Text

Attachment 3 to Supplement Dated 02/15/2002 to License Amendment Request Dated 12/11/2000 Conversion to Improved Technical Specification Revision 9 Change Pages
	ML021900574
Person / Time
Site:	Prairie Island
Issue date:	02/15/2002
From:	Nazar M; Nuclear Management Co
To:	; Document Control Desk, Office of Nuclear Reactor Regulation
References
	Download: ML021900574 (150)
	v • d • e

Prairie Island Nuclear Generating Plant Attachment 3 to Supplement dated February 15, 2002 to License Amendment Request dated December 11, 2000 Conversion to Improved Technical Specifications (ITS)

Revision 9 Change Pages

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Improved Technical Specifications Supplement dated 2/15/02 Revision 9 Change Page List UPDATING INSTRUCTIONS Remove Insert Chapter/

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improved Technical Specifications Supplement dated 2/15/02 Revision 9 Change Page List UPDATING INSTRUCTIONS Remove Insert Chapter/ Revisioi Section Part Page Date 3.4 E B 3.4.12-22 3.4 E B 3.4.13-1 3.4 E B 3.4.13-2 3.4 E B 3.4.13-3 3.4 E ::B 3.4.13-4 3........... ...

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Improved Technical Specifications Supplement dated 2/15/02 Revision 9 Change Page List UPDATING INSTRUCTIONS Remove Insert Rhpemov Revision! Chapter!

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13 of 13

RCS Pressure, Temperature, and Flow - DNB Limits 3.4.1 CONDITION REQUIRED ACTION COMPLETION TIME B. Required Action and B.1 Be in MODE 2. 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months associated Completion Time not met.

SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.1.1 Verify pressurizer pressure is greater than or equal 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months to the limit specified in the COLR.

SR 3.4.1.2 Verify RCS average temperature is less than or 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months equal to the limit specified in the COLR.

SR 3.4.1.3 Verify RCS total flow rate is within the limit 24 months specified in the COLR.

Prairie Island Units 1 and 2 3.4.1-2 1/2/02

RCS Loops - MODE 3 3.4.5 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.5 RCS Loops-MODE 3 LCO 3.4.5 Two RCS loops shall be OPERABLE, and either:

a. Two RCS loops shall be in operation when the Rod Control System is capable of rod withdrawal; or

b. One RCS loop shall be in operation when the Rod Control System is not capable of rod withdrawal.

N O TE --------------------------------------

Both reactor coolant pumps may be de-energized for _<12 hours to perform preplanned work activities provided:

a. No operations are permitted that would cause introduction into the RCS, coolant with boron concentration less than required to meet the SDM of LCO 3.1.1; and

b. Core outlet temperature is maintained at least 10°F below saturation temperature.

APPLICABILITY: MODE 3.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One RCS loop A.1 Restore inoperable RCS 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months inoperable, loop to OPERABLE status.

Prairie Island Units 1 and 2 3.4.5-1 1/2/02

RCS Loops - MODE 3 3.4.5 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.5.1 Verify required RCS loops are in operation. 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months SR 3.4.5.2 Verify required steam generator capable of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months removing decay heat.

SR 3.4.5.3 -------------------------- NOTE ------------------------

Not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a required pump is not in operation.

Verify correct breaker alignment and indicated 7 days power are available to each required pump.

Prairie Island Units 1 and 2 3.4.5-4 1/2/02

RCS Loops-MODE 4 3.4.6 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.6 RCS Loops - MODE 4 LCO 3.4.6 Two loops consisting of any combination of RCS loops and residual heat removal (RHR) loops shall be OPERABLE, and one loop shall be in operation.

NOTES -------------------------------------

1. All reactor coolant pumps (RCPs) and RHR pumps may be de energized for _<1 hour per 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period provided:

a. No operations are permitted that would cause introduction into the RCS, coolant with boron concentration less than required to meet the SDM of LCO 3.1.1; and

b. Core outlet temperature is maintained at least 10'F below saturation temperature.

2. No RCP shall be started with any RCS cold leg temperature < the Over Pressure Protection System (OPPS) enable temperature specified in the PTLR unless:

a. The secondary side water temperature of each steam generator (SG) is _<50'F above each of the RCS cold leg temperatures; or

b. There is a steam or gas bubble in the pressurizer.

APPLICABILITY: MODE 4.

Prairie Island Units 1 and 2 3.4.6-1 1/2/02

RCS Loops - MODE 4 3.4.6 ACTIONS REQUIRED ACTION COMPLETION CONDITION TIME A. One required loop A. 1 Initiate action to restore a Immediately inoperable. second loop to OPERABLE status.

AND A.2 ---------- NOTE------

Only required if RHR loop is OPERABLE.

24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months Be in MODE 5.

-I- F B. Both loops inoperable. B. 1 Suspend operations that Immediately would cause introduction OR into the RCS, coolant with boron concentration less Required loop not in than required to meet SDM operation. of LCO 3.1.1.

AND B.2 Initiate action to restore one Immediately loop to OPERABLE status and operation.

Prairie Island Units 1 and 2 3.4.6-2 1/2/02

RCS Loops - MODE 4 3.4.6 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.6.1 Verify required RHR or RCS loop is in 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months operation.

SR 3.4.6.2 Verify required SG capable of removing decay 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months heat.

SR 3.4.6.3 -------------------------- NOTE -------------------------

Not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a required pump is not in operation.

Verify correct breaker alignment and indicated 7 days power are available to each required pump.

Prairie Island Units 1 and 2 3.4.6-3 1/2/02

RCS Loops - MODE 5, Loops Filled 3.4.7 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.7 RCS Loops- MODE 5, Loops Filled LCO 3.4.7 One residual heat removal (RUR) loop shall be OPERABLE and in operation, and either:

a. One additional RHR loop shall be OPERABLE; or

b. One steam generator (SG) shall be capable of removing decay heat.

N OTES ------------------------------------

1. The RHR pump of the loop in operation may be de-energized for *< 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months per 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period provided:

a. No operations are permitted that would cause introduction into the RCS, coolant with boron concentration less than required to meet the SDM of LCO 3.1.1; and

b. Core outlet temperature is maintained at least 10°F below saturation temperature.

2. One required RHR loop may be inoperable for _<2 hours for surveillance testing provided that the other RI-R loop is OPERABLE and in operation.

3. No reactor coolant pump shall be started with one or more RCS cold leg temperatures _<the Over Pressure Protection System (OPPS) enable temperature specified in the PTLR unless:

a. The secondary side water temperature of each SG is _<50'F above each of the RCS cold leg temperatures; or

b. There is a steam or gas bubble in the pressurizer.

4. Both RHR loops may be removed from operation during planned heatup to MODE 4 when at least one RCS loop is in operation.

Prairie Island Units 1 and 2 3.4.7-1 1/2/02

RCS Loops - MODE 5, Loops Filled

3.4.7 APPLICABILITY

MODE 5 with RCS loops filled.

A CTIONS, TI N A__________________________________________________

REQUIRED ACTION COMPLETION CONDITION TIME A. 1 Initiate action to restore a Immediately A. One required RHR loop inoperable. second RHR loop to OPERABLE status.

AND OR One RHR loop A.2 Initiate action to restore Immediately OPERABLE.

required SG capable to remove decay heat.

r B. One or more SGs not B. 1 Initiate action to restore a Immediately capable of decay heat second RHR loop to removal. OPERABLE status.

AND OR B.2 Initiate action to restore a Immediately One RHR loop OPERABLE. required SG capable to remove decay heat.

____________________________ L_______________________________ a Prairie Island Units 1 and 2 3.4.7-2 1/2/02

RCS Loops - MODE 5, Loops Filled 3.4.7 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME C. No required RHR loops C.1 Suspend operations that Immediately OPERABLE. would cause introduction into the RCS, coolant with AND boron concentration less than required to meet SDM Required RHR loop not of LCO 3.1.1.

in operation.

AND C.2 Initiate action to restore Immediately one RHR loop to OPERABLE status and operation.

Prairie Island Units 1 and 2 3 4.7-3 1/2/02

RCS Loops - MODE 5, Loops Filled 3.4.7 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.7.1 Verify required RHR loop is in operation. 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months SR 3.4.7.2 Verify required SG capable of removing decay 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months heat.

SR 3.4.7.3 -------------------------- NOTE ---------------

Not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a required pump is not in operation.

Verify correct breaker alignment and indicated 7 days power are available to each required RHR pump.

Prairie Island Units I and 2 3.4.7-4 1/2/02

RCS Loops - MODE 5, Loops Not Filled 3.4.8 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.8 RCS Loops - MODE 5, Loops Not Filled LCO 3.4.8 Two residual heat removal (RHR) loops shall be OPERABLE and one RHR loop shall be in operation.

NOTES --------------------------------------

1. All RHR pumps may be de-energized for s< 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months per 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period provided:

a. No operations are permitted that would cause introduction into the RCS, coolant with boron concentration less than required to meet the SDM of LCO 3.1.1;

b. The core outlet temperature is maintained > 10°F below saturation temperature; and

c. No draining operations to further reduce the RCS water volume are permitted.

2. One RHR loop may be inoperable for _<2 hours for surveillance testing provided that the other RHR loop is OPERABLE and in operation.

APPLICABILITY: MODE 5 with RCS loops not filled.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One required RHR loop A. I Initiate action to restore Immediately inoperable. RHR loop to OPERABLE status.

Prairie Island Units 1 and 2 3.4.8-1 1/2/02

RCS Loops - MODE 5, Loops Not Filled 3.4.8 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME B. No required RHR loop B.1 Suspend operations that Immediately OPERABLE. would cause introduction into the RCS, coolant with OR boron concentration less than required to meet SDM Required RHR loop not in of LCO 3.1.1.

operation.

AND

NOTE --------

A Safety Injection pump may be run as required to maintain adequate core cooling and RCS inventory.

B.2 Initiate action to restore one Immediately RHR loop to OPERABLE status and operation.

Prairie Island Units 1 and 2 3.4.8-2 1/2/02

RCS Loops - MODE 5, Loops Not Filled 3.4.8 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.8.1 Verify required RHR loop is in operation. 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months SR 3.4.8.2 -------------------- NOTE ---------------------------

Not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a required pump is not in operation.

Verify correct breaker alignment and indicated 7 days power are available to each required RHR pump.

Prairie Island Units 1 and 2 3.4.8-3 1/2/02

Pressurizer Safety Valves 3.4.10 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME B. Required Action and B.l Be in MODE 3. 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months associated Completion Time not met. AND OR B.2 Be in MODE 4 with any 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months RCS cold leg temperature Both pressurizer safety _*the OPPS enable valves inoperable, temperature specified in the PTLR.

SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.10.1 Verify each pressurizer safety valve is In accordance OPERABLE in accordance with the Inservice with the Testing Program. Following testing, lift settings Inservice Testing shall be within 1% (2460 to 2510 psig). Program Prairie Island Units 1 and 2 3.4.10-2 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature I 3.4.12 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.12 Low Temperature Overpressure Protection (LTOP) - Reactor Coolant System Cold Leg Temperature (RCSCLT) > Safety Injection (SI) Pump Disable Temperature LCO 3.4.12 LTOP shall be provided with:

a. a maximum of one SI pump capable of injecting into the RCS;

b. the emergency core cooling system (ECCS) accumulators isolated;

c. an OPERABLE Over Pressure Protection System (OPPS); and

d. two OPERABLE pressurizer power operated relief valves (PORVs) with lift settings within the limits specified in the PTLR.

NOTES --------------------------------------

1. Both SI pumps may be run for < 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months while conducting SI system testing providing there is a steam or gas bubble in the pressurizer and at least one isolation valve between the SI pump and the RCS is shut.

2. ECCS accumulator may be unisolated when accumulator pressure is less than the maximum RCS pressure for the existing RCS cold leg temperature allowed by the P/T limit curves provided in the PTLR.

APPLICABILITY: MODE 4 when any RCS cold leg temperature is _*the OPPS enable temperature specified in the PTLR and > the SI pump disable temperature specified in the PTLR.

Prairie Island Units I and 2 3.4.12-1 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature 3.4.12 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Two SI pumps capable of A.1 Initiate action to assure a Immediately injecting into the RCS. maximum of one SI pump is capable of injecting into the RCS.

B. An ECCS accumulator B.1 Isolate affected ECCS 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months not isolated when the accumulator.

ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for existing cold leg temperature allowed in the PTLR.

C. Required Action and C.1 Increase RCS cold leg 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months associated Completion temperature to > the OPPS Time of Condition B not enable temperature met. specified in the PTLR.

OR C.2 Depressurize affected 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months ECCS accumulator to less than the maximum RCS pressure for existing cold leg temperature allowed in the PTLR.

D. One required PORV D.1 Restore required PORV to 7 days inoperable. OPERABLE status.

Prairie Island Units 1 and 2 3.4.12-2 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature 3.4.12 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME E. Two PORVs inoperable. E.1 Be in MODE 5. 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months OR AND Required Action and E.2 Depressurize RCS and 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months associated Completion establish RCS vent of> 3 Time of Condition A, C, square inches.

or D not met.

OR OPPS inoperable.

Prairie Island Units I and 2 3.4.12-3 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature 3.4.12 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.12.1 Verify a maximum of one SI pump is capable of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months injecting into the RCS.

SR 3.4.12.2 -------------------- NOTE ---------------

Only required to be performed when ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR.

Verify each ECCS accumulator is isolated. Once within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months and every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months thereafter SR 3.4.12.3 Verify PORV block valve is open for each 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months required PORV.

SR 3.4.12.4 -------------------- NOTE--. ----------

Not required to be performed until 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months after decreasing RCS cold leg temperature to < the OPPS enable temperature specified in the PTLR.

Perform a COT on OPPS. 31 days SR 3.4.12.5 Perform CHANNEL CALIBRATION for each 24 months OPPS actuation channel.

Prairie Island Units 1 and 2 3.4.12-4 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature 3.4.13 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.13 Low Temperature Overpressure Protection (LTOP) - Reactor Coolant System Cold Leg Temperature (RCSCLT) _*Safety Injection (SI) Pump Disable Temperature LCO 3.4.13 LTOP shall be provided with: 1) no SI Pumps capable of injecting into the RCS; 2) the emergency core cooling system (ECCS) accumulators isolated; and 3) one of the following pressure relief capabilities:

a. An Over Pressure Protection System (OPPS) shall be OPERABLE with two pressurizer power operated relief valves (PORVs) with lift settings within the limits specified in the PTLR; or

b. The RCS depressurized and an RCS vent of > 3 square inches.

NOTES -------------------------------------

1. Both safety injection (SI) pumps may be run for < 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months while conducting SI system testing provided there is a steam or gas bubble in the pressurizer, the reactor vessel head is on, and at least one isolation valve between the SI pump and the RCS is shut.

2. During reduced inventory conditions an SI pump may be run as required to maintain adequate core cooling and RCS inventory.

3. ECCS accumulator may be unisolated when ECCS accumulator pressure is less than the maximum RCS pressure for the existing RCS cold leg temperature allowed by the P/T limit curves provided in the PTLR.

APPLICABIIJTY: MODE 4 when any RCS cold leg temperature is < the SI Pump disable temperature specified in the PTLR, MODE 5 when the steam generator (SG) primary system manway and pressurizer manway are closed and secured in position, MODE 6 when the reactor vessel head is on and the SG primary system manway and pressurizer manways are closed and secured in position.

Prairie Island Units 1 and 2 3.4.13-1 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature 3.4.13 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or both SI pump(s) A.1 Initiate action to verify no SI Immediately capable of injecting into pump is capable of injecting the RCS. into the RCS.

B. An ECCS accumulator B.1 Isolate affected ECCS 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months not isolated when the accumulator.

ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for existing cold leg temperature allowed in the PTLR.

C. Required Action and C.l Increase RCS cold leg 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months associated Completion temperature to > the OPPS Time of Condition B not enable temperature specified met. in the PTLR.

OR C.2 Depressurize affected ECCS 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months accumulator to less than the maximum RCS pressure for existing cold leg temperature allowed in the PTLR.

Prairie Island Units 1 and 2 3.4.13-2 1/2/02

LTOP - RCSCLT

SI Pump Disable Temperature 3.4.13 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME D. ------- NOTE --------- D.1 Restore required PORV to 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months Only applicable in LCO OPERABLE status.

3.4.13.a.

One required PORV inoperable.

E. Two required PORVs E. I Depressurize RCS and 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months inoperable for LCO establish RCS vent of> 3 3.4.13.a. square inches.

OR Required Action and associated Completion Time of Condition A, C, or D not met.

OR OPPS inoperable.

Prairie Island Units 1 and 2 3.4-13-3 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature 3.4.13 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.13.1 Verify no SI pumps are capable of injecting into 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months the RCS.

SR 3.4.13.2 --------------------------- NOTE -------------------------

Only required to be performed when ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR.

Verify each ECCS accumulator is isolated. Once within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months and every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months thereafter SR 3.4.13.3 ------------------------- NOTE ---------------------------- 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months for Only required to be performed when complying unlocked open with LCO 3.4.13.b.Verify required RCS vent->_ 3 vent valve(s) square inches open.

. A ND Verify required RCS vent > 3 square inches open. 31 days for other vent path(s)

SR 3.4.13.4 Verify PORV block valve is open for each 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months required PORV.

Prairie Island Units I and 2 3.4.13-4 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature 3.4.13 SURVEILLANCE REQUIREMENTS (continued)

SURVEILLANCE FREQUENCY i

SR 3.4.13.5 ----------------- NOTE ---------------

1. Not required to be performed until 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months after decreasing RCS cold leg temperature to

< the OPPS enable temperature specified in the PTLR.

2. Only required to be performed when complying with LCO 3.4.13.a.

Perform a COT on OPPS. 31 days SR 3.4.13.6 Perform CHANNEL CALIBRATION for OPPS 24 months actuation channel.

Prairie Island Units 1 and 2 3.4.13-5 1/2/02

RCS Operational LEAKAGE 3,4.14 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.14.1 ---------------------------- NOTE ---------------

Not required to be performed until 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months after establishment of steady state operation.

Verify RCS operational leakage within limits by 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months performance of RCS water inventory balance.

SR 3.4.14.2 Verify steam generator tube integrity is in In accordance accordance with the Steam Generator Program. with the Steam Generator Program Prairie Island Units 1 and 2 3.4.14-3 1/2/02

RCS Specific Activity 3.4.17 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.17 RCS Specific Activity LCO 3.4.17 The specific activity of the reactor coolant shall be within limits:

APPLICABILITY: MODES I and 2, MODE 3 with RCS average temperature (Tavg) 2! 500'F.

ACTIONS -T REQUIRED ACTION COMPLETION CONDITION TIME A. DOSE EQUIVALENT N ote ---------------- ------------------.

1-131 > 1.0 bLCi/gm. LCO 3.0.4 is not applicable.

A.1 Verify DOSE Once per 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months EQUIVALENT 1-131 within the acceptable region of Figure 3.4.17-1.

AND 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months A.2 Restore DOSE EQUIVALENT 1-131 to within limit.

Prairie Island Units 1 and 2 3.4.17-1 1/2/02

RCS Specific Activity 3.4.17 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME B. Gross specific activity B.1 Be in MODE 3 with 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months of the reactor coolant Tavg < 500 0 F.

not within limit.

C. Required Action and C.l Be in MODE 3 with 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months associated Completion Tavg < 500'F.

Time of Condition A not met.

OR DOSE EQUIVALENT 1-131 in the unacceptable region of Figure 3.4.17-1.

SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.4.17.1 Verify reactor coolant gross specific activity 7 days

100/2 ,MCi/gm.

Prairie Island Units 1 and 2 3.4.17-2 1/2/02

RCS Specific Activity 3.4.17 SURVEILLANCE REQUIREMENTS (continued)

FREQUENCY SURVEILLANCE SR 3.4.17.2 N OTE -------------------------

Only required to be performed in MODE 1.

Verify reactor coolant DOSE EQUIVALENT 14 days 1-131 specific activity _*1.0 ktCi/gm. AND Between 2 and 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months after a THERMAL POWER change of >_15% RTP within a 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months period SR 3.4.17.3 N O TE - - - - - - ------

Not required to be performed until 31 days after a minimum of 2 effective full power days and 20 days of MODE 1 operation have elapsed since the reactor was last subcritical for >_ 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months .

Determine L from a sample taken in MODE 1 after 184 days a minimum of 2 effective full power days and 20 days of MODE I operation have elapsed since the reactor was last subcritical for >_ 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months .

Prairie Island Units 1 and 2 3.4.17-3 1/2/02

RCS Pressure, Temperature, and Flow - DNB Limits B 3.4.1 BASES SURVEILLANCE SR 3.4.1.2 REQUIREMENTS (continued) Since Required Action A. 1 allows a Completion Time of 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months to restore parameters that are not within limits, the 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months Surveillance Frequency for RCS average temperature is sufficient to ensure the temperature can be restored to a normal operation, steady state condition following load changes and other expected transient operations. The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months interval has been shown by operating practice to be sufficient to regularly assess for potential degradation and to verify operation is within safety analysis assumptions.

SR 3.4.1.3 Measurement of RCS total flow rate once every 24 months allows the installed RCS flow instrumentation to be calibrated and verifies the actual RCS flow rate is greater than or equal to the minimum required RCS flow rate. This verification may be performed via a precision calorimetric heat balance or other means.

The Frequency of 24 months reflects the importance of verifying flow after a refueling outage when the core has been altered, which may have caused an alteration of flow resistance.

REFERENCES 1. USAR, Section 14.

Prairie Island Units 1 and 2 B 3.4.1-5 1/2/02

RCS P/T Limits B 3.4.3 BASES (continued)

ACTIONS A.l and A.2 Operation outside the P/T limits during MODE 1, 2, 3, or 4 must be corrected so that the RCPB is returned to a condition that has been verified by stress analyses.

The 30 minute Completion Time reflects the urgency of restoring the parameters to within the analyzed range. Most violations will not be severe, and the activity can be accomplished in this time in a controlled manner.

Besides restoring operation within limits, an evaluation is required to determine if RCS operation can continue. The evaluation must verify the RCPB integrity remains acceptable and must be completed before continuing operation. Several methods may be used, including an engineering evaluation to determine effects of the out of-limit condition on the structural integrity of the RCS, a comparison with pre-analyzed transients in the stress analyses, new analyses, or inspection of the components.

ASME Code,Section XI, Appendix E, may be used to support the evaluation. However, its use is restricted to evaluation of the vessel beltline.

The 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months Completion Time is reasonable to accomplish the evaluation. The evaluation for a mild violation is possible within this time, but more severe violations may require special, event specific stress analyses or inspections. A favorable evaluation must be completed before continuing to operate.

Condition A is modified by a Note requiring that Required Action A.2 to be completed whenever the Condition is entered. The Note emphasizes the need to perform the evaluation of the effects of the excursion outside the allowable limits. Restoration alone per Required Action A. 1 is insufficient because higher than analyzed stresses may have occurred and may have affected the RCPB integrity.

Prairie Island Units 1 and 2 B 3.4.3-5 1/2/02

RCS Loops - MODE 3 B 3.4.5 BASES LCO The Note permits both RCPs to be de-energized for (continued) _<12 hours to perform preplanned work activities.

One purpose of the Note is to allow performance of tests that are designed to validate various accident analyses values. One of these tests is validation of the pump coastdown curve used as input to a number of accident analyses including a loss of flow accident. This test was performed during the initial startup testing program, and would normally only be performed once. If, however, changes are made to the RCS that would cause a change to the flow characteristics of the RCS, the input values of the coastdown curve must be revalidated by conducting the test again. Another test performed during the startup testing program was the validation of rod drop times, both with and without flow. Any future no flow test may be performed in MODE 3, 4, or 5 and requires that the pumps be stopped for a short period of time. The Note permits stopping the pumps in order to perform this test and validate the assumed analysis values.

Another purpose of the Note is to allow stopping of both RCP's for a sufficient time to perform station electrical lineup changes without transition to MODE 4. During these evolutions both RCP's may be inoperable. Transition to MODE 4 would put the plant through unnecessary cooldown and heatup transients. The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months time period specified is adequate to perform the necessary load shedding, switching and load restoration activities and restart an RCP without requiring transition to MODE 4.

Utilization of the Note is permitted provided the following conditions are met:

Prairie Island Units 1 and 2 B 3.4.5-3 1/2/02

RCS Loops - MODE 3 B 3.4.5 BASES LCO a. No operations are permitted that would dilute the RCS boron (continued) concentration with coolant with boron concentration less than required to meet SDM of LCO 3.1.1, thereby maintaining the margin to criticality. Boron reduction with coolant at boron concentrations less than required to assure SDM is maintained is prohibited to preclude the need for a boration, due to the time required to achieve a uniform distribution when in natural circulation (Ref. 1); and

b. Core outlet temperature is maintained at least 10°F below saturation temperature, so that no vapor bubble may form and possibly cause a natural circulation flow obstruction.

An OPERABLE RCS loop consists of one OPERABLE RCP and one OPERABLE SG which is capable of removing decay heat as specified in SR 3.4.5.2. An RCP is OPERABLE if it is capable of being powered and is able to provide forced flow if required.

APPLICABILITY In MODE 3, this LCO ensures forced circulation of the reactor coolant to remove decay heat from the core and to provide proper boron mixing. The most stringent condition of the LCO, that is, two RCS loops OPERABLE and two RCS loops in operation, applies to MODE 3 with the Rod Control System capable of rod withdrawal.

The least stringent condition, that is, two RCS loops OPERABLE and one RCS loop in operation, applies to Mode 3 with the Rod Control System not capable of rod withdrawal.

Operation in other MODES is covered by:

LCO 3.4.4, "RCS Loops-MODES 1 and 2";

LCO 3.4.6, "RCS Loops-MODE 4";

LCO 3.4.7, "RCS Loops-MODE 5, Loops Filled";

LCO 3.4.8, "RCS Loops-MODE 5, Loops Not Filled";

Prairie Island Units 1 and 2 B 3.4.5-4 1/2/02

RCS Loops - MODE 3 B 3.4.5 BASES ACTIONS D.1, D.2, and D.3 (continued) coolant could be introduced to the core; however, coolant added with boron concentration meeting the minimum SDM maintains acceptable margin to subcritical operations. The immediate Completion Time reflects the importance of maintaining operation for heat removal. The action to restore must be continued until one loop is restored to OPERABLE status and operation.

SURVEILLANCE SR 3.4.5.1 REQUIREMEN'S This SR requires verification every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months that the required loops are in operation. Verification may include flow rate, temperature, or pump status monitoring, which helps ensure that forced flow is providing heat removal. The Frequency of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is sufficient considering other indications and alarms available to the operator in the control room to monitor RCS loop performance.

SR 3.4.5.2 SR 3.4.5.2 requires verification that the SG has the capability to remove decay heat. The ability to remove decay heat requires the ability to pressurize and control pressure in the RCS, sufficient secondary side water level in the SG relied on for decay heat removal, and an available supply of feedwater (Ref. 2). The ability of the SG to provide an adequate heat sink for decay heat removal further ensures that the SG tubes remain covered.

The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months Frequency is considered adequate in view of the other indications available in the control room to alert the operator to a loss of the SG to remove decay heat.

Prairie Island Units I and 2 B 3.4.5-7 1/2/02

RCS Loops - MODE 3 B 3.4.5 BASES SURPVEILLANCE SR 3.4.5.3 REQUIREMENTS (continued) Verification that each required RCP is OPERABLE ensures that an additional RCP can be placed in operation, if needed, to maintain decay heat removal and reactor coolant circulation. Verification is performed by verifying proper breaker alignment and power availability to each required RCP. Alternatively, verification that a pump is in operation also verifies proper breaker alignment and power availability.

This SR is modified by a Note that states the SR is not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a pump is not in operation.

REFERENCES 1. License Amendment Request Dated November 19, 1999.

(Approved by License Amendment 152/143, July 14, 2000.)

2. NRC Information Notice 95-35, "Degraded Ability of Steam Generators to Remove Decay Heat by Natural Circulation."

Prairie Island Units I and 2 B 3.4.5-8 1/2/02

RCS Loops - MODE 4 B 3.4.6 BASES (continued)

LCO The purpose of this LCO is to require that at least two loops be OPERABLE in MODE 4 and that one of these loops be in operation.

The LCO allows the two loops that are required to be OPERABLE to consist of any combination of RCS loops and RHR loops. Any one loop in operation provides enough flow to remove the decay heat from the core with forced circulation. An additional loop is required to be OPERABLE to provide redundancy for heat removal.

Note 1 permits all RCPs or RHR pumps to be de-energized for

< 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months per 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period. The purpose of the Note is to permit tests that are designed to validate various accident analyses values.

One of the LCO tests performed during the startup testing program was validation of rod drop times during cold conditions, both with and without flow. If changes are made to the RCS that would cause a change in flow characteristics of the RCS, the input values must be revalidated by conducting the test again. Any future no flow test may be performed in MODE 3, 4, or 5 and requires that the pumps be stopped for a short period of time. The Note permits stopping the pumps in order to perform this test and validate the assumed analysis values. The 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months time period is adequate to perform the test, and operating experience has shown that boron stratification is not a problem during this short period with no forced flow.

Utilization of Note 1 is permitted provided the following conditions are met along with any other conditions imposed by startup test procedures:

a. No operations are permitted that would dilute the RCS boron concentration with coolant with boron concentration less than required to meet SDM of LCO 3.1.1, therefore maintaining the margin to criticality. Boron reduction with coolant at boron concentrations less than required to assure SDM in maintained is prohibited to preclude the need for a boration, due to the time required to achieve a uniform distribution when in natural circulation (Ref. 1); and Prairie Island Units 1 and 2 B 3.4.6-2 1/2/02

RCS Loops - MODE 4 B 3.4.6 BASES LCO b. Core outlet temperature is maintained at least 10°F below (continued) saturation temperature, so that no vapor bubble may form and possibly cause a natural circulation flow obstruction.

Note 2 requires a steam or gas bubble in the pressurizer or that the secondary side water temperature of each SG be _*50TF above each of the RCS cold leg temperatures before the start of an RCP with any RCS cold leg temperature < the OPPS enable temperature specified in the PTLR. A steam or gas bubble ensures that the pressurizer will accommodate the swell resulting from an RCP start. Either of these restraints prevents a low temperature overpressure event due to a thermal transient when an RCP is started.

An OPERABLE RCS loop consists of an OPERABLE RCP and an OPERABLE SG which is capable of removing decay heat as specified in SR 3.4.6.2.

Similarly for the RHR System, an OPERABLE RHR loop consists of an OPERABLE RHR pump capable of providing forced flow to an OPERABLE RHR heat exchanger. RCPs and RHR pumps are OPERABLE if they are capable of being powered and are able to provide forced flow if required.

,AYPLICABILITY In MODE 4, this LCO ensures forced circulation of the reactor coolant to remove decay heat from the core and to provide proper boron mixing.

Operation in other MODES is covered by:

LCO 3.4.4, "RCS Loops-MODES 1 and 2";

LCO 3.4.5, "RCS Loops-MODE 3";

LCO 3.4.7, "RCS Loops - MODE 5, Loops Filled";

LCO 3.4.8, "RCS Loops - MODE 5, Loops Not Filled";

LCO 3.9.5, "Residual Heat Removal (RHR) and Coolant Circulation - High Water Level" (MODE 6); and LCO 3.9.6, "Residual Heat Removal (RHR) and Coolant Circulation - Low Water Level" (MODE 6).

Prairie Island Units I and 2 B 3.4.6-3 1/2/02

RCS Loops - MODE 4 B 3.4.6 BASES (continued)

ACTIONS A. I If one required loop is inoperable, redundancy for heat removal is lost. Action must be initiated to restore a second RCS or RHR loop to OPERABLE status. The immediate Completion Time reflects the importance of maintaining the availability of two paths for heat removal. Entry to a reduced MODE (MODE 5 or 6) requires RHR availability for long term decay heat removal. Remaining in MODE 4, with RCS loop operation, is conservative.

If restoration is not accomplished and an RHR Loop is OPERABLE, the unit must be brought to MODE 5 within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months . Bringing the unit to MODE 5 is a conservative action with regard to decay heat removal. With only one RHR loop OPERABLE, redundancy for decay heat removal is lost and, in the event of a loss of the remaining RUR loop, it would be safer to initiate that loss from MODE 5 rather than MODE 4. The Completion Time of 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months is a reasonable time, based on operating experience, to reach MODE 5 from MODE 4 in an orderly manner and without challenging plant systems.

The Required Action is modified by a Note which indicates that the unit must be placed in MODE 5 only if a RHR loop is OPERABLE.

With no RHR loop OPERABLE, the unit is in a condition with only limited cooldown capabilities. Therefore, the actions are to be concentrated on the restoration of a RHR loop, rather than a cooldown of extended duration.

Prairie Island Units I and 2 B 3.4.6-4 1/2/02

RCS Loops- MODE 4 B 3.4.6 BASES ACTIONS B. I and B.2 (continued)

If both loops are inoperable or a required loop not in operation, except during conditions permitted by Note 1 in the LCO section, all operations involving introduction of coolant into the RCS with boron concentration less than required to meet the minimum SDM of LCO 3.1.1 must be suspended and action to restore one RCS or RIHR loop to OPERABLE status and operation must be initiated. The margin to criticality must not be reduced in this type of operation. Suspending the introduction of coolant into the RCS with boron concentration less than required to meet the minimum SDM of LCO 3.1.1 is required to assure continued safe operation. With coolant added without forced circulation, unmixed coolant could be introduced to the core; however, coolant added with boron concentration meeting the minimum SDM maintains acceptable margin to subcritical operations. The immediate Completion Times reflect the importance of maintaining operation for decay heat removal. The action to restore must be continued until one loop is restored to OPERABLE status and operation.

SURVEILLANCE SR 3.4.6.1 REQUIREMENTS This SR requires verification every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months that the required RCS or RHR loop is in operation. Verification may include flow rate, temperature, or pump status monitoring, which helps ensure that forced flow is providing heat removal. The Frequency of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is sufficient considering other indications and alarms available to the operator in the control room to monitor RCS and RHR loop performance.

Prairie Island Units 1 and 2 B 3.4.6-5 1/2/02

RCS Loops - MODE 4 B 3.4.6 BASES SURVEILLANCE SR 3.4.6.2 REQUIREMENTS (continued) SR 3.4.6.2 requires verification that the required SG has the capability to remove decay heat. The ability to remove decay heat requires the ability to pressurize and control pressure in the RCS, sufficient secondary side water level in the SG relied on for decay heat removal, and an available supply of feedwater (Ref. 2). The ability of the SG to provide an adequate heat sink for decay heat removal further ensures that the SG tubes remain covered. The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months Frequency is considered adequate in view of the other indications available in the control room to alert the operator to a loss of capability of the SG to remove decay heat.

SR 3.4.6.3 Verification that each required pump is OPERABLE ensures that an additional RCS or RHR pump can be placed in operation, if needed, to maintain decay heat removal and reactor coolant circulation.

Verification is performed by verifying proper breaker alignment and power available to each required pump. Alternatively, verification that a pump is in operation also verifies proper breaker alignment and power availability. The Frequency of 7 days is considered reasonable in view of other administrative controls available and has been shown to be acceptable by operating experience.

This SR is modified by a Note that states the SR is not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a pump is not in operation.

Prairie Island Units 1 and 2 B 3.4.6-6 1/2/02

RCS Loops - MODE 4 B 3.4.6 BASES (continued)

REFERENCES 1. License Amendment Request Dated November 19, 1999.

(Approved by License Amendment 152/143, July 14, 2000.)

2. NRC Information Notice 95-35, "Degraded Ability of Steam Generator to Remove Decay Heat by Natural Circulation."

Prairie Island Units 1 and 2 B 3-.46-7 1/2/02

RCS Loops - MODE 5, Loops Filled B 3.4.7 BASES BACKGROUND OPERABLE RHR loop or maintaining a SG capable of removing (continued) decay heat to provide an alternate method for decay heat removal via natural circulation.

APPLICABLE In MODE 5, RCS circulation increases the time available for SAFETY mitigation of an accidental boron dilution event. The RHR ANALYSES loops provide this circulation.

RCS Loops - MODE 5 (Loops Filled) satisfies Criterion 4 of 10 CFR 50.36(c)(2)(ii).

LCO The purpose of this LCO is to require that at least one RHR loop be OPERABLE and in operation with an additional RHR loop OPERABLE or a SG capable of removing decay heat via natural circulation. One RHR loop provides sufficient forced circulation to perform the safety functions of the reactor coolant under these conditions. An additional RHR loop is required to be OPERABLE to provide redundancy. However, if the standby RHR loop is not OPERABLE, an acceptable alternate method is a SG. Should the operating RHR loop fail, the SG could be used to remove decay heat via natural circulation.

Note 1 permits all RHR pumps to be de-energized _*1 hour per 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period. The purpose of the Note is to permit tests designed to validate various accident analyses values. One of the tests performed during the startup testing program was validation of rod drop times during cold conditions, both with and without flow. If changes are made to the RCS that would cause a change in flow characteristics of the RCS, the input values must be revalidated by conducting the test again. Any future no flow test may be performed in MODE 3, 4, or 5 and requires that the pumps be stopped for a short period of time. The Note permits stopping the pumps in order to perform this test and validate the assumed analysis values. The 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months time period is adequate to perform the test, and operating Prairie Island Units 1 and 2 B 3.4.7-2 1/2/02

RCS Loops - MODE 5, Loops Filled B 3.4.7 BASES LCO Note 4 provides for an orderly transition from MODE 5 to MODE 4 (continued) during a planned heatup by permitting removal of RHR loops from operation when at least one RCS loop is in operation. This Note provides for the transition to MODE 4 where an RCS loop is permitted to be in operation and replaces the RCS circulation function provided by the RHR loops.

RHR pumps are OPERABLE if they are capable of being powered and are able to provide flow if required. A SG is capable of removing decay heat via natural circulation when: 1) there is the ability to pressurize and control pressure in the RCS; 2) there is sufficient secondary side water level in the SG relied on for decay heat removal; and 3) there is an available supply of feedwater (Ref.

1). An OPERABLE SG can perform as a heat sink via natural circulation when it has the capability to remove decay heat as specified in SR 3.4.7.2.

APPLICABILITY In MODE 5 with RCS loops filled, this LCO requires forced circulation of the reactor coolant to remove decay heat from the core and to provide proper boron mixing. One loop of RHR provides sufficient circulation for these purposes. However, one additional RHR loop is required to be OPERABLE, or a SG is capable of removing decay heat.

Operation in other MODES is covered by:

LCO 3.4.4, "RCS Loops-MODES 1 and 2";

LCO 3.4.5, "RCS Loops-MODE 3";

LCO 3.4.6, "RCS Loops-MODE 4";

LCO 3.4.8, "RCS Loops-MODE 5, Loops Not Filled";

LCO 3.9.5, "Residual Heat Removal (RHR) and Coolant Circulation-High Water Level" (MODE 6); and LCO 3.9.6, "Residual Heat Removal (RHR) and Coolant Circulation-Low Water Level" (MODE 6).

Prairie Island Units 1 and 2 B 3.4.7-4 1/2/02

RCS Loops - MODE 5, Loops Filled B 3.4.7 BASES (continued)

ACTIONS A. 1, A.2, B. 1 and B.2 If one RHR loop is OPERABLE and the SGs are not capable of removing decay heat, redundancy, for heat removal is lost. Action must be initiated immediately to restore a second RIHR loop to OPERABLE status or to restore the required SG capability to remove decay heat. Either Required Action will restore redundant heat removal paths. The immediate Completion Time reflects the importance of maintaining the availability of two paths for heat removal.

C.1 and C.2 If a required RHR loop is not in operation, except during conditions permitted by Note 1, or if no loop is OPERABLE, all operations involving introduction of coolant into the RCS with boron concentration less than required to meet the minimum SDM of LCO 3.1.1 must be suspended and action to restore one RHR loop to OPERABLE status and operation must be initiated. Suspending the introduction of coolant into the RCS with boron concentration less than required to meet the minimum SDM of LCO 3.1.1 is required to assure continued safe operation. With coolant added without forced circulation, unmixed coolant could be introduced to the core; however, coolant added with boron concentration meeting the minimum SDM maintains acceptable margin to subcritical operations. The immediate Completion Times reflect the importance of maintaining operation for heat removal.

Prairie Island Units 1 and 2 B 3.4.7-5 1/2/02

RCS Loops - MODE 5, Loops Filled B 3.4.7 BASES (continued)

SURVEILLANCE SR 3.4.7.1 REQUIREMENTS This SR requires verification every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months that the required loop is in operation. Verification may include flow rate, temperature, or pump status monitoring, which helps ensure that forced flow is providing heat removal. The Frequency of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is sufficient considering other indications and alarms available to the operator in the control room to monitor RUR loop performance.

SR 3.4.7.2 SR 3.4.7.2 requires verification that the required SG has the capability to remove decay heat via natural circulation. This provides an alternate decay heat removal method in the event that the second RHR loop is not OPERABLE. The ability to remove decay heat requires the ability to pressurize and control pressure in the RCS, sufficient secondary side water level in the SG relied on for decay heat removal, and an available supply of feedwater(Ref. 1).

The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months Frequency is considered adequate in view of other indications available in the control room to alert the operator to a loss of capability of the SG to remove decay heat.

SR 3.4.7.3 Verification that each required RHR pump is OPERABLE ensures that an additional pump can be placed in operation, if needed, to maintain decay heat removal and reactor coolant circulation.

Verification is performed by verifying proper breaker alignment and power available to each required RHR pump. Alternatively, verification that a pump is in operation also verifies proper breaker alignment and power availability. If at least one SG is capable of decay heat removal, this Surveillance is not needed. The Frequency Prairie Island Units I and 2 B 3.4.7-6 1/2/02

RCS Loops - MODE 5, Loops Filled B 3.4.7 BASES SUIRVEILLANCE SR 3.4.7.3 (continued)

REQUIREMENTS of 7 days is considered reasonable in view of other administrative controls available and has been shown to be acceptable by operating experience.

This SR is modified by a Note that states the SR is not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a pump is not in operation.

REFERENCES 1. NRC Information Notice 95-35, "Degraded Ability of Steam Generators to Remove Decay Heat by Natural Circulation".

2. License Amendment Request Dated November 19, 1999.

(Approved by License Amendment 152/143, July 14, 2000.)

Prairie Island Units 1 and 2 B 3.4.7-7 1/2/02

RCS Loops - MODE 5, Loops Not Filled B 3.4.8 BASES LCO Note 1 permits all RHR pumps to be de-energized _<1 hour per 8 (continued) hour period. The circumstances for stopping both RHR pumps are to be limited to situations when the outage time is short and core outlet temperature is maintained > 10 F below saturation temperature. The Note prohibits boron dilution with coolant at boron concentrations less than required to assure SDM is maintained or draining operations when RHR forced flow is stopped.

Note 2 allows one RHR loop to be inoperable for a period of

< 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months , provided that the other loop is OPERABLE and in operation. This permits periodic surveillance tests to be performed on the inoperable loop during the only time when these tests are safe and possible.

An OPERABLE RHR loop is comprised of an OPERABLE RHR pump capable of providing forced flow to an OPERABLE RHR heat exchanger. RHR pumps are OPERABLE if they are capable of being powered and are able to provide flow if required.

APPLICABILITY In MODE 5 with loops not filled, this LCO requires core heat removal and coolant circulation by the RHR System.

Operation in other MODES is covered by:

LCO 3.4.4, "RCS Loops-MODES 1 and 2";

LCO 3.4.5, "RCS Loops-MODE 3";

LCO 3.4.6, "RCS Loops-MODE 4";

LCO 3.4.7, "RCS Loops-MODE 5, Loops Filled";

LCO 3.9.5, "Residual Heat Removal (RHR) and Coolant Circulation-High Water Level" (MODE 6); and LCO 3.9.6, "Residual Heat Removal (RIHR) and Coolant Circulation-Low Water Level" (MODE 6).

Prairie Island Units 1 and 2 B 3.4.8-2 1/2/02

RCS Loops - MODE 5, Loops Not Filled B 3.4.8 BASES (continued)

ACTIONS A. I If one required RHR loop is inoperable, redundancy for RHR is lost.

Action must be initiated to restore a second loop to OPERABLE status. The immediate Completion Time reflects the importance of maintaining the availability of two paths for heat removal.

B. I and B.2 If no required loop is OPERABLE or the required loop is not in operation, except during conditions permitted by Note 1, all operations involving introduction of coolant into the RCS with boron concentration less than required to meet the minimum SDM of LCO 3.1.1 must be suspended and action must be initiated immediately to restore an RHR loop to OPERABLE status and operation. The margin to criticality must not be reduced in this type of operation.

Suspending the introduction of coolant into the RCS with boron concentration less than required to meet the minimum SDM of LCO 3.1.1 is required to assure continued safe operation. With coolant added without forced circulation, unmixed coolant could be introduced to the core; however, coolant added with boron concentration meeting the minimum SDM maintains acceptable margin to subcritical operations. The immediate Completion Time reflects the importance of maintaining operation for heat removal.

The action to restore must continue until one loop is restored to OPERABLE status and operation.

The Note in Required Action B.2 allows the use of one safety injection pump to provide heat removal in the event of a loss of RHR system cooling during reduced RCS inventory conditions.

Prairie Island Units 1 and 2 B 3.4.8-3 1/2/02

RCS Loops - MODE 5, Loops Not Filled B 3.4.8 BASES (continued)

SURVEILLANCE SR 3.4.8.1 REQUIREMENTS This SR requires verification every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months that the required loop is in operation. Verification may include flow rate, temperature, or pump status monitoring, which helps ensure that forced flow is providing heat removal. The Frequency of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is sufficient considering other indications and alarms available to the operator in the control room to monitor RHR loop performance.

SR 3.4.8.2 Verification that each required pump is OPERABLE ensures that an additional pump can be placed in operation, if needed, to maintain decay heat removal and reactor coolant circulation. Verification is performed by verifying proper breaker alignment and power available to each required pump. Alternatively, verification that a pump is in operation also verifies proper breaker alignment and power availability. The Frequency of 7 days is considered reasonable in view of other administrative controls available and has been shown to be acceptable by operating experience.

This SR is modified by a Note that states the SR is not required to be performed until 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after a pump is not in operation.

REFERENCES None.

Prairie Island Units 1 and 2 B 3.4.8-4 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 B 3.4 REACTOR COOLANT SYSTEM (RCS)

B 3.4.12 Low Temperature Overpressure Protection (LTOP) - Reactor Coolant System Cold Leg Temperature (RCSCLT) > Safety Injection (SI) Pump Disable Temperature BASES BACKGROUND The LTOP function limits RCS pressure at low temperatures so the integrity of the reactor coolant pressure boundary (RCPB) is not compromised by violating the pressure and temperature (P/T) limits of 10 CFR 50, Appendix G (Ref. 1). The reactor vessel is the limiting RCPB component for demonstrating such protection. The Over Pressure Protection System (OPPS) and the pressurizer power operated relief valves (PORVs) provide the LTOP function (Ref. 2).

The PTLR provides the maximum allowable OPPS actuation setpoints for the PORVs and the maximum RCS pressure for the existing RCS cold leg temperature during cooldown, shutdown, and heatup to meet the Reference 1 requirements during the LTOP MODES. The LTOP MODES are the MODES as defined in the Applicability statement of LCO 3.4.12 and LCO 3.4.13.

The pressurizer safety valves and PORVs at their normal setpoints do not provide overpressure protection for certain low temperature operational transients. Inadvertent pressurization of the RCS at temperatures below the OPPS enable temperature specified in the PTLR could result in exceeding the ASME Appendix G (Ref. 3) brittle fracture P/T limits. Exceeding the RCS P/T limits by a significant amount could cause brittle cracking of the reactor vessel.

LCO 3.4.3, "RCS Pressure and Temperature (P/T) Limits," requires administrative control of RCS pressure and temperature during heatup and cooldown to prevent exceeding the PTLR limits.

This LCO provides RCS overpressure protection by restricting coolant input capability and ensuring adequate pressure relief capacity. In MODE 4, above the safety injection (SI) pump disable temperature, limiting coolant input capability requires one (SI) pump incapable of injection into the RCS and isolating the emergency core cooling system (ECCS) accumulators. In MODE 4, above the SI Prairie Island Units 1 and 2 B 3.4.12-1 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES BACKGROUND pump disable temperature, one PORV is the overpressure protection (continued) device that acts to terminate an increasing pressure event.

Limiting coolant input capability reduces the ability to provide core coolant addition. The LCO does not require the makeup control system deactivated or the SI actuation circuits blocked. Due to the lower pressures in the LTOP MODES and the expected core decay heat levels, the charging system can provide adequate flow. If conditions require the use of more than one SI pump for makeup in the event of loss of inventory, then pumps can be made available through manual actions.

In MODE 4, above the SI pump disable temperature, pressure relief consists of two PORVs with reduced lift settings. Two PORVs are required for redundancy. One PORV has adequate relieving capability to prevent overpressurization for the required coolant input capability.

As designed for the LTOP function, each PORV is signaled to open by OPPS if the RCS pressure approaches the lift setpoint provided when OPPS is enabled. The OPPS monitors both RCS temperature and RCS pressure and indicates when a condition not acceptable in the PTLR limits is approached. The wide range RCS temperature setpoints indicate conditions requiring enabling OPPS.

The PTLR presents the OPPS setpoints for LTOP.

APPLICABLE Safety analyses (Ref. 2) demonstrate that the reactor vessel is SAFE-Y adequately protected against exceeding the Reference 1 P/T limits.

ANALYSES In MODES 1, 2, and 3, and in MODE 4 with RCS cold leg temperature exceeding the OPPS enable temperature specified in the PTLR, the pressurizer safety valves will prevent RCS pressure from exceeding the Reference I limits. At about the OPPS enable temperature specified in the PTLR and below, overpressure prevention falls to two OPERABLE PORVs or to a depressurized Prairie Island Units 1 and 2 B 3.4.12-2 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES APPLICABLE RCS and a sufficiently sized RCS vent. Each of these means has a SAFETY limited overpressure relief capability. LCO 3.4.13, "LTOP

SI ANALYSES Pump Disable Temperature," provides the requirements for (continued) overpressure prevention at the lower temperatures.

The actual temperature at which the pressure in the P/T limit curve falls below the pressurizer safety valve setpoint increases as the reactor vessel material toughness decreases due to neutron embrittlement. Each time the PTLR curves are revised, LTOP must be re-evaluated to ensure its functional requirements can still be met using the PORV method.

The PTLR contains the acceptance limits that define the LTOP requirements. Any change to the RCS must be evaluated against the Reference 2 analyses to determine the impact of the change on the LTOP acceptance limits.

Transients that are capable of overpressurizing the RCS are categorized as either mass or heat input transients. The bounding mass input transient is inadvertent safety injection with injection from one SI pump and three charging pumps, and letdown isolated.

The bounding heat input transient is reactor coolant pump (RCP) startup with temperature asymmetry within the RCS or between the RCS and steam generators.

The following limitations are required during the Applicability of this specification to ensure that mass and heat input transients in excess of analysis assumptions do not occur:

a. Rendering one SI pump incapable of injection;

b. Deactivating the ECCS accumulator discharge isolation valves in their closed positions; and

c. Disallowing start of an RCP if secondary temperature is more than 50TF above primary temperature in any one loop.

LCO 3.4.6, "RCS Loops - MODE 4," provides this protection.

Prairie Island IJnits I and 2 B,3_4 12-3 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES APPLICABLE The Reference 2 analyses demonstrate that one PORV can maintain SAFETY RCS pressure below limits when only one SI pump and all charging ANALYSES pumps are actuated. Thus, the LCO allows only one SI pump (continued) OPERABLE during the Applicability of this specification.

Since one PORV cannot handle the pressure transient resulting from ECCS accumulator injection, when RCS temperature is low, the LCO also requires ECCS accumulator isolation when ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR.

The isolated ECCS accumulators must have their discharge valves closed and the valve power supply breakers fixed in their open positions.

Fracture mechanics analyses established the temperature of LTOP Applicability at the OPPS enable temperature specified in the PTLR.

The consequences of a small break loss of coolant accident (LOCA) in LTOP MODE 4 above the SI Pump disable temperature conform to 10 CFR 50.46 and 10 CFR 50, Appendix K, requirements by having a maximum of one SI pump OPERABLE and SI actuation enabled.

The fracture mechanics analyses show that the vessel is protected when the PORVs are set to open at or below the limit shown in the PTLR. The OPPS setpoints are derived by analyses that model the performance of the system, assuming the limiting LTOP transient of one SI pump and all charging pumps injecting into the RCS. These analyses consider pressure overshoot and undershoot beyond the PORV opening and closing, resulting from signal processing and valve stroke times. The OPPS setpoints at or below the derived limit ensures the Reference 1 P/T limits will be met.

The OPPS setpoints in the PTLR will be updated when the revised P/T limits conflict with the LTOP analysis limits. The P/T limits are Prairie Island Units 1 and 2 B 3.4.12-4 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES APPLICABLE periodically modified as the reactor vessel material toughness SAFETY decreases due to neutron embrittlement caused by neutron ANALYSES irradiation. Revised limits are determined using neutron fluence (continued) projections and the results of examinations of the reactor vessel material irradiation surveillance specimens. The Bases for LCO 3.4.3, "RCS Pressure and Temperature (P/T) Limits," discuss these examinations.

The LTOP function satisfies Criterion 2 of 10 CFR 50.36(c)(2)(ii).

LCO This LCO requires that LTOP be provided, by limiting coolant input capability and by OPERABLE pressure relief capability. Violation of this LCO could lead to the loss of low temperature overpressure mitigation and violation of the Reference I limits as a result of an operational transient.

To limit the coolant input capability, the LCO requires that a maximum of one SI pump be capable of injecting into the RCS, and all ECCS accumulator discharge isolation valves be closed and deenergized (when ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR).

The LCO is modified by two Notes. Note 1 allows operation of both SI pumps for _<1 hour for conducting SI system testing providing there is a steam or gas bubble in the pressurizer and at least one isolation valve between the SI pump and the RCS is shut. The purpose of this note is to permit the conduct of the integrated SI test and other SI system tests and operations that may be performed in MODE 4. In this case, pressurizer level is maintained at less than 50% and a positive means of isolation is provided between the SI pumps and the RCS to prevent fluid injection to the RCS. This isolation is accomplished by either a closed manual valve or motor operated valve with the power removed. This combination of conditions under strict administrative control assure that overpressurization cannot occur.

Prairie Island Units 1 and 2 B 3.4.12-5 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES LCO Note 2 states that ECCS accumulator isolation is only required (continued) when the ECCS accumulator pressure is more than or at the maximum RCS pressure for the existing RCS cold leg temperature allowed by the P/T limit curves provided in the PTLR (less allowance for instrument uncertainty). This Note permits the ECCS accumulator discharge isolation valve Surveillance to be performed only under these pressure and temperature conditions.

To provide low temperature overpressure mitigation through pressure relief, the LCO requires an OPERABLE OPPS with two pressurizer PORVs. A PORV is OPERABLE for LTOP when its block valve is open, its low pressure lift setpoint has been selected (OPPS enabled), and the backup air supply is charged.

APPLICABILITY This LCO is applicable in MODE 4 when any RCS cold leg temperature is _<the OPPS enable temperature specified in the PTLR and > the SI Pump disable temperature specified in the PTLR. The pressurizer safety valves provide overpressure protection that meets the Reference 1 P/T limits above the OPPS enable temperature specified in the PTLR.

LCO 3.4.3 provides the operational P/T limits for all MODES.

LCO 3.4.10, "Pressurizer Safety Valves," requires the OPERABILITY of the pressurizer safety valves that provide overpressure protection during MODES 1, 2, and 3, and MODE 4 above the OPPS enable temperature specified in the PTLR. LCO 3.4.13 provides the LTOP requirements in MODE 4 _<SI pump disable temperature and in MODES 5 and 6.

Low temperature overpressure prevention is most critical during shutdown when the RCS is water solid, and a mass or heat input transient can cause a very rapid increase in RCS pressure when little or no time allows operator action to mitigate the event.

Prairie Island Units 1 and 2 B 3.4.12-6 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES (continued)

ACTIONS A.I With two SI pumps capable of injecting into the RCS, RCS overpressurization is possible.

To immediately initiate action to restore restricted coolant input capability to the RCS reflects the urgency of removing the RCS from this condition.

B.1, C.1, and C.2 An unisolated ECCS accumulator requires isolation within 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months .

This is only required when the ECCS accumulator pressure is at or more than the maximum RCS pressure for the existing temperature allowed by the P/T limit curves.

If isolation is needed and cannot be accomplished in 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months , Required Action C.1 and Required Action C.2 provide two options, either of which must be performed in the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months . By increasing the RCS temperature to > the OPPS enable temperature specified in the PTLR, an accumulator pressure of 800 psig cannot exceed the LTOP analysis limits if the ECCS accumulators are fully injected. Depressurizing the ECCS accumulators below the LTOP limit from the PTLR also gives this protection.

The Completion Times are based on operating experience that these activities can be accomplished in these time periods and on engineering evaluations indicating that an event requiring LTOP is not likely in the allowed times.

D.1 In MODE 4 when any RCS cold leg temperature is -<the OPPS enable temperature specified in the PTLR, with one required PORV Prairie Island Units 1 and 2 B 3.4.12-7 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES ACTIONS D.1 (continued) inoperable, the PORV must be restored to OPERABLE status within a Completion Time of 7 days. Two PORVs are required to provide low temperature overpressure mitigation while withstanding a single failure of an active component.

The Completion Time considers the facts that only one of the PORVs is required to mitigate an overpressure transient and that the likelihood of an active failure of the remaining valve path during this time period is very low.

E.I MODE 5 must be entered, the RCS must be depressurized and a vent must be established within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months when:

a. Both PORVs are inoperable; or

b. A Required Action and associated Completion Time of Condition A, C, or D is not met; or

c. The OPPS is inoperable.

The vent must be sized _>3 square inches to ensure that the flow capacity is greater than that required for the worst case mass input transient reasonable during the applicable MODES. The vent opening is based on the cross sectional flow area of a PORV. A PORV maintained in the open position satisfies the vent requirement. This action is needed to protect the RCPB from a low temperature overpressure event and a possible brittle failure of the reactor vessel.

Prairie Island Ilnits I and 2 B 3.4.12-8 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES ACTIONS E.I (continued)

The Completion Time considers the time required to place the plant in this Condition and the relatively low probability of an overpressure event during this time period due to increased operator awareness of administrative control requirements.

SURVEILLANCE SR 3.4.12.1 and SR 3.4.12.2 REQUIREMENTS To minimize the potential for a low temperature overpressure event by limiting the mass input capability, one SI pump is verified incapable of injecting into the RCS and the ECCS accumulator discharge isolation valves are verified closed and deenergized.

The SI pump is rendered incapable of injecting into the RCS by employing at least two independent means to prevent a pump start such that a single failure or single action will not result in an injection into the RCS. This may be accomplished through the pump control switch being placed in pullout with a blocking device installed over the control switch that would prevent an unplanned pump start.

The ECCS accumulator motor operated isolation valves can be verified closed and deenergized by use of control board indication.

SR 3.4.12.2 is modified by a Note specifying that this verification is only required when the ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR. If ECCS accumulator pressure is less than this limit, no verification is required since the ECCS accumulator cannot pressurize the RCS to or above the OPPS setpoint.

The Frequency of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is sufficient, considering other indications and alarms available to the operator in the control room, to verify the required status of the equipment.

Prairie Island Units 1 and2 B 3.4.12-9 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES SURVEILLANCE SR 3.4.12.3 REQUIREMENTS (continued) The PORV block valve must be verified open every 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months to provide the flow path for each required PORV to perform its function when actuated. The valve may be remotely verified open in the main control room.

The block valve is a remotely controlled, motor operated valve. The power to the valve operator is not required to be removed, and the manual operator is not required to be locked in the inactive position.

Thus, the block valve can be closed in the event the PORV develops excessive leakage or does not close (sticks open) after relieving an overpressure situation.

The 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months Frequency is considered adequate in view of other administrative controls available to the operator in the control room, such as valve position indication, that verify that the PORV block valve remains open.

SR 3.4.12.4 Performance of a COT is required every 31 days on OPPS to verify and, as necessary, adjust the PORV lift setpoints. A successful test of the required contact(s) of a channel relay may be performed by the verification of the change of state of a single contact of the relay.

This clarifies what is an acceptable CHANNEL OPERATIONAL TEST of a relay. This is acceptable because all of the other required contacts of the relay are verified by other Technical Specifications and non-Technical Specifications tests at least once per refueling interval with applicable extensions. The COT will verify the setpoints are within the PTLR allowed maximum limits in the PTLR.

PORV actuation during this testing could depressurize the RCS and is not required.

Prairie Island Units 1 and 2 B 3.4.12-10 1/2/02

LTOP - RCSCLT > SI Pump Disable Temperature B 3.4.12 BASES SURVEILLANCE SR 3.4.12.4 (continued)

REQUIREMENTS A Note has been added indicating that this SR is required to be performed 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months after decreasing RCS cold leg temperature to

_<the OPPS enable temperature specified in the PTLR. The COT may not have been performed before entry into the LTOP MODES.

The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months initial time considers the unlikehood of a low temperature overpressure event during this time.

SR 3.4.12.5 Performance of a CHANNEL CALIBRATION on OPPS is required every 24 months to adjust the whole channel so that it responds and the valve opens within the required range and accuracy to known input.

REFERENCES 1. 10 CFR 50, Appendix G.

2. USAR, Section 4.4.

3. ASME, Boiler and Pressure Vessel Code,Section XI, Appendix G, with ASME Code Case N-514.

Prairie Island Units I and 2 B 3.4.12-11 1/2/02

LTOP - RCSCLT < SI Pump Disable Temperature B 3.4.13 B 3.4 REACTOR COOLANT SYSTEM (RCS)

B 3.4.13 Low Temperature Overpressure Protection (LTOP) Reactor Coolant System Cold Leg Temperature (RCSCLT) _<Safety Injection (SI) Pump Disable Temperature BASES BACKGROUND The LTOP function limits RCS pressure at low temperatures so the integrity of the reactor coolant pressure boundary (RCPB) is not compromised by violating the pressure and temperature (P/T) limits of 10 CFR 50, Appendix G (Ref. 1). The reactor vessel is the limiting RCPB component for demonstrating such protection. The Over Pressure Protection System (OPPS) provides the actuation setpoints for the pressurizer power operated relief valves (PORVs) for the LTOP function (Ref. 2). The PTLR provides the maximum allowable OPPS actuation setpoints and the maximum RCS pressure for the existing RCS cold leg temperature during cooldown, shutdown, and heatup to meet the Reference 1 requirements during the LTOP MODES. The LTOP MODES are the MODES as defined in the Applicability statement of LCO 3.4.12 and LCO 3.4.13.

The pressurizer safety valves and PORVs at their normal setpoints do not provide overpressure protection for certain low temperature operational transients. Inadvertent pressurization of the RCS at temperatures below the OPPS enable temperature specified in the PTLR could result in exceeding the ASME Appendix G (Ref. 3) brittle fracture P/T limits. Exceeding the RCS P/T limits by a significant amount could cause brittle cracking of the reactor vessel.

LCO 3.4.3, "RCS Pressure and Temperature (P/T) Limits," requires administrative control of RCS pressure and temperature during heatup and cooldown to prevent exceeding the PTLR limits.

This LCO provides RCS overpressure protection by restricting coolant input capability and ensuring adequate pressure relief capacity. In MODE 4, at or below the safety injection (SI) pump disable temperature, limiting coolant input capability requires both SI pumps incapable of injection into the RCS and isolating the emergency core cooling system (ECCS) accumulators. The pressure Prairie Island Units 1 and 2 B 3.4-13-112 1/2/02

LTOP - RCSCLT _*SI Pump Disable Temperature B 3.4.13 BASES BACKGROUND relief capacity requires either two redundant RCS relief valves or a (continued) depressurized RCS and an RCS vent of sufficient size. One PORV or the open RCS vent is the overpressure protection device that acts to terminate an increasing pressure event.

Limiting coolant input capability reduces the ability to provide core coolant addition. The LCO does not require the makeup control system deactivated or the safety injection SI actuation circuits blocked. Due to the lower pressures in the LTOP MODES and the expected core decay heat levels, the charging system can provide adequate flow. If conditions require the use of an SI pump for makeup in the event of loss of inventory, the pump can be made available through manual actions.

The LTOP pressure relief consists of two PORVs with reduced lift settings or a depressurized RCS and an RCS vent of sufficient size.

Two PORVs are required for redundancy. One PORV has adequate relieving capability to prevent overpressurization for the required coolant input capability.

OPPS and PORV Requirements As designed for the LTOP function, each PORV is signaled to open by OPPS if the RCS pressure approaches the lift setpoint provided when OPPS is enabled. The OPPS monitors both RCS temperature and RCS pressure and indicates when a condition not acceptable in the PTLR limits is approached. The wide range RCS temperature setpoints indicate conditions requiring enabling OPPS. The PTLR presents the OPPS setpoints for LTOP.

RCS Vent Requirements Once the RCS is depressurized, a vent exposed to the containment atmosphere will maintain the RCS at containment ambient pressure Prairie Island Units 1 and 2 B 3.4.13-2 1/2/02

LTOP - RCSCLT *< SI Pump Disable Temperature B 3.4.13 BASES BACKGROUND RCS Vent Requirements (continued) in an RCS overpressure transient, if the relieving requirements of the transient do not exceed the capabilities of the vent. Thus, the vent path must be capable of relieving the flow resulting from the limiting LTOP mass or heat input transient, and maintaining pressure below the P/T limits. The required vent capacity may be provided by one or more vent paths.

APPLICABLE Safety analyses (Ref. 2) demonstrate that the reactor vessel is SAFETY adequately protected against exceeding the Reference I P/T limits.

ANALYSES In MODES 1, 2, and 3, and in MODE 4 with RCS cold leg temperature exceeding the OPPS enable temperature specified in the PTLR, the pressurizer safety valves will prevent RCS pressure from exceeding the Reference 1 limits. At about the OPPS enable temperature specified in the PTLR and below, overpressure prevention falls to two OPERABLE PORVs or to a depressurized RCS and a sufficiently sized RCS vent. Each of these means has a limited overpressure relief capability. LCO 3.4.12, "LTOP > SI Pump Disable Temperature," provides the requirements for overpressure prevention at temperatures above the SIP disable temperature.

The actual temperature at which the pressure in the P/T limit curve falls below the pressurizer safety valve setpoint increases as the reactor vessel material toughness decreases due to neutron embrittlement. Each time the PTLR curves are revised, LTOP must be re-evaluated to ensure its functional requirements can still be met using the PORV method or the depressurized and vented RCS condition.

The PTLR contains the acceptance limits that define the LTOP requirements. Any change to the RCS must be evaluated against the Reference 2 analyses to determine the impact of the change on the LTOP acceptance limits.

Prairie Island Units I and 2 B 3.4.13-3 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES APPLICABLE Transients that are capable of overpressurizing the RCS are SAFETY categorized as either mass or heat input transients. The bounding ANALYSES mass input transient is inadvertent safety injection with injection (continued) from one SI pump and three charging pumps, and letdown isolated.

The bounding heat input transient is reactor coolant pump (RCP) startup with temperature asymmetry within the RCS or between the RCS and steam generators.

The following limitations are required during the Applicability of this specification to ensure that mass and heat input transients in excess of analysis assumptions do not occur:

a. Rendering both SI pumps incapable of injection;

b. Deactivating the ECCS accumulator discharge isolation valves in their closed positions; and

c. Disallowing start of an RCP if secondary temperature is more than 50'F above primary temperature in any one loop.

LCO 3.4.6, "RCS Loops - MODE 4," provides this protection.

The Reference 2 analyses demonstrate that either one PORV or the depressurized RCS and RCS vent can maintain RCS pressure below limits when all charging pumps are actuated. Neither one PORV nor the RCS vent can handle the pressure transient resulting from inadvertent SI pump or ECCS accumulator injection when the RCS is below the SI Pump disable temperature. Thus, the LCO requires both SI pumps to be disabled below the temperature specified in the PTLR.

The LCO also requires ECCS accumulator isolation when ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR. The isolated ECCS accumulators must have their discharge valves closed and the valve power supply breakers fixed in their open positions.

Prairie Island Units 1 and 2 B 3.4.13-4 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES APPLICABLE Fracture mechanics analyses established the temperature of LTOP SAFETY Applicability at the OPPS enable temperature specified in the PTLR.

ANALYSES The fracture mechanics analyses show that the vessel is protected (continued) when the PORVs are set to open at or below the limit shown in the PTLR. The OPPS setpoints are derived by analyses that model the performance of the system, assuming the limiting LTOP transient of all charging pumps injecting into the RCS. These analyses consider pressure overshoot and undershoot beyond the PORV opening and closing, resulting from signal processing and valve stroke times.

The OPPS setpoints at or below the derived limit ensures the Reference 1 P/T limits will be met.

The OPPS setpoints in the PTLR will be updated when the revised P/T limits conflict with the LTOP analysis limits. The P/T limits are periodically modified as the reactor vessel material toughness decreases due to neutron embrittlement caused by neutron irradiation. Revised limits are determined using neutron fluence projections and the results of examinations of the reactor vessel material irradiation surveillance specimens. The Bases for LCO 3.4.3, "RCS Pressure and Temperature (P/T) Limits," discuss these examinations.

With the RCS depressurized, analyses show a vent size equivalent to the cross sectional flow area of a PORV is capable of mitigating the allowed LTOP overpressure transient. The capacity of a vent this size is greater than the flow of the limiting transient for the LTOP configuration, both SI pumps disabled and all charging pumps OPERABLE when the RCS is below the SI Pump disable temperature, maintaining RCS pressure less than the maximum pressure on the P/T limit curve.

The RCS vent is passive and is not subject to active failure.

The LTOP function satisfies Criterion 2 of 10 CFR 50.36(c)(2)(ii).

Prairie Island Units 1 and 2 B 3.4.13-5 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES (continued)

LCO This LCO requires that LTOP be provided, by limiting coolant input capability and by OPERABLE pressure relief capability. Violation of this LCO could lead to the loss of low temperature overpressure mitigation and violation of the Reference 1 limits as a result of an operational transient.

To limit the coolant input capability, the LCO requires both SI pumps be incapable of injecting into the RCS, and all ECCS accumulator discharge isolation valves be closed and deenergized (when ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR).

The LCO is modified by three Notes. Note 1 allows operation of both SI pumps for _*1 hour for conducting SI system testing providing there is a steam or gas bubble in the pressurizer and at least one isolation valve between the SI pump and the RCS is shut.

The purpose of this note is to permit the conduct of the integrated SI test and other SI system tests and operations that may be performed in MODES 4, 5 or 6. In this case, pressurizer level is maintained at less than 50% and a positive means of isolation is provided between the SI pumps and the RCS to prevent fluid injection to the RCS.

This isolation is accomplished by either a closed manual valve or motor operated valve with the power removed. This combination of conditions under strict administrative control assure that overpressurization cannot occur.

Note 2 allows operation of an SI pump during reduced inventory conditions as required to maintain adequate core cooling and RCS inventory. The purpose of this note is to allow use of an SI pump in the event of a loss of other injection capability (e.g., loss of Residual Heat Removal System cooling while in reduced inventory conditions). The operation of an SI pump under such conditions would be controlled by an approved emergency operating procedure.

Prairie Island Units I and 2 B 3.4.13-6 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES LCO Note 3 states that ECCS accumulator isolation is only required when (continued) ECCS accumulator pressure is more than or at the maximum RCS pressure for the existing RCS cold leg temperature allowed by the P/T limit curves provided in the PTLR (less allowance for instrument uncertainty). This Note permits the ECCS accumulator discharge isolation valve Surveillance to be performed only under these pressure and temperature conditions.

The elements of the LCO that provide low temperature overpressure mitigation through pressure relief are:

a. An OPERABLE OPPS with two PORVs; or A PORV is OPERABLE for LTOP when its block valve is open, its low pressure lift setpoint has been selected (OPPS enabled), and the backup air supply is charged.

b. A depressurized RCS and an RCS vent.

An RCS vent is OPERABLE when open with an area of

_>3.0 square inches. Because the RCS vent opening specification is based on the flow capacity of a PORV, a PORV maintained in the open position may be utilized to meet the RCS vent requirement.

Each of these methods of overpressure prevention is capable of mitigating the limiting LTOP transient.

APPLICABILITY This LCO is applicable in MODE 4 when any RCS cold leg temperature is _*the SI Pump disable temperature specified in the PTLR, in MODE 5, and in MODE 6 when the reactor vessel head is on and the SG primary system manways and pressurizer manway are closed and secured. The pressurizer safety valves provide overpressure protection that meets the Reference 1 P/T limits above the OPPS enable temperature specified in the PTLR. When the reactor vessel head is off, overpressurization cannot occur.

Prairie Island Units 1 and 2 B 3.4.13-7 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES APPLICABILITY LCO 3.4.3 provides the operational P/T limits for all MODES.

(continued) LCO 3.4.10, "Pressurizer Safety Valves," requires the OPERABILITY of the pressurizer safety valves that provide overpressure protection during MODES 1, 2, and 3, and MODE 4 above the OPPS enable temperature specified in the PTLR. LCO 3.4.12, "Low Temperature Overpressure Protection (LTOP) _<Safety Injection Pump (SI) Pump Disable Temperature," provides the requirements for MODE 4 below the OPPS enable temperature and above the SI Pump disable temperature.

Low temperature overpressure prevention is most critical during shutdown when the RCS is water solid, and a mass or heat input transient can cause a very rapid increase in RCS pressure when little or no time allows operator action to mitigate the event.

ACTIONS A.1 With one or more SI pumps capable of injecting into the RCS, RCS overpressurization is possible.

To immediately initiate action to restore restricted coolant input capability to the RCS reflects the urgency of removing the RCS from this condition.

B.1, C.1, and C.2 An unisolated ECCS accumulator requires isolation within 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months .

This is only required when the ECCS accumulator pressure is at or more than the maximum RCS pressure for the existing temperature allowed by the P/T limit curves.

If isolation is needed and cannot be accomplished in 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months , Required Action C. 1 and Required Action C.2 provide two options, either of which must be performed in the next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months . By Prairie Island Units 1 and 2 B 3.4.13-8 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES ACTIONS B.1, C.1, and C.2 (continued) increasing the RCS temperature to > the OPPS enable temperature specified in the PTLR, an ECCS accumulator pressure of 800 psig cannot exceed the LTOP analysis limits if the ECCS accumulators are fully injected. Depressurizing the ECCS accumulators below the LTOP limit from the PTLR also gives this protection.

The Completion Times are based on operating experience that these activities can be accomplished in these time periods and on engineering evaluations indicating that an event requiring LTOP is not likely in the allowed times.

D.1 The consequences of operational events that will overpressunize the RCS are more severe at lower temperature. Thus, with one PORV inoperable in MODE 4 when any RCS cold leg temperature is _<the SI Pump disable temperature specified in the PTLR, MODE 5 or in MODE 6 with the head on, the Completion Time to restore two valves to OPERABLE status is 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months . A Note clarifies that Condition D is only applicable when the OPPS and PORVs are being used to satisfy the pressure relief requirements of LCO 3.4.13.a.

The Completion Time represents a reasonable time to investigate and repair several types of relief valve failures without exposure to a lengthy period with only one OPERABLE PORV to protect against overpressure events.

E.1 The RCS must be depressurized and a vent must be established within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months when:

Prairie Island Units 1 and 2 B 3.4.13-9 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES ACTIONS E. 1 (continued)

a. Both required PORVs are inoperable; or

b. A Required Action and associated Completion Time of Condition A, C, or D is not met; or

c. The OPPS is inoperable.

The vent must be sized Ž_3 square inches to ensure that the flow capacity is greater than that required for the worst case mass input transient reasonable during the applicable MODES. The vent opening is based on the cross sectional flow area of a PORV. A PORV maintained in the open position satisfies the vent requirement. This action is needed to protect the RCPB from a low temperature overpressure event and a possible brittle failure of the reactor vessel.

The Completion Time considers the time required to place the plant in this Condition and the relatively low probability of an overpressure event during this time period due to increased operator awareness of administrative control requirements.

SUPVPILLANCE SR 3.4.13.1 and SR 3.4.13.2 REQUIREMENTS To minimize the potential for a low temperature overpressure event by limiting the mass input capability, both SI pumps are verified incapable of injecting into the RCS and the ECCS accumulator discharge isolation valves are verified closed and deenergized.

The SI pumps are rendered incapable of injecting into the RCS by employing at least two independent means to prevent a pump start such that a single failure or single action will not result in an injection into the RCS. This may be accomplished through the Prairie Island Units 1 and 2 B 3.4.13-10 1/2/02

LTOP - RCSCLT _<SI Pump Disable Temperature B 3.4.13 BASES SURVEILLANCE SR 3.4.13.1 and SR 3.4.13.2 (continued)

REQUIREMENTS pump control switch being placed in pullout with a blocking device installed over the control switch that would prevent an unplanned pump start.

The ECCS accumulator motor operated isolation valves can be verified closed and deenergized by use of control board indication.

SR 3.4.13.2 is modified by a Note specifying that this verification is only required when the ECCS accumulator pressure is greater than or equal to the maximum RCS pressure for the existing RCS cold leg temperature allowed in the PTLR. If ECCS accumulator pressure is less than this limit, no verification is required since the ECCS accumulator cannot pressurize the RCS to or above the OPPS setpoint.

The Frequency of 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is sufficient, considering other indications and alarms available to the operator in the control room, to verify the required status of the equipment.

SR 3.4.13.3 The RCS vent of >_ 3 square inches is proven OPERABLE by verifying its open condition either:

a. Once every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months for a valve that is not locked, sealed, or secured in the open position.

b. Once every 31 days for other vent path(s) (e.g., a vent valve that is locked, sealed, or secured in position). A removed pressurizer safety valve or open manway also fits this category.

The passive vent path arrangement must only be open when required to be OPERABLE. This Surveillance is required if the vent is being used to satisfy the pressure relief requirements of LCO 3.4.13b.

Prairie Island Units 1 and 2 B 3.4.13-11 1/2/02

LTOP - RCSCLT _*SI Pump Disable Temperature B 3.4.13 BASES SLUPVEILLANCE SR 3.4.13.4 REQUIREMENTS (continued) The PORV block valve must be verified open every 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months to provide the flow path for each required PORV to perform its function when actuated. The valve may be remotely verified open in the main control room. This Surveillance is performed if the PORV satisfies the LCO.

The block valve is a remotely controlled, motor operated valve. The power to the valve operator is not required to be removed, and the manual operator is not required to be locked in the inactive position.

Thus, the block valve can be closed in the event the PORV develops excessive leakage or does not close (sticks open) after relieving an overpressure situation.

The 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months Frequency is considered adequate in view of other administrative controls available to the operator in the control room, such as valve position indication, that verify that the PORV block valve remains open.

SR 3.4.13.5 Performance of a COT is required every 31 days on OPPS to verify and, as necessary, adjust the PORV lift setpoints. A successful test of the required contact(s) of a channel relay may be performed by the verification of the change of state of a single contact of the relay.

This clarifies what is an acceptable CHANNEL OPERATIONAL TEST of a relay. This is acceptable because all of the other required contacts of the relay are verified by other Technical Specifications and non-Technical Specifications tests at least once per refueling interval with applicable extensions. The COT will verify the setpoints are within the PTLR allowed maximum limits in the PTLR.

PORV actuation during this testing could depressurize the RCS and is not required.

Prairie Island Units 1 and 2 B 3.4.13-12 1/2/02

LTOP - RCSCLT *< SI Pump Disable Temperature B 3.4.13 BASES SUJRVEILLANCE SR 3.4.13.5 (continued)

REQUIREMES Note I has been added indicating that this SR is not required to be performed until 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months after decreasing RCS cold leg temperature to _<the OPPS enable temperature specified in the PTLR. The COT may not have been performed before entry into the LTOP MODES.

The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months initial time considers the unlikehood of a low temperature overpressure event during this time.

Note 2 has been added to specify that this SR is only required to be performed when OPPS and PORVs are providing the LTOP function per LCO 3.4.13.a.

SR 3.4.13.6 Performance of a CHANNEL CALIBRATION on OPPS is required every 24 months to adjust the whole channel so that it responds and the valve opens within the required range and accuracy to known input.

REFERENCES 1. 10 CFR 50, Appendix G.

2. USAR, Section 4.4.

3. ASME, Boiler and Pressure Vessel Code,Section XI, Appendix G, with ASME Code Case N-514.

Prairie Island Units 1 and 2 B 3.4.13-13 1/2/02

RCS Operational LEAKAGE B 3.4.14 BASES SURVEILLANCE SR 3.4.14.1 (continued)

REQUIREMENTS The RCS water inventory balance must be met with the reactor at steady state operating condition (stable temperature, power level, equilibrium xenon, pressurizer and makeup tank levels, makeup and letdown, and RCP seal injection and return flows). Therefore, a Note is added allowing that this SR is not required to be performed until 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months after establishing steady state operation. The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months allowance provides sufficient time to collect and process all necessary data after stable plant conditions are established.

Steady state operation is required to perform a proper inventory balance since calculations during maneuvering are not useful. For RCS operational LEAKAGE determination by water inventory balance, steady state is defined as stable RCS pressure, temperature, power level, pressurizer and makeup tank levels, makeup and letdown, and RCP seal injection and return flows.

An early warning of pressure boundary LEAKAGE or unidentified LEAKAGE is provided by monitoring containment atmosphere radioactivity. It should be noted that LEAKAGE past seals and gaskets is not pressure boundary LEAKAGE. These leakage detection systems are specified in LCO 3.4.16, "RCS Leakage Detection Instrumentation."

The 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months Frequency is a reasonable interval to trend LEAKAGE and recognizes the importance of early leakage detection in the prevention of accidents.

SR 3.4.14.2 This SR provides the means necessary to determine SG OPERABILITY in an operational MODE. The requirement to demonstrate SG tube integrity in accordance with the Steam Prairie Island Units 1 and 2 B 3.4.14-7 1/2/02

RCS Specific Activity B 3.4.17 BASES APPIICABILITY For operation in MODE 3 with RCS average temperature < 500'F, (continued) and in MODES 4 and 5, the release of radioactivity in the event of a SGTR is unlikely since the saturation pressure of the reactor coolant is below the lift pressure settings of the main steam safety valves.

ACTIONS A.1 and A.2 With the DOSE EQUIVALENT 1-131 greater than the LCO limit, samples at intervals of 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months must be taken to demonstrate that the limits of Figure 3.4.17-1 are not exceeded. The Completion Time of 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months is required to obtain and analyze a sample. Sampling is done to continue to provide a trend.

The DOSE EQUIVALENT 1-131 must be restored to within limits within 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months . The Completion Time of 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months is required, if the limit violation resulted from normal iodine spiking.

Permitting POWER OPERATION to continue for limited time periods with the primary coolant's specific activity greater than 1.0 jiCi/gm DOSE EQUIVALENT 1-131, but within the allowable limit shown on Figure 3.4.17-1, accommodates the possible iodine spiking phenomenon which may occur following changes in THERMAL POWER. Operation with specific activity levels exceeding 1.0 ýtCi/gm DOSE EQUIVALENT 1-131 but within the limits shown on Figure 3.4.17-1 should be minimized since the activity levels allowed by the figure increase the dose at the site boundary following a postulated steam generator tube rupture.

A Note to the ACTIONS excludes the MODE change restriction of LCO 3.0.4. This exception allows entry into the applicable MODE(S) while relying on the ACTIONS even though the ACTIONS may eventually require plant shutdown. This exception is acceptable due to the significant conservatism incorporated into the specific activity limit, the low probability of an event which is Prairie Island Units 1 and 2 B 3.4.17-3 1/2/02

RCS Specific Activity B 3.4.17 BASES ACTIONS A.1 and A.2 (continued) limiting due to exceeding this limit, and the ability to restore transient specific activity excursions while the plant remains at, or proceeds to power operation.

B.1 With the gross specific activity in excess of the allowed limit, the reactor must be placed in a MODE in which the requirement does not apply. The change within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months to MODE 3 and RCS average temperature < 500'F lowers the saturation pressure of the reactor coolant below the setpoints of the main steam safety valves and prevents venting the SG to the environment in a SGTR event. The allowed Completion Time of 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months is reasonable, based on operating experience, to reach MODE 3 below 500'F from full power conditions in an orderly manner without challenging plant systems.

C.1 If a Required Action and the associated Completion Time of Condition A is not met or if the DOSE EQUIVALENT 1-131 is in the unacceptable region of Figure 3.4.17-1, the reactor must be brought to MODE 3 with RCS average temperature < 500'F within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . The Completion Time of 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months is reasonable, based on operating experience, to reach MODE 3 below 500'F from full power conditions in an orderly manner without challenging plant systems.

Prairie Island Units 1 and 2 B 3.4.17-4 1/2/02

RCS Specific Activity B 3.4.17 BASES (continued)

SURVEILLANCE SR 3.4.17.1 REQUREMENTS SR 3.4.17.1 requires performing a gamma isotopic analysis as a measure of the gross specific activity of the reactor coolant at least once every 7 days. While basically a quantitative measure of radionuclides with half lives longer than 15 minutes, excluding iodines, this measurement is the sum of the degassed gamma activities and the gaseous gamma activities in the sample taken.

This Surveillance provides an indication of any increase in gross specific activity.

Trending the results of this Surveillance allows proper remedial action to be taken before reaching the LCO limit under normal operating conditions. The Surveillance is applicable in MODES 1 and 2, and in MODE 3 with T,,, at least 500'F. The 7 day Frequency considers the unlikelihood of a gross fuel failure during the time.

SR 3.4.17.2 This Surveillance is performed in MODE 1 only to ensure iodine remains within limit during normal operation and following fast power changes when fuel failure is more apt to occur. The 14 day Frequency is adequate to trend changes in the iodine activity level, considering gross activity is monitored every 7 days. The Frequency, between 2 and 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months after a power change > 15% RTP within a 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months period, is established because the iodine levels peak during this time following fuel failure; samples at other times would provide inaccurate results.

Prairie Island Units I and 2 B 3.4.17-5 1/2/02

PACKAGE 3.4 REACTOR COOLANT SYSTEM (RCS)

PART C MARKUP OF PRAIRIE ISLAND CURRENT TECHNICAL SPECIFICATIONS List of Pages Part Current Technical Part Current Technical C Page Specifications Page C Page Specifications Page 1 TS.3-10-8 18 TS.3.1-9 2 TS.3.1 -1 19 TS.3.1 -10 3 TS.3.1-1 Overflow 20 Figure TS.3.1-3 4 TS.3.1-2 21 TS.3.3-3 5 TS.3.1-2 Overflow 22 Table TS.4.1-1C(Page 3 of 4) 6 TS.3.1-2 Overflow (Cont.) 23 Table TS.4.1-1C(Page 4 of 4) 7 TS.3.1-3 24 Table TS.4.1-2A(Page 1 of 2) 8 TS.3.1-3 Overflow 25 Table TS.4.1-2A(Page 2 of 2) 9 TS.3.1-4 26 Table TS.4.1-2B(Page 1 of 2) 10 TS.3.1-4 Overflow 27 Table TS.4.1-2B(Page 2 of 2) 11 TS.3.1-4 Overflow (( ont.) 28 TS.4.3-1 12 TS.3.1-5 29 TS.4.6-3 13 TS.3.1-5 Overflow 30 TS.4.18-1 14 TS.3.1-6 15 TS.3.1-7 16 TS.3.1-8 17 TS.3.1-8 Overflow PRAIRIE ISLAND NUCLEAR GENERATING PLANT UNITS 1 AND 2 Improved Technical Specifications Conversion Submittal

AF 4-00 *TS.30 8 REV 92 3/13/90 R 2 Addressed

.... [ s w..........

where 4.

LCO . 1 1 J-C rssrTmprtr adFo DNB Liis Parametera The following DNB related parameters limits shall be maintained R-9 during POWER OPERATION: -----

a Reactor Coolant System Tavg *!limit specified in the COLRP-Aii

b. Pressurizer Pressure > limit specified in the COLP 222

c. Reactor Coolant Flow >the value specified in the CORE OPERATING LIMITS REPORT 4.1 With any of the above parameters exceeding its limit, restore the parameter to within its limit within 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months 4.l or reduce THERMAL POWER to MOIDE 2 less than 5% of RATED ThERMAL the net hours. L3.4-05 within the next 4hus Compliance with a. and b. is demonstrated by verifying that each of SR3 .4 .7.1 the parameters is within its limits at least once each 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

L SR3 .4 SR3. 4 .1.I

.1.3 Compliance with c. is d,,*nntr ated by verify4-ng RCS that the parameter is total flow rate within 4ýt limit specified in the COLR after each refueling cycle.

R-9 134.1---

LC

Limit not applicable during either a THERMAL POWER ramp ner-ease in excess oT (5%) RATED THERMAL POWER per minute or a THERMAL POWER step inerease in excess of (10%) RATED THERMAL POWER PI Current TS 1 of 30 Markup for PI ITS Part C

TS . 3.l1-4 4RT 17 ;7 7/.144/0A0 3.-41 REACTOR COOLANT SYSTEM A3 .4-00 I i...........

Applies to the operating status of the reactor coolant system when ir -adiatod fu!l is in the containment.

Objecti-e e s*c.ifyn theso himiting bo me t4o -

ens--fer n tr sae operation.

eoolant system which must be m~et to assure safe reactor operation.

Specification A. Operational Components

1. Reactor Coolant Loops and Coolant Circulation

a. Reactor Critical LC03.4.4 (1) A reactor shall not be in MODE 2;nade or maintained eritieal unless both reactor coolant loops (with their associated steam generator and reactor coolant pump) are in operation, eexeept 4*-

with thermal power <P-7 (if power >P-7, open Reactor Trip Breaker) during low power PHYSICS TESTS SR3.4.18.2 New SP., Verify power <zP-7 and perform COT on P-7, power (low setpoint) and intermzediate range neutron I --

R-9L flux channels.

or 2) as specified in 3.l.A.l.a. (2) below.

(2) With less than the above required reactor coolant loops LC034.4 1 in operation, be in at least ,ODE 3HGT SIRUTDOW within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

NewA SR, Verify each RCS loop in operation

b. Reactor Coolant System MODE -5/4VeFaG 1erv RM:R:1c Abeo e 3 E0o-F77

....-_ -- ý: :A7 Reactor coolant system averago temperature shall not 1LC03.4.5 1 (1) be in MODE 3eXeeed Ounless both reactor coolant loops (with their associated steam generator and reactor coolant pump) are OPERABLE and both RCS loops shall be in operation when the Rod Control System is capable of rod withdrawal; or PI Current TS 2 of 30 Markup for PI ITS Part C

with--at least one reactor coolant loop in [M3 operation when the Rod Control System isE not capable of rod withdrawal.

(except as specified in 3.l.A.l.b(2) and 3.l.A.I.b. (3) below).

(2) A reactor coolant loop may be inoperable for 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months provided STARTUP OPERATI*N sT dis..nt.i.nud* until LC03.4.5 GDEPRmAILITY is restored. If OPERABILITY is not restored cond A within the time specified, be in MODE 4rcduc riactorh4 colant cstm s, average temperature bc.... 35Q0 within the next 12 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months . b.

(3) With both reactor coolant pumps inoperable or not in operat ion immediately: IL3"4-I18 I operat Cond D (a) DC energizc all Place the control rod drive system in a condition incapable of rod withdrawal me-h-anisms, (b) Suspend all operations involving a reduction of RCSý------ ,R-9 boron concentration, ,-

JLC 3o*..4.5 LCO Note (c) Establish and maintain the core outlet temperature at least 10 OF below saturation temperature, and LCO3.4.5 (c) Initiate action to restore one reactor coolant pump to Cond D OPERABLE status and operation.*

OP E---ILITY ----- - *1--,7-*-------° I* I 3igOr next 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months . While applicablc, this specification cupercodes 3.1.A.I.b(2).

If the RCP shutdown or inoperability was due to preplanned work LC03 . activities such as testing, switching, or maintenance, immediate NOTE restoration action is not required, but if at least one reactor coolant pump is not restored to operability and operation within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months , reauc reacuor cooiano systom averagc tcmpcrature t-e R-9 I 3 If one RCS loop is not in operation with Rod Control Cod C System capable of rod withdrawal, within one hour CoLC03. 4. 5 restore the loop to operation, or render the Rod Control System inoperable.

SR3. 4.5 .2 New SRs, Verify RCS loops operating, verify SG cap~able of~2 SR3o4o5.3 removing decay heat, verify breaker alignment for non SR3 4.. 5. 1 R-9

-j__

PI Current TS 3 of 30 Markup for P1 ITS Part C

T6. 3. 12 REV 135S F5/ A3.'08

-. 1.A.I.c. Reactor Coolant System Mode 4, loops fillet I.Arvee- e Temperature Beloý

_*a#*.9*....I* * *[73 102 3so F kanau Reacter Vesl-lnq I

(1)Whonever the reactor coolant system average temperature is below 0 .4. 6 350 0F, eme.pt during R.FU.EINC. at.eaiscoMTode 4, two loops consisting of any combination of methods for romoving d..ay he shall be OPERABLE with one in operation* (except as specified in 3.I.A. ,7 67,)07 below) .

(2) Accoptable mothods for r.m.ving dccay heot arc at least one reEW3I1.-24 coolant system loop pump and its (3) -a s sia steam gon.rat.r; er and residual heat removal loop ineluding a pump and its assee-ated heaat eHelianger JA3.4-I03 1 3.-1. A. I .e.- Reactor Coolant System Mode 5, loops filledAverage Tempe-rý c e4-ew 3SOFR-(and Reactor Coolant LolAe-thke-RatrVslFano ILC03.4.7 3S02F, except during REUELINC t last two methods for ...... n deeay heatMode 5 with loops filled, one RHR loop shall be OPERABLE with -neand in operation* (.x..pt. as specif id in 3 .. A.-.c. (2) hbow); . Accoptable methods for romoving d..ay hoot ar.and at least one r.a. coolant pump and its asso.iat.* steam generator capable of decay heat removal; or a residual heat removal loop including a pump and its assoeiatcd heat oxchang3c 3.

]M3.4-26 JLR3.4-241 I 26.42 5 IO (2) Wit4h only one required loop inoperable OPERABLE method of rI zoving LCO3.4.61 Cond AI deeay heat, immediately initiate p-empt- action to restore a second loop to two OPERABLE methods of r.m.ving. de.ay - lRl.4-2l (2) Wi.th'..e.-l. one required R.R loop inoperable and one RH? loop ICond A OPERABLE method of romoving d... hot, immediately initiate p.emp-.

action to restore a second loop to twe -wR OPERABLE or initiate action to restore required SG capable to e-f-removeing decay heat. ILR3.4-24J

.I-A201 ILC03.4.7 Cond B I (2) With enly one or more SGs not caipable OPERABLE methed of removing decay heat and one ERR loop OPERABLE, immediately initiate action to restore a second ERR loop to twe OPERABLE or initiate action peeemp or restore required SGs capable to remove methods of removing deca heat. .4-24 Onlyv required If the remaining RH loop 0 is operable method is an Cond A Note

-eep, be in MODE SCOLD £I. TDOWN within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months . I R-.9 PI Current TS 4 of 30 Markup for PI ITS Part C

REV 13i SI/9s ILC03.4 Cond B I (3)Wih no QPPEzýLE moetheds of reimoving docay-hoot Both loops IiF inoperable or required loop not in operation, suspend a144 operations that would cause introduction into RCS coolant with involving a roeducti*n in boron concentration less than required to meet SDM of LCO 3,1. I4 of the r...t. r e..lant system and i*mmediately initiate preompt action to restore one loop OPERABLE and in operation Cond C method of rcmoving decay heat.

I (3) With no .P.P..LE motheod ef removing decay heot required RHR loops OPERABLE or required RHR loop not in operation, suspend a-l operations that would cause introduction into RCS coolant... with involving a roduction in boron concentration less than required to meet SDM of LCO 3.1.1 of the re..t.r eoolant sy.to. and immediately initiate prempt action to restore one loop OPERABLE and in operation mIthod of romoving doay heat. I 22 i

i

,R-9 i R-9 (4) A reactor coolant pump may be started at RCS temperature less LC03.4. 6 than the Over Pressure Protection System Enable Temperature specified in the PTLR, only if either of the following NOTE 2 LC03 .4 .7 conditions is met:

NOTE 3 There is a steam or gas bubble in the pressurizer, or The (steam generator minus RCS) temperature difference 0

for the steam generator in that loop is less than 50 F.

Both RHR loops may be removed from operation for planned heatup to 1NODE 4 when at least one RCS loop is in NOTLCO3

.4. 7 operation.

NOTET 4TT SR3.4. 6. 1 New SRs, Verify one RHR or RCS loop in operation, verify SR3.4.6.22 SG capable of removing decay heat, -verify pump breaker SR3.4.76.3 alignment 27 New SRs, Verify one RHR loop in operation, verify SG SR3. 4. 7.SR. capable of removing decay heat, verify pump breaker SR3. 4. 7. 3 alignment R-9 PI Current TS 5 of 30 Markup for PI ITS Part C

TS-3-42L d--Reactor Coolant System, Mode 5, loops noct filledý.e-vel Bele;w

-- i=- +-L* P **rt'".**- "*

F'1...q.-sP, ILR3.4-24 pump aneat (1) Both residual heat removal loops, each consisting of a assceiated heat exchanger, shall be OPERABLE with one in operation* (except as specified in 3.l.A.l.d. (2)

ELC03.4.8 below).

With one required e- beth residual heat removal loop(s) inoperable, ILCO3 . 4 . 8 prempUimmediately action shall be taken to restore the inoperable Cond A residual heat removal loop=-(s to an OPERABLE status.

.4.B8 and, if no ERR loops operable, or required R-HR Loop ib 433 Cond3 not in operation, immediately suspend all operations involving reduction in RCS boron concentration and initiate action to restore one RHR Loop to OPERATýBLE status and in operation.

During reduced inventory conditions, a safety injection R-9 LCO3.4 .13 pump may be run as required to maintain adequate core Notes cooling and RCS inventory in the event of a loss of Residual Heat Removal System cooling.

per 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period 38 All pumps may be shutdown for up to one hour LC03.4. 6 provided the reactor is subcritical, no operations are permitted LCO3. 4.7 that would cause dilution of the reactor coolant boron NOTE 1 concentration and core outlet temperature is main tained at least lOoF below saturation temperature.

03.4.8 R-9 I 6 4 7 LCO. nerequired RI-IFloop may be inoperable for < 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months for LC03.4. surveillance provided that the other ERR loop is OPERABLE and in LCO3T NO T E 2 4. 8 uo pe r at i on . ] ] t

.4.8.1 New S~s, Verify required ERR loop in operation, verify breaker

.4.8.2 1 alignment for RHR pump not operating 3-9 PI Current TS 6 of 30 Markup for P1 ITS Part C

PG9.3 .i REV 91 10/27/89 3.1.A.2 Roactor Coolant.... Proesr*_- Control

a. Pressurizer I o8 (1) When A reactor is in MODE 1, " and 3, the pressurizer shall be L C 3 ..9 .

I OPERABLE withsahll not be mado 'or mont...n.d criti.al n.r shall reactor coolant system average temperature exceed 350 0 F dnlo-es pressurizer level

90 there is a steam bubble in tho pr.ssur.z. r and two heater groups A-and-B are operable I and capable of being powered. from an emergency power Low.

supply'/.

(except as specified in 3.l.A.2.a.2 and 3.l.A.2.a.3 below).

IA3.4-08I (2)During Modes 1, 2, and 3STARTUP OPERATION

".ICondB,C Croup for A or B one pressurizer heater group may be inoperable 72 hours provided -, ---- - -I, - --- I- I is restored.

If OPERABILITY is not restored within the time specified, be in at least MODE 3HOT SHUJTDCW within the next 6 A3.4TT8J hours and MODE 4r...du...... ro.act.r coolant system average temperature b.lw 3502-F within l2the following 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

(3) With the pressurizer otherwise inoperable, within one

_hea initiate the action necessary to place the unit in LCO3 . 4. 9 Cond A HOT SIIUTDOWN, and be in a*.*east- MODE 3490T 9UUTDO.

Within the necxt G he-urs, AND fully insert all rods AND render Control Rod F -.-3 system incapable of rod withdrawal in 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months , R---

and be in MODE 4rodueo roacter coolant averaegoF34-0 tornooraturo below 3SOF within ltho fellew4-ieg-6 hours.

ISR3..9.1 New SR, Verify water level is < 90W- in pressurizer.

R-9 PI Current TS 7 of 30 Markup for P1 ITS Part C

TS.3.i 3 GAvorflo-w

b. Pressurizer Safety Valves

.l1)eReactor Coolant System modes 1, 2, 3- and 4 with 08 LCl.cll dleg ave..aretemperaLures greater than OPPS enable temperature specified in the- PTLRzrequeal

. . .to 350 0 When A reactor is in MODE 1c 3t rt and 4 with all IA3.4-08 sal ea be made or maintained criticealno net sehealreactor coolant system cold leg ave-*eraqe JLC03.4.10 I temperaturesý >exeeed OPPS enable tempera Iture, specified in the PTLR, 3 u4-e-uns--two pressurizer safety valves shall beare OPERABLE, with lift settings of 2485 psig +"J -I%

IA3.-4-*4!

LC03.4.10 If these conditions cannot be satisfied, discontinue Cond A STA:RTUP OPERATION and within 15 minutes restore valve to OPERABLE statusinitiate the action neccessary to place the unit in HOT S-UTD*O , and IA3.4-08 be in at least MO0DE 3I!OT SHJTDOWN within the next Cond B 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and re*-eer-be in MODE 41 with any reactor coolant system cold leg F- erage-temperature below the OPPS enable temperature specified in the PTLR

-848-F--within 24the follewing 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . IL3-4-I09 R-9

l Jl3.4 l LCo3.4.10 NOTE I

2) IRoacter Coolant System Average- T-empe rat~r-e-below 350 0 -F At least one proesurizer safety valve shall be OPEPLALE, with a lift sctting of 2485 psig +/-1%, whenever the head is en the reactEr vessel, except during hydroctatie testo.

With no pressurizer saf ety valve OPERABLE, promptly place an OPEP--ALE residual heat removal loop into operation.

P1 Current TS 8 of 30 Markup for P1 ITS Part C

REV 135 5,/4/98 3.*.A.2.O Pressurizer Power Operated Relief Valves L0. . 1) 1i modes 1m , 2t and g ,Reactor Coolant System average 0

E temperature greater than or equal to 35.0 F (a) In MODES 1, 2, and 3Reactor coolant system average 3 8 tcmpralture shall not oxcccd--342 F-*u*leees two power operated relief valves (PORVs)

JLCQý 4.l 11 and their associated block valves are OPERABLE (except as specified in 3.1.A.2.c(l)(b) below).

(b) Tr)ii O ý n :ý Tn n =A 'nfEr =0=nV f1' VI\I'ITf 7% o nv cxc - I71 LC03.4.11 the following conditions of inopcrability may exist for each unit. If OPERABILITY is not restored within the time Cond D, G specified or the required action cannot be completed, be in at least -VMODE 310T SHUTDO. within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and MODE ducc reactor coolant system average temperature O8 holow 3SG0 F-*-

within 12the following 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

1. With one or both PORVs inoperable because of excessive A C034. 11 seat leakage, within one hour either restore the PORV(cs)

ond A to OPERPABLE status or close the associated block valve(s) with power maintained to the block valve(s).

2. With one PORV inoperable due to causes other than 3 LC03.4.*11 excessive seat leakage, within one hour either restor-A "4-49 the PORV to OPEP-hBLE status or close and remove power Cond B from the associated block valve. Restore the PORV to OPERABLE status within the following 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months .

3. With both PORVs inoperable due to causes other than excessive seat leakage, within one hour either restore o A3.4-49 ILC03 .4. 11 at least one PORV to OPERABLE status or close and remove Cond E power from the associated block valves and be in at least MODE 3. T SHUTDO .. .within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and MODE 4A3.4-08 r.duc react.r

. coolant system average te..pratur*.

below 350F*

within 12tho following 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . A3.4-39 4 With one blo. k valve inoporab-.., within one hour .either restore the block valve to.PEPA.LE .tatu. or place its ILC3.4.11 Cond C associated PORV in manual control. Restore the block valve to OPERABLE status within the following 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months .

ILC03 .4. 11 Required Actions 0.1. an&d 02 du not a.pply when-i block valve is Cond C inoperable solely as a restult of com~plying with R~equired Actions Note B,2 adE.2.,

JA3.4 -11(

R-9 PI Current TS 9 of 30 Markup for PI ITS Part C

REV 135 5/4,198 LC03.4.11 5. With both block valves inoperable, within two hours*le Cond F hour either restore the block valves to OPERAELE status or place the

-Restore at least one block valve to OPERABLE status within the next hour. A3.4-49 LCO3.4. 11

~y~rUcIjviir I Cond F co'mpl.ying with Pequired Note R-9 P! Current TS 10 of 30 Markup for P1 ITS Part C

(2) Reactor Coolant System average temperature greater than or equal to the temperature specified in the PTLR for

.4.

4LCO3 12 disabling both safety injection pumps and below the Over Pressure Protection System Enable Temperature specified in the PTLR With Reactor Coolant System temperature greater than or equal to the temperature specified in the PTLR for disabling both safety injection pumps and less than the JLC03.4.12 Over Pressure Protection System Enable Temperature specified in the PTLR; ,. maXimum f 6o ' p-)ump capable of injec~thin-to7L ~the- R--CS anidthe ECCS

iso'at, accumulators** both pressurizer power operated relief valves (PORVs) shall be OPERABLE (except as specified in 3.1.A.2.c. (2) . (a) and 3.1.A.2.c.(2).(b) below) with the Over Pressure Protection System enabled, the associatod M3 .4-53 I block valve opcn, and th . .iatd hkup air supply chargod.

If both SI pum,-ps are capable of injecting into the RCS, JLC03.

Cond A 4.12 prompt action shall be taken to make one incapable of injecting into the RCS.

ILC03 .4 .12 Cond B, C R-9 ILC03. 4.12 NOTE 2 M3 .4 -52 M3.4-54 SR3 . 4 . 12 . 1 SR3. 4. 12.2 SR3.4.12.3

,R-9 PI Current TS 11 of 30 Markup for PI ITS Part C

]

TRs. 3.11 2s REV -141l -12,417/98 3.1.A.2.C. (2) .

(a) One PORV may be inoperable for 7 days.

ILC03.

Cond D 4.12 ILCO3.4.12 If these conditions cannot be met, be in. MODE 5 withiin 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months and depressurize and vent the reactor coolant Cond E system through at least a 3 square inch vent within -h-e net 12-& hours.

113.4-5E]

ILCO3.4. 12 (b) With both PORVs inoperable, be in MODE 5 within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months Cond E and complete depressurization and venting of the RCS through at least a 3 square inch vent within 12a hours.

(3) Rea ctor Coolant System average temperature below the temperature JLC03 .4-.13 spe cified in the PTLR for disabling both safety injection pumps With Reactor Coolant System temperature less than the temperature specified in the PTLR for disabling both safety ILC03.4.13]l injection pumps, when the head is on the reactor vessel and the reactor coolant system is not vented through a 3 square inch or larger vent; withboth SI pumps inap of injecting into the RCS and thle FCCS accunralators** .

isolatedboth Pressurizer power operated relief valves M3452 (PORVs) shall be OPERABLE (except as specified in 3.1.A.2.c.(3). (a) and 3.1.A.2.c. (3). (b) below) with the Over Pressure Protection System enabled, the asseciated block e ]y the associated backup air supply charged.

ILC03.4.13 Cond D (a) One PORV may be inoperable for 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

ILCO3 .4.13 If these conditions cannot be met, depressurize and vent the Cond E reactor coolant system through at least a 3 square inch vent within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months .

ILC03 .4. 13I (b) With both PORVs inoperable, complete depressurization and Cond E venting of the RCS through at least a 3 square inch vent within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months .

ILCO3. 4.13I if Cond A th LC03. 4.13 if S52 Cond B 4sc inc ten der prE d ~in thE SR3.4. 13. 1 Ne,, very SR3.4.13.2 212 yonce SR3.4.13.3 wit R~CS SR3.4.13.4 ve-r

-52 ,R M3. 44 *-54 *1 - - - -

M3.

PI Current TS 12 of 30 Markup for PI ITS Part C

3 .. A.3 Raer Geen ven Syte

a. A roactor shall not be made or maintained critical nor shall reactor coolant S.. system

.. . .average

....... temperature excoed

.. 200.

... F R .4 5 6 unless Reactor Coolant Vent System paths froem both tho reactor vessel head and pressurizer steam space are OPEPABLE and closed (except as specified in 3.l:.A.3.b and 3.lI.A.3.c belo'w).

b. During STARTUP OPERAT-ION and POWER OPERATIONl, any ono of the following cenditions of inoperability may exist fer each unit provided START-UP OPERATION is discontinued until ODE-'A~3ILT-Y is restored. If any one of these conditions is not restored to an OPEPQ.LE status within 30 days, be in at least HOT SHUT-DOWN within the nexEt 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in COLD) SIWUTDOWN within the following 30 hour3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months s:

(1) Both of the parallel vent valves in the reactor vessel head vent path inoperable, or (2) Beth of the parallel vent valves in the pressurizr en path inoperable, or (3) The vent valve to the pressurizer relief tank discharg-e line inoperable, or (4) The vent valve to the containment atmospheric discharge line inoperable.

c. With no Reactor Colant Vent System path OPEBLE, r.estor. e at least one vent path to ODER-zýLB status within 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months or be in at least HOT- SHUTDOEWN within the nextz 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and COLD SHUTDOE)WN within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

PI Current TS 13 of 30 Markup for PI ITS Part C

PXV 1 ; q,/4./9 ILCO3.42 New Specification 3.4.2, RCS Minimum Temperature for SR3. 4.2 .I I 57 Criticality 3.1.B. Pressure/Temperature Limits

1. Reactor Coolant System

a. The Unit 1 and Unit 2 Reactor Coolant Systems (except the LCO4.3 pressurizer) temperature, pressure heatup rates, and cooldown rates shall be maintained within the limits specified in the Pressure and Temperature Limits report (PTLR) .

b. If these conditions cannot be satisfied in modes*3.4 1, 2, ,

3, and 4, restore the temperature and/or pressure to within the limits within 30 m inut e s; p erf erm an v~a~o odtrie_wni~on IIhe-effects of .the ... ut of limit n. t3-4-r621 Cond A i-ntnjrity of the Reaeter Coo lant -Gyn-torn; within 72 houry determine that the Reactor Coolant System remains acceptable,-.

for continued operation or be in at least MODE 34*4-T R-9 SQUTDOWN within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and MODE Sroduco th A3.4-08 reactor coolant system average 0emperature and pressure to less than 200 0 F and 500 psig, respectively, within 3.. A4-39j following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

LCO3.4.-3 Cond C If these conditions cannot be satisfied in other than [777 7 7 Mode 1, 2, 3, or 4, promptly initiate action to restore parameters to within limits and determine if the RCS is acceptable for continued operation prior to entering MODE 4.

SR3.4.3.j New SR, Verify pressure, temperature, heatup, cooldown m 64 rates within PTLR limits 2.w Pressurizer

a. The pressurizer temperature shall be limited to:

1. A maximum heatup of 190 0 F in any 1 heur peried.

2. A maximum eo.ld.wn of 200OF in any ! h*ur period.

b. The pressurizer spray shall not be used if the temperature difference between the pressurizer and the spray fluid is 0

greater than 3220 P.

e. it tn050 eenait+/- ens cannot be satisfied, r-store t he eemperanure se wina~n tne +/-+/-mies wienin 30 minutes-;

perform an engineering evaluation to determine the effects of the out of limit eonditien en the structural integrity of the pressurizer, determine that the pressurizer remains acceptable for . ontinued operation or be in at least HOT pressurizer pressu re to less than 500 psig within the following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

P! Current TS 14 of 30 Markup for P1 ITS Part C

Ts 3 A1 "7 REV 91 10/27/89

a. Toe seconaary side of the steam goncrator MUSt nOtE0 nrvssurised at ee200 psi 3 if the temperalturer ofth stm goncrator is b A- - -fl0r

b. If these conditions cannot ho satisfied, rodueo the steam generator pressure to loss than or ogua! to 200 psig within 30 minutes; perform an cgincring evaluation to determine theceffocts of the overpressurization on t structural integrity of the stcam generator; determine that thc steam g.n.rator remains acceptable for continu*d operation prior to inereasing its temperature above 200 0 F.

P1 Current TS 15 of 30 Markup for PI ITS Part C

Tro ". .1 REV 91 10/27/89 3.1.C. REACTOR COOLANT SYSTEM LEAKAGE 1.Leakage Detection A. 71 LCO 3.0.4 does not apply.

In Modes 1, 2, 3 and 4The reactor coolant system average A:

temperaturc shall not oxcood 2002F unless at least two means of reactor coolant system leakage detection shall be OPERABLE, one of which must depend on the detection of radionuclides in the containment. The other means is the containment sump A pump run LCO3 .4.16 time instrumentation. one means of leakage detection may be Cond A inoperable for 30 days prov,,ided daily RCS water balance Cond B inventories are performed and,. if radionuclide detection L',

Cond C inoperable, daily compensatory sampling shall be performed. if these conditions cannot be met, be in MODE 3 in 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and MODE 5 in 36 hours4.166667e-4 days 0.01 hours 5.952381e-5 weeks 1.3698e-5 months .

ILC03.4. 16 If these conditions cannot be satisfied (all required monitorsA3.4-71 Send D inoperable), immediately enter LCO 3.0.3 within one hour initiate the action necessary to place the affected unit in HOT SHUTDOWN, and be in at least HOT sHuT...O.w within the neflout S orsand in COLD SH-UTDOWN withi:n the following 30 hou~rs.

SR3. 4. 16.1 New- SRs, Channel Check, COT and Calibration of containment 72 SR3.4. 16.3 radionuclide instrumentation and Calibration of sump pump SR3.4. 16.4 run time instrumentation.

2. Leakage Limitations The following leakage limitations are applicable whenever in 08 ILC03 .4 .14 Modes 1, 2, 3 and 4the reactor coolant system average tompcraturo- Hc eoods 04F.

LCO3.4.14 If the LEAKAGGlea]age rate, from other than controe!!d4-34 Cond A Ia. eakage sources, suh as the reactoer eelan-t pump

-een*qe leakage seals, exceeds 1 gpm and the source of the leakage is not identified within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months of leak detection, CnLC03 .4. 14 I be in at least MODE 34--T-T SUJTDOWN within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . ITA If the source of leakage is not identified within 54an 1I additional 18 hours2.083333e-4 days 0.005 hours 2.97619e-5 weeks 6.849e-6 months , be in MODE 5C-COLD SHUTDOWN within 84#---e A34-39 following 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months .

b. If the sources of leakage are identified and the results of I the evaluations are that .. ntinued operation is safe, operation of the reactor with a total leakage, other than leakage from controlled sources, not exceeding 10 gpm shall be permitted (except as specified in 3.1.C.2.c below).

If it is determined that leakage exists through a fault LCO3.4.14 which has developed in a Reactor Coolant System component body, pipe wall, vessel wall, or pipe weld, and that the IM3 .4-42 ]

fault cannot be isolated, within one hour initiate action to place the unit in HOT SHJTDOWNR and be in at least i+ODE3 IA3.4-08 ]

HGT- SHUTDO-WN within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and be in MODE 5......

S4HUTDOWN within 36the next 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months and take corrective action prior to resumption of unit operation.

P1 Current TS 16 of 30 Markup for PI ITS Part C

Overf lew

d. If the total other than Icakago fromA

!EAKAGEleakage i controlled sources, exceeds 10 gpm, within one hour LC03.4.14on initiate action to place thh unit in HOT SHUTDOWN and b Cond C in at least MODE 3 !!(T GITDOWN within t he next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . If the IA3.4-08]

condition is not corrected within l14an additional 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months , be in MODE 5OLD SWHUT ?DOWN within .- the following A 39 8hours and remain in COLD SHUTDOWN until the e ondition ic A _

eorreoted.

P1 Current TS 17 of 30 Markup for PI ITS Part C

REV 133 11!/1Q97

e. If the total reactor coolant system to secondary coolant system leakage through any one steam generator of a unit 42 exceeds 150 gallons per day (GPD), within one hour LCO3.4.14 Cond D I aieti*n to place the unit in HOT SHUTDOWN and be in at least MODE 3 HO!T S1FTDOW be inMODE 5 COLD SHUTDOWN within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and . 8 within 36t-he fellowing 30 hours3.472222e-4 days 0.00833 hours 4.960317e-5 weeks 1.1415e-5 months and perform an inservice steam generator tube inspection ISR34.14.21 in accordance with Steam Generator Program Teeie-a-[

Specificatioen 4.12.

3. Pressure Isolation Valve Leakage LCO3.4.15 ] Leakage through the pressure isolation valves shall not exceed i the maximum allowable leakage specified in Specification 4.3 when in MODES 1, 2, 3, and 4 reactor coolant cyotcm average ILCO3.4.15 If the maximum allowable leakage is exceeded, isolate the high 79 C A pressure portion of -the system in 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months and restore the Ply to jj within limits in 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months . Valves used to isolate the Ply flow path must meet SR 3.4.15.1 leakage limits. within one hoauri initiate the action necessary to place the unit in HOT SHUTDOWN, nd If these requirements can not be met, be in at least MODE 3'

[LCO3.4.15 ConB IHOT SHUTDOWN within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months and in MODE 5 COLD SHUTDOWN I within 36tthe follewi- g-3-3 hours. 39 PI Current TS 18 of 30 Markup for PI ITS Part C

T-S. 3.1 4,/

REUJ 147 12,1:7,98

-3.1 DCS Spe 1 -ifi MD, NAXIHUNR C0OL- 4-T-ACTIVITY

1. The specific activity of the primary coolant (except as specified LC03.4.17 I in 3.1.B.2 and 3 heelw) shall be limited-t-e:

SR3.4-17-21 a. Less than or equal to 1.0 microcuries per gram DOSE EQUIVALENT 1-131, and

b. Less than or equal to 100/E microcuries per gram of gross SR3-4.17.- radioactivity.

R-9

2. If a reactor is in Mode*s

and 2 or critical =)4=. the or Modes @3ýJqwith reactor coolant system average temperature i-s--greater than or equal to 500'F:

a. With the specific activity of the primary coolant greater than 1.0 microcurie per gram DOSE EQUIVALENT ILC03.4. 17 I 1*31, verify olnce per 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months to b1e -<ithin t Cond A 1 a ccaeptable region of Figuire TS.3.1-3,, for more than 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months during one continuous time interval or exceeding the limit line shown on Figure TS.3.1-3, the reactor shall be in-MODE 3 with shutdown and reactorA 08 Cond C coolant system average temperature cooled to below 500'F within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

b. With the gross specific activity of the primary coolant iA 8 LC03.4.17 Sgreater than 100/E microcurie per gram, the reactor Cond B I shall be in NODE 3 with shutdoewn and reactor coolant system average temperature cooled to below 500'F within 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months .

3. If a reactor is at or above rGLD ue', jrI' WIspu-:t-per

. *-* I activity of the primary coolant greater than 1.0 miecreuric gram DOSE EQýGTIVALENT *' 131 or greater than I n/E microcuries per

ý-h s a-inp; nndq analvsis reqesirements of item 47a of Table 4.1 2B until the spec 4ific activity of th e primary

, Lii L__ J.

~olantis rest-'r-'d t" wi:t ;q i- il ++-S- C H .

Next pages are Figure TS.3.1 3 and TS.3.1 12.

PI Current TS 19 of 30 Markup for P1 ITS Part C

4 (D (D r-4 (no0 H

(DC DOSE EQUIVALENT 1-131 PRIMARY COOLANT SPECIFIC ACTIVITY LIMIT (/.CI/gm)

) 0 '4

>0

-im rj J mm H hi I-jC -u n m 0

z A- t-I I Im N)

0 0

A) .

H o7 -4 m ] H.. . .. . . ...

H p) m "74 (t

H 0 m

0 ;u H

cl)

'-4 cl0

-0 0I)

3. A maximum of one safety injection pump shall be capable of injecting into the RCS whenever in MODE 4 with RCS A3 .4-83 JLCO3.4.12 temperature is less than the Over Pressure Protection System Enable Temperature specified in the PTLR except that both SI pumps may be run for up to one hour while conducting the integrated SI test** when either of the ILC03. 4. 13 LC03.4. 12 following conditions is met:

NOTE I (a) There is a steam or gas bubble in the pressurizer and an isolation valve between the SI pump and the RCS is shut, or (b) The reaetor vessel head is remoevd IA.217

4. No safety injection pumps*** shall be capable of injecting R-9 into the RCS whenever in 4MODE 4 with RCS temperature is less than the temperature specified in the PTLR for disabling iA3.4-83 both safety injection pumps, MODE 5 when the SC primary system manways and pressurizer manway are closed and secured in position, MODE 6 when the reactor vessel head is on and the EG primar-y systemu manways and pressurizer manway are closed and secured in position. (except one or both pumpsL may be run as specified in 3.3.A.3 and 3.1.A.l.d. (2)). IR-9 LC03.4.[12 Both reactor coolant system accumulators shall be isolated*

LC03.4.13 whenever RCS temperature is less than the Over Pressure Protection System Enable Temperature specified in the PTLR.

LC03.4.12 NOTE 2 LC03.4.13 *This specification does not apply whenever the reactor coolant system NOTE 3 accumulators are depressurized or the reactor vessel head is removed.

LC03.4. 12 LCO3. 4. 13 **Other SI system tests and operations may also be conducted under these NOTE 1 conditions.

- - This specification does not apply whenever the reactor vessel head is 1LC03.4. 13 removed.

PI Current TS 21 of 30 Markup for PI ITS Part C

Addressed Elsewhere I R..................

i R-2 1SR3.4.12.I SR3 .4, 12. 5 SR3 .4.13.5 84 SR3 .4e 13M 6i

25. Overpressure mitigation ao N.A. R N.A. 4(38) 5 Adresed Elsehere I t

PI Current TS 22 of 30 Markup for PI ITS Part C

TABLE TS.4.1-1C (Page 4 of 4)

TABLE NOTATIONS FREQUENCY NOTATION NOTATION FREQUENCY S Shift D Daily W Weekly M Monthly Q Quarterly S/U Prior to each startup Y Yearly R Each refueling shutdoi N.A. Not applicable ROver Pressure Protection System Enable Temperature specified in the PTLR.

- oPTAINNtrINTtlRrJ ; IIeee t

}f Fr (38) Within 1i2 hours ot When the reactor coolant system average temperature is less than the PI Current TS 23 of 30 Markup for PI ITS Part C

E-34-00 I

.......... .. A d d r e s s e d Table TS.4.1 2A (Page ! ef 2)

IElsewherel

3. Pressurizer Safety Verify OPERABLE in accordance Per ASME Code, Section XI Inservice Testing with the Inservice Testing Program

0. V*valves mSR3.4. Program (+ 3%). Following testing, lift settings shall Addressed be within +1% Elsewhere

-i 3

6. Pressurizer PORV Functional Quarterly, unless the block valve has Block Valves been closed per Specification 3.1.A.2.c. (1). (b) .2 ISR3.4. 11711 or 3.1.A.2.c. ( ) .(b) .3.

Functional Every ... onths SR3 . .* Pressurizer PORVs ~ ~ ~~~F

~

24~ 3 - 4_____________8_______

No", tý ~On)- required to be performed in Modes 1 and 2..

R-9 IEA3.4-I14]A3"4-I13 I and 3.4.11.2 PI Current TS 24 of 30 Markup for PI ITS Part C

Table T . 2A ( o 2)

MINIMUM FREQUENCIES FOR EQUIPMENT TESTS FSAR Sect.

Reference Test Frequency Equipment

8. Deleted 5R3ES 41 t Evaluate Daily 1121

9. Primary System Leakage JA.

I R9 IAddressedl Elsewhere C 3 25 of 30 Markup for PI ITS Part C PI Current rTS

TAb. of Te-1 2)

RhEY 147 12,4/98 TABLE TS.4.1-2B R-2 MINIMUM FREQUENCIES FOR SAMPLING TESTS TEST FREQUENCY JL3.4-88 TEST I -s,/

wee k ]A 3 .4 I 2 : ]

ISR3.4.17-I 1. RCS Gross Activity Determination ISR3"4"17"2I 2. 1/14 days (when *t power)

RCS Isotopic Analysis for DOSE and Note EQUIVALENT 1-131 Concentration on]-y require ~d to be performed in Mode 1 ISR3.4.17.3] 3. !/6-menthrs 184 days(l) -(when -at RCS Radiocheministry E determination peweor) 2EFPD. anjd 2

fr

--he ~reactor was 4 20 la R-9 a) Once per 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months , whenever JLO34.l 4. RCS Isotopic Analysis for Iodine the specific activity ex Including 1-131, 1-133, and 1-135 ceeds 1.0 uCi/gram DOSE EQUIVALENT 1-131 or 100/E uCi/gram "L.2L1 (at or above 500 'F cold shutdown) , and b) One sample between 2 and 6 SR3 .4 .17 .2 _ hours following THERMAL POWER change exceeding 15 percent of the RATED THERMAL POWER within a one hour period (above hot shutdown)

S. R*C Radiochomistry (2) hl 3 4-94

-Weekly *

6. RCC Tritium Activit-y

7. DeIeted Reg Doron Gene ent ratio~~--- 2/We, k (4) 8.

essed Elehere

Required at oll tmc PI Current TS 26 of 30 Markup for PI ITS Part C

Table TG.4.1 2B (Page 2 of 2)

REV 129 6/12/97 Adressed TABLE ¶1784.1 2B Notes:

a minimum SR3.4.17.3 1. Lample to be taken Not requiredtc be performed untl 31 davs after Note and 20 days of DOWER ODERTIONhode I have elapsed since reactor was of 2 EFPD last subcritical for 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months or longer. IM3"4-I17 I R-9

2. To determine activity ef corresion products having a half life greater than 30 minutos. I 94 net emeed5 day-s JLR3.4-96

4. Thsi maximaum interval between analyses shall Addressed P! Current TS 27 of 30 Markup for P1 ITS Part C

.4.3 !:

IA3. 4- 00 1

............ ........RET j116 3/110/195 R-2 4-,-%PRIMARY COOLANT SYSTEM PRESSURE ISOLATION VALVES .............................

Applicability Appicstoho.....~nc porf...mod on tho primary .oolant systcom pressure Applies to the su -_ýrilla. n. . .. . .

isolation valves to verify oporability. -03 Objective T-e increase the reliability of qprimary coolant sytom prescure isolation valves thereby roducing the potontia! of an intorcystom loss of coolant accident.

Specification Periodic leakage testing of each of the following to valves shall be every 24mon.ths, prior resuming power individually accomplished operation after each time the plant is placed in the cold shutdown 3.4-08 in MODE 5 aed condition for refueling, each time the plant is placed shutdom condition for 7 days or more if testing has not been accomplished in the preceding 9 months, and prior to returning the valve to service after maintenance, repair, or replacement work is performed:

Valvo Number M;ax(imum Allowable Unit No 1 Unit No 2 Lew Pressure S! te S! 9 6 2S! 9 6 S gpm 97 Upper PlondmSfn4 219 p CI 5 2S! 9 5 5 gpm RR -t Loopr B Accumulator Inj Line SIl6 2 2S1 4 2

5 gpm To satisfy ALARA requirements, leakage may be measured indir"etly (as from the performance ef prossuro indi.at.r.) if a ..

mplish.d in oc..rdanc .with approved procedures and supported by computations showing that the m.thd* is capable of domoenstrating valve complianec with the leakage criteri-a.

NOTES:

1. Leakage rates less than or equal to O**5 e-e-gpm per nominal inch of valve size- are acceptable-at an RCS pressure of 22*1* psig -nd*2255 p"sig.

,II87

2. Loeakage rates greater than one, but loss th an or equal to five gpm arc cons ido --A aeeental--h if the latest measure d race hoc not to eedd th previous mc .sur.d rate by an amount which r" oducoes the margin to f ive gpm by 4-4-r-4-cnccccotablo.

-- I- " - ý 1, 1PRk;ic4p ral-e i ýWilýi-de-red-unaeeentab 3--.- Leakage rates greater than five gpm are considered unacceptable.

S. ILR3. 4-971

*- * - Aos orossurO sIal net be less05 :-aizi p PI Current TS 28 of 30 Markup for PI ITS Part C

IA3.4-00] REV 91 10,27/189 R2 Addressed El sewhe re 4.6.

C. Pressurizer Heater Emergency Power Supply demonstrated OPERABLE at ISR3.4.9.21 The emergency pressurizer heater supply shall be JL3.4-86 least once every 2414-& months "B from its normal bus to its sa suarbus by transfcrring Backup Heater Craup and encrgizing the heaters. JLR3-4-98 29 of 30 Markup for PI ITS Part C P1 Current TS

T-S.4.8 1 REV 91 10/27/89 4.18 REACTOR COOLANT VENT SYSTEM PAT..S R.4-56 A-pp& i:eab-i-it on thc Reaetor Coolant Vont System paths to Applies to the surveillanco performod verify OPERABPILITY.

ObýJeetive To assure that the capability exists to vent non*cndensi.ble gases from the Reactor Coolant System that- culd inhibit natural circulation" core cooling.

Spcci.i1catieo A. Vent Path Oper-abil shall to demonstrated OPEPLE prior Each Reactor Coolant Vont System path to commencing STRT P OPERATION after each refueli.ng by:

manual isolation valves in each vent path arc blocked

1. Verifying all and tagged in the open position.

at

2. Cycling each solenoid operated valve in the vent paths through one complete cycle of full travel from the control room.

least Flow shall be verified through each Reactor Coolant Vent System path following each refueling-.

PI Current TS 30 of 30 Markup for PI ITS Part C

Part D Package 3.4 NSHD Change Number Discussion of Change Category 3.4 A 08 CTS 3.1.A.1.a(2), 3.1.A.1.b(1), 3.1.A.1.b (2), 3.1.A.1.c, 3.1 .A.I .d, 3.1 .A.2.a(1), 3.1 .A.2.a(2), 3.1 .A.2.a(3), 3.1 .A.2.b(1),

3.1.A.2.c(1), 3.1.A.2.c(1)(a), 3.1.A.2.c(1)(b), 3.1.A.2.c(1)(b)3, 3.1.B.1.b, 3.1.C.1,3.1.C.2,3.1.C.3, 3.1.D.2, 3.1 .D.2.a, 3.1.D.2.b, 3.10.J and 4.3. The CTS contain prose descriptions of the modes of applicability and conditions in which the plant must be placed or remain when equipment is inoperable.

These descriptions have been replaced with the equivalent MODES of applicability for the ITS. Since the modes of applicability and plant conditions in which the plant is placed or remains have not changed this is an administrative change.

9 Not used.

10 Not used.

M 11 A new SR, 3.4.4.1, is included in conformance with ISTS which requires verification of each RCS loop in operation while at power.

This is more restrictive since PI CTS do not require this surveillance. This more restrictive change is included to make the PI ITS complete.

Prairie Island Units 1 and 2 5 1/2/02

Part D Package 3.4 Par D NSHD Change Category Number Discussion of Change 3.4-M 21 Three new SRs, 3.4.5.1, 3.4.5.2 and 3.4.5.3, have been added in conformance with the guidance of NUREG-1431. These SRs will require verification that the required RCS loop is in operation, verify the SG is capable of decay heat removal, and verify power is available to the RCP that is not operating. The SR requirement for verifying the SG is capable of decay heat removal is consistent with WOG-155, Information Notice 95-35, TSTF 114, and the intent of the CTS. This is more restrictive since PI CTS does not specifically require these surveillances.

These more restrictive changes are included to make the P1 ITS complete and do not introduce any unsafe plant conditions.

A 22 CTS 3.1 .A.l.b(3). CTS requires the plant to shut down to MODE 4 if the Action Statement requirements are not met. These requirements are not included in the ITS, since once the Action Statement requirements are not met, the plant will enter LCO 3.0.3 which essentially requires the same actions as CTS.

Prairie Island Units 1 and 2 9 1/2/02

Part D Package 3.4 P rt D NSHD Change Category Number Discussion of Change 3.4-23 Not used.

LR 24 CTS 3.1 .A.1 .c(1), 3.1 .A.l .c(2), 3.1 .A.1 .d(1) and 3.1 .A.2.a(1).

The CTS description of equipment required for system operability has been relocated to the Bases which is consistent with the format and guidance of NUREG-1431. As an example, the CTS refers to a reactor coolant pump (RCP) and associated steam generator (SG) as needing to be OPERABLE during specific plant conditions. The ITS Bases defines that a RCS loop consists of the RCP and associated SG. Therefore, the CTS has been revised to state RCS loop instead of listing specific components that make up the system. The individual components making up the system are considered to be details placed in the Bases Section. This change is acceptable since the system is required to be operable in accordance with the definition of OPERABILITY and details of the specific equipment are unnecessary in the specification. Since the Bases are under licensee control, this is a less restrictive change.

Prairie Island Units I and 2 10 1/2/02

Part 0 Package 3.4 P rt D NSHD Change Category Number Discussion of Change 3.4-25 Not used.

M 26 CTS 3.1.A.l.c. CTS has been revised to require that the SG is capable of decay heat removal. This change is a more restrictive change since it is a new requirement by providing specific operability requirements on the SG that were not in the CTS. This change is acceptable since it specifically requires the SG to maintain sufficient secondary water inventory to provide a heat sink for decay heat removal in the event the RHR loop is inoperable and not in operation. This change is consistent with NUREG-1431.

27 Not used.

Prairie Island Units I and 2 11 1/2/02

Part D Package 3.4 NSHID Change Number Discussion of Change Category 3.4-A 28 CTS 3.1 .A.l.c. CTS has a single specification which requires two methods of cooling the RCS to be operable with one in operation when in MODE 4 and MODE 5, loops filled. This can be any combination of RCS loops or RHR trains. During plant heatup from MODE 5 to MODE 4, one RCS loop may be in operation with one or both RHR loops operable but not operating. NUREG-1431 splits MODE 4 and MODE 5, loops filled into two specifications, LCO 3.4.6 and LCO 3.4.7. Because these MODES or other specified conditions of applicability have been split into two Specifications, LCO Note 4 in 3.4.7 is required to allow one RCS loop in operation with one or both RHR loops operable but not operating. This configuration is required to allow a smooth transition to MODE 4. Since the configuration allowed by Note 4 currently is allowed by CTS, explicit statement of this Note is an administrative change. This change is consistent with the ISTS.

29 Not used.

30 Not used.

Prairie Island Units 1 and 2 12 12/11/00

Part D Package 3.4 P rt D NSHD Change Category Number Discussion of Change 3.4 M 31 Three new SRs, 3.4.6.1, 3.4.6.2, 3.4.6.3, have been added in conformance with NUREG-1431. These SRs will require verification that the required RHR or RCS loop is in operation, verify the SG is capable of decay heat removal, and verify power is available to the required RHR or RCP that is not operating. The SR requirements for verifying that the SG is capable of decay heat removal is consistent with WOG-1 55, Information Notice 95-35, TSTF-1 14, and the intent of the CTS.

This is more restrictive since PI CTS does not specifically require these surveillances. These more restrictive changes are included to make the P1 ITS complete and do not introduce any unsafe plant operations.

M 32 Three new SRs, 3.4.7.1, 3.4.7.2, 3.4.7.3, have been added in conformance with NUREG-1431. These SRs will require verification that one RHR loop is in operation, verify the SG is capable of decay heat removal, and verify power is available to the RHR pump that is not operating. The SR requirements for verifying that the SG is capable of decay heat removal is consistent with WOG-1 55, Information Notice 95-35, TSTF 114, and the intent of the CTS. This is more restrictive since PI CTS does not specifically require these surveillances.

These more restrictive changes are included to make the PI ITS complete and they do not introduce any unsafe plant operations.

Prairie Island Units 1 and 2 13 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-M 33 CTS 3.1.A.l.d. An additional required action has been included in the action statement when both RHR loops are inoperable to suspend operations involving reduction in RCS boron concentration. This change is included to make the ITS complete and may improve plant safety. Since this change places additional restrictions on plant operations it is more restrictive. This change is also consistent with the guidance of NUREG-1431.

M 34 CTS 3.1.A.l.d. CTS allows the pumps to be shutdown for 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months . To be consistent with NUREG-1431, this is further restricted to 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months in an 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period. In addition, the CTS Note is modified by addition of a restriction that, in MODE 5 with the loops not filled, no RCS draining operations are permitted when all pumps are shutdown. Restrictions on boron concentration changes have also been included. These changes were made for consistency with the guidance of NUREG-1431 as modified by approved TSTF-286, Revision 2.

These changes are more restrictive since they impose requirements on plant operations that are not in the CTS.

These changes are acceptable since they may improve plant safety.

35 Not used.

Prairie Island Units 1 and 2 14 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-L 36 CTS 3.1 .A.l.d. One RHR loop may be made inoperable for surveillance testing while the other RHR loop is OPERABLE and in operation. This change is made for consistency with NUREG 1431. This is acceptable since the operating RHR loop provides sufficient heat removal capability and the loss of the operating RHR loop in the two hours allowed for testing is unlikely. This is less restrictive since this provision is not contained in the CTS.

M 37 Two new SRs, 3.4.8.1 and 3.4.8.2, have been added in conformance with NUREG-1431. These SRs will require verification that one RHR loop is in operation and verify power is available to the RHR pump that is not operating. This is more restrictive since PI CTS do not require these surveillances. These more restrictive changes are included to make the PI ITS complete. These changes do not place the plant in any unsafe operating conditions.

M 38 CTS 3.1 .A.1 .d. CTS allows the pumps to be shutdown for 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months .

To be consistent with NUREG-1431, this is further restricted to 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months in an 8 hour9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months period. Since this imposes additional restrictions on plant operations, this is a more restrictive change. This change is acceptable because this change may limit the time that all pumps are not operating and improve plant safety.

Prairie Island Units 1 and 2 15 12/11/00

Part D Package 3.4 Part D NSHID Change Category Number Discussion of Change 3.4 A 39 CTS 3.1 .A.2.a, 3.1 .A.2.c.(1), 3.1 .B.1 .b and 3.1.C.2. The format for CTS and ITS fundamentally differ in the presentation of shutdown tracks but the Completion Time requirements are the same. The CTS format has been changed to the ITS format.

Since there is no net change in plant operations, this is an administrative change.

40 Not used.

M 41 CTS 3.1 .A.2.a(1). CTS for pressurizer OPERABILITY require a steam bubble in the pressurizer and group A and B heaters operable. The ITS will require pressurizer level less than or equal to the pressurizer high water level Allowable Value and two heater groups capable of being powered from an emergency power supply. Since the pressurizer high water level Allowable Value is significantly below the level required to assure that there is a steam bubble in the pressurizer, this is a more restrictive change.

This change has been made to be consistent with NUREG-1431 and current NRC guidance. This change is acceptable since it will not introduce any unsafe plant operating or test conditions.

Prairie Island Units 1 and 2 16 12/11/00

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 M 42 CTS 3.1.A.2.a(3), 3.1.C.2.c, 3.1.C.2.d and 3.1.C.2.e. For consistency with NUREG-1431, the one hour to initiate actions necessary for shutdown has been deleted. This is more restrictive since the plant has one less hour prior to placing the plant in MODE 3. The time provided in the ITS is adequate to plan for and implement an orderly shutdown if required; thus this change is acceptable. This change does not place the plant in any unsafe operating conditions.

M 43 CTS 3.1.A.2.a(3). New Required Actions have been provided for the possibility that the pressurizer is inoperable. These actions incorporate proposed TSTF-87, Rev. 1. This is more restrictive since PI CTS do not require these actions. This more restrictive change is included to make the PI ITS complete.

M 44 A new SR, 3.4.9.1, has been added in conformance with the guidance of NUREG-1431. This SR will require periodic verification that the pressurizer water level is < 90%. This is more restrictive since PI CTS do not require this surveillance.

This more restrictive change is included to make the P1 ITS complete.

Prairie Island Units 1 and 2 17 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 M 45 CTS 3.1.A.2.b(1). CTS 3.1.A.2.b(1) requires two RCS pressurizer safety valves (PSVs) to be operable when the RCS temperature is > 350'F. This change will require two RCS PSVs to be operable whenever both RCS cold leg temperatures are greater than the OPPS enable temperature specified in the PTLR. This change is consistent with the guidance of NUREG-1431 and will provide additional overpressure protection when the RCS is between 350'F and the OPPS enable temperature. Since this change will require more components to be operable for more plant conditions, this is a more restrictive change. This change is acceptable because it does not cause any unsafe plant operating or testing conditions.

A 46 CTS 3.1.A.2.b(1). PI CTS License Amendment 123 allows pressurizer safety valves to be 2485 psig +/-3% when tested for operability. However, because of the particular wording in Specification 3.1 .A.2.b(1 ), it was not revised. The- intent of Amendment 123 was that if the operators were aware the setting was outside 2485 psig +/-1 % then they would not continue with their startup. CTS Table 4.1-2A, Item 3 requires verification that the settings are within +3. Thus, the change in LCO 3.4.10 is not a technical change since CTS already allow +3% tolerance on the valve settings and this is simply an administrative change.

Prairie Island Units 1 and 2 18 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-L 47 CTS 3.1.A.2.b(2). In conformance with NUREG-1431 guidance, this specification which requires one pressurizer safety valve operable when the head is on the reactor vessel has been not been retained. Since the pressurizer safety valves do not provide overpressurization protection when the RCS temperature is below the LTOP enable temperature, this specification serves no purpose. NUREG-1431 requires PSVs to be operable when the RCS temperature exceeds the LTOP enable temperature. Below the LTOP enable temperature, NUREG-1431 requires redundant PORVs to be OPERABLE at the LTOP lift settings or the RCS to be vented. Thus, this specification has not been retained. This change results in less restrictions on plant operation.

Prairie Island Units 1 and 2 19 12/11/00

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 L 48 CTS 3.1.A.2.b(1). CTS requires the pressurizer safety valves (PSVs) to be operable in MODES 1, 2, and 3. A new Applicability Note has been included to be consistent with the guidance of NUREG-1431. This Note does not require the PSVs to meet the LCO lift setting limits in MODE 3, when the plant is started up, to allow adjusting the settings under hot conditions. Because this Note allows the PSVs to be potentially inoperable in MODE 3 until the PSVs can be tested and set, this change is less restrictive.

This change is acceptable since the Note also requires preliminary lift settings under cold conditions prior to heatup which is consistent with current plant practices and the time during which the valves are potentially inoperable for valve setting adjustments is limited to 36 hours4.166667e-4 days 0.01 hours 5.952381e-5 weeks 1.3698e-5 months by the Note. The Note may improve plant safety by allowing more accurate settings under hot conditions.

A 49 CTS 3.1.A.2.c(1)(b). CTS required action explicitly requires the operators to "either restore the PORV to OPERABLE status or" take other appropriate actions. The option to restore equipment to operable status is always an available means of exiting the ITS Required Actions and, under the Writers Guide, this option should not be stated unless there are no other actions which should be taken. Thus this statement and similar statements within this CTS paragraph are not included in the ITS. Since it is understood that these are viable operator actions, this is an administrative change.

Prairie Island Units l and 2 20 12/11/00

Part D Package 3.4 NSHID Change Category Number Discussion of Change 3.4-L 50 CTS 3.1 .A.2.c.(2). When the RCS temperature is greater than the Sl pump disable temperature and less than the OPPS enable temperature, CTS requires the plant to be in MODE 5 with the RCS depressurized and vented through at least a 3 square inch vent within 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months when a PORV is not restored within the allowed outage time or both PORVs are inoperable.

This change will allow 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months to place the plant in MODE 5, depressurize and vent the RCS under these conditions. This change is acceptable because 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months is considered by the industry to be insufficient time to perform an orderly shutdown.

In addition, the requirement to place the unit in MODE 5 is consistent with the intent of the CTS. The additional time will maintain plant safety by allowing the operators to plan the shutdown and prevent challenges to plant systems which may initiate an overpressure event which the shutdown intends to prevent. This change is consistent with the guidance of NUREG-1431 as modified by approved TSTF-352, Revision 1.

Since this change allows more time to fully implement remedial action, this is a less restrictive change.

Prairie Island Units I and 2 21 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 M 51 CTS 3.1.A.2.c(2) and 3.1.A.2.c(3). Restrictions on SI pump operability isolation have been included for clarity. These requirements are specified in CTS LCO 3.3. New Action Statements are included for the possibility one (Specification 3.4.13) or two (Specification 3.4.12) SI pumps are capable of injecting into the RCS. CTS does not contain these action statement requirements; thus in this event CTS LCO 3.0.C (equivalent to PI ITS 3.0.3) would be entered which would allow 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months for action to be taken. Under these circumstances, 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months would be an inappropriate response time. The new Action Statements require immediate action which is more restrictive than CTS. This more restrictive change is included to make the PI ITS complete.

M 52 CTS 3.1 .A.2.c(2) and 3.1.A.2.c(3). Restrictions on ECCS accumulator isolation have been included for clarity. These requirements are specified in CTS LCO 3.3. Associated action statements, clarifying notes for exceptions and applicability, and surveillance requirements, SRs 3.4.12.2 and 3.4.13.2, have been added. Adding LCO 3.4.12 and 3.4.13, Required Action C also added a 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months Completion Time that was not previously in the CTS. The 12 hour1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months Completion Time is acceptable to PI since it is based on operating experience that the associated activities of Condition C can be accomplished in this time period and the low probability of an event requiring LTOP during the allowed times. Since these are added requirements they are more restrictive on plant operations.

These requirements have been included to make the P1 ITS complete and consistent with the guidance of NUREG-1431.

Prairie Island Units I and 2 22 1/2/02

i m A m Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 LR 53 CTS 3.1.A.2.c(2) and 3.1.A.2.c(3). The specific status of associated equipment has been relocated to the Bases for consistency with NUREG-1431. These provisions are assumed to be part of the OPERABILITY requirement for the PORVs. Since ITS Bases (under the Bases Control Program in Section 5.5 of the ITS) is licensee controlled, relocation of CTS requirements to the Bases is a less restrictive change.

M 54 New SRs, 3.4.12.1, 3.4.12.2, 3.4.12.3, 3.4.13.1, 3.4.13.2, 3.4.13.3, and 3.4.13.4, have been added in conformance with NUREG-1431. These SRs require verification that only one (or no) SI pump capable of injecting, RCS is vented and PORV block valves are open as applicable for the MODES of operation and the method of providing overpressurization protection. Adding these SRs also added new Frequencies that are not in the CTS. Evaluating these new Frequencies, PI believes them to be applicable to our plant. The new Frequencies provide adequate times considering administrative controls available to the operator, using other indications and alarms available to the operator in the control room to verify required status of the equipment, and the unlikelyhood of a low temperature overpressure event occurring during this time.

These SRs are more restrictive on plant operations since CTS do not require these surveillances. This is consistent with the guidance of NUREG-1431. These more restrictive changes are included to make the PI ITS complete.

55 Not used.

Prairie Island Units 1 and 2 23 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 R 56 CTS 3.1.A.3 and 4.18. The reactor vessel head vent system specifications, CTS 3.1.A.3 and associated surveillance requirements in TS 4.18, are not included in the PI ITS since this system does not meet the 10CFR50.36 Technical Specification Selection Criteria. These vents are designed to exhaust noncondensable gases and steam from the RCS which could inhibit natural circulation following an accident with an extended loss of offsite power. Credit for this vent system is not assumed in the safety analyses nor in the PI IPE. Therefore, the reactor vessel head vent does not meet the TSSC and these requirements have been relocated to the TRM which is maintained under the regulatory controls of 10CFR50.59. This is consistent with the guidance of NUREG-1431 which does not include specifications for the reactor vessel head vent system.

Criterion 1: Installed instrumentation that is used to detect, and indicate in the control room, a significant abnormal degradation of the reactor coolant pressure boundary.

The reactor coolant head vents are not installed instrumentation, nor are they used for, nor capable of, detecting a significant abnormal degradation of the reactor coolant pressure boundary prior to a Design Basis Accident (DBA). Therefore, the reactor coolant head vents do not meet criterion 1.

Criterion 2: A process variable, design feature, or operating restriction that is an initial condition of a design basis accident or transient analysis that either assumes the failure of or presents a challenge to the integrity of a fission product barrier.

The reactor head vents are not process variables, design features, or operating restrictions that are initial conditions of a DBA or transient analysis that either assumes the failure of or presents a Prairie Island Units I and 2 24 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 R 56 (continued) challenge to the integrity of a fission product barrier. PI does not take any credit for the reactor head vents in any accident analysis.

Therefore, the reactor head vents do not meet the criterion 2.

Criterion 3: A structure, system, or component that is part of the primary success path and which functions or actuates to mitigate a design basis accident or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier.

The reactor head vents are not structures, systems or components that are part of the primary success path which functions or actuates to mitigate a DBA or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier. Therefore, the reactor head vents do not meet criterion 3.

Criterion 4: A structure, system, or component which operating experience or probabilistic risk assessment has shown to be significant to public health and safety.

The reactor head vents are not considered in the plant IPE and is not a system which operating experience or probabilistic risk assessment has shown to be significant to public health and safety. Therefore, the reactor head vents do not meet criterion 4.

Therefore, since the screening criteria have not been satisfied, the reactor head vent LCO and Surveillances may be relocated to other plant controlled documents outside the Technical Specifications. The reactor head vents will be relocated to the TRM which is controlled by the provisions of 10CFR50.59.

Prairie Island Units I and 2 25 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-M 57 New Specification. In conformance with the guidance of NUREG 1431, a new specification, RCS Minimum Temperature for Criticality, is included in the PI ITS. CTS Figure 3.1-1 does include a line labeled "Criticality Limit"; however there are no action statements or applicability associated with this line on the curve.

The Bases for this new specification provide four considerations which the minimum temperature for criticality should satisfy.

Based on PI calculations and consistency with the Low-Low Tave setpoint, this LCO will specify 540°F as the minimum allowable temperature. Compliance with this specification will assure that plant conditions are conservative with respect to the initial conditions assumed in the safety analyses. Since this is a new specification, it does place additional restrictions on plant operations and is thus categorized as more restrictive. This more restrictive change is included to make the P1 ITS complete.

58 Not used.

59 Not used.

60 Not used.

Prairie Island Units 1 and 2 26 12/11/00

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 A 61 CTS 3.1.B.1.b. The requirements for maintaining RCS pressure and temperature limits has been broken into two sets of action statements, for conditions above 200°F and for conditions below 200'F. This is a logical split since the CTS action is to reduce the temperature below 2000F which would be meaningless ifthe pressure and temperature limits were violated and the temperature were already below 200'F. Since the new action statement is addressed below, this change is considered administrative. This change also includes changing to the NUREG-1431 use of MODES to define plant conditions rather than use of prose descriptions. Since use of MODES does not change any plant operations, this is also an administrative change.

M 62 CTS 3.1.8.1 .b. CTS do not specify a time frame for evaluating the integrity of the RCS following an out-of-limit condition. For consistency with NUREG-1431, a limit of 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months is included.

The 72 hour8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months Completion Time is reasonable to accomplish the evaluation. The evaluation for a mild violation is possible within this time, but more severe violations may require special, event specific stress analyses or inspections. The evaluation will determine whether the RCS structural integrity remains acceptable for continued operation. Since this is a new limit it is more restrictive on plant operation. This more restrictive change is included to make the P1 ITS complete.

Prairie Island Units 1 and 2 27 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-M 63 CTS3.1.B.1.b. For consistency with NUREG-1431, new action statements have been included for out-of-limit conditions when the RCS is below 200 0 F. PI CTS do not address this condition. Since these are new requirements they are considered more restrictive on plant operations. This more restrictive change is included to make the PI ITS complete.

M 64 A new surveillance requirement, SR 3.4.3.1, has been included for consistency with NUREG-1431 which requires verification that RCS pressure, temperature and heatup and cooldown rates are within the specified limits. Plant operators currently monitor these variables for compliance with Specification 3.1 .B.1 .b although it is not explicitly written as a TS SR. Since these are new TS requirements they are considered more restrictive on plant operations. This more restrictive change is included to make the PI ITS complete.

65 Not used.

Prairie Island Units 1 and 2 28 12/11/00

Part D Package 3.4 NSHID Change Category Number Discussion of Change 3.4-R 66 CTS 3.1.B.2. In conformance with the guidance of NUREG-1431, the pressurizer heatup and cooldown specifications have been relocated from the TS to the PTLR. This change is acceptable since the Bases for Specification 3.4.3 state that the reactor pressure vessel is the most limiting component for brittle fracture; thus the requirements for the pressurizer have not been included in the ITS. The shutdown requirements associated with pressurizer heatup and cooldown limitations have been relocated to the TRM.

Criterion 1: Installed instrumentation that is used to detect, and indicate in the control room, a significant abnormal degradation of the reactor coolant pressure boundary.

The Pressurizer Pressure/Temperature Limits are not installed instrumentation, nor are they used for, nor capable of, detecting a significant abnormal degradation of the reactor coolant pressure boundary prior to a Design Basis Accident (DBA). Therefore, the Pressurizer Pressure/Temperature Limits do not meet criterion 1.

Criterion 2: A process variable, design feature, or operating restriction that is an initial condition of a design basis accident or transient analysis that either assumes the failure of or presents a challenge to the integrity of a fission product barrier.

Prairie Island Units 1 and 2 29 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 R 66 (continued)

The Pressurizer Pressure/Temperature Limits are not process variables, design features, or operating restrictions that are initial conditions of a DBA or transient analysis that either assumes the failure of or presents a challenge to the integrity of a fission product barrier. PI does not take any credit for the Pressurizer Pressure/Temperature Limits in any accident analysis. Therefore the Pressurizer Pressure/Temperature Limits do not meet the criterion 2.

Criterion 3: A structure, system, or component that is part of the primary success path and which functions or actuates to mitigate a design basis accident or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier.

The Pressurizer Pressure/Temperature Limits are not structures, systems or components that are part of the primary success path which functions or actuates to mitigate a DBA or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier.

Therefore, the Pressurizer Pressure/Temperature Limits do not meet criterion 3.

Criterion 4: A structure, system, or component which operating experience or probabilistic risk assessment has shown to be significant to public health and safety.

The Pressurizer Pressure/Temperature Limits are a structure, system or component. Therefore, the Pressurizer Pressure/Temperature Limits do not meet criterion 4.

Prairie Island Units I and 2 30 1/2/02

Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 R 66 (continued)

Therefore, since the screening criteria have not been satisfied, the Pressurizer Pressure/Temperature Limit LCO and Surveillances may be relocated to other plant controlled documents outside the Technical Specifications. The Pressurizer Pressure/Temperature Limits are being relocated to the PTLR and the associated shutdown requirements are being relocated to the TRM.

R 67 CTS 3.1..B.3. In conformance with the guidance of NUREG 1431, the Steam Generator pressure/temperature limits have been relocated to the PTLR. This operating restriction does not present a challenge to the integrity of a fission product barrier and this limit is not required for safe operation. These specifications do not meet the Technical Specification Selection Criteria defined in 10CFR50.36. The shutdown requirements associated with this pressure/temperature limit have been relocated to the TRM.

Criterion 1: Installed instrumentation that is used to detect, and indicate in the control room, a significant abnormal degradation of the reactor coolant pressure boundary.

The Steam Generator Pressure/Temperature Limits are not installed instrumentation, nor are they used for, nor capable of, detecting a significant abnormal degradation of the reactor coolant pressure boundary prior to a Design Basis Accident (DBA). Therefore, the Steam Generator Pressure/Temperature Limits do not meet criterion 1.

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Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 R 67 (continued)

Criterion 2: A process variable, design feature, or operating restriction that is an initial condition of a design basis accident or transient analysis that either assumes the failure of or presents a challenge to the integrity of a fission product barrier.

The Steam Generator Pressure/Temperature Limits are not process variables, design features, or operating restrictions that are initial conditions of a DBA or transient analysis that either assumes the failure of or presents a challenge to the integrity of a fission product barrier. PI does not take any credit for the Steam Generator Pressure/Temperature Limits in any accident analysis. Therefore, the Steam Generator Pressure/Temperature Limits do not meet the criterion 2.

Criterion 3: A structure, system, or component that is part of the primary success path and which functions or actuates to mitigate a design basis accident or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier.

The Steam Generator Pressure/Temperature Limits are not structures, systems or components that are part of the primary success path which functions or actuates to mitigate a DBA or transient that either assumes the failure of or presents a challenge to the integrity of a fission product barrier. Therefore, the Steam Generator Pressure/Temperature Limits do not meet criterion 3.

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Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-R 67 (continued)

Criterion 4: A structure, system, or component which operating experience or probabilistic risk assessment has shown to be significant to public health and safety.

The Steam Generator Pressure/Temperature Limits are not a structure, system or component. Therefore, the Steam Generator Pressure/Temperature Limits do not meet criterion 4.

Therefore, since the screening criteria have not been satisfied, the Steam Generator Pressure/Temperature Limit LCO and Surveillances may be relocated to other plant controlled documents outside the Technical Specifications. The Steam Generator Pressure/Temperature Limits are being relocated to the PTLR and the associated shutdown requirements are being relocated to the TRM.

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Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-L 68 CTS 3.1.C.1. CTS requires two means of leakage detection. One of those means is specified as the radionuclide detection instrumentation, the other means is not specified. For consistency with the guidance of NUREG-1431, a second means of detecting RCS leakage, containment sump A pump run time, has been specified. This is a more restrictive change which is acceptable since it is consistent with CTS Bases and USAR.

Also in conformance with the guidance of NUREG-1431, action statements and remedial actions, in the event one or both means of leakage detection are inoperable, have been provided. The CTS are unnecessarily restrictive in that inoperability of one means of leakage detection requires shutdown of the plant. There are remedial measures which can be implemented to compensate for an inoperable leakage detection channel as allowed by NUREG 1431. The PI ITS includes provisions for compensatory sampling and surveillance testing if leakage detection channels are inoperable. Implementation of this change will provide increased plant operational flexibility and thus this is a less restrictive change.

69 Not used.

70 Not used.

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Part D Package 3.4 NSHID Change Category Number Discussion of Change 3.4 A 71 CTS 3.1.C.1. The CTS requirements described here are the same as ITS LCO 3.0.3 (CTS LCO 3.0.c) which is the appropriate action if no leakage detection instrumentation is operable. Thus this is rewritten to require immediate entry into LCO 3.0.3. The change of applicability of this requirement is addressed in L3.4-68. The time and the implications of the use of the time are the same; therefore this is an administrative change.

M 72 Four new SRs, 3.4.16.1, 3.4.16.2, 3.4.16.3 and 3.4.16.4, have been included to perform Channel Checks, COTs and Calibrations of containment radiation monitors and Calibration of sump pump run time instrumentation. Since these requirements are new to the PI TS they are considered more restrictive to plant operation.

These SRs have been included for consistency with NUREG-1431.

These more restrictive changes are included to make the PI ITS complete.

A 73 CTS 3.1 .C.2.a. The CTS specifics of where leakage is not originating from have not been included in ITS LCO 3.4.14. The ITS definition of LEAKAGE includes the required details of what is considered leakage; thus these details are not necessary in the specification. Since this change does not change any plant operations, this is an administrative change.

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Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4-LR 74 CTS 3.1.C.2.b. The requirement to evaluate the leakage for continued safe operation is a level of detail beyond that contained within NUREG-1 431. Therefore this requirement has been relocated to the Bases. Since ITS Bases (under the Bases Control Program in Section 5.5 of the ITS) is licensee controlled, this change is less restrictive.

75 Not used.

76 Not used.

A 77 CTS 3.1.C.2.d. The CTS requirement to remain in COLD SHUTDOWN until the condition is corrected is not included in ITS specification 3.4.14. The rules of ITS use in LCO 3.0.4 require ITS LCOs to be met prior to resumption of power operation. Thus, it is unnecessary to include these requirements in ITS LCO 3.4.14.

Since the change does not involve any changes to plant operations, this is an administrative change.

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Part D Package 3.4 NSHD Change Category Number Discussion of Change 3.4 A 78 CTS 3.1.C.2.e. CTS requires inservice steam generator tube inspection in accordance with TS 4.12. Since this TS has been relocated to the Steam Generator Program in ITS Section 5.5, no technical changes are associated with this change; therefore, this is an administrative change.

L 79 CTS 3.1 .C.3. A new action statement is included in the ITS which allows 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months to isolate the flow path of a PIV with leakage outside the allowed limits and 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months to restore the PIV to within limits. CTS allows one hour to initiate shutdown. These changes are consistent with the guidance of NUREG-1431. These changes are acceptable since the safety function of the PIV is met once the PIV flow path is isolated. Furthermore, the isolation valve is also required to meet the same leakage limits as the PIV, in accordance with the additional new requirement for isolation valve leakage limits. An additional three hours to take action is acceptable since these leakage limits are very conservative and it is very unlikely that these valves will suffer complete failure during this limited time. When the PIV flow path is isolated, this may cause some other system, such as RHR, to be inoperable and require entry into an Action Statement for another Specification which would require completion of required actions within 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months . Thus this change is consistent with other allowed outage times for significant safety features. Since this change allows additional plant operational flexibility, this is a less restrictive change.

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ML021900574

Text

3.4.7 APPLICABILITY

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