Proposed Tech Specs,Replacing Wording & Double Underlining of Revised Wording

ML20210J033
Person / Time
Site:	Point Beach
Issue date:	08/07/1997
From:	WISCONSIN ELECTRIC POWER CO.
To:
Shared Package
ML20210J030	List: ML20210J033 NPL-97-0466, Forwards TS Pages Affected by Suppl to TS Change Request 191.Pages Edited W/Proposed Revs Indicated by Strikeout of Replaced Wording & Double Underlining of Revised Wording
References
NUDOCS 9708140310
Download: ML20210J033 (6)
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Text

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l D.

During power operation, the requirements of 15.3.2-B and C may be modified to allow the following components to be inoperable for a specified time. If the system is not restored to meet the requirements of 15.3.2-B or C within the time period specified, the appropriate reactor (s), except as otherwise noted, shall be placed in the hot shutdown condition within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and borated to a shutdown margin equivalent of at least 1.0%

delta k/k at cold shutdown, no xenon conditions. If the requirements of 15.3.2 0 or C are not satisfied within an additional 7 days, the appropriate reactor (s) shall be placed in the cold shutdown condition within the next 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />.

1.

One of the two operable charging pumps associated with an operating reactor may be removed from service provided a charging pump associated with that reactor is restored to operable status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

2.

One of the two boron injection flow paths specified in B.2 or C.2 may be out of service provided two boron injection flow paths are restored to operable status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

3.

One of the boric acid transfer pumps designated in B.3 or C.3 may be out of service provided a boric acid transfer pump is restored to operable status within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

ILisis The chemical and volume control system provides control of the reactor coolant system boron inventory. This is normally accomplished by using one or more charging pumns in series with one of the two boric acid transfer pumps. Above cold shutdown conditions, a minimum of two boron injection now paths are required per unit to insure functional capability in the event that an assumed single active failure renders one of the now paths inoperable. The boration volume available through any flow path is sufficient to provide the required shutdown margin at cold shutdown, xenon-free conditions from any expected operating condition. The madmum-volume requirement is associated with boration from just critical, hot zero or full powei, peak xenon with control rods at the insertion limit, to xenon free, cold shutdown with the highest worth control rod assembly fully withdrawn. This requires approximately 24rl00 2M&O_ gallons of M00 220appm barated water from the refueling water storage tank (RWST) or the concentrations and volumes of borated water specified in Table 15.3,2-1 from the boric acid storage tanks (BASTS).

'These RWST parameters arsjnsffestfollowing UlR25 for Unit I and U2R23 for Unit 2: and take efcet prior tolcaving the cold shuldavn condition of those culqges Prior to UIIEthe Unit I minimundMiT solume and boron concentratimaalues for this basis statement ate 24.100 gallons and 2000 ppm resgestivelv. Prior to U2R23. tile Unit 2 minimum RWST volume and boron concentnttimaalues for this basis statement are 24.100 gallons and 2000 ppm rssgtetisely.

Unit 1 - Amendment No.

Unit 2 - Amendment No.

15.3.2-2 9708140310 970007 PDR ADOCK 05000266 P

PDR

d Table 15.3.2 1 -

Boric Acid Storage Tank (s)

Minimum Volume / Temperature / Concentration Boric Acid Soln Minimum Combined Minimum Concentration (Wt%)

Volume (Gal.)(1)

Temperature

(' F)

Prior to UIR25 After U1R25 or U2R21 or U2R23 3.00 to <3.50 6860"'

2r 56.0 3.50 to <4.00 5870"'

fi2@

62.5 4.00 to <4.50 5120"'

gg5p 69.5 4.50 to <5.50 4550"'

11 F 85.0 -

5.50 to <6.50 3700"'

d21##

97.0 6.50 to <7.50 3150">

355#a 107.0 7.50 to <8.50 2720"'

102P 116.0 8.50 to <9.50 2390 221 @

123.5 9.50 to <10.50 2140 2420 131.0 10.50 to <11.50 1930 2L9Q 138.0 11.50 to <l2.50 1750

-2000 145.0 (1)

Per unit relying on B AST(s) as source of born ed water.

(2)

Requires more than one BAST per unit.

(3)

Requires more than one BAST for two units combined.

1 e

J l-Unit 1 - Amendment No.

Unit 2 - Amendment No.

15.3.3 EhiEROENCY CORE COOLING SYSTEM, AUXILIARY COOLING SYSTEhtS.

AIR RECIRCULATION FAN COOLERS, AND CONTAINhiENT SPRAY Applicablity:

Applies to the operating status of the Emergency Core Cooling System, Auxiliary Cooling Systems, Air Recirculation Fan Coolers, and Containment Spray.

Ohicclitc; To define those limiting conditions for operation that are necessary: (1) to remove decay heat from the core in emergency or normal shutdown situations,(2) to remove heat from containment in normal operating and emergency situations, and (3) to remove airborne iodine from the containment atmosphere following a postulated Design Basis Accident.

EpifintliDD:

A.

Sicly. Injection and Residual llent Removal Systems 1.

A reactor shall not be made critical, except for low temperature physics tests, unless the following conditions associated with that reactor are met:

The refueling water tank contains not less than 275,000 gal, of water with a a.

baron concentration of at least 2000 22RQ ppm.;

b.

Each accumulator is pressurized to at least 700 psig and contains at least 3

1100 ft' but no more than 1136 ft of water with a boron concentration of at least4000 26H0_ ppm.O Neither accumulator may be isolated.

c.

Two safety injection pumps are operable, d.

Two residual heat removal pumps are operable.

e.

Two residual heat exchangers are operable.

• This voluc is in elTect.following UlR25 for UniLLand U2R23 for Unit 2: and takes effect nrioria lcarine the cnid 3hutdown condition of those outages. Prior to UIR2i the Unit I minimum RWST bgretteententration is 2000 ppm. Prior to U2R21the Unit.hDinimuni RWST boron concentralien is lG00amm.

• *This value is in effectfollowing UlR25 for Unit I and U2R23 for Unit 2: and takes effect prior to learing_thc_ccid_shutdonn. condition of those outages. Prior to U1R25. the Unit I minimum Si accumulator boron contcatIntion is 2000 ppm. Erior to U2R23. the Unit Lamtmum SI accumuh10Lboten.concentralienis 2000 ppnh Unit 1 Amendment No.

15.3.3 1 Unit 2. Amendment No.

._ - - - -.. _ - - - _ _ - _ - - - =

.=

II.

Internal Pressure 1.

If the intemal pressure exceeds 3 psig or the internal vacuum exceeds 2,0 psig, the condition shall be corrected within one hour.

2.

If the above action cannot be completed within the time specified, place the affected unit in:

a.

hot shutdown within six hours, AND b.

cold shutdown within 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />.

C.

Positive rcactivity changes shall not be made by rod drive motion when the containment 1

integrity is not intact except for the testing of one bank of rods at a time, rod disconnecting, and rod reconnecting provided the reactor is initially subcritical by at least 5% Ak/k.

D.

Positive reactivity changes shall not be made by boron dilution when the containment integnty is not intact unless the boron concentration in the reactor is maintained > #00 llpDQ ppm;.

l Thitboto1Lconcentrationsalutis_in.cffectfullowing UlR25 for Unit I and followjng U2R21foLUniL2aut1htkes.cffcciprior toleadinglucLfcLthestoutages. Prior to UllC1 the_UniLLbetoitcomentration valutof this specification is 1800 opm. Prior to U2R23. the Unit 2.hoten. concentration value of this speciScationJd800 Don 1.

Unit 1 - Amendment -

15.3.6 7 Unit 2 Amendment

expeiience, to reach the required plant conditions from full power conditions in an orderly manner and without challenging plant systems.

Specifications 15.3.6.C. and D.

The shutdown conditions of the reactor are selected based on the type of activities that are being carried out. When the reactor head is not to be removed, the specified cold shutdown margin of 1% Ak/k precludes criticality under any occurrence. During refueling the reactor is suberitical by 5% Ak/k. Positive reactivity changes for the purpose of rod assembly testing will not result in criticality because no control bank worth exceeds 3%. Positive reactivity changes by baron dilution may be required or small concentration fluctuations may occur during preparation for, recovery from, or during refueling but maintaining the boron concentration greater than 4300 2100 ppm; precludes criticality under these circumstances. -4404)L0appm; is a nominal value that ensures 5% shutdown for typical reload cores. Should continuous dilution occur, the time intervals for this incident are discussed in Section 14.13f of the FSAll.

RefcInices (1) FSAlt Section 5.1.1 (2) FSAR Section i4.3.4 (3) FSAR Section 5.5.2 IldthotoILconcentrationXalutis in effec 11ollmving UIR25 for Unit 11tndfollowinLU21t23_foI_ Unit 2Lanitakelcifccipriotto_londinLfttcLfottitost. outages. PriottolflR25. the Unit I boren concentrationfaluc_of this specificationis_1B00_ppnLEriotto._U2R23. the Urdt.2 boron concentration ralue.nfthis_ specification is 180appm.

Unit 1 - Amendment 15.3.6-19 Unit 2-Amendment I

• $.3.8 f(EFUEl.ING l

i Applicabill!x:

Applies to operating limitations during refueling operations.

Obiective:

To ensure that no incident could occur during refueling operations that would affect public health and safety.

SECElfidDU3:

During refueling operations:

1.

The equipment hatch shall be closed and the personnel locks shall be capable of being closed.

A temporary third door on the outside of the personnel lock shall be in place whenever both doors in a personnel lock are open (except for initial core loading).

2.

Itadiation levels in fuel handling areas, the containment and spent fuel storage pool shall be monitored continuously.

3.

Core subcritical neutron ilux shall be continuously monitored by at ler.st two neutron monitors, each with continuous visual indication in the control room and one with audible indication in the containment available whenever core geometry is being changed. When core geometry is not being changed, at least one neutron flux monitor shall be in service.

4.

At least one residual heat removal loop shall be in operation. Ilowever, if refueling operations are affected by the residual heat removal loop flow, the operating residual heat removal loop may be removed from operation for up to one hour per eight hour period.

5.

During reactor vessel head removal and while loading and unloading fuel from the reactor, a minimum boron concentration of 4002100Lppm shall be maintained in the primary coolant system.

6.

Direct communication between the control room and the operating floor of the containment shall be available whenever changes in core geometry are taking place.

This10 Ion.co'.iccattation vtlue is in effettfallnningillR25 for Unit 1 anMollowing U2R23 for Unit 2: and 1.tket.cHect prior 10 leading fuel for those outages. Prior to U1R25. the Unit 1 boroILconcentration value of this specification is 1800_ ppm. Prior to U2R23. the Unit 2 b nn OI contentratioILYalue of this speciEcation is 1800 ppm.

Unit 1 - Amendment No.

15.3.8-1 Unit 2 - Amendment No.

t

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