The provisions of Speci1'fcation 3.0.3 are not applicable.

SURVEILl.AftCE REfAJIREMEHTS 4.9.1.1 The more restrictive of the above two reactivity conditions -det1r111nld prior to: a. RlllOving or unbolting the reactor vess1l head, and b. Withdrawal of any full length control rod in exc1ss of 3 feet fram its fully i_nsertld pos1t1on.

4.9.1.2 The boron canc1ntrat1on of the reactor coolant syst111 and tne refueling canal stt.11 be determined by ch9fal aMlysh at 1 .. st 3 times per 1 d s with a maximum time int1rval between of 72 noun. w

• The reactor shall be maintained fn MOOE S wn1R ,11et1P head is er SALEM-UNIT 1 3/4 9-1

. ' 3/ 4 .10 SP!CLAT SHUTDOWN MARGIN LD1ITING CONDmON FOR OPERATION 3.10.1 The SHUTDOWN MARGIN requirement of Specification 3.1.1.l may be suapend*d for measuremant of control rod worth and shutdown mar1in provided

• th* reactivity equivalent to at least th* hi1h*st astimat*d control rod worth is available for trip ins*rtion from OPERA.BL!

control rod(s), and APPLICABILITY:

MOD! 2. a. With any full len1th control rod not fully ins*rt*d and with less than th* above r*activity equivalent availabl*

for trip insertion, iDIDediately initiate and continua boration at lQ 1pa ef ag,ggg ppm 9e*ie solutien or its equivalent until th SHUTDOWN MARGIN required by Specification 3.1.1.1 is restored.

b. With all full len1th control rods inserted and the reactor subcritical by less than the above reactivity equivalent, ilmladiataly initiate and continue.

boration at lQ gpa ef 2Q,QOQ ppm aeid *olutiea or its until th* HUTDOWN MARGIN required by Specification J.1.1.1 is restored.

SURVBILLANC!*REQUillM!N'l'S 4.10.1.1 The position of each full length and part lenath rod *ither partially or FULLY WITHDRAWN shall be determined at i ... t 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 1 ... t the 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 SHUTDOWN MARGIN to less than the limits of Specification J.1.1.1. ..,,.. SALEM -UNIT 1 3/4..10-1 Amendment No. 91

' ' Salem Technical Specitication Chanqe Packaqe REACT IYITY CONTROL SYSTE"S IASES l/4.1.2 80RATJON SYSTEMS ,. The boron tnjectton s1ste11 ensures th*t ne t1Yt rw1ctfvtty cantrol ts IVlilible durtn9 tiCft l90de of r1ctllt1 oper1ttan COllPOftefttS requtred to perfo,.. thts funct1on tnclude: 1) b0r1ted water l"CIS. 2) pqmps. 3) *ep1r1t1 flow pith,, 4) bor1c 1c1d tr1n1fer SJ 111 .. -e*e . ,.,,..,., Hd f) 1n wrgenc1 power fr* OPlltAlll dte1el generaiors.

the RCS 1ver111 t_.r*t"re" above 200-'. a 81n1** of two boron tnject1on flaw piths *re requtf"ed to tftSure stngle runcttoa11 c1p1bt1tt1 t" eYant 1n 111umed r1tlur1 ttftdtrs Oftl of th* flow fnc,erab1e.

Tto. boratton cfp1btltt1 of tither flow ts sufftctent to provtde 1 SKUT!Xhll tJCptcted**

er1ttn1.cond1tfans of 1.11 delta kit after *non dec.1 lftd caoldown

... t ... expected bo .. attOft CIP&btltt)'

t"tQUt.-..nt OCQI" It £0L frf>>I u 1 panr equtltbru*

lll!nan cond1ttans 1nd requtres 119' 11Hens of a9;8M borated Wit ,. f bortc 1ctd ...... ,. SHIH " *-.. 11 .... If H* ,. *. Howenr, to M conststent wttl'I tfte £CCS t1QUt,..nc1, tM IWS1' 11 requ red to h ve 1 imtnt.U. cont1tned

¥o1um of 35%000 9111on1 tairtnt aperactans tn MDms 2. l lftd *. I' .. .....+iwa:.

Jes t*erature belw 200.,. an tnJacttan 111t* b *c-=-tattle without single f1t1ure constderatton on tllt b11ts of the stale r*Hcthity ca..clttton of ti\* ruc:tor &ncl tile adcltttoul restrictions prahtbtttng COii ALJEIATIONS and postthe ructtvttJ change t* the ewtftt tll* stnt1* tnJKt1oa i1stet1 becomes tnooer1ble.

• * .The boron e1pabt1ft1

,..tred llt10ll ts suff ct11t to provide a SHUTllM MAl&ll of 11 delta tit attlr dlc:q 1nd lct.ft ,,...

to 140.,. Thts c0ftdtt10ft

....,1res etO.r 9111ons of boratld water fl'Ofl Ule bOrtc acid stora11 iuu or of ,,. borated water water 1tora11 tut. _ ?;JOO \

cailt1t 11111 Wlttr "*-*Cl boron c:o11c1ntr1t t Oft tta* MT *ho ensure 1 **-*1* of MMlft 1.5 n.o for tl\e solutt* rectrculated

.,tthin after 1 LOC&. Tith pH bind .tnt*tas the Ho1ut1on of todlnt 1ftd *tnta1111

.-dftct of Cfttu1de lad e1ust1c stress corros1on Oft 9tef\*ntc11 s7st1111 1nd ca Ji Hts. Tiie cant*tllH w1ter volnt lt*tts tncl** 111ow1nc.

for waur not 1v1tt-*I*

bKalse ot cHsdl1r91 Une loc1tUn ind othwr ph15tc!1 ch1ract1rt1ttc1.

The OP£RAIILITT of one bOron tnJtctton.

syst* dVrfn9 AtFWLJMG ensures th1c this s11t119 Is *v1t11bl*

for re1cttvtt1 control whtlt 1n MOIE 6. SA I.EM

• lit IT l I .3/1 1-3. I

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

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

MODES 1, 2*, 3, and 4. ACTION: o?J lm With the SHUTDOWN MA N less than 1.6% delta k/k, immediately initiate and continue boration at gPeateP tt:laA eP eq1.1al te lQ §JilHI of a solutfon containing

§Feater than er equal te 2Q,QQO or equivalent until the required SHUTDOWN MARGIN is restored.

_ . ;::;6560 t'\?m I SURVEILLANCE REQUIREMENTS

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

• a. b. c. Within l hour after detection of an inoperable control rod(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). When in MODE 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 ng that control bank withdrawal is within the limits of Specification

3. 1.3.5. 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 critftality by verifying that the predicted 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

• • -**** REACTIVITY CONTROL SYSTEMS SHUTDOWN MARGIN -Tavg 200°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:

MODE 5. ACTION: With the SHUTDOWN MA IN less than 1.0% delta k/k, immediately initiate and continue boration at tAaA eqYal .t; 10 gpm of a solution containing than OP eqoal to*fG,999 or equivalent until the required SHUTDOWN MARGIN is restored. . 65"60 \:'P"fY\ I SURVEILLANCE REQUIREMENTS 4.1.1.2 The SHUTDOWN MARGIN shall be determined to be greater than or equal to l. 0% delta k/k: a. WitMn 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> after detectfon 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 immovable 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 Z 3/4 1-3

-' ) ... -. ) Salem Technical Specification Change Packaqe l/&. l.Z 901ATTOlf SYSTE>IS FLOW PAT>!S

• SHUTOOWM LIHtTtHG COHOJTtOJt OflHArTOH J. 1.z.1 At 1 afni...-.

ont ot tAe rollowfnt tloP'Oft fnjeciton rtow p1cns sftltr IJe O*UMU: L A now ,.cia ,.,.. the llOric ac1cS wu vh 1 aerie 1efd tt"U1f1r o-.. *ncl

.,_ CO CA4 h*CUf' CoGJ111i Sr1C. ft U\e llOrfi: .Cid st1r149 c.ut fn SPKfftcatiOft 3.l.z.s1 f1 OPUMU. or * '* The ttw Milt tr. Ue rtfuelfftl v.t.r 1cor1g1 UM vfl a CfWtfnt p-co tM .. ecur eoa11nc Srsu. ff ate rwfUilllnt 1&1..... l lank fn Spectrtuitoa l.LZ. 511 11 OHWLI. AINCMUm: IGGIS S IM i. MmOI: W1UI _. of iM -.e now Pltlll GPllMC.I, IUlliend all *n't .. lnelvf119 caa ALTDAn* ... ,..tlht ncttvft,r cMnps *Cit IC , ....... l*J*f* pa&ll fl rac.N c. OlllMU n.aca. OlllAIU:.

l/M I 4.1..Z.1 .R 1-c -ot..,. ,....,...

r1 ...... ..,. 111a11 ** _,_ "** !, ., .. ;;.:;::::

.. ilPll'jl"f

-* -u *****-* .. -'. * ,_, Wiii ....... ti .. '11W ""' f 9 tpHllP llM IP .... ... -UPF o ** a flat l*M "'* Mii *1rt 1 11U s.u Ca Yji6. -._ -.... n .,, ., "'" fytnt Heft f&lve (MftUl1, --.... IM .. IUUN&tc) fn tnl flow HUI UIH ts ,.., ...... u*,.

• 1cner.tu 11CVH tn po1tU*. ts I* Its come& pn1Uu.1 J/4 L* l lo. 40 I . ' . -* ) 1. REACTIVITY SYSTDtS FLOW PATHS

• LIMITlJIG COHOJTlON FOi OPE.RATION e Salem Tachnieal Specification Chanqe Packaqe i.1.2.z At 1Hlt. \"'O of the fo11owf"I U\ree boron tnjactton f1ft, pafJls sllil11 be OPllAILE:

a. n.. flow IMCJa ,.,,.. the taortc 1c1d tinlu vt1 1 bartc acid tran1rer PUllP Md 1 c:Mrgino pump to tfte l*KUr Coolut S11u.. b. Two flow IMU\s -,1'0ll t.M Nf*1tng water 1tor1.-t.Mk wt.a c:Mrgtni pcmps to U'9 React.Ar Coolant Sy1i.., AIP1,ICA11Ll"TY:

aa 1. z. l Md ** . M:TJAI!:

l tile llMw* ,...t,...

t1ow Hells sllaU,,. dnmtir1t1d OPllMLE:

WI , .. ' --ty ve*4'.14 .. .,_., UI U .. 1111C.,..

1f \ .. t*&l " u * ,. ..... If tM flew ,,_. *** "9 "' MM , .. ._,, .........................

,. *It. At, ... _ .... J1 .. -ftl'tfyf"1.lNt HCf'a valvt (ainual. -*-*-J 11* * .atwt1c) f n Ute now "' u.at. t1 not. llCUd. ***1111. IP ... rwtM *ICWICI fn pa1ttfon, ts tn I'-pasltta e. At feut Mn ,.r 11 ..cll1 durtng HD 1uH*ttc. **1v* tn *' r1ew paUt 1ctu.t11 to ti. cornd pesttton on

• 11t1ty lnJec\tan i.sc 11tna1

• SALEM

• wtlT Z l/4 l*I

' . Salem Techl'lieal Specitication Chanqe Packaqe SlSTEMS 1011.lTiD SOURCES

• SHUTCOWN 3.1.2. 5 Al * *inf-, one of U\t foJ1aw1nt borata4 _,.tar sourc11 shill '* OPERAILE:

• • A boric aci4 *car11* 1y1tca :11t* 11 l**** .. , 11111 .. 114 hcut HHU:il t] 111* vi.tit t 1 .J 1. A 1tni-conuined v*1&m ot-eaipnoa, f "1tC) ,tltJl'D l-'1o r-2. ltc;;;:;..,811

.. *H,18& P,. tf M"'9 1 W * . ' J. A 81111-101u&1M tlmOtrllun 11.f'...,*

...,f_).3*Fj Tiie Ntu.lfftl watar sto*111 UM vttb: . ----..-f3%ooo I 1. A afat-aat.a1* wo1 ... of ii151 .. 9allou, 2. .,. 8taf-NPlft (OftCtntr1i1oa of 2, lOq. "9* ucl 3. A aiat-N1v\tM Ullpera\Un of JI.,. ) ¥!1.ICMIU!!:

MDOIS 5 _. I. !Clt9 I. YwffJf,. m of *t*

Z. Ytrffyffte tie 11 CM WI&, n J. Y,.f'l'C ."tt"I \Ile tOf'ic 1Chl 1ur19 .. 1.M*

• Mlu&t ...

.-.. It t1 Ult IOUl"CI of

• • ,.,, SAUM* UMIT 2 1* 11

.. ) j e e Salem Chanqe Package REACTtVt'T'f WATE* 50UACES

• OPERAfiHG LlMITtMG O,ERATtQM A

VoL'*"IC' dF ."8 ..... JllZ) "'"711'2 IN IMl'7'H

'!>.I-a 3.1.2.& AJ a *tnfau., tht tollowf"4 borated **t*r source 1 sftlll b1 OPERAILE 11 rtqufl**d

"'¥'/

-

• • ' C 4 d 1t4rllft9 SYS\ .. ** i111\ ... ***** .. 'Mil' 111"" A bof*C I ' ' --==--

Z: 1 -

=

r -. ....... ... .. , * .) ) II. 3. A 1fnf-solucfon 1,a*FI The refueling wa'8t norage tank with: -1. A contafftlld vol'* of b1tw1n 314,500 Ud 400.000 of wner, i. A bo"a conclfttration of betwen 2.loo and 2.soo ppa. and l. A so1uttoa ttllperatuf't of 35*,. APPUCAIJU!!:

MDOIS 1, Z, l .Md c. M:TtOtt: L Vitlt tM Hric: tcfd 1iorat* S)'SU. fnoperlla1*

Md Def .. used u Ont of tbe ....,,. rtcp&frtcl

'°"'" Wit.II" IGUl'Cll, rat.ore -ICOrtglt syst. to OPUMLE IC.CUI witafft 7Z *" or be fa ., ltUC HOT STANOIY wttlltn tall Md ' Mun a.nd IMPl&.td to I SlllTaO'tM INGlM -.haltn' io at 1t*t 1S cl91U tit IC 200*,: rtt\ln tM llorfc ICfd to GfUJIU w1 tJltn tM nut 7 dlJ$ ., H f*

• CDU '9itlltft Ull AU\ lO hlurt. b. W1Ut Ute "'*ltlf *tar storqe tank fnaoerllal*, "-'* \lie Uft* to OPUMLI IU-wt tlaf n OM flour or tM f n IC 1tll' Hat 51.AMGIY wfta1n QI nut I -.,. 1N1 In COLD SHUTDCMI witatft ue fo11wtng JO """* SVMlbl.NCE

'R'Wlfi'S 4._1. Z.I

==a=-_,.._, """' '""";[' \:t' ."1':::::>

1t::G.. 1---t ----1 aays "( ** I. --z. . VtrHyfng U\11 ,.,..._,.

11v*I ot uc ... ;atv sourc1, and 1. 'ltritvfno ti** Nric Kid 1torM* 1yn .. 1olu\1on

.. ,.. 1 :*

... 1 S"l£1t .. UHlT 2 )/& 1*12 ' l'D* SS

.. ' _. e e Salem Technical Specification Change Package 8.0RIC ACID TANK CONTENTS BASED ON RWST CONCENTRATION

(/) z 0 ....J ....J < (!) *t-7,800 7,600 ::z 7,400 -w 3 7,200 0 > c w 7,000 a: 0 1-UJ :E 6,800 ::> -z 6,600 -6,600 6,700 6,800 CONCENTRATION IN BAT SALEM

• UNIT 2 Figure 3. 1-2 3/4 1-1 21a) 6,900 7,000 ppm BORON

' ") ._1-3/4.9 REFUELING OPERATIONS 3/4.9.l BORON CONCENTRATION

LIMITING CONDITION FOR OPERATION 3.9.l 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%

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.

APPLICABILITI:

MOOE 6l'f ACTION: m With the requirements of e above specification not satisfied, suspend all operations in olving CORE ALTERATIONS or positive reactivity

""" J changes and initiate and ontinue boration at than er equal ta lQ §pm....:r--'

of a solution containing gt:'eater thaR te .29,00Q ppm-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 applicable.

SURVEILLANCE REQUIREMENTS 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 2 314 9-1 J/ 4. 10 SPECIAL T EXCEPTIONS SHUTDOWN MARGIN 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 than er te lQ IP* of a solution containing

• ..,,._boron or its equivalent until the SHUTDOWN MARGIN Specification 3.1.1.l is restored.

With all full length control rods inserted and the reactor subcritical by less than the above reactivity.equivalent, immediately initiate and continue boration at tA.an er te lQ IP* of a solution containing than er te 20,eeo ..ppm. boron or its equivalent until the SHUTDOWN 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 the 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 th* SHUTDOWN MARGIN to less than the limits of Specification 3.1.l.l. SALEK -UNIT 2 3/4 10-1 Amendment No. 66

... ft e e REACTrvrn COKTAOL SYSTEMS 9ASES j/,.1.2 BORAT[ON STSTDIS Sale* Taohnieal Speci!ieation Chan9* Package The boron tnjtct1on s1st .. tftsur11 thlt ne ttve re1cttvit1 cancro1 ts 1v1t11*1*

dur1ftg 11ct1 ilOde of t1c1ltt1 op1r1tton The ca-.onents to perfora tbis function l) b@rettd w1i1r aurctt. 2J C1111"9fng pu119s, 3) s*p1r1t* flow patfts, C) bortc actd tr1nsfer pu111P1. 5) 111111111*

,,.,,,..

uui: 6) lft **rtt"C7 pawer supply from OPIWLE d1tse1 11neracon.

r.::::;;#11'1 . .* . .

Wt tl'I U11 ACS nerue tt11Nr1ture UoYe 200-F a .t nil** *ot two borOft 1d'IJectfcn Flow pnl'ls ire requtre4 to 1nsur* stn91t functfon.l caplbf Ht1 t11 tl'lt event *n ass11*d f111ur1 ,,_." ** of tit* flaw paths tnoperult.

TM c1p1b1l f t,-.of 1tt8'lr flaw p1t11 ts 1uff1ctene to proYtm 1 SHUTt'D\111 IW'llJI tram ezpecttd op*r1ttn9 eo11dttf0ftl.of .l.61 delt1 t/k after llftOft dec11 lftd coo1daln\

to 200.,. ne-

.. *.,pquf nmnt occun It EOL / rOll power*

llftOft CDICl1t1ans and HH 911lon1 of Ila* bor1ttd w1 r rr Mr1c

..... Howe,.,..

to bl cantsttnt witJI tilt £CCS nqu1rtmMS, the RWST t ..... l"ld to h\11 I llt*t-cant1t11d vo1u* of 350.000 9111ons dllrt19 aptr tons ha MOIU l, 2, l u* )

J;lc.s t-.erecure lal1aw ZOO.,.. ane tnjecc1on s.rst* ts 1CC10C11t1t wtthout 1tn91e fet111re cOM1deni1*

Gii till buts ot the su1111 N1cth1tJ COAdftfon of tile r11ctor

• UM lddtttoat1 rntrfettont prae.tbtttnt COii ALTERATJOllS 1nc1 pos1the l'Hcttvtc, Clllfttl tn tlle 1ftflt th* sfnt1* .fnJtctton ZOO'F Is I SHUTCllWN IWtG!* of 11 *1&1 tit 1tc -* deCIJ Ind ldOwft ,,.. *200., to 140-F. n11 coMttf Oii ,...,t .... etu. 911tons ot bor1ted Wltll' frc11 tbe boric actd 1tor111 tllb of Z300 11f11t '*r1te4 w1t1r ,..fu11t11 water 1ton .. tw. y z 100 l Tise lt.tt1 *-'*** .. cw *1.,.. 111d boron eonc1t1tr1tton of t9'e MT 11SO ensure I pll **-of be-. 1.5 illd 11.0 for the *101utfM rec'rcaht1*

wfttlf n CCNtUI,_ 1ft1r 1 IOCA* Tiits DH bind lltftfllf Hs CJI* H01uct* of todffte 1no *1nt*tzts ill effect ot cft1ortde

!ftd caustic stPtii eari"Olton

"' -.clt1ntca1 1yste* and cQl90ftHCs.

Tht eotteatned weier wluN lt*tts tnc1u* 111ow1nc*

for **Ur not 1ut 11Dlt MclUH flf' dt!dl!l"s=

1t "* locit1 iiift 1ttci other ph)'ttca1

• dl1r1ci1risitc1.

Tht OPIRAllLITT of ... borlft t"Jtciton syst* 'cUrin9 AIFtlU* lftSUnl thlt t1'11s s1st .. 11 1v1ll1ble for rt1cttvtt1 control wh11e tn MOii 5. SA L!M

• l.IU T 2 I l/4 l*l *** hut -* 5S