Revision to Technical Requirements Manual

ML030170618
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Issue date:	01/09/2003
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TRM APPROVED AMENDMENT TO UNIT 2 TECHNICAL REQUIREMENTS MANUAL EFFECTIVE DATE 1213112002 Replace the following pages of the Technical Requirements Manual with the enclosed pages.

The revised pages are identified by Effective Date and contain vertical lines indicating the area of change.

EFFECTIVE REMOVE PAGES INSERT PAGES DATE TRM / LOES-1 through TRM I LOES-6 TRM I LOES-1 through TRM I LOES-6 12/31/2002 TRM / 3.6-7 through TRM / 3 6-9 TRM 13 6-7 through TRM 13 6 9 12/31/2002 38-4 TRM 13 8-4 12131/2002 TRM/B 3 6-6 through TRM/B 3 6-9 TRMIB 3.6-6 through TRM/B 3 6-11 12131/2002

SUSQUEHANNA STEAM ELECTRIC STATION LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title TOC 1.0 Effective Date TABLE OF CONTENTS USE AND APPLICATION Page TRM / 1.0-1 Page TRM / 1.0-2 Page TRM / 1.0-3 2.0 PLANT PROGRAMS Page 2.0-1 Pages TRM / 2.0-2 through TRM / 2.0-4 Pages TRM / 2.0-5 through TRM / 2.0-7 Page TRM / 2.0-8

- Page TRM / 2.0-9 Pages TRM / 2.0-10 through TRM / 2.0-12 Page TRM / 2.0-13 3.0 APPLICABILITY Pages TRM / 3.0-1 and TRM / 3.0-2" Page TRM / 3.0-3 Page TRM / 3.0-4 3.1 3.2 3.3 REACTIVITY CONTROL SYSTEMfS "'--,'

Pages 3.1-1 through 3.ý1'6)

Pages TRM / 3.1-7 andTM 70 f 3.1-8 Pages TRM / 3.1-9,6nd TRM / 3.1-9a Page TRM / 3.14#10 \\"',,

\\"'

Pages 3.1-11 ttrough 3.1-13 CORE OPERATING-LIMITS REPORT Page 3.2-fŽ\\'

Pages TRM /!3.2-2 through TRM /3.2-28 II/STRUENTATION

.Pages TRM / 3.3-1 through TRM / 3.3-3 Page TRM / 3.3-4 Pages 3.3-5 through 3.3-8 Pages TRM / 3.3-9 and TRM / 3.3-9a Pages TRM / 3.3-10 and TRM / 3.3-11 Page TRM / 3.3-12 Pages TRM / 3.3-13 through TRM / 3.3-15 Page TRM 13.3-16 Pages TRM / 3.3-17 and TRM / 3.3-18 Pages TRM / 3.3-19 through TRM / 3.3-20 Pages 3.3-21 and 3.3-22 Pages TRM / 3.3-23 through TRM / 3.3-25 04/02/2002 08/31/1998 10/04/2002 08/31/1998 08/31/1998 06125/2002 04/12/1999 08/30/2001 09106/2002 04/12/1999 06/16/2000 04/08/1999 03/15/2002 04108/1999 08/31/1998 06/05/2002 02/18/1999 02/18/1999 08/31/1998 08131/1998 03/26/2001 07/16/1999 11/28/2000 08/31/1998 12/17/1998 12/17/1998 03/30/2001 12/14/1998 06/27/2001 06/14/2002 12114/1998 08131/1998 04/02/1999 EFFECTIVE DATE 12/31/2002 SUSQUEHANNA - UNIT 2 TRM / LOES-1

SUSQUEHANNA STEAM ELECTRIC STATION LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title 3.4 Effective Date REACTOR COOLANT SYSTEM Pages 3.4-1 through 3.4-5 Pages 3 4-6 through 3.4-13 3.5 3.6 3.7 10/23/1998 08/31/1998 08/31/1998 04/17/2000 08/31/1998 08/31/1998 01/07/2002 08/31/1998 12/31/2002 EMERGENCY CORE COOLING AND RCIC Pages 3.5-1 through 3.5-3 Page TRM / 3.5-4 Pages 3.5-5 through 3.5-7 CONTAINMENT Pages 3.6-1 through 3.6-4 Page TRM / 3.6-5 Page 3.6-6

- Pages TRM / 3.6-7 through TRM / 3.6-9 PLANT SYSTEMS Pages TRM / 3.7-1 and TRM / 3.7-2 Page 3.7-3 Pages TRM / 3.7-4 through TRM / 3.7-10 Page TRM / 3.7-11 Pages TRM / 3.7-12 through TRM / 3.7-27 Pages TRM / 3.7-28 through TRM / 3.7-32 Page TRM / 3.7-33 Pages TRM / 3.7-34 through TRM / 3.7-36 Pages 3.7-37 through 3.7-39 Pages TRM / 3.7-40 and TRM / 3.7-40a Pages 3.7-41 and 3.7-42 Pages 3.7-43 through 3.7-48 Pages TRM / 3.7-49 and TRM / 3.7-50 Page TRM / 3.7-51 Pages TRM / 3.7-52 and TRM / 3.7-53 ELECTRICAL POWER Pages TRM / 3.8-1 and TRM / 3.8-2 Page 3.8-3 Page TRM / 3.8-4 Pages TRM / 3.8-5 and TRM / 3.8-6 Pages TRM / 3.8-7 through TRM / 3.8-8 Page TRM / 3.8-9 Page 3.8-10 Page TRM / 3.8-11 Page TRM / 3.8-1 Ia Pages 3.8-12 through 3.8-14 Pages TRM / 3.8-15 through TRM / 3.8-17 Page 3.8-18 Page TRM / 3.8-19 3.8 07/29/1999 08/31/1998 08/02/1999 01/21/2000 08/02/1999 11/16/2001 10105/2002 02/01/1999 08/31/1998 08/11/2000 08/31/1998 10/13/1998 03/09/2001 07/05/2000 07129/1999 04/02/2002 08/31/1998 12/31/2002 04/02/2002 08/31/1998 08/24/2001 08/31/1998 04/02/2002 04/02/2002 08/31/1998 04/02/2002 02/01/1999 04/02/2002 SUSQUEHANNA

- UNIT 2 TRM / LOES-2 EFFECTIVE DATE 12/31/2002 SUSQUEHANNA - UNIT 2 TRM / LOES-2 EFFECTIVE DATE 12/31/2002

SUSQUEHANNA STEAM ELECTRIC STATION LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Page TRM / 3.8-20 Pages TRM / 3.8-21 through TRM / 3.8-23 Pages 3.8-24 and 3.8-25 REFUELING OPERATIONS Pages 3.9-1 through 3.9-3 MISCELLANEOUS Pages 3.10-1 through 3.10-4 Page TRM / 3.10-5 Page TRM / 3.10-6 Page TRM / 3.10-7

- Page TRM / 3.10-8 Effective Date 02/01/1999 06/0611999 08/31/1998 08/31/1998 08/3011998 09/13/2002

'06/0512002 04/0712000 corrected 04/17/2002 RADIOACTIVE EFFLUENTS Pages 3.11-1 through 3.11-12 Pages 3.11-13 through 3.11-16 Pages 3.11-17 through 3.11-21 Pages TRM / 3.11-22 through TRM / 3.11-24 Pages 3.11-25 through 3.11-32 Pages 3.11-33 through 3.11-47 LOADS CONTROL PROGRAM Pages TRM / 3.12-1 through TRM /3.12-5 ADMINISTRATIVE CONTROLS Pages 4.0-1 through 4.0-8 08/31/1998 09/01/1998 08/31/1998 04/02/2002 09/01/1998 08/31/1998 02/0511999 08/31/1998 SUSQUEHANNA

- UNIT 2 TRM/LOES-3 EFFECTIVE DATE 12/31/2002 3.9 3.10 3.11 3.12 4.0 SUSQUEHANNA - UNIT 2 TRM / LOES-3 EFFECTIVE DATE 12/31/2002

SUSQUEHANNA STEAM ELECTRIC STATION LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title B 3.0 B 3.1 B 3.2 B 3.3 B 3.4 B 3.5 B 3.6 Effective Date APPLICABILITY BASES Pages B 3.0-1 through B 3.0-10 Pages TRM / B 3.0-11 through TRM / B 3.0-15 REACTIVITY CONTROL SYSTEMS BASES Pages TRM / B 3.1-1 through TRM I B 3.1-3 Page B 3.1-4 Pages TRM / B 3.1-5 through TRM / B 3.1-7 Page TRM / B 3.1-8 Pages B 3.1-9 and B 3.1-10 CORE OPERATING LIMITS BASES Page B 3.2-1 INSTRUMENTATION BASES Page TRM/B 3.3-1 Page B 3.3-2 Pages TRM/B 3.3-3 and TRM / B 3.3-3A Page TRM / B 3.3-4 Pages TRM / B 3.3-5 and TRIM / B 3.3-5a Page TRM / B 3.3-6 Pages TRM / B 3.3-7 through TRM / B 3.3-9 Pages B 3.3-10 through B 3.3-13 Page TRM / B 3.3-14 Page TRM / B 3.3-14a Page TRM / B 3.3-14b Page B 3.3-15 Page TRM/B 3.3-16 Pages B 3.3-17 through B 3.3-20 Pages TRM / B 3.3-21 through TRM / B 3.3-23 REACTOR COOLANT SYSTEM BASES Pages B 3.4-1 through B 3.4-4 Page TRM / B 3.4-5 Page B 3.4-6 ECCS AND RCIC BASES Pages B 3.5-1 through B 3.5-5 CONTAINMENT BASES Page TRM / B 3.6-1 Page TRM / B 3.6-2 Page B 3.6-3 Page TRM / B 3.6-4 Page TRM / B 3.6-5 Pages TRM / B 3.6-6 through TRM / B 3.6-11 08/31/1998 03/15/2002 07/13/1999 08/31/1998 07/13/1999 02118/1999 08/31/1998 08/31/1998 04/07/2000 08/31/1998 12/29/2000 01/07/2002 12/17/1998 12/17/1998 03/3012001 08/31/1998 06/2512002 06/14/2002 06/1412002 08/31/1998 04107/2000 08/31/1998 04/02/1999 08/31/1998 10115/1999 08/31/1998 08/31/1998 07/26/2001 02/01/1999 08/31/1998 09/23/1999 01/07/2002 12/31/2002 TRM / LOES-4 EFFECTIVE I

SUSQUEHANNA - UNIT 2 DATE 12/31/2002

SUSQUEHANNA STEAM ELECTRIC STATION LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title B 3.7 B 3.8 B.3.9 Effective Date PLANT SYSTEMS BASES Pages B 3.7-1 and B 3.7-2 Pages TRM / B 3.7-3 through TRM / B 3.7-7 Page TRM I B 3.7-7a Pages TRM / B 3.7-8 through TRM / B 3.7-10 Page TRM I B 3.7-10a Pages TRM / B 3.7-11 through TRM / B 3.7-14 Page TRM / B 3.7-14a Pages TRM / B 3.7-15 and TRM / B 3.7-16 Pages B 3.7-17 through B 3.7-20 Pages TRM / B 3.7-21 through TRM/B 3.7-21a Pages TRM/B 3.7-22 and TRM/B 3.7-23

- Pages B 3.7-24 through B 3.7-30 Pages TRM / B 3.7-31 and TRM / B 3.7-32 Page TRM / B 3.7-33 Pages TRM I B 3.7-34 and TRM / B 3.7-35 ELECTRICAL POWER BASES Pages TRM / B 3.8-1 and TRM / B 3.8-2 Page TRM / B 3.8-2a Page TRM / B 3.8-3 Page TRM / B 3.8-3a Page TRM I B 3.8-4 Page TRM / B 3.8-4a Page TRM / B 3.8-5 Pages TRM / B 3.8-6 through TRM I B 3.8-17 REFUELING OPERATIONS BASES Pages B 3.9-1 and B 3.9-2 Pages B 3.9-3 through B 3.9-7 08/31/1998 08/02/1999 08/02/1999 08/02/1999 08/02/1999 0810211999 08102/1999 02101/1999 08131/1998 05111/2001 04107/2000 08/31/1998 03/09/2001 07/29/1999 07/05/2000 04/02/2002 04/02/2002 04/02/2002 04/02/2002 04/02/2002 04/02/2002 08/31/1998 04/02/2002 08/31/1998 10/23/1998 08/31/1998 09/13/2002 08/23/1999 04117/2002 08/3111998 02/01/1999 04/07/2000 02/01/1999 11/01/1999 02/01/1999 08/31/1998 B 3.10 MISCELLANEOUS BASES Pages B 3.10-1 through B 3.10-2 Page TRM / B 3.10-3 Pages TRM / B 3.10-4 and TRM / B 3.10-5 Pages TRM / B 3.10-6 and TRM 13.10-7 B 3.11 RADIOACTIVE EFFLUENTS BASES Pages B 3.11-1 through B 3.11-9 Pages TRM I B 3.11-10 Pages TRM/B 3.11-11 and TRM/B 3.11-1 la Pages TRM/B 3.11-12 and TRM/B 3.11-13 Page TRM I B 3.11-14 Page TRM / B 3.11-15 Pages B 3.11-16 through B 3.11-19 EFFECTIVE DATE 12/31/2002 SUSQUEHANNA -UNIT 2 TRM I LOES-5

SUSQUEHANNA STEAM ELECTRIC STATION LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Page TRM / B 3.11-20 Page TRM / B 3.11-20a Pages TRM / B 3.11-21 through TRM / B 3.11-23 Page TRM / B 3.11-23a Page B 3.11-24 Page TRM / B 3.11-25 Pages B 3.11-26 through TRM / B 3.11-35 Pages TRM / B 3.11-36 B.3.12 LOADS CONTROL PROGRAM BASES Pages TRM / B 3.12-1 through TRM / B 3.12-3 Effective Date 04/02/2002 04/02/2002 04/02/2002 04/02/2002 08/31/1998 11/01/1999 08/31/1998 02/12/1999 02/05/1999 EFFECTIVE DATE 12/31/2002 SUSQUEHANNA - UNIT 2 TRM / LOES-6

Primary Containment Closed System Boundaries 3.6.4 3.6 Containment 3.6.4 Primary Containment Closed System Boundaries TRO 3.6.4 APPLICABILI'F Primary Containment Closed System boundaries shall be OPERABLE.

When Primary Containment Isolation Valves (PCIVs) for lines in which the redundant isolation barrier is a closed system are required to be OPERABLE per LCO 3.6.1.3, "Primary Containment Isolation Valves (PCIVs)."

NOTE Primary Containment Closed System boundaries may be unisolated intermittently under administrative controls.

ACTIONS N1

1.

Separate Condition entry is allowed for each Primary Containment Closed System.

2.

Enter applicable Conditions and Required Actions for systems made inoperable by inoperable Primary Containment Closed System boundaries.

3.

If Conditions and Required Actions for this TRO are not completed, LCO 3.0.3 shall be entered, not TRO 3.0.3.

4.

Penetration flow paths may be unisolated intermittently under administrative controls.

5.

Enter applicable Conditions and Required Actions of LCO 3.6.1.1, "Primary Containment,"

when Primary Containment Closed System boundary leakage results in exceeding overall containment leakage rate acceptance criteria in MODES 1, 2, and 3.

CONDITION REQUIRED ACTION COMPLETION TIME A.

One or more penetration A.1.1 Isolate the affected 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> flow paths with its portion of system piping Primary Containment from the rest of the Closed System boundary closed system and inoperable and its primary containment by corresponding PCIV(s) use of at least one OPERABLE.

closed and de-activated automatic valve, closed manual valve, or blind flange.

AND A.1.2 Verify the affected Once per 31 days portion of system piping is isolated from the rest of the closed system and primary containment.

EFFECTIVE DATE 12/31/2002

(:

I SUSQUEHANNA -UNIT 2 TRM / 3.6-7

Primary Containment Closed System Boundaries 3.6.4 ACTIONS- (continued)

CONDITION REQUIRED ACTION COMPLETION TIME A.

(continued)

OR A.2.1 Isolate the affected 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> penetration(s) by use of the closed and de activated PCIV.

AND A.2.2 Verify the affected Once per 31 days penetration flow path is isolated.

B.

One or more B.1 Isolate the affected 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> penetration flow paths penetration flow path by with its Primary use of at least one Containment Closed closed and de-activated System boundary automatic valve, closed inoperable and its manual valve, or blind corresponding PCIV(s) flange.

inoperable.

OR B.2 Enter the applicable Immediately Conditions and Required Actions of LCO 3.6.1.1 for a loss of Primary Containment.

C.

Required Action and C.1 Enter LCO 3.6.1.3 Immediately associated Completion Condition G or H based on Time of Condition A or the unit MODE.

B not met.

EFFECTIVE DATE 12/31/2002 I

I I

• 7 SUSQUEHANNA -UNIT 2 TRM / 3.6-8

Primary Containment Closed System Boundaries 3.6.4 TECHNICAL REQUIREMENT SURVEILLANCE SURVEILLANCE FREQUENCY TRS 3.6.4.1 Verify Primary Containment Closed System 92 days boundary is intact.

TRS 3.6.4.2 Verify Primary Containment Closed System In accordance integrity, with the Leakage Rate Test Program EFFECTIVE DATE 12/31/2002 SUSQUEHANNA - UNIT 2 TRM 1 3.6-9

Primary Containment Penetration Conductor Overcurrent Protective Devices 3.8.1 TABLE 3.8.1-1 (Page 2 of 2)

PRIMARY CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES Circuit Breaker Designation System/Equipment Powered B.

Type HFB-M

1.

2B236023

2.

2B246022

3.

2B237072 4

2B236102

5.

2B246112

6.

2B246113

7.

2B236053

8.

2B253052

9.

2B263043

10.

2B263052

11.

2B246062

12.

2B246012

13.

2B253063

14.

2B263071

15.

2B253043

16.

2B263072 C.

Type KB-TM

1.

2B216092

2.

2B226103

3.

2B236103 2B236023A 2B246022A 2B237072A 2B236102A 2B246112A 2B246113A 2B236053A 2B253052A 2B253043A 2B263052A 2B246062A 2B246012A 2B253063A 2B263071A 2B253043A 2B263072A 2B216083 2B226102 2B236122

4.

1B246033 2B246044 D.

Circuit Breakers Tripped by Overcurrent Relays

1.

2A20501

2.

2A20601 2A20502 2A20602 Cont Inst. Gas/HV-22603 RCIC/HV-E51-2F007 NSSS/HV-B21-2F016 NSSS/HV-B21-2F001 NSSS/HV-B21-2F002 NSSS/HV-B21-2F005 RWCU/HV-G33-2F001 RWCU/HV-G33-2F1 02 RWCU/HV-G33-2F100 RWCU/HV-G33-2F1 06 RBCCW/HV-21346 RBCCW/HV-21345 Drywell Sump/2P402A Drywell Sump/2P402B Drywell Sump/2P403A Drywell Sump/2P403B Cont. H2 Recombiner/2E440A Cont. H2 Recombiner/2E440B Cont. H2 Recombiner/2E440C Cont. H2 Recombiner/2E440D Rx Recirc/2P401A Rx Recirc/2P401 B EFFECTIVE DATE 12/31/2002 I

SUSQUEHANNA - UNIT 2 TRM / 3.8-4

Primary Containment Closed System Boundaries B 3.6.4 B 3.6.4 Primary Containment Closed System Boundaries BASES TRO A closed system used as a primary containment isolation boundary is defined as a piping system outside primary containment that does not communicate directly with the atmosphere outside primary containment, meets the design requirements of NUREG-75/087, (Reference 1), as described in FSAR Section 6.2.4 (Reference 2), and is considered an extension of primary containment.

The design of several containment penetrations relies upon a single Primary Containment Isolation Valve (PCIV) and a closed piping system outside primary containment (Primary Containment Closed System) as the two isolation barriers, as identified in Technical Specification (TS) Bases, Table B 3.6.1.3-1. For a given containment penetration that relies upon a closed system as the redundant containment isolation barrier, the closed system boundary is essentially equivalent to the ASME Class 2 boundary for the system/loop which contains the penetration. The closed system boundaries are defined by the Leakage Rate Test Program.

As a special case, the containment penetrations for the H20 2 analyzer lines also rely upon a closed system as the redundant containment isolation barrier, even though two PCIVs are provided for each of these penetrations. The PCIVs associated with these penetrations are identified in TS Bases Table B 3.6.1.3-1. The PCIVs in each H20 2 analyzer penetration are redundant to each other with regard to mechanical operation, but are not redundant with regard to electrical operation. Both PCIVs in each of these penetrations are powered from the same electrical division in order to prevent a single electrical failure from resulting in a loss of both divisions of H20 2 analyzers. This results in the valves being susceptible to a single electrical failure which could result in both valves failing open or failing to remain closed.

Because of this unique design consideration, the H20 2 penetrations are equivalent to penetrations having a single PCIV, with the closed system providing the redundant isolation barrier.

For penetrations with a single PCIV, alteration of the corresponding closed system boundary during power operation is permitted provided that alteration does not impact the containment isolation function of the PCIV, [i.e., able to be closed (automatically or manually) or remain closed, and maintain leakage within that assumed in the design basis loss of coolant accident dose analysis.]

Conversely, if a PCIV is in a configuration where it is not capable of performing its containment isolation function (e.g., stuck open), then closed system integrity must be maintained in order to have at least one containment isolation barrier operable. These requirements also apply to the H20 2 analyzer penetrations.

EFFECTIVE DATE 12/31/2002 SUSQUEHANNA - UNIT 2 TRM/B 3.6-6

Primary Containment Closed System Boundaries B 3.6.4 B 3.6.4 Primary Containment Closed System Boundaries BASES (continued)

TRO (continued)

The APPLICABILITY is modified by a Note allowing Primary Containment Closed System boundaries to be unisolated intermittently under administrative controls. These controls consist of stationing a dedicated operator at the controls of the valve, who is in continuous communications with the control room. In this way, the Primary Containment Closed System can be rapidly isolated when a need for primary containment isolation is indicated.

Opening of closed system boundary valve periodically for specific activities that require the valve to be opened (e.g., testing, venting) is not considered a breach of a closed system, provided the valve is operated under administrative control. Examples include the opening of a high point vent in the Core Spray system to verify that the system is filled with water or the opening of a H20 2 analyzer boundary valve to perform a functional test of the Post Accident Sampling System. Similarly, stroking of a boundary valve as part of restoration from maintenance activities associated with that valve does not constitute a breach of the closed system. Examples of this would be the stroking of a valve where the work that was done was replacement of the motor actuator, or other work where the pressure boundary of the valve was not violated. Also, the opening of a valve as a result of normal system operation/testing does not constitute a breach of the closed system.

EFFECTIVE DATE 12/31/2002 I

SUSQUEHANNA -UNIT 2 TRM/B 3.6-7

Primary Containment Closed System Boundaries B 3.6.4 B 3.6.4 Primary Containment Closed System Boundaries BASES (continued)

ACTIONS These ACTIONS are provided to address Conditions where Primary Containment Closed System boundaries are inoperable. When the Primary Containment Closed System boundaries are OPERABLE, but the associated PCIV(s) is inoperable, LCO 3.6.1.3, "Primary Containment Isolation Valves (PCIVs)," Condition C or Condition D would apply.

Note 1 has been added to provide clarification that, for the purpose of the TRO, separate Condition entry is allowed for each closed system. This is acceptable, since the Required Actions for each Condition provide appropriate compensatory actions for each inoperable closed system. Complying with Required Actions may allow for continued operation, and subsequent inoperable PCIVs or closed systems are governed by subsequent Condition entry and application of associated Required Actions.

The ACTIONS are modified by Notes 2 and 5. Note 2 ensures that appropriate remedial actions are taken, if necessary, if the affected system(s) are rendered inoperable by an inoperable closed system (e.g., an Emergency Core Cooling System subsystem is inoperable due to a failed open drain valve). Note 5 ensures appropriate remedial actions are taken when the primary containment leakage limits are exceeded. Pursuant to TRO 3.0.6, these actions are not required even when the associated TRO is not met. Therefore, Notes 2 and 5 are added to require the proper actions be taken when Primary Containment Closed System boundaries are inoperable.

Note 3 has been added to provide clarification that failing to complete the Required Actions results in a condition that could compromise Primary Containment Integrity and thus, place the plant in an unanalysed condition.

The ACTIONS are modified by Note 4 allowing penetration flow path(s) to be unisolated intermittently under administrative controls. This note applies to a condition where the closed system is inoperable. It-does not apply to a situation where a penetration flowpath is normally open and the closed system is OPERABLE (such as the RHR and Core Spray minimum flow return lines),

since that represents the normal design configuration. Administrative controls consist of stationing a dedicated operator at the controls of the valve, who is in continuous communication with the control room. In this way, the penetration can be rapidly isolated when a need for primary containment isolation is indicated.

EFFECTIVE DATE 12/31/2002 SUSQUEHANNA -UNIT 2 TRM/B 3.6-8

Primary Containment Closed System Boundaries B 3.6.4 B 3.6.4.

Primary Containment Closed System Boundaries BASES (continued)

ACTION A.1.1, A.1.2, A.2.1, and A.2.2 (continued)

With one or more penetration flow paths with its Primary Containment Closed System boundary inoperable, the affected portion of the closed system piping must be isolated from the rest of the closed system and the primary containment. This Condition only applies when the associated PCIV for the penetration flow path is OPERABLE. For the penetration flow paths associated with the H20 2 analyzers, both PCIVs must be OPERABLE. The method of isolation must include the use of at least one isolation barrier that cannot be adversely affected by a single active failure. Isolation barriers that meet this criterion are a closed and de-activated automatic valve, a closed manual valve, and a blind flange. Closing an intervening valve between the breach in the closed system and the open penetration is permitted when the penetration PCIV is OPERABLE. If no intervening valve exists between the closed system breach and the PCIV, then the PCIV must be closed and deactivated to ensure compliance with LCO 3.6.1.1, "Primary Containment." For the penetration flow paths associated with the H20 2 analyzers, one PCIV must be closed and deactivated. Deactivation of the H20 2 analyzer PCIVs is discussed in the TS Bases for LCO 3.6.1.3, Condition D.

The Required Actions to isolate the closed system breach, or the penetration, must be completed within the 4 hour4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> Completion Time. The Completion Time of 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> is consistent with LCO 3.6.1.3, Condition A, which applies to penetration flow paths with two PCIVs. The Primary Containment Closed System boundary is considered to be the functional equivalent to the ASME Class 2 boundary for the systemlloop which contains the penetration. Because this boundary serves as the second barrier required by General Design Criteria 55 and 56 (Ref. 3) in lieu of a second isolation valve, the same Required Actions and associated Completion Times are appropriate.

For inoperable closed system boundaries where the breach has been isolated from the rest of the closed system and primary containment (Required Action A. 1.1), or where the penetration has been isolated by a closed and deactivated PCIV (Required Action A.1.2), the affected penetration flow path(s) must be verified to be isolated on a periodic basis. This is necessary to ensure that primary containment penetrations required to be isolated following an accident, and no longer capable of being automatically isolated, will be in the isolation position should an event occur. This Required Action does not require any testing or device manipulation. Rather, it involves verification that those devices outside containment and capable of potentially being mispositioned are in the correct position. The Completion Time of "once per 31 days" is consistent with LCO 3.6.1.3, Condition A, and is appropriate because the devices are operated under administrative controls and the probability of their misalignment is low.

EFFECTIVE DATE 12/31/2002 SUSQUEHANNA - UNIT 2 TRM/B 3.6-9

"Primary Containment Closed System Boundaries B 3.6.4 B 3.6.4 Primary Containment Closed System Boundaries BASES (continued)

ACTION B.1 and B.2 (continued)

With one or more penetration flow paths with its Primary Containment Closed System boundary inoperable, the affected penetration flow path must be isolated within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> when the corresponding PCIV for the penetration flow path is also inoperable. For the penetration flow paths associated with the H20 2 analyzers, this Condition applies when one or both PCIVs are inoperable.

The method of isolation must include the use of at least one isolation barrier that cannot be adversely affected by a single active failure. Isolation barriers that meet this criterion are a closed and de-activated automatic valve, a closed manual valve, and a blind flange. The 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> Completion Time is consistent with the LCO 3.6.1.3, Condition B, which applies to penetration flow paths with two PCIVs, both of which are inoperable. Alternatively, immediate entry into the applicable Conditions and Required Actions of LCO 3.6.1.1 is permitted.

C.1 If the Required Actions and associated Completion Times of Conditions A or B cannot be met, immediate entry into LCO 3.6.1.3, Condition G or H, is directed.

The appropriate Condition to enter is determined by the operating MODE of the unit at the time of entry.

TRS TRS 3.6.4.1 The boundaries for water filled closed systems are verified to be intact by direct observation, during operator rounds, of the lack of leakage from the system (which is under pressure from the keepfill system), or by observed integrity during functional testing as required by the applicable LCO; and by the system boundary administrative controls (i.e., by procedure and checkoff lists for evolutions that affect the system boundary). The integrity of a closed system boundary, verified in accordance with the methodologies described above, is not compromised throughout the effective surveillance period by the subsequent isolation of the keepfill system and/or depressurization of a closed system.

The boundaries for air filled closed systems are verified to be intact by verification that no work has been performed since the last leak rate test in accordance with TRS 3.6.4.2, and by the system boundary administrative controls (i.e., procedure and checkoff lists for evolutions that affect the system boundary).

The Frequency corresponds to the Inservice Testing Program requirements for performing valve testing at least once every 92 days.

EFFECTIVE DATE 12/31/2002 TRM/B 3.6-10 SUSQUEHANNA -UNIT 2

Primary Containment Closed System Boundaries B 3.6.4 B 3.6.4 Primary Containment Closed System Boundaries BASES (continued)

TRS (continued)

TRS 3 6.4.2 When restoring a closed system, testing must be performed to verify system integrity. Explicit quantification of the leakage is not required for water filled closed systems. However, testing must be sufficient to assure that an essentially leaktight barrier exists (no gross leakage). For air filled closed systems, explicit leakage quantification is required, and is performed in accordance with the Leakage Rate Test Program.

The Frequency of testing is in accordance with the Leakage Rate Test Program.

REFERENCES

1.

NUREG-75/087, "Standard Review Plan for the Review of Safety Analysis Reports for Nuclear Power Plants", September 1975.

2.

FSAR Section 6.2.4, "Containment Isolation System."

3.

10 CFR 50, Appendix A, "General Design Criteria for Nuclear Power Plants."

EFFECTIVE DATE 12/31/2002 SUSQUEHANNA -UNIT 2 TRM/B 3.6-11