Revisions to Technical Requirements Manuals

ML13164A187
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Issue date:	06/05/2013
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MANUAL HARD COPY DISTRIBUTION DOCUMENT TRANSMITTAL 2013-26752 USER INFORMATION:

GERLACH*ROSE M EMPL#:028401 CA#:

0363 Address: NUCSA2 Phone#:

254-3194 TRANSMITTAL INFORMATION:

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NUCLEAR RECORDS DOCUMENT CONTROL CENTER (NUCSA-2)

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TRM2 -

TECHNICAL REQUIREMENTS MANUAL UNIT 2 REMOVE MANUAL TABLE OF CONTENTS DATE: 05/24/2013 ADD MANUAL TABLE OF CONTENTS DATE: 06/04/2013 CATEGORY:

DOCUMENTS TYPE: TRM2

Jun.

05, 2013 Page 2

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ID:

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ID:

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SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 Table Of Contents Issue Date:

C Procedure Name TEXT LOES

Title:

LIST OF EF

)6/04/2013 Rev Issue Date 79 06/04/2013 FECTIVE SECTIONS Change ID Change Number TEXT TOC

Title:

TEXT 1.1

Title:

TEXT 2.1

Title:

22 10/09/2012 TABLE OF CONTENTS 0

11/19/2002 USE AND APPLICATION DEFINITIONS 1

02/04/2005 PLANT PROGRAMS AND SETPOINTS PLANT PROGRAMS TEXT 2.2 10 01/13/2011

Title:

PLANT PROGRAMS AND SETPOINTS INSTRUMENT TRIP SETPOINT TABLE TEXT 3.0

Title:

5 06/20/2012 APPLICABILITY TECHNICAL REQUIREMENT FOR OPERATION (TRO)

APPLICABILITY TEXT 3.1.1 1

11/09/2007

Title:

REACTIVITY CONTROL SYSTEMS ANTICIPATED TRANSIENT WITHOUT SCRAM ALTERNATE ROD INJECTION (ATWS-ARI)

INSTRUMENTATION TEXT 3.1.2 0

11/19/2002

Title:

REACTIVITY CONTROL SYSTEMS CONTROL ROD DRIVE (CRD)

HOUSING SUPPORT TEXT 3.1.3 4

05/14/2009

Title:

REACTIVITY CONTROL SYSTEMS CONTROL ROD BLOCK INSTRUMENTATION TEXT 3.1.4 0

11/19/2002

Title:

REACTIVITY CONTROL SYSTEMS CONTROL ROD SCRAM ACCUMULATORS INSTRUMENTATION AND CHECK VALVE TEXT 3.2.1 10 04/25/2013

Title:

CORE OPERATING LIMITS CORE OPERATING LIMITS REPORT (COLR)

LDCN 4712 Page 1 of 15 Report Date: 06/05/13 Page 1 of 15 Report Date: 06/05/13

SSES Mk1tANUA Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT 3.3.1

Title:

INSTRUMENTATION TEXT 3.3.2

Title:

INSTRUMENTATION TEXT 3.3.3

Title:

INSTRUMENTATION TEXT 3.3.4

Title:

INSTRUMENTATION TEXT 3.3.5

Title:

INSTRUMENTATION TEXT 3.3.6

Title:

INSTRUMENTATION TEXT 3.3.7

Title:

INSTRUMENTATION TEXT 3.3.8

Title:

INSTRUMENTATION TEXT 3.3.9

Title:

INSTRUMENTATION TEXT 3.3.10

Title:

INSTRUMENTATION TEXT 3.3.11

Title:

INSTRUMENTATION TEXT 3.3.12 0

11/19/2002 RADIATION MONITORING INSTRUMENTATION 3

03/31/2011 SEISMIC MONITORING INSTRUMENTATION 2

11/09/2007 METEOROLOGICAL MONITORING INSTRUMENTATION 6

07/09/2010 TRM POST-ACCIDENT MONITORING INSTRUMENTATION 0

11/19/2002 THIS PAGE INTENTIONALLY LEFT BLANK 3

01/13/2011 TRM ISOLATION ACTUATION INSTRUMENTATION 1

11/09/2007 MAIN TURBINE OVERSPEED PROTECTION SYSTEM 1

10/22/2003 TRM RPS INSTRUMENTATION 3

05/14/2009 LPRM UPSCALE ALARM INSTRUMENTATION 1

12/14/2004 REACTOR RECIRCULATION PUMP MG SET STOPS 1

10/22/2003 MVP ISOLATION INSTRUMENTATION 0

04/16/2009

Title:

WATER MONITORING INSTRUMENTATION Page 2 of 15 Report Date: 06/05/13 Page 2 of 15 Report Date: 06/05/13

SSES MANU.AL~

Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT 3.4.1

Title:

REACTOR TEXT 3.4.2

Title:

REACTOR TEXT 3.4.3

Title:

REACTOR TEXT 3.4.4

Title:

REACTOR TEXT 3.4.5

Title:

REACTOR TEXT 3.4.6

Title:

REACTOR TEXT 3.5.1 1

04/26/2006 COOLANT SYSTEM REACTOR COOLANT SYSTEM CHEMISTRY 1

04/16/2009 COOLANT SYSTEM STRUCTURAL INTEGRITY 1

11/09/2007 COOLANT SYSTEM REACTOR COOLANT SYSTEM (RCS) 2 05/14/2009 COOLANT SYSTEM REACTOR RECIRCULATION FLOW AND ROD LINE LIMIT 1

04/26/2006 COOLANT SYSTEM REACTOR VESSEL MATERIALS 1

04/25/2013 RECIRCULATION SINGLE LOOP OPERATION SLO FLOW RATE RESTRICTION 1

02/04/2005

Title:

ECCS AND RCIC ADS MANUAL INHIBIT TEXT 3.5.2 1

11/09/2007

Title:

ECCS AND RCIC ECCS AND RCIC SYSTEM MONITORING INSTRUMENTATION TEXT 3.5.3 0

11/19/2002

Title:

ECCS AND RCIC LONG TERM NITROGEN SUPPLY TO ADS TEXT 3.6.1 0

11/19/2002

Title:

CONTAINMENT VENTING OR PURGING TEXT 3.6.2 1

08/23/2011

Title:

SUPPRESSION CHAMBER TO DRYWELL VACUUM BREAKER POSITION INDICATION TEXT 3.6.3 0

11/19/2002

Title:

CONTAINMENT SUPPRESSION POOL ALARM INSTRUMENTATION Page 3.

of 15 Report Date: 06/05/13 Page 3 of 15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT 3.6.4 0

11/19/2002

Title:

CONTAINMENT PRIMARY CONTAINMENT CLOSED SYSTEM BOUNDARIES TEXT 3.7.1

Title:

PLANT TEXT 3.7.2

Title:

PLANT TEXT 3.7.3.1

Title:

PLANT TEXT 3.7.3.2

Title:

PLANT TEXT 3.7.3.3

Title:

PLANT TEXT 3.7.3.4

Title:

PLANT TEXT 3.7.3.5

Title:

PLANT TEXT 3.7.3.6

Title:

PLANT TEXT 3.7.3.7

Title:

PLANT TEXT 3.7.3.8

Title:

PLANT TEXT 3.7.4

Title:

PLANT 0

11/19/2002 SYSTEMS EMERGENCY SERVICE WATER SYSTEM (ESW)

SHUTDOWN 0

11/19/2002 SYSTEMS ULTIMATE HEAT SINK (UHS)

AND GROUND WATER LEVEL 2

04/16/2009 SYSTEMS FIRE SUPPRESSION WATER SUPPLY SYSTEM 3

04/16/2009 SYSTEMS SPRAY AND SPRINKLER SYSTEMS 3

04/16/2009 SYSTEMS C02 SYSTEMS 2

04/16/2009 SYSTEMS HALON SYSTEMS 2

04/16/2009 SYSTEMS FIRE HOSE STATIONS 2

04/16/2009 SYSTEMS YARD FIRE HYDRANTS AND HYDRANT HOSE HOUSES 1

04/26/2006 SYSTEMS FIRE RATED ASSEMBLIES 11 09/27/2012 SYSTEMS FIRE DETECTION INSTRUMENTATION 1

04/26/2006 SYSTEMS SOLID RADWASTE SYSTEM Page 4 of 15 Report Date: 06/05/13 Page 4 of 15 Report Date: 06/05/13

SSES M.A.NUAL.

Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT 3.7.5.1

Title:

PLANT TEXT 3.7.5.2

Title:

PLANT TEXT 3.7.5.3

Title:

PLANT TEXT 3. 7.6

Title:

PLANT 0

11/19/2002 SYSTEMS MAIN CONDENSER OFFGAS HYDROGEN MONITOR 0

11/19/2002 SYSTEMS MAIN CONDENSER OFFGAS EXPLOSIVE GAS MIXTURE 1

04/26/2006 SYSTEMS LIQUID HOLDUP TANKS 3

06/04/2012 SYSTEMS ESSW PUMPHOUSE VENTILATION TEXT 3.7.7 2

09/05/2008

Title:

PLANT SYSTEMS MAIN CONDENSER OFFGAS PRETREATMENT LOGARITHMIC RADIATION MONITORING INSTRUMENTATION TEXT 3.7.8 8

09/13/2012

Title:

PLANT SYSTEMS SNUBBERS TEXT 3.7.9 1

08/28/2006

Title:

PLANT SYSTEMS CONTROL STRUCTURE HVAC TEXT 3.7.10 1

12/14/2004

Title:

PLANT SYSTEMS SPENT FUEL STORAGE POOLS (SFSPS)

TEXT 3.7.11

Title:

PLANT SYSTEMS 10/02/2009 TEXT 3.8.1 3

06/20/2012

Title:

ELECTRICAL POWER PRIMARY CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES TEXT 3.8.2.1 2

11/09/2007

Title:

ELECTRICAL POWER MOTOR OPERATED VALVES (MOV)

THERMAL OVERLOAD PROTECTION CONTINUOUS TEXT 3.8.2.2 2

12/14/2004

Title:

ELECTRICAL POWER MOTOR OPERATED VALVES (MOV)

THERMAL OVERLOAD PROTECTION AUTOMATIC Page5 of 15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT 3.8.3

Title:

ELECTRICAL TEXT 3.8.4

Title:

ELECTRICAL TEXT 3.8.5

Title:

ELECTRICAL TEXT 3.8.6

Title:

ELECTRICAL TEXT 3.8.7 2

06/20/2012 POWER DIESEL GENERATOR (DG)

MAINTENANCE ACTIVITIES 1

02/04/2005 POWER 24 VDC ELECTRICAL SUBSYSTEM 0

11/19/2002 POWER DEGRADED VOLTAGE PROTECTION 2

06/20/2012 POWER EMERGENCY SWITCHGEAR ROOM COOLING 2

10/22/2009

Title:

BATTERY MAINTENANCE AND MONITORING PROGRAM TEXT 3.9.1 0

11/19/2002

Title:

REFUELING OPERATIONS DECAY TIME TEXT 3.9.2 0

11/19/2002

Title:

REFUELING OPERATIONS COMMUNICATIONS TEXT 3.9.3 0

11/19/2002

Title:

REFUELING OPERATIONS REFUELING PLATFORM TEXT 3.10.1 1

04/26/2006

Title:

MISCELLANEOUS SEALED SOURCE CONTAMINATION TEXT 3.10.2 1

04/09/2007

Title:

MISCELLANEOUS SHUTDOWN MARGIN TEST RPS INSTRUMENTATION TEXT 3.10.3 2

06/15/2010

Title:

MISCELLANEOUS INDEPENDENT SPENT FUEL STORAGE INSTALLATION (ISFSI)

TEXT 3.11.1.1 1

04/26/2006

Title:

RADIOACTIVE EFFLUENTS LIQUID EFFLUENTS CONCENTRATION Page 6 of 15 Report Date: 06/05/13 Page 6 of 15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT 3.11.1.2

Title:

RADIOACTIVE TEXT 3.11.1.3

Title:

RADIOACTIVE TEXT 3.11.1.4

Title:

RADIOACTIVE TEXT 3.11.1.5

Title:

RADIOACTIVE TEXT 3.11.2.1

Title:

RADIOACTIVE TEXT 3.11.2.2

Title:

RADIOACTIVE TEXT 3.11.2.3

Title:

RADIOACTIVE FORM TEXT 3.11.2.4

Title:

RADIOACTIVE TEXT 3.11.2.5

Title:

RADIOACTIVE TEXT 3.11.2.6

Title:

RADIOACTIVE TEXT 3.11.3

Title:

RADIOACTIVE TEXT 3.11.4.1

Title:

RADIOACTIVE EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS EFFLUENTS 1

04/26/2006 LIQUID EFFLUENTS DOSE 1

04/26/2006 LIQUID WASTE TREATMENT SYSTEM 2

10/09/2012 LIQUID RADWASTE EFFLUENT MONITORING INSTRUMENTATION 2

05/02/2007 RADIOACTIVE LIQUID PROCESS MONITORING INSTRUMENTATION 3

04/26/2006 DOSE RATE 1

04/26/2006 DOSE -

NOBLE GASES 1

04/26/2006 DOSE -

IODINE, TRITIUM, AND RADIONUCLIDES IN PARTICULATE 0

11/19/2002 GASEOUS RADWASTE TREATMENT SYSTEM 3

11/14/2006 VENTILATION EXHAUST TREATMENT SYSTEM 4

09/16/2009 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION 1

04/26/2006 TOTAL DOSE 3

04/26/2006 MONITORING PROGRAM Page 2 of 15 Report Date: 06/05/13 Page 7 of 15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT 3.11.4.2

Title:

RADIOACTIVE EFFLUENTS TEXT 3.11.4.3

Title:

RADIOACTIVE EFFLUENTS TEXT 3.12.1

Title:

LOADS CONTROL PROGRAM TEXT 3.12.2

Title:

LOADS CONTROL PROGRAM TEXT 3.12.3

Title:

LOADS CONTROL PROGRAM 2

04/26/2006 LAND USE CENSUS 1

04/26/2006 INTERLABORATORY COMPARISON PROGRAM 0

11/19/2002 CRANE TRAVEL-SPENT FUEL STORAGE POOL 4

04/17/2008 HEAVY LOADS REQUIREMENTS 0

11/19/2002 LIGHT LOADS REQUIREMENTS 0

TEXT 4.1

Title:

ADMINISTRATIVE CONTROL 0

09/27/2003 TEXT 4.2

Title:

TEXT 4.3

Title:

TEXT 4.4

Title:

TEXT 4.5

Title:

TEXT 4.6

Title:

TEXT 4.7

Title:

ADMINISTRATIVE CONTROLS 0

ADMINISTRATIVE CONTROLS 1

ADMINISTRATIVE CONTROLS 0

ADMINISTRATIVE CONTROLS 0

ADMINISTRATIVE CONTROLS 0

ADMINISTRATIVE CONTROLS ORGANIZATION 09/27/2003 REPORTABLE EVENT ACTION 09/27/2003 SAFETY LIMIT VIOLATION 12/18/2008 PROCEDURES & PROGRAMS 09/27/2003 REPORTING REQUIREMENTS 09/27/2003 RADIATION PROTECTION PROGRAM 09/27/2003 TRAINING Page 8 of 15 Report Date: 06/05/13 Page8 of 15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT B3.0 5

06/20/2012

Title:

APPLICABILITY BASES TECHNICAL REQUIREMENT FOR OPERATION (TRO)

APPLICABILITY TEXT B3.1.1 1

11/09/2007

Title:

REACTIVITY CONTROL SYSTEM BASES ANTICIPATED TRANSIENT WITHOUT SCRAM ALTERNA ROD INJECTION (ATWS-ARI)

INSTRUMENTATION TEXT B3.1.2 0

11/19/2002

Title:

REACTIVITY CONTROL SYSTEM BASES CONTROL ROD DRIVE (CRD)

HOUSING SUPPORT TEXT B3.1.3 3

04/10/2007

Title:

REACTIVITY CONTROL SYSTEM BASES CONTROL ROD BLOCK INSTRUMENTATION TEXT B3.1.4 0

11/19/2002

Title:

REACTIVITY CONTROL SYSTEM BASES CONTROL ROD SCRAM ACCUMULATORS INSTRUMENTAT AND CHECK VALVE TE ION TEXT B3.2.1 0

11/19/2002

Title:

CORE OPERATING LIMITS BASES CORE OPERATING LIMITS REPORT (COLR)

TEXT B3.3.1 0

11/19/2002

Title:

INSTRUMENTATION BASES RADIATION MONITORING INSTRUMENTATION TEXT B3.3.2 2

03/31/2011

Title:

INSTRUMENTATION BASES SEISMIC MONITORING INSTRUMENTATION TEXT B3.3.3 2

11/09/2007

Title:

INSTRUMENTATION BASES METEOROLOGICAL MONITORING INSTRUMENTATION TEXT B3.3.4 4

07/09/2010

Title:

INSTRUMENTATION BASES TRM POST ACCIDENT MONITORING (PAM)

INSTRUMENTATION TEXT B3.3.5 2

11/09/2007

Title:

INSTRUMENTATION BASES THIS PAGE INTENTIONALLY LEFT BLANK TEXT B3.3.6 4

01/13/2011

Title:

INSTRUMENTATION BASES TRM ISOLATION ACTUATION INSTRUMENTATION Page9 of 15 Report Date: 06/05/13

SSES MANUJtAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT B3.3.7

Title:

INSTRUMENTATION TEXT B3.3.8

Title:

INSTRUMENTATION TEXT B3.3.9

Title:

INSTRUMENTATION TEXT B3.3.10

Title:

INSTRUMENTATION TEXT B3.3.11

Title:

INSTRUMENTATION 1

11/09/2007 BASES MAIN TURBINE OVERSPEED PROTECTION SYSTEM 1

10/22/2003 BASES TRM RPS INSTRUMENTATION 3

05/14/2009 BASES LPRM UPSCALE ALARM INSTRUMENTATION 3

02/22/2012 BASES REACTOR RECIRCULATION PUMP MG SET STOPS 1

10/22/2003 BASES MVP ISOLATION INSTRUMENTATION TEXT B3.3.12 0

04/16/2009

Title:

WATER MONITORING INSTRUMENTATION TEXT B3.4.1

Title:

REACTOR TEXT B3.4.2

Title:

REACTOR TEXT B3.4.3

Title:

REACTOR TEXT B3.4.4

Title:

REACTOR TEXT B3.4.5

Title:

REACTOR TEXT B3.4.6

Title:

REACTOR 0

11/19/2002 COOLANT SYSTEM BASES REACTOR COOLANT SYSTEM CHEMISTRY 1

04/16/2009 COOLANT SYSTEM BASES STRUCTURAL INTEGRITY 1

11/09/2007 COOLANT SYSTEM BASES HIGH/LOW PRESSURE INTERFACE LEAKAGE MONITOR 0

11/19/2002 COOLANT SYSTEM BASES REACTOR RECIRCULATION FLOW AND ROD LINE LIMIT 0

11/19/2002 COOLANT SYSTEM BASES REACTOR VESSEL MATERIALS 1

04/25/2013 RECIRCULATION SINGLE LOOP OPERATION SLO FLOW RATE RESTRICTION Page 10 of 15 Report Date: 06/05/13 Page 10 of.15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT B3.5.1

Title:

ECCS AND RCIC 0

11/19/2002 BASES ADS MANUAL INHIBIT TEXT B3.5.2 1

11/09/2007

Title:

ECCS AND RCIC BASES ECCS AND RCIC SYSTEM MONITORING INSTRUMENTATION TEXT B3.5.3 1

11/09/2007

Title:

ECCS AND RCIC BASES LONG TERM NITROGEN SUPPLY TO ADS TEXT B3.6.1 0

11/19/2002

Title:

CONTAINMENT BASES VENTING OR PURGING TEXT B3.6.2 0

11/19/2002

Title:

CONTAINMENT BASES SUPPRESSION CHAMBER-TO-DRYWELL VACUUM BREAKER POSITION INDICATION TEXT B3.6.3 1

04/19/2007

Title:

CONTAINMENT BASES SUPPRESSION POOL ALARM INSTRUMENTATION TEXT B3.6.4 1

12/14/2004

Title:

CONTAINMENT BASES PRIMARY CONTAINMENT CLOSED SYSTEM BOUNDARIES TEXT B3.7.1

Title:

PLANT TEXT B3.7.2

Title:

PLANT TEXT B3.7.3.1

Title:

PLANT TEXT B3.7.3.2

Title:

PLANT TEXT B3.7.3.3

Title:

PLANT SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES 0

11/19/2002 EMERGENCY SERVICE WATER SYSTEM (SHUTDOWN) 0 11/19/2002 ULTIMATE HEAT SINK (UHS)

GROUND WATER LEVEL 3

06/15/2010 FIRE SUPPRESSION WATER SUPPLY SYSTEM 2

04/26/2006 SPRAY AND SPRINKLER SYSTEMS 0

11/19/2002 C02 SYSTEMS Page ii of 15 Report Date: 06/05/13 Page 1-1 of 15 Report Date: 06/05/13

SSES MA1MIJAIA Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT B3.7.3.4

Title:

PLANT TEXT B3.7.3.5

Title:

PLANT TEXT B3.7.3.6

Title:

PLANT TEXT B3.7.3.7

Title:

PLANT TEXT B3.7.3.8

Title:

PLANT TEXT B3.7.4

Title:

PLANT TEXT B3.7.5.1

Title:

PLANT TEXT B3.7.5.2

Title:

PLANT TEXT B3.7.5.3

Title:

PLANT TEXT B3.7.6

Title:

PLANT 1

04/26/2006 HALON SYSTEMS SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES 1

04/26/2006 FIRE HOSE STATIONS 1

04/26/2006 YARD FIRE HYDRANTS AND HYDRANT HOSE HOUSES 0

11/19/2002 FIRE RATED ASSEMBLIES 3

09/27/2012 FIRE DETECTION INSTRUMENTATION 0

11/19/2002 SOLID RADWASTE SYSTEM 0

11/19/2002 MAIN CONDENSER OFFGAS HYDROGEN MONITOR 0

11/19/2002 MAIN CONDENSER OFFGAS EXPLOSIVE GAS MIXTURE 0

11/19/2002 LIQUID HOLDUP TANKS 4

06/04/2013 ESSW PUMPHOUSE VENTILATION 2

01/31/2008 TEXT B3.7.7

Title:

PLANT SYSTEMS BASES MAIN CONDENSER OFFGAS PRETREATMENT LOGARITHMIC RADIATION MONITORING INSTRUMENTATION TEXT B3.7.8 3

Title:

PLANT SYSTEMS BASES SNUBBERS 06/21/2007 Page 12 of 15 Report Date: 06/05/13 Page 12 of.15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT B3.7.9 2

12/08/2011

.Title:

PLANT SYSTEMS BASES CONTROL STRUCTURE HVAC TEXT B3.7.10 1

12/14/2004

Title:

PLANT SYSTEMS BASES SPENT FUEL STORAGE POOLS TEXT B3.7.11

Title:

STRUCTURAL INTEGRITY 2

04/14/2010 TEXT B3.8.1

Title:

ELECTRICAL PROTECTIVE TEXT B3.8.2.1

Title:

ELECTRICAL CONTINUOUS TEXT B3.8.2.2

Title:

ELECTRICAL AUTOMATIC TEXT B3.8.3

Title:

ELECTRICAL TEXT B3.8.4

Title:

ELECTRICAL TEXT B3.8.5

Title:

ELECTRICAL TEXT B3.8.6

Title:

ELECTRICAL 2

03/10/2010 POWER BASES PRIMARY CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT DEVICES 0

11/19/2002 POWER BASES MOTOR OPERATED VALVES (MOV)

THERMAL OVERLOAD PROTECTION -

1 09/17/2004 POWER BASES MOTOR OPERATED VALVES (MOV)

THERMAL OVERLOAD PROTECTION -

0 11/19/2002 POWER BASES DIESEL GENERATOR (DG)

MAINTENANCE ACTIVITIES 0

11/19/2002 POWER BASES 24 VDC ELECTRICAL POWER SUBSYSTEM 0

11/19/2002 POWER BASES DEGRADED VOLTAGE PROTECTION 3

06/20/2012 POWER BASES EMERGENCY SWITCHGEAR ROOM COOLING TEXT B3.8.7 2

06/04/2013

Title:

BATTERY MAINTENANCE AND MONITORING PROGRAM TEXT B3.9.1 0

11/19/2002

Title:

REFUELING OPERATIONS BASES DECAY TIME Page 13.

of 15Rpr at:0/51 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT B3.9.2 0

11/19/2002

Title:

REFUELING OPERATIONS BASES COMMUNICATIONS TEXT B3.9.3 0

11/19/2002

Title:

REFUELING OPERATIONS BASES REFUELING PLATFORM TEXT B3.10.1 0

11/19/2002

Title:

MISCELLANEOUS BASES SEALED SOURCE CONTAMINATION TEXT B3.10.2 1

04/10/2007

Title:

MISCELLANEOUS BASES SHUTDOWN MARGIN TEST RPS INSTRUMENTATION TEXT B3.10.3 0

11/19/2002

Title:

MISCELLANEOUS BASES INDEPENDENT SPENT FUEL STORAGE INSTALLATION (ISFSI)

TEXT B3.11.1.1

Title:

RADIOACTIVE TEXT B3.11.1.2

Title:

RADIOACTIVE TEXT B3.11.1.3

Title:

RADIOACTIVE TEXT B3.11.1.4

Title:

RADIOACTIVE TEXT B3.11.1.5

Title:

RADIOACTIVE 0

BASES 11/19/2002 LIQUID EFFLUENTS CONCENTRATION EFFLUENTS 0

11/19/2002 EFFLUENTS BASES LIQUID EFFLUENTS DOSE EFFLUENTS EFFLUENTS EFFLUENTS 0

11/19/2002 BASES LIQUID WASTE TREATMENT SYSTEM 0

11/19/2002 BASES LIQUID RADWASTE EFFLUENT MONITORING INSTRUMENTATION 0

BASES 11/19/2002 RADIOACTIVE LIQUID PROCESS MONITORING INSTRUMENTATION TEXT B3.11.2.1 1

12/14/2004

Title:

RADIOACTIVE EFFLUENTS BASES DOSE RATE TEXT B3.11.2.2 0

11/19/2002

Title:

RADIOACTIVE EFFLUENTS BASES DOSE -

NOBLE GASES Page 14 of 15 Report Date: 06/05/13 Page 14 of 15 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM2 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 2 TEXT B3.11.2.3

Title:

RADIOACTIVE EFFLUENTS PARTICULATES FORM TEXT B3.11.2.4

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.2.5

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.2.6

Title:

RADIOACTIVE EFFLUENTS INSTRUMENTATION TEXT B3.11.3

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.4.1

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.4.2

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.4.3

Title:

RADIOACTIVE EFFLUENTS TEXT B3.12.1

Title:

LOADS CONTROL PROGRAM TEXT B3.12.2

Title:

LOADS CONTROL PROGRAM TEXT B3.12.3

Title:

LOADS CONTROL PROGRAM 0

11/19/2002 BASES DOSE -

IODINE, TRITIUM, AND RADIONUCLIDES IN 0

11/19/2002 BASES GASEOUS RADWASTE TREATMENT SYSTEM 4

11/14/2006 BASES VENTILATION EXHAUST TREATMENT SYSTEM 1

01/27/2004 BASES RADIOACTIVE GASEOUS EFFLUENT MONITORING 0

11/19/2002 BASES TOTAL DOSE 4

06/04/2013 BASES MONITORING PROGRAM LDCN 5008 0

11/19/2002 BASES LAND USE CENSUS 0

11/19/2002 BASES INTERLABORATORY COMPARISON PROGRAM 1

10/04/2007 BASES CRANE TRAVEL-SPENT FUEL STORAGE POOL 1

12/03/2010 BASES HEAVY LOADS REQUIREMENTS 0

11/19/2002 BASES LIGHT LOADS REQUIREMENTS Page 25~

of 15 Report Date: 06/05/13 Page 15 of 15 Report Date: 06/05/13

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date TOC 1.0 TABLE OF CONTENTS USE AND APPLICATION Page TRM /1.0-1 Page TRM / 1.0-2 Page TRM / 1.0-3 2.0 3.0 PLANT PROGRAMS Page 2.0-1 Pages TRM / 2.0-2 and TRM 2.0-3 Page TRM / 2.0-4 Page TRM / 2.0-5 Page TRM / 2.0-6 Page TRM / 2.0-7 Pages TRM / 2.0-8 and TRM / 2.0-9 Page TRM / 2.0-10 Page TRM / 2.0-11 Page TRM / 2.0-12 Pages TRM / 2.0-13 and TRM / 2.0-14 Page TRM / 2.0-15 APPLICABILITY Pages TRM / 3.0-1 and TRM / 3.0-2 Page TRM / 3.0-3 Page TRM / 3.0-4 REACTIVITY CONTROL SYSTEMS Page TRM / 3.1-1 Pages TRM / 3.1-2 through TRM / 3.1-5 Page TRM /3.1-6 Page TRM /3.1-7 Page TRM / 3.1-8 Pages TRM / 3.1-9 and TRM / 3.1-9a Page TRM / 3.1-10 CORE OPERATING LIMITS REPORT Page TRM / 3.2-1 Pages TRM / 3.2-2 through TRM / 3.2-55 INSTRUMENTATION Pages TRM / 3.3-1 through TRM / 3.3-3 Pages TRM / 3.3-4 and TRM / 3.3-5 Page TRM / 3.3-6 Page TRM 3.3-7 Page 3.3-8 10/09/2012 08/31/1998 10/04/2002 08/31/1998 08/31/1998 01/28/2005 06/25/2002 04/12/1999 04/15/2009 05/15/2008 01/07/2011 02/02/2010 11/15/2004 04/15/2009 11/15/2004 11/15/2005 06/12/2012 03/15/2002 11/30/2005 10/31/2007 08/31/1998 03/27/2007 04/15/2009 03/27/2007 02/18/1999 02/18/1999 08/31/1998 04/25/2013 07/16/1999 10/31/2007 03/10/2011 10/31/2007 08/31/1998 3.1 3.2 3.3 SUSQUEHANNA - UNIT 2 TRM / LOES-1 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 2 TRM / LOES-1 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date 3.4 Pages TRM / 3.3-9 and TRM / 3.3-9a Page TRM / 3.3-10 Pages TRM / 3.3-11 and TRM / 3.3-1 la Page TRM / 3.3-12 Page TRM / 3.3-13 Page TRM / 3.3-14 Pages TRM / 3.3-15 and TRM / 3.3-16 Page TRM / 3.3-17 Page TRM / 3.3-18 Pages TRM / 3.3-19 and TRM / 3.3-20 Page TRM / 3.3-21 Page TRM / 3.3-21a Pages TRM /3.3-21b through TRM / 3.3-21d Page TRM / 3.3-22 Pages TRM / 3.3-23 and TRM / 3.3-24 Page TRM / 3.3-25 Pages TRM / 3.3-26 and TRM / 3.3-27 REACTOR COOLANT SYSTEM Page TRM / 3.4-1 Pages 3.4-2 through 3.4-5 Pages TRM / 3.4-6 through TRM / 3.4-8 Page 3.4-9 Page 3.4-10 Page 3.4-11 Page TRM / 3.4-12 Page TRM / 3.4-13 Page TRM / 3.4-14 EMERGENCY CORE COOLING AND RCIC Page TRM / 3.5-1 Pages 3.5-2 and 3.5-3 Page TRM / 3.5-4 Pages 3.5-5 through 3.5-7 CONTAINMENT Pages 3.6-1 and 3.6-2 Pages TRM / 3.6-3 and TRM / 3.6-3a Page 3.6-4 Page TRM / 3.6-5 Page 3.6-6 Pages TRM / 3.6-7 through TRM / 3.6-9 06/30/2010 10/31/2007 06/30/2010 03/30/2001 01/07/2011 12/14/1998 01/07/2011 06/14/2002 10/31/2007 10/22/2003 04/15/2009 11/15/2004 03/27/2007 12/03/2004 05/16/2003 10/22/2003 04/07/2009 03/31/2006 10/23/1998 04/01/2009 08/31/1998 10/31/2007 08/31/1998 04/17/2009 03/31/2006 04/25/2013 01/28/2005 08/31/1998 10/31/2007 08/31/1998 08/31/1998 08/11/2011 08/31/1998 01/07/2002 08/31/1998 12/31/2002 3.5 3.6 SUSQUEHANNA

- UNIT 2 TRM / LOES-2 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 2 TRM / LOES-2 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date 3.7 PLANT SYSTEMS Pages TRM / 3.7-1 and TRM / 3.7-2 Page 3.7-3 Page TRM / 3.7-4 Page TRM / 3.7-5 Pages TRM / 3.7-6 through TRM / 3.7-8 Pages TRM / 3.7-9 and TRM / 3.7-10 Page TRM / 3.7-11 Page TRM / 3.7-12 Page TRM / 3.7-13 Page TRM / 3.7-14 Pages TRM / 3.7-15 and TRM / 3.7-16 Page TRM / 3.7-17 Page TRM / 3.7-18 Page TRM / 3.7-19 Pages TRM / 3.7-20 through TRM / 3.7-22 Page TRM / 3.7-23 Page TRM / 3.7-24 Page TRM / 3.7-25 Page TRM / 3.7-26 Page TRM / 3.7-27 Pages TRM / 3.7-28 through TRM / 3.7-33 Page TRM / 3.7-34 Pages TRM / 3.7-35 and TRM / 3.7-36 Pages 3.7-37 through 3.7-38 Page TRM / 3.7-39 Page TRM / 3.7-40 Pages TRM / 3.7-40a through TRM / 3.7-40c Page TRM / 3.7-41 Page TRM / 3.7-42 Pages TRM / 3.7-43 through TRM / 3.7-45 Page TRM / 3.7-46 Page TRM / 3.7-47 Page TRM / 3.7-48 Page TRM / 3.7-49 Page TRM / 3.7-50 Page TRM / 3.7-51 Page TRM / 3.7-52 Page TRM / 3.7-53 Page TRM / 3.7-54 Page TRM / 3.7-55 Page TRM / 3.7-56 07/29/1999 08/31/1998 03/31/2006 04/07/2009 08/02/1999 04/07/2009 01/21/2000 08/02/1999 04/07/2009 08/09/2005 08/02/1999 04/07/2009 08/02/1999 04/07/2009 08/02/1999 04/07/2009 03/31/2006 08/02/1999 09/25/2012 11/24/2011 09/25/2012 03/31/2006 02/01/1999 08/31/1998 03/31/2006 05/24/2012 05/24/2012 09/04/2008 08/31/1998 10/05/2006 06/07/2007 09/05/2012 06/07/2007 03/09/2001 08/16/2006 12/03/2004 04/15/2003 07/29/1999 04/01/2009 09/25/2009 04/01/2009 SUSQUEHANNA-UNIT 2 TRM / LOES-3 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 2 TRM / LOES-3 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date 3.8 ELECTRICAL POWER Page TRM / 3.8-1 Page TRM / 3.8-2 Pages TRM / 3.8-3 and TRM / 3.8-4 Pages TRM / 3.8-5 and TRM / 3.8-6 Pages TRM / 3.8-7 through TRM / 3.8-10 Page TRM / 3.8-11 Page TRM / 3.8-12 Page TRM / 3.8-13 Page TRM / 3.8-14 Page TRM / 3.8-15 Pages TRM / 3.8-16 and TRM / 3.8-17 Page 3.8-18 Page TRM / 3.8-19.

Page TRM / 3.8-20 Pages TRM / 3.8-21 through TRM / 3.8-23 Page TRM / 3.8-24 Page TRM / 3.8-25 Pages TRM / 3.8-25a and TRM / 3.8-25b Page TRM / 3.8-26 Page TRM / 3.8-27 Page TRM / 3.8-28 Page TRM / 3.8-29 04/02/2002 01/28/2005 06/12/2012 04/02/2002 10/31/2007 08/10/2004 12/03/2004 06/12/2012 08/31/1998 01/28/2005 04/02/2002 02/01/1999 04/02/2002 02/01/1999 06/06/1999 11/30/2011 06/11/2012 11/30/2011 05/28/2009 11/29/2006 05/28/2009 10/20/2009 08/31/1998 03/31/2006 08/30/1998 03/27/2007 06/10/2010 3.9 REFUELING OPERATIONS Pages 3.9-1 through 3.9-3 3.10 3.11 MISCELLANEOUS Page TRM / 3.10-1 Pages 3.10-2 through 3.10-4 Pages TRM / 3.10-5 and TRM / 3.10-6 Page TRM /3.10-7 RADIOACTIVE EFFLUENTS Page TRM / 3.11-1 Pages 3.11-2 through 3.11-3 Page TRM / 3.11-4 Page 3.11-5 Page TRM / 3.11-6 Pages 3.11-7 and TRM / 3.11-8 Pages TRM / 3.11-9 and TRM / 3.11-10 Pages TRM / 3.11-11 and TRM / 3.11-12 Page TRM / 3.11-13 Page TRM / 3.11-14 Pages 3.11-15 and 3.11-16 Page TRM /3.11-17 03/31/2006 08/31/1998 03/31/2006 08/31/1998 03/31/2006 08/31/1998 10/09/2012 08/31/1998 04/12/2007 12/03/1004 09/01/1998 03/31/2006 SUSQUEHANNA - UNIT 2 TRM / LOES-4 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date Page 3.11-18 Page TRM / 3.11-19 Pages TRM / 3.11-20 and TRM / 3.11-21 Page TRM / 3.11-22 Page TRM / 3.11-23 Page TRM / 3.11-24 Page TRM / 3.11-25 Pages TRM / 3.11-26 and TRM / 3.11-27 Page TRM / 3.11-28 Page TRM / 3.11-29 Pages TRM 3.11-30 through TRM / 3.11-32 Page TRM / 3.11-33 Page 3.11-34 Page TRM / 3.11-35 Pages TRM / 3.11-36 through TRM / 3.11-39 Pages 3.11-40 through 3.11-44 Page TRM / 3.11-45 Page 3.11-46 Page TRM / 3.11-47 LOADS CONTROL PROGRAM Pages TRM / 3.12-1 through TRM / 3.12-3 Page TRM / 3.12-4 Page TRM / 3.12-5 ADMINISTRATIVE CONTROLS Pages TRM / 4.0-1 through TRM / 4.0-3 Page TRM / 4.0-4 Pages TRM / 4.0-5 through TRM / 4.0-8 08/31/1998 08/15/2005 03/31/2006 04/02/2002 11/14/2006 05/13/2005 04/12/2007 01/21/2004 09/08/2009 12/03/2004 01/21/2004 03/31/2006 08/31/1998 03/31/2006 11/30/2005 08/31/1998 03/31/2006 08/31/1998 03/31/2006 02/05/1999 03/14/2008 02/05/1999 08/31/1998 12/11/2008 08/31/1998 3.12 4.0 SUSQUEHANNA - UNIT 2 TRM / LOES-5 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 2 TRM / LOES-5 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date B 3.0 APPLICABILITY BASES Pages TRM / B 3.0-1 through TRM / B 3.0-3 Page TRM / B 3.0-4 Pages TRM / B 3.0-5 through TRM / B 3.0-7 Pages TRM / B 3.0-8 through TRM / B 3.0-10 Pages TRM / B 3.0-11 and TRM / B 3.0-12 Pages TRM / B 3.0-13 and TRM / B 3.0-14 Page TRM / B 3.0-15 B3.1 B 3.2 B 3.3 REACTIVITY CONTROL SYSTEMS BASES Page TRM / B 3.1-1 Pages TRM / B 3.1-2 and TRM / 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 CORE OPERATING LIMITS BASES Page B 3.2-1 INSTRUMENTATION BASES Page TRM / B 3.3-1 Page TRM / B 3.3-2 Page TRM / B-3.3-2a Pages TRM / B 3.3-3 and TRM / B 3.3-3a Page TRM / B 3.3-4 Page TRM / B 3.3-5 Page TRM / B 3.3-6 Page TRM / B 3.3-7 Page TRM / B 3.3-8 Page TRM / B 3.3-9 Pages TRM / B 3.3-10 through TRM / B 3.3-13 Page TRM / B 3.3-14 Page TRM / B 3.3-14a Page TRM / B 3.3-14b Pages TRM / B 3.3-15 through TRM / B 3.3-17 Pages TRM / B 3.3-18 and TRM / B 3.3-19 Pages TRM / B 3.3-19a and TRM / B 3.3-19b Page TRM / B 3.3-19c Pages TRM / B 3.3-19d and TRM / B 3.3-19e Page TRM / B 3.3-20 Page TRM / B 3.3-21 Page TRM / B 3.3-22 Page TRM / B 3.3-23 Pages TRM / B 3.3-24 and TRM / B 3.3-25 08/31/1998 01/10/2007 06/12/2012 08/31/1998 03/15/2002 11/30/2005 03/15/2002 07/13/1999 10/31/2007 08/31/1998 03/27/2007 02/18/1999 08/31/1998 04/07/2000 03/10/2011 10/31/2007 10/31/2007 06/30/2010 05/30/2006 06/30/2010 10/31/2007 06/30/2010 10/31/2007 01/07/2011 06/25/2002 10/31/2007 06/14/2002 10/22/2003 03/27/2007 03/27/2007 04/17/2009 03/27/2007 02/16/2012 08/03/2010 10/22/2003 05/16/2003 04/07/2009 SUSQUEHANNA - UNIT 2 TRM / LOES-6 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date B 3.4 B 3.5 B 3.6 REACTOR COOLANT SYSTEM BASES Page TRM / B 3.4-1 Pages TRM / B 3.4-2 and TRM / B3.4-3 Pages TRM / B 3.4-4 and TRM / B 3.4-4a Page TRM / B 3.4-5 Page B 3.4-6 Page TRM / B 3.4-7 ECCS AND RCIC BASES Pages B 3.5-1 and B 3.5-2 Pages TRM / B 3.5-3 and TRM / B 3.5-3a Page B 3.5-4 Page TRM / 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 Page TRM / B 3.6-6 Pages TRM / B 3.6-7 through TRM / B 3.6-11 PLANT SYSTEMS BASES Pages B 3.7-1 and B 3.7-2 Page TRM / B 3.7-3 Page TRM / B 3.7-3a Page TRM / B 3.7-4 Page TRM / B 3.7-5 Pages TRM / B 3.7-6 and TRM / B 3.7-6a Pages TRM / B 3.7-7 and TRM / B 3.7-7a Page TRM / B 3.7-8 Page TRM / B 3.7-9 Page TRM / B 3.7-10 Pages TRM / B 3.7-10a through TRM / B 3.7-11a Pages TRM / B 3.7-12 and TRM / B 3.7-13 Pages TRM / B 3.7-14 through TRM / B 3.7-14b Pages TRM / B 3.7-15 and TRM / B 3.7-16 Pages B 3.7-17 through B 3.7-20 Page TRM / B 3.7-21 Pages TRM / B 3.7-21a through TRM / B 3.7-21d Pages TRM / B 3.7-21e through TRM / B 3.7-21g Pages TRM / B 3.7-22 and TRM / B 3.7-23 Pages TRM / B 3.7-24 through TRM / B 3.7-29 08/31/1998 04/01/2009 10/31/2007 10/15/1999 08/31/1998 04/25/2013 08/31/1998 10/31/2007 08/31/1998 10/31/2007 07/26/2001 02/01/1999 08/31/1998 03/29/2007 04/04/2007 12/03/2004 12/31/2002 08/31/1998 06/10/2010 12/27/2007 03/31/2006 08/02/1999 03/31/2006 08/02/1999 08/02/1999 03/31/2006 08/02/1999 03/31/2006 08/02/1999 09/25/2012 02/01/1999 08/31/1998 05/29/2013 05/24/2012 05/29/2013 01/30/2008 10/05/2006 B 3.7 SUSQUEHANNA-UNIT2 TRM / LOES-7 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 2 TRM / LOES-7 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date B 3.8 B.3.9 Page TRM / B 3.7-30 Pages TRM / B 3.7-30a and TRM / B 3.7-30b Page TRM / B 3.7-31 Page TRM / B 3.7-32 Page TRM / B 3.7-33 Page TRM / B 3.7-34 Page TRM / B 3.7-35 Pages TRM / B 3.7-36 and TRM / B 3.7-37 Page TRM / B 3.7-38 Page TRM / B 3.7-39 Page TRM / B 3.7-40 ELECTRICAL POWER BASES Page TRM / B 3.8-1 Pages TRM / B 3.8-2 and TRM / B 3.8-2 Page TRM / B 3.8-2a Pages TRM / B 3.8-3 and TRM / B 3.8-3a Page TRM / B 3.8-4 Page TRM / B 3.8-4a Page TRM / B 3.8-5 Pages TRM / B 3.8-6 through TRM / B 3.8-16 Page TRM / B 3.8-17 Page TRM / B 3.8-17a Page TRM / B 3.8-17b Pages TRM / B 3.8-18 through TRM / B 3.8-20 Pages TRM / B 3.8-21 and TRM / B 3.8-22 Page TRM / B 3.8-23 Page TRM / B 3.8-24 REFUELING OPERATIONS BASES Pages B 3.9-1 and B 3.9-2 Pages B 3.9-3 through B 3.9-7 06/07/2007 10/05/2006 11/30/2011 03/09/2001 04/15/2003 12/03/2004 07/05/2000 04/01/2009 09/25/2009 04/01/2009 04/08/2010 04/02/2002 01/28/2005 03/01/2010 04/02/2002 04/02/2002 08/10/2004 08/31/1998 04/02/2002 11/30/2011 06/11/2012 11/30/2011 05/29/2013 05/28/2009 05/29/2013 05/28/2009 08/31/1998 10/23/1998 08/31/1998 03/27/2007 08/23/1999 B 3.10 MISCELLANEOUS BASES Page B 3.10-1 Pages TRM / B 3.10-2 and TRM / B 3.10-3 Pages TRM / B 3.10-4 and TRM / B 3.10-5 SUSQUEHANNA - UNIT 2 TRM / LOES-8 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 79 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title B 3.11 RADIOACTIVE EFFLUENTS BASES Pages B 3.11-1 through B 3.11-9 Page TRM / B 3.11-10 Pages TRM / B 3.11-11 and TRM / B 3.11-11a Pages TRM / B 3.11-12 and TRM / B 3.11-13 Page TRM / B 3.11-14 Page TRM / B 3.11-15 Pages B 3.11-16 through B 3.11-19 Pages TRM / B 3.11-20 and TRM / B 3.11-20a Page TRM / B 3.11-21 Pages TRM / B 3.11-22 and TRM / B 3.11-23 Page TRM / B 3.11-23a Pages TRM / B 3.11-24 and TRM / B 3.11-25 Pages B 3.11-26 through B 3.11-27 Pages TRM / B 3.11-28 and TRM / B 3.11-29 Pages TRM / B 3.11-30 and TRM / B 3.11-31 Page TRM / B 3.11-32 Page TRM / B 3.11-33 Pages TRM / B 3.11-34 and TRM / B 3.11-35 Page TRM / B 3.11-36 B.3.12 LOADS CONTROL PROGRAM BASES Page TRM / B 3.12-1 Page TRM / B 3.12-2 Page TRM / B 3.12-3 Effective Date 08/31/1998 02/01/1999 04/07/2000 02/01/1999 12/03/2004 02/01/1999 08/31/1998 04/02/2002 05/13/2005 11/14/2006 05/13/2005 01/21/2004 08/31/1998 11/30/2005 05/29/2013 08/31/1998 06/30/2010 08/31/1998 02/12/1999 09/19/2007 11/29/2010 02/05/1999 TRM2 text LOES.doc 5130/2013 SUSQUEHANNA

- UNIT 2 TRM / LOES-9 EFFECTIVE DATE 05/29/2013 SUSQU EHAN NA - U N IT 2 TRM / LOES-9 EFFECTIVE DATE 05/29/2013

ESSW Pumphouse Ventilation PPL Rev. 4 B 3.7.6 B 3.7.6 ESSW Pumphouse Ventilation BASES TRO The ESSW Pumphouse Ventilation System provides heat removal capability to ensure equipment temperature limits are maintained for the ESW pumps and the Unit 1 and Unit 2 RHRSW pumps. These pumps are required to operate to mitigate a design basis event. The ESSW Pumphouse ventilation system consists of two subsystems that provide the primary means to remove heat from the pumphouse. Each subsystem consists of four trains but only two fan trains in a subsystem are required for operability. A train consists of a fan and associated dampers. The associated dampers for a fan train are an outside supply damper, two recirculation dampers and an exhaust damper. The fail safe position of the outside supply and exhaust dampers is closed and the recirculation damper fail safe position is open.

Note that when the outside supply damper is placed in the fail safe position (closed), one of the recirculation dampers should be gagged in the open position to prevent potential fan damage. Placing the outside supply damper in the fail safe position assures that a single failure of an outside supply damper will not cause freezing temperatures in the subsystem during winter. Analysis has shown that two fan trains in a subsystem (fan, duct, dampers and associated controls) will maintain temperatures within operability limits. Analysis has also shown that one fan train assures adequate cooling (36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />) during summer months.

If only one damper or multiple dampers in one fan train are failed, the appropriate damper positions are closed for the supply and exhaust dampers and open for the recirculation dampers regardless of the time of year (see Table B3.7.6-1). If the supply damper is failed or gagged closed, one of the recirculation dampers must be opened to prevent potential fan damage. The above actions allow the dampers to remain in the above configuration through any season since the remaining fan systems can maintain temperatures in the pumphouse. With the exception of the supply damper failure requiring one recirculation damper to be gagged open, only the damper or dampers that are failed need to be placed in the position dictated by Table B3.7.6-1 or as directed by Engineering. The affected fan train is considered not operable.

If one damper or multiple dampers in two or three fan trains are failed during June, July or August, the appropriate damper positions is open for the supply and exhaust dampers and closed for the recirculation dampers (see Table B3.7.6-2). Note that the time frames are for when the damper failure initially occurred and changes to damper positions are not required even if the TRO carries into an adjacent month. If one damper or multiple dampers (continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.7-21 EFFECTIVE DATE 05/29/2013

ESSW Pumphouse Ventilation B 3.7.6 PPL Rev. 4 B 3.7.6 ESSW Pumphouse Ventilation BASES TRO (continued) in two or three fan trains are failed during any month except June, July or August, the appropriate damper positions is closed for the supply and exhaust dampers and open for the recirculation dampers (see Table B3.7.6-3). All dampers in the affected train must be placed in the position specified in Table B3.7.6-2 or Table B3.7.6-3 or as directed by Engineering. If the supply damper is failed closed, one of the recirculation dampers must be opened to prevent potential fan damage. The damper configuration in Table 3.7.6-2 maintains the fan train operable if the fan is operable.

If all 4 Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are failed and three Division II fan trains (0V521 B, 0V521 D, 1V506B and 2V506B) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-0, Door 1701-0 and Door 1706-0 and confirming Door 1704-0 and 1705-0 are closed. If all 4 Division II fan trains (0V521 B, 0V521 D, 1V506B and 2V506B) are failed and three Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-0, confirming Door 1704-0 and 1705-0 are closed and gagging open two exhaust dampers in Division I1. Note that during winter months this will require additional heater installation. Other appropriate ventilation alignment will be determined by engineering.

Each ventilation subsystem provides cooling for separate divisions of equipment. Each division consists of two ESW pumps, one Unit 1 RHRSW pump and one Unit 2 RHRSW pump. The two ESSW Pumphouse Ventilation Subsystems provide the normal and emergency ventilation for the ESSW pumphouse. (Reference 1)

ACTIONS The ACTIONS are modified by two Notes. Note 1 directs the entry into both a Condition for an inoperable fan(s) and Condition D, E, F or G for inoperable dampers when both one or more fans and one or more dampers are inoperable. Should the fan(s) and one or more dampers in an ESSW Pumphouse Ventilation Subsystem fan train(s) be inoperable, entry into two Conditions is required.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.7-21 a EFFECTIVE DATE 05/24/2012

ESSW Pumphouse Ventilation B 3.7.6 PPL Rev. 4 B 3.7.6 ESSW Pumphouse Ventilation BASES ACTIONS (continued)

Note 2 allows a gagged damper to be un-gagged intermittently under administrative controls to allow for work and/or operability testing. These controls consist of stationing a dedicated person capable of installing a gag, who is in communication with the control room, at the damper. In this way, the damper can be re-gagged if the associated ESW/RHRSW pump starts.

An exception to the administrative control requirement to have a dedicated person stationed at the damper is when a damper has been repaired and successfully tested for operability but all of the required documentation has not been completed (i.e., functional but not administratively operable). If an inoperable damper remains un-gagged under administrative controls for a period of time greater than allowed by the action statements (i.e., 72 hrs.),

the associated ESW\\RHRSW pump must be declared inoperable.

The Actions are defined to ensure proper corrective measures are taken in response to inoperable components. The completion times are similar to completion times for the ESW system and are also based on engineering judgement that accounts for the fact that the system is a support system whose function is to maintain the ESSW Pumphouse temperature within limits.

Each subsystem of ESSW pumphouse equipment can maintain acceptable temperatures to meet design basis limits when all ventilation subsystem fan trains are operable. If a fan's associated damper(s) are inoperable, the associated fan subsystem can perform its intended safety function provided the inoperable fan(s) damper(s) are gagged in the appropriate position as determined by Tables B3.7.6-1, B3.7.6-2 and B3.7.6-3 or by Engineering.

The gagged damper position ensures that the ambient temperatures will remain within limits thus assuring operability of ESSW pumphouse equipment. An inoperable fan reduces the cooling capability of the subsystem thus compromising the subsystem ability to maintain temperatures within design limits.

Conditions D, E, F and G relate to inoperable dampers in a subsystem.

Condition D is specific to the failure of one or more dampers on one fan train in a subsystem. Condition D requires the dampers to be gagged in the fail safe position. Adequate cooling to the division will be provided by the remaining fans.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.7-21 b EFFECTIVE DATE 05/24/2012

ESSW Pumphouse Ventilation B 3.7.6 PPL Rev. 4 B 3.7.6 ESSW Pumphouse Ventilation BASES ACTIONS (continued)

An example of a hypothetical Condition D entry would be the failure of the

'D' ESW Fan supply damper (TD-08206D1). This condition would require gagging the damper or securing and deactivating the damper actuator in the fail safe position (closed for this damper) within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> due to Condition D entry assuming all other dampers in the division are operable.

If the 'D' ESW fan exhaust damper (TD-08206D4) were to fail at a later date (but before the 'D' ESW supply damper was repaired), entry into Condition D would be required for the 'D' ESW exhaust damper since it is associated with the same fan train as the 'D' ESW supply damper.

A second example is provided for the hypothetical entry into Condition E. If the 'D' ESW supply damper (TD08206D1) failed, entry into Condition D would be required and the damper would be gagged in the fail safe position (closed for this damper) assuming all other dampers in the division are operable. If the 'B' ESW supply damper (TD08206B1) failed at a later date (but before the 'D' ESW supply damper was repaired), separate entry into Condition E would be required since it is associated with a different fan train. Additional damper failures would require entry into either Condition F orG.

Conditions D, E, F and G are modified by a separate note to allow separate Condition entry for each damper. The purpose of this note is to allow adequate time to gag or secure and deactivate the damper actuator of the damper that has failed. This is acceptable since the Required Action for this condition provides appropriate compensatory actions.

Condition G contains an action to establish an appropriate flow path within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />. If all 4 Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are failed and three Division II fan trains (0V521 B, 0V521D, 1V506B and 2V506B) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-0, Door 1701-0 and Door 1706-0 and confirming Door 1704-0 and 1705-0 are closed. If all 4 Division II fan trains (0V521B, 0V521D, 1V506B and 2V506B) are failed and three Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-0, confirming Door 1704-0 and 1705-0 are closed and gagging open two exhaust dampers in Division II. Note that during winter months this will require additional heater installation. Other appropriate ventilation alignment will be determined by engineering.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.7-21c EFFECTIVE DATE 05/24/2012

ESSW Pumphouse Ventilation B 3.7.6 PPL Rev. 4 B 3.7.6 ESSW Pumphouse Ventilation BASES TRS The TRSs are defined to be performed at the specified Frequency to ensure that the ESSW Pumphouse Ventilation Systems are maintained OPERABLE.

Verifying the fans are OPERABLE includes ensuring fans and associated dampers have properly functioned when operated to support normal pump operation. This ensures adequate pump heat removal capability.

REFERENCES

1.

FSAR Section 9.4.8

2.

Safety Evaluation NL-99-057

3.

50.59 SD 00756 SUSQUEHANNA - UNIT 2 TRM / B 3.7-21d EFFECTIVE DATE 05/24/2012

ESSW Pumphouse Ventilation B 3.7.6 PPL Rev. 4 Table B3.7.6-1: Damper Position for One (1) Fan Train Inoperable Due to Inoperable Damper(s)

Affected Fan Failed Damper Gagged or Secured Position Train 0V521A Closed: TD-08206A1 "Supply" and TD-08206A4 "Exhaust" Open: TD-08206A2 and TD-08206A3 "Recirculation Dampers" 0V521 C Closed: TD-08206C1 "Supply" and TD-08206C4 "Exhaust" Open: TD-08206C2 and TD-08206C3 "Recirculation Dampers" 1V506A Closed: TD-18201A1 "Supply" and TD-18201A4 "Exhaust" Open: TD-18201A2 and TD-18201A3 "Recirculation Dampers" 2V506A Closed: TD-28201A1 "Supply" and TD-28201A4 "Exhaust" Open: TD-28201A2 and TD-28201A3 "Recirculation Dampers" 0V521 B Closed: TD-08206B1 "Supply" and TD-08206B4 "Exhaust" Open: TD-08206B2 and TD-08206B3 "Recirculation Dampers" 0V521 D Closed: TD-08206D1 "Supply" and TD-08206D4 "Exhaust" Open: TD-08206D2 and TD-08206D3 "Recirculation Dampers" 1V506B Closed: TD-182011B1 "Supply" and TD-18201 B4 "Exhaust" Open: TD-18201B2 and TD-18201B3 "Recirculation Dampers" 2V506B Closed: TD-28201 B1 "Supply" and TD-28201 B4 "Exhaust" Open: TD-28201 B2 and TD-28201 B3 "Recirculation Dampers" Note: With the exception of the supply damper failure requiring one recirculation damper to be gagged open, only the damper or dampers that are failed need to be placed in the position dictated by this table or as directed by Engineering.

SUSQUEHANNA - UNIT 2 TRM / B 3.7-21e EFFECTIVE DATE 05/29/2013

ESSW Pumphouse Ventilation B 3.7.6 PPL Rev. 4 Table B3.7.6-2: Damper Position for Two (2) or Three (3) Fan Trains Inoperable Due to Inoperable Damper(s) During June, July or August Affected Fan Failed Damper Gagged or Secured Position Train 0V521A Closed: TD-08206A2 and TD-08206A3 "Recirculation Dampers" Open: TD-08206A1 "Supply" and TD-08206A4 "Exhaust" 0V521C Closed: TD-08206C2 and TD-08206C3 "Recirculation Dampers" Open: TD-08206C1 "Supply" and TD-08206C4 "Exhaust" 1V506A Closed: TD-18201A2 and TD-18201A3 "Recirculation Dampers" Open: TD-18201A1 "Supply" and TD-18201A4 "Exhaust" 2V506A Closed: TD-28201A2 and TD-28201A3 "Recirculation Dampers" Open: TD-28201A1 "Supply" and TD-28201A4 "Exhaust" 0V521 B Closed: TD-08206B2 and TD-08206B3 "Recirculation Dampers" Open: TD-08206B1 "Supply" and TD-08206B4 "Exhaust' 0V521 D Closed: TD-08206D2 and TD-08206D3 "Recirculation Dampers" Open: TD-08206D1 "Supply" and TD-08206D4 "Exhaust" 1V506B Closed: TD-182011B2 and TD-118201 B3 "Recirculation Dampers" Open: TD-18201 B1 "Supply" and TD-182011B4 "Exhaust" 2V506B Closed: TD-28201 B2 and TD-28201 B3 "Recirculation Dampers" Open: TD-28201 B1 "Supply" and TD-28201 B4 "Exhaust" Note: All dampers in the affected train must be placed in the position specified in this table or as directed by Engineering. The damper configuration in this table maintains the fan train operable if the fan is operable.

SUSQUEHANNA - UNIT 2 TRM / B 3.7-21f EFFECTIVE DATE 05/29/2013

ESSW Pumphouse Ventilation B 3.7.6 PPL Rev. 4 Table B3.7.6-3: Damper Position for Two (2) or Three (3) Fan Trains Inoperable Due to Inoperable Damper(s) During September through May Affected Fan Failed Damper Gagged or Secured Position Train 0V521A Closed: TD-08206A1 "Supply" and TD-08206A4 "Exhaust" Open: TD-08206A2 and TD-08206A3 "Recirculation Dampers" 0V521C Closed: TD-08206C1 "Supply" and TD-08206C4 "Exhaust" Open: TD-08206C2 and TD-08206C3 "Recirculation Dampers" 1V506A Closed: TD-18201A1 "Supply" and TD-18201A4 "Exhaust" Open: TD-18201A2 and TD-18201A3 "Recirculation Dampers" 2V506A Closed: TD-28201A1 "Supply" and TD-28201A4 "Exhaust" Open: TD-28201A2 and TD-28201A3 "Recirculation Dampers" 0V521 B Closed: TD-08206B1 "Supply" and TD-08206B4 "Exhaust" Open: TD-08206B2 and TD-08206B3 "Recirculation Dampers" 0V521 D Closed: TD-08206D1 "Supply" and TD-08206D4 "Exhaust" Open: TD-08206D2 and TD-08206D3 "Recirculation Dampers" 1V506B Closed: TD-18201 B1 "Supply" and TD-18201 B4 "Exhaust" Open: TD-182011B2 and TD-18201B3 "Recirculation Dampers" 2V506B Closed: TD-28201B1 "Supply" and TD-28201B4 "Exhaust" Open: TD-28201 B2 and TD-28201B3 "Recirculation Dampers" Note: All dampers in the affected train must be placed in the position specified in this table or as directed by Engineering. If the supply damper is failed closed, one of the recirculation dampers must be opened to prevent potential fan damage.

SUSQUEHANNA - UNIT 2 TRM / B 3.7-21g EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 B 3.8.7 Battery Monitoring and Maintenance Program BASES BACKGROUND This TRO delineates the limits on electrolyte temperature, electrolyte level, float voltage, and specific gravity for the Unit 1, when common loads are aligned, and Unit 2 DC electrical power subsystems batteries and comprises the "Battery Monitoring and Maintenance Program" as required under Technical Specification 5.5.13. A discussion of these batteries and their OPERABILITY requirements is provided in the Bases for Technical Specification LCO 3.8.4, "DC Sources-Operating," and LCO 3.8.5, "DC Sources-Shutdown."

APPLICABLE SAFETY ANALYSES The initial conditions of Design Basis Accident (DBA) and transient analyses in FSAR, Chapter 6 (Ref. 1) and Chapter 15 (Ref. 2), assume Engineered Safety Feature systems are OPERABLE. The DC electrical power subsystems provide normal and emergency DC electrical power for the diesel generators (DGs), emergency auxiliaries, and control and switching during all MODES of operation.

The OPERABILITY of the DC subsystems is consistent with the initial assumptions of the accident analyses and is based upon meeting the design basis of the unit. This includes maintaining DC sources identified in Technical Specification Table 3.8.4-1 OPERABLE during accident conditions, in the event of:

a.

An assumed loss of all offsite AC or all onsite AC power, and

b.

A worst case single failure.

Since battery cell parameters support the operation of the DC electrical power subsystems, they satisfy Criterion 3 of the NRC Policy Statement (Ref. 3).

TRO Battery cell parameters must remain within acceptable limits to ensure availability of the required DC power to shut down the reactor and maintain it in a safe condition after an anticipated operational occurrence or a postulated DBA.

Electrolyte limits are conservatively established, allowing continued DC electrical system function even with Category A limits not met (continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.8-18 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES (continued)

APPLICABILITY The battery cell parameters are required solely for the support of the associated DC electrical power subsystem. Therefore, battery cell parameters are required to be within required limits only when the associated DC power source is required to be OPERABLE. Refer to the Applicability discussions in Technical Specification Bases for LCO 3.8.4 and LCO 3.8.5.

ACTIONS A Note has been added to provide clarification that, for the purpose of this TRO, separate Condition entry is allowed for each battery. This is acceptable, since the Required Actions for each Condition provide appro-priate compensatory actions for each inoperable battery. Complying with the Required Actions may allow for continued operation, and subsequent inoperable batteries are governed by subsequent Condition entry and application of associated Required Actions.

A.1, A.2, and A.3 With parameters of one or more cells in one or more batteries not within Category A limits but within the Category B limits specified in Table 3.8.7-1, the battery is degraded but there is still sufficient capacity to perform the intended function. Therefore, the affected battery is not required to be considered inoperable solely as a result of Category A limits not met and continued operation is permitted for a limited period.

The pilot cell electrolyte level and float voltage are required to be verified to meet the Category B limits within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> (Required Action A.1). This check provides a quick indication of the status of the remainder of the battery cells. One hour provides time to inspect the electrolyte level and to confirm the float voltage of the pilot cell. One hour is considered a reasonable amount of time to perform the required verification.

Verification that the Category B limits are met (Required Action A.2) provides assurance that during the time needed to restore the parameters to the Category A limits, the battery is still capable of performing its intended function. A period of 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> is allowed to complete the initial verification because average temperature measurement must be obtained for the battery. Taking into consideration both the time required to perform the required verification and the assurance that the battery cell parameters are not severely degraded, this time is considered reasonable.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.8-19 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES ACTIONS A.1A A.2, and A.3 (continued)

Verification of the average temperature of the battery within the design bases ensures operability. The verification is repeated at 7-day intervals until the parameters are restored to Category A limits.

Continued operation is only permitted for 31 days before battery cell parameters must be restored to within Category A limits. Taking into consideration that, while battery capacity is degraded, sufficient capacity exists to perform the intended function and to allow time to fully restore the battery cell parameters to normal limits, this time is acceptable for operation prior to declaring the DC batteries inoperable.

B.1 Failure to complete the checks required for Actions A. 1 or A.2 require immediate action. Entry into Technical Specification 3.8.6 must be entered immediately.

C.1 When any battery parameter is outside the Category B limit for any connected cell, sufficient capacity to supply the maximum expected load requirement is not ensured and the corresponding DC electrical power subsystem must be declared inoperable. Additionally, other potentially extreme conditions, such as not completing the Required Action A.3 within the required Completion Time also are cause for immediately declaring the associated DC electrical power subsystem inoperable.

D.1 Cells that have been discovered with electrolyte level below the top of the plates are equalized and tested lAW Technical Specification 5.5.13.

E.1 Required Action E. 1 is to ensure that under extreme conditions, such as failure to complete the required Action D.1 within the required completion time, average electrolyte temperature falling below 600 F, or intercell connections found not within required connection resistance also are cause for immediately declaring the associated battery inoperable.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.8-20 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES (continued)

SURVEILLANCE TRS 3.8.7.1 REQUIREMENTS The quarterly inspection for visible corrosion at the terminal and connector is consistent with IEEE-450. The "OR" condition is to ensure, if there is visible corrosion, intercell connection resistance is not impacted.

TRS 3.8.7.2 The quarterly inspection of average electrolyte temperature is consistent with IEEE-450 recommendation to check 10% of the connected cells.

Lower than normal temperatures act to inhibit or reduce battery capacity.

This TRS ensures that the operating temperatures remain within an acceptable operating range. This limit is based on manufacturer's recommendations and battery sizing calculations.

TRS 3.8.7.3 IEEE-450 (Ref. 4) recommends a check of specific gravity every year. The Frequency of the TRS (every 2 years) is acceptable because other administrative controls ensure adequate battery performance during the 2-year interval and aligns performance during refueling outages. Further, operating experience has shown this component usually pass the TRS when performed at the 2-year Frequency; therefore, the frequency is acceptable from a reliability standpoint.

The limit specified for specific gravity for each connected cell is no more than 0.020 below the average of all connected cells with the temperature corrected average >_ 1.195. These values are based on manufacturer's recommendations for the minimum required value. The minimum specific gravity value required for each cell ensures that the effects of a highly charged or newly installed cell do not mask overall degradation of the battery.

Specific gravity gradients produced during the recharging process may result in delays of several days until the specific gravity stabilizes.

However, a minor battery recharge (such as equalizing charge that does not follow a deep discharge) does not produce specific gravity gradients that are significant.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.8-21 EFFECTIVE DATE 05/28/2009

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES SURVEILLANCE REQUIREMENTS TRS 3.8.7.4 (continued)

Visual inspection of the battery cells, cell plates, and battery racks provides an indication of physical damage or abnormal deterioration that could potentially degrade battery performance. The presence of physical damage or deterioration does not represent a failure of the TRS, provided an evaluation determines that the physical damage or deterioration does not affect the OPERABILITY of the battery (its ability to perform its design function). The Frequency of the TRS is acceptable because other administrative controls ensure adequate battery performance during the 2-year interval and aligns performance during refueling outages. Further, operating experience has shown these components usually pass the TRS when performed at the 2-year Frequency; therefore, the frequency is acceptable from a reliability standpoint.

TRS 3.8.7.5 The connection resistance limits for this SR must be below the limits specified in the SR. The calculated average resistance limit ensure that the total voltage drop across the battery connections is consistent to those assumed in the battery calculations, while the upper limit for battery resistance prevents the possibility of battery damage due to overheating of the connections.

The Frequency of this SR is acceptable because other administrative controls ensure adequate battery performance during the 2-year interval and aligns performance with refueling outage intervals.

Furthermore, operating experience has shown these components usually pass the Surveillance when performed at the 2-year Frequency; therefore, the Frequency is acceptable from a reliability standpoint.

Table 3.8.7-1 This table delineates the limits on electrolyte level, float voltage, and temperature for two different categories. The meaning of each category is discussed below.

Category A defines the normal parameter limits for each connected cell.

The term "connected cell" excludes any battery cell that may be jumpered out (continued)

SUSQUEHANNA - UNIT 2 TRM I B 3.8-22 EFFECTIVE DATE 05/28/2009

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES SURVEILLANCE REQUIREMENTS Table 3.8.7-1 (continued)

The Category A limits specified for electrolyte level are based on manufacturers recommendations and are consistent with the guidance in IEEE-450 (Ref. 4), with the extra 1/4 inch allowance above the high water level indication for operating margin to account for temperature and charge effects. In addition to this allowance, footnote (a) to Table 3.8.7-1 permits the electrolyte level to be above the specified maximum level during equalizing charge, provided it is not overflowing. These limits ensure that the plates suffer no physical damage, and that adequate electron transfer capability is maintained in the event of transient conditions. IEEE-450 (Ref. 4) recommends that electrolyte level readings should be made only after the battery has been at float charge for at least 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

The Category A limit specified for float voltage is Ž_ 2.13 V per cell. This value is based on the recommendation of IEEE-450 (Ref. 4) which states that prolonged operation of cells below 2.13 V can reduce the life expectancy of cells.

Category B defines the limits for each connected cell. These values, although reduced, provide assurance that sufficient capacity exists to perform the intended function and maintain a margin of safety. When any battery parameter is outside the Category B limits, the assurance of sufficient capacity described above no longer exists, and Technical Specification 3.8.6 must be entered immediately.

The Category B limit specified for electrolyte level (above the top of the plates and not overflowing) ensures that the plates suffer no physical damage and maintain adequate electron transfer capability. The Category B allowable limit for voltage is based on IEEE-450 (Ref. 4), which states that a cell voltage of 2.07 V or below, under float conditions and not caused by elevated temperature of the cell, indicates internal cell problems and may require cell replacement.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.8-23 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES REFERENCES

1.

FSAR, Chapter 6

2.

FSAR, Chapter 15

3.

Final Policy Statement on Technical Specifications Improvements, July 22, 1993 (58 FR 39132)

4.

IEEE Standard 450-1995 SUSQUEHANNA - UNIT 2 TRM / B 3.8-24 EFFECTIVE DATE 05/28/2009

Monitoring Program PPL Rev. 4 B 3.11.4.1 B 3.11.4.1 Monitoring Program BASES TRO The radiological environmental monitoring program required by this Requirement provides representative measurements of radiation and of radioactive materials in those environmental exposure pathways and for those radionuclides that lead to the highest potential radiation exposures of MEMBERS OF THE PUBLIC resulting from the station operation. This monitoring program thereby supplements the radiological effluent monitoring program by verifying that the measurable concentrations of radioactive materials and levels of radiation are not higher than expected on the basis of

.the effluent measurements and modeling of the environmental exposure pathways. Changes to the radiological environmental monitoring program specified in Table 3.11.4.1-1 may be made based on expected SSES operation and the results of radiological environmental monitoring during SSES operation.

The required detection capabilities for environmental sample analyses are tabulated in terms of the lower limits of detection (LLDs). The LLDs required by Table 3.11.4.1-3 are considered optimum for routine environmental measurements in industrial laboratories. It should be recognized that the LLD is defined as an a prori (before the fact) limit representing the capability of a measurement system and not as an a posteriori (after the fact) limit for a particular measurement.

Detailed discussion of the LLD, and other detection limits, can be found in HASL Procedures Manual, HASL-300 (revised annually); Currie, L. A., "Limits for Qualitative Detection and Quantitative Determination - Application to Radiochemistry" Anal. Chem. 40, 586-93 (1968); and Hartwell, J. K., "Detection Limits for Radioanalytical Counting Techniques," Atlantic Richfield Hanford Company Report ARH-SA-215 (June 1975). (Reference 1)

This section of the TRM is also part of the ODCM (Reference 2).

Actions The Actions are defined to ensure proper corrective measures are taken when requirements are not met. Once a Condition Report is generated (per the applicable Action), the TRO may be exited because at that time, the Condition that caused the TRO is no longer out of compliance with the program.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.11-28 EFFECTIVE DATE 11/30/2005

Monitoring Program PPL Rev. 4 B 3.11.4.1 B 3.11.4.1 Monitoring Program BASES ACTIONS Per Action A.1, the Annual Radiological Environmental Operating Report shall (continued) provide a description of the reasons for not conducting the program as required and the plans for preventing a recurrence.

The Special Report submitted per Action B.1 shall identify the cause(s) for exceeding the limit(s) and define the corrective actions to be taken to reduce radioactive effluents so that the potential annual dose to a MEMBER OF THE PUBLIC is less than the calendar year limits of Requirements 3.11.1.2, 3.11.2.2 and 3.11.2.3.

Include revised figure(s) and table for the ODCM reflecting the new locations for obtaining samples per Action F.1 in the next Radioactive Effluent Release Report.

TRS The TRSs are defined to be performed at the specified frequency to ensure that the requirements are implemented. Monitoring samples collected per TRS 3.11.4.1.1 shall be from the specific locations given in the table and figure in the ODCM. (Reference 2)

The TRSs are modified by a Note to take exception to TRS 3.0.3.

Table 3.11.4.1-1 Sample Locations Specific parameters of distance and direction sector from the centerline of one reactor, and additional description where pertinent, shall be provided for each and every sample location in this Table and in a table and figure(s) in the ODCM. Refer to NUREG-0133, "Preparation of Radiological Effluent Technical Specifications for Nuclear Power Plants," October 1978, and to Radiological Assessment Branch Technical Position, Revision 1, November 1979. (Reference 3) Deviations are permitted from the required sampling schedule if specimens are unobtainable due to hazardous conditions, seasonal unavailability, malfunction of automatic sampling equipment and other legitimate reasons. If specimens are unobtainable due to sampling equipment malfunction, every effort shall be made to complete corrective action prior to the end of the next sampling (continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.11-29 EFFECTIVE DATE 11/30/2005

Monitoring Program PPL Rev. 4 B 3.11.4.1 B 3.11.4.1 Monitoring Program BASES TRS period. All deviations from the sampling schedule shall be documented in the (continued)

Annual Radiological Environmental Operating Report. It is recognized that, at times, it may not be possible or practicable to continue to obtain samples of the media of choice at the most desired location or time.

In these instances suitable alternative media and locations may be chosen for the particular pathway in question and appropriate substitutions made within 30 days in the radiological environmental monitoring program. Identify the cause of the unavailability of samples for that pathway and identify the new location(s) for obtaining replacement samples in the next Radioactive Effluent Release Report and also include in the report a revised figure(s) and table for the ODCM reflecting the new location(s).

Direct Radiation One or more instruments, such as a pressurized ion chamber, for measuring and recording dose rate continuously may be used in place of, or in addition to, integrating dosimeters. Film badges shall not be used as dosimeters for measuring direct radiation.

Radioiodine and Particulates - Sampling and Collection Frequency The charcoal cartridges used in the airborne radioiodine sampling conducted as part of the radiological environmental monitoring program are designed and tested by the manufacturer to assure a high efficiency in the capture of radioiodine. Certificates from the manufacturer of the cartridges are provided with each batch of cartridges certifying the percent retention of the radiodine for stated air flows.

Radioiodine and Particulates - Particulate Sample: Waterborne -Surface, Ground, Sediment: Food Products Gamma isotopic analysis means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility.

Waterborne - Surface The "upstream sample" shall be taken at a distance beyond significant influence of the discharge. The "downstream" sample shall be taken within the discharge line or just downstream of the discharge line near the mixing zone.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.11-30 EFFECTIVE DATE 05/29/2013

Monitoring Program B 3.11.4.1 PPL Rev. 4 B 3.11.4.1 Monitoring Program BASES TRS (continued)

Waterborne - Drinking - Sampling and Collection Frequency A composite sample is one in which the quantity (aliquot) of liquid sampled is proportional to the quantity of flowing liquid and in which the method of sampling employed results in a specimen that is representative of the liquid flow. In this program composite samples shall be collected at time intervals that are very short (e.g.,

hourly) relative to the compositing period (e.g., monthly) in order to assure obtaining a representative sample.

Waterborne - Ground - Samples and Sample Locations Groundwater samples shall be taken when this source is tapped for drinking or irrigation purposes in areas where the hydraulic gradient or recharge properties are suitable for contamination.

Drinking Water 131 Analyses Calculation of the dose projected from 1-131 in drinking water to determine if 1-131 analyses of the water are required shall be performed for the maximum organ and age group using the methodology and parameters of the ODCM.

Food Products - Sampling and Collection Frequency If harvest occurs more than once a year, sampling shall be performed during each discrete harvest. If harvest occurs continuously, sampling shall be monthly. Attention shall be paid to including samples of tuborous and root food products.

Table 3.11.4.1-3 This list does not mean that only these nuclides are to be considered. Other peaks that are identifiable at 95% confidence level together with those of the above nuclides, shall also be analyzed and reported in the Annual Radiological Environmental Operating report.

Required detection capabilities for dosimeters used for environmental measurements are given in Regulatory Guide 4.13. (Reference 4)

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.11-31 EFFECTIVE DATE 05/29/2013

Monitoring Program B 3.11.4.1 PPL Rev. 4 B 3.11.4.1 Monitoring Program BASES TRS (continued)

The LLD is defined, for purpose of these Requirements, as the smallest concentration of radioactive material in a sample that will yield a net count (above system background) that will be detected with 95% probability with only 5% probability of falsely concluding that a blank observation represents a "real" signal.

For a particular measurement system (which may include radiochemical separation):

LLD =

4.66sb E

• V e 2.22 e Y e exp(-AAt)

Where:

LLD is the a priori lower limit of detection as defined above (as picrocuries per unit mass or volume),

sb is the standard deviation of the background counting rate or of the countingrate of a blank sample as appropriate (as counts per minute),

E is the counting efficiency, as counts per disintegration, V is the sample size, in units of mass or volume, 2.22 is the number of disintegrations per minute per picrocurie, Y is the fractional radiochemical yield, when applicable, X is the radioactive decay constant for the particular radionuclide, and At for environmental samples is the elapsed time between sample collection (or end of the sample collection period) and time of counting.

Typical values of E, V, Y, and At should be used in the calculation.

(continued)

SUSQUEHANNA - UNIT 2 TRM / B 3.11-32 EFFECTIVE DATE 08/31/1998

Monitoring Program B 3.11.4.1 PPL Rev. 4 B 3.11.4.1 Monitoring Program BASES TRS (continued)

It should be recognized that the LLD is defined as a priori (before the fact) limit representing the capability of a measurement system and not as an a posteriori (after the fact) limit for a particular measurement. Analyses shall be performed in such a manner that the stated LLDs will be achieved under routine conditions. Occasionally background fluctuations, unavoidably small sample sizes, the presence of interfering nuclides, or other uncontrollable circumstances may render these LLDS unachievable. In such cases, the contributing factors shall be identified and described in the Annual Radiological Environmental Operating Report.

REFERENCES 1.

HASL Procedures Manual, HASL-300 (revised annually); Curie, L.A.,

"Limits for Qualitative Detection and Quantitative Determination -

Application to Radiochemistry" Anal. Chem. 40, 586-93 (1968); and Hartwell, J. K., "Detection Limits for Radioanalytical Counting Techniques," Atlantic Richfield Hanford Company Report ARH-SA-215 (June 1975) Offsite Dose Calculation Manual.

2. Technical Specification 5.5.1 - Offsite Dose Calculation Manual

3. NUREG-0133, "Preparation of Radiological Effluent Technical Specifications for Nuclear Power Plants," October 1978, and to Radiological Assessment Branch Technical Position, Revision 1, November 1979.

4. Regulatory Guide 4.13

5. NUREG-1302, Offsite Dose Calculation Manual Guidance: "Standard Radiological Effluent Controls for Boiling Water Reactors," April 1991.

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11/19/2002 MAIN CONDENSER OFFGAS EXPLOSIVE GAS MIXTURE 0

11/19/2002 LIQUID HOLDUP TANKS 4

06/04/2013 ESSW PUMPHOUSE VENTILATION TEXT B3.7.7 2

01/31/2008

Title:

PLANT SYSTEMS BASES MAIN CONDENSER OFFGAS PRETREATMENT LOGARITHMIC RADIATION MONITORING INSTRUMENTATION Page 12 of

.16 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM1 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 1 TEXT B3.7.8

Title:

PLANT TEXT B3.7.9

Title:

PLANT TEXT B3.7.10

Title:

PLANT 3

SNUBBERS 06/21/2007 SYSTEMS BASES SYSTEMS BASES SYSTEMS BASES 2

12/08/2011 CONTROL STRUCTURE HVAC 1

12/14/2004 SPENT FUEL STORAGE POOLS TEXT B3.7.11

Title:

STRUCTURAL INTEGRITY 1

04/14/2010 TEXT B3.8.1

Title:

ELECTRICAL PROTECTIVE TEXT B3.8.2.1

Title:

ELECTRICAL CONTINUOUS TEXT B3.8.2.2

Title:

ELECTRICAL AUTOMATIC TEXT B3.8.3

Title:

ELECTRICAL TEXT B3.8.4

Title:

ELECTRICAL TEXT B3.8.5

Title:

ELECTRICAL TEXT B3.8.6

Title:

ELECTRICAL TEXT B3.8.7 2

03/10/2010 POWER BASES PRIMARY CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT DEVICES 0

11/19/2002 POWER BASES MOTOR OPERATED VALVES (MOV)

THERMAL OVERLOAD 1

09/17/2004 POWER BASES MOTOR OPERATED VALVES (MOV)

THERMAL OVERLOAD 0

11/19/2002 POWER BASES DIESEL GENERATOR (DG)

MAINTENANCE ACTIVITIES 0

11/19/2002 POWER BASES 24 VDC ELECTRICAL POWER SUBSYSTEM 0

11/19/2002 POWER BASES DEGRADED VOLTAGE PROTECTION 2

12/08/2011 POWER BASES EMERGENCY SWITCHGEAR ROOM COOLING 2

06/04/2013 PROTECTION -

PROTECTION -

Title:

BATTERY MAINTENANCE AND MONITORING PROGRAM Page ~

of ~&

Report Date: 06/05/13 Page 13 of 16 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM1 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 1 TEXT B3.9.1 0

11/19/2002

Title:

REFUELING OPERATIONS BASES DECAY TIME TEXT B3.9.2 0

11/19/2002

Title:

REFUELING OPERATIONS BASES COMMUNICATIONS TEXT B3.9.3 0

11/19/2002

Title:

REFUELING OPERATIONS BASES REFUELING PLATFORM TEXT B3.10.1 0

11/19/2002

Title:

MISCELLANEOUS BASES SEALED SOURCE CONTAMINATION TEXT B3.10.2 1

03/31/2006

Title:

MISCELLANEOUS BASES SHUTDOWN MARGIN TEST RPS INSTRUMENTATION TEXT B3.10.3 0

11/19/2002

Title:

MISCELLANEOUS BASES INDEPENDENT SPENT FUEL STORAGE INSTALLATION (ISFSI)

TEXT B3.10.4 1

Title:

MISCELLANEOUS BASES LEADING 04/17/2008 EDGE FLOW METER (LEFM)

TEXT B3.11.1.1

Title:

RADIOACTIVE TEXT B3.11.1.2

Title:

RADIOACTIVE TEXT B3.11.1.3

Title:

RADIOACTIVE TEXT B3.11.1.4

Title:

RADIOACTIVE 0

BASES 11/19/2002 LIQUID EFFLUENTS CONCENTRATION EFFLUENTS 0

11/19/2002 EFFLUENTS BASES LIQUID EFFLUENTS DOSE 0

11/19/2002 EFFLUENTS BASES LIQUID WASTE TREATMENT SYSTEM 0

11/19/2002 EFFLUENTS BASES LIQUID RADWASTE EFFLUENT MONITORING INSTRUMENTATION TEXT B3.11.1.5 0

11/19/2002

Title:

RADIOACTIVE EFFLUENTS BASES RADIOACTIVE LIQUID PROCESS MONITORING INSTRUMENTATION Page 14 of 16 Report Date: 06/05/13 Page 14 of 16 Report Date: 06/05/13

SSES MANUAL Manual Name:

TRM1 Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 1 TEXT B3.11.2.1

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.2.2

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.2.3

Title:

RADIOACTIVE EFFLUENTS PARTICULATES FORM TEXT B3.11.2.4

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.2.5

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.2.6

Title:

RADIOACTIVE EFFLUENTS INSTRUMENTATION 1

12/14/2004 BASES DOSE RATE 0

11/19/2002 BASES DOSE -

NOBLE GASES 0

11/19/2002 BASES DOSE -

IODINE, TRITIUM, AND RADIONUCLIDES IN 0

11/19/2002 BASES GASEOUS RADWASTE TREATMENT SYSTEM 4

11/14/2006 BASES VENTILATION EXHAUST TREATMENT SYSTEM 1

01/27/2004 BASES RADIOACTIVE GASEOUS EFFLUENT MONITORING TEXT B3.11.3 0

11/19/2002

Title:

RADIOACTIVE EFFLUENTS BASES TOTAL DOSE TEXT B3.11.4.1

Title:

RADIOACTIVE EFFLUENTS TEXT B3.11.4.2

Title:

RADIOACTIVE EFFLUENTS 4

06/04/2013 BASES MONITORING PROGRAM LDCN 5007 0

BASES 11/19/2002 LAND USE CENSUS TEXT B3.11.4.3 0

11/19/2002

Title:

RADIOACTIVE EFFLUENTS BASES INTERLABORATORY COMPARISON PROGRAM TEXT B3.12.1 1

10/04/2007

Title:

LOADS CONTROL PROGRAM BASES CRANE TRAVEL-SPENT FUEL STORAGE POOL TEXT B3.12.2

Title:

LOADS CONTROL PROGRAM 1

12/03/2010 BASES HEAVY LOADS REQUIREMENTS Page 2~5~

of 16 Report Date: 06/05/13 Page 15 of 16 Report Date: 06/05/13

SSES MANUJAL.

Manual Name:

TRMI Manual

Title:

TECHNICAL REQUIREMENTS MANUAL UNIT 1 TEXT B3.12.3 0

11/19/2002

Title:

LOADS CONTROL PROGRAM BASES LIGHT LOADS REQUIREMENTS Page 16 of 16 Report Date: 06/05/13 Page 16 of 16 Report Date: 06/05/13

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date TOC TABLE OF CONTENTS 1.0 2.0 USE AND APPLICATION Pages TRM / 1.0-1 through TRM /1.0-3 PLANT PROGRAMS Page 2.0-1 Pages TRM / 2.0-2 and TRM / 2.0-3 Page TRM / 2.0-4 Page TRM / 2.0-5 Page TRM / 2.0-6 Page TRM / 2.0-7 Pages TRM / 2.0-8 and TRM / 2.0-9 Page TRM /2.0-10 Page TRM / 2.0-11 Page TRM / 2.0-12 Pages TRM / 2.0-13 and TRM / 2.0-14 Page TRM / 2.0-15 3.0 APPLICABILITY Page TRM / 3.0-1 Page TRM / 3.0-2 Page TRM / 3.0-3 Page TRM / 3.0-4 10/09/2012 10/04/2002 08/31/1998 01/28/2005 06/25/2002 04/02/1999 03/27/2008 05/15/2008 01/07/2011 02/02/2010 11/15/2004 03/27/2008 11/15/2004 11/15/2005 04/14/2008 04/12/2007 03/15/2002 11/30/2005 10/31/2007 08/31/1998 03/22/2006 04/07/2009 03/27/2008 02/18/1999 02/18/1999 07/07/1999 04/09/2012 07/16/1999 10/31/2007 03/10/2011 10/31/2007 08/31/1998 06/30/2010 3.1 3.2 REACTIVITY CONTROL SYSTEMS Page TRM / 3.1-1 Pages TRM / 3.1-2 through TRM / 3.1-5 Page TRM / 3.1-6 Page TRM / 3.1-7 Page TRM / 3.1-8 Pages TRM / 3.1-9 and TRM / 3.1-9a Page TRM / 3.1-10 CORE OPERATING LIMITS REPORT Page TRM / 3.2-1 Pages TRM / 3.2-2 through TRM / 3.2-54 INSTRUMENTATION Pages TRM / 3.3-1 through TRM / 3.3-3 Page TRM / 3.3-4 and TRM / 3.3-5 Page TRM / 3.3-6 Page TRM / 3.3-7 Page 3.3-8 Pages TRM / 3.3-9 and TRM / 3.3-9a 3.3 SUSQUEHANNA-UNITI TRM / LOES-1 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 1 TRM / LOES-1 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title 3.4 Page TRM / 3.3-10 Pages TRM / 3.3-11 and TRM / 3.3-11 a Page TRM / 3.3-12 Page TRM / 3.3-13 Page TRM / 3.3-14 Pages TRM / 3.3-15 and TRM / 3.3-16 Page TRM / 3.3-17 Page TRM / 3.3-18 Pages TRM / 3.3-19 through TRM / 3.3-21 Page TRM / 3.3-22 Page TRM 1 3.3-22a Pages TRM / 3.3-22b through TRM / 3.3-22d Page TRM / 3.3-23 Pages TRM / 3.3-24 and TRM / 3.3-25 Page TRM / 3.3-26 Pages TRM / 3.3-27 and TRM / 3.3-28 REACTOR COOLANT SYSTEM Page TRM / 3.4-1 Pages 3.4-2 through 3.4-5 Pages TRM / 3.4-6 through TRM / 3.4-8 Page TRM / 3.4-9 Page TRM / 3.4-10 Page TRM 1 3.4-11 Page TRM / 3.4-12 Page TRM / 3.4-13 Pages TRM / 3.4-14 and TRM / 3.4-15 EMERGENCY CORE COOLING AND RCIC Page TRM / 3.5-1 Pages 3.5-2 and 3.5-3 Pages TRM / 3.5-4 and TRM / 3.5-5 Pages 3.5-6 and 3.5-7 CONTAINMENT Page 3.6-1 Pages TRM / 3.6-2 and TRM / 3.6-2a Page 3.6-3 Page TRM / 3.6-4 Page 3.6-5 Pages TRM / 3.6-6 through TRM / 3.6-8 Effective Date 10/31/2007 06/30/2010 03/30/2001 01/07/2011, 12/14/1998 01/07/2011 06/14/2002 10/31/2007 10/22/2003 03/27/2008 11/15/2004 03/22/2006 12/03/2004 05/16/2003.

10/22/2003 04/07/2009 3.5 03/31/2006 10/23/1998 04/01/2009 08/31/1998 10/31/2007 08/31/1998 03/27/2008 03/31/2006 04/25/2013 01/28/2005 08/31/1998 10/31/2007 08/31/1998 08/31/1998 08/11/2011 08/31/1998 01/07/2002 08/31/1998 12/31/2002 3.6 SUSQUEHANNA - UNIT 1 TRM / LOES-2 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date 3.7 PLANT SYSTEMS Pages 3.7-1 through 3.7-3 Page TRM / 3.7-4 Pages TRM / 3.7-5 Pages TRM / 3.7-6 through TRM / 3.7-8 Pages TRM / 3.7-9 and TRM / 3.7-10 Page TRM / 3.7-11 Page TRM / 3.7-12 Page TRM / 3.7.13 Page TRM / 3.7-14 Pages TRM / 3.7-15 and TRM / 3.7-16 Page TRM / 3.7-17 Page TRM / 3.7-18 Page TRM / 3.7-19 Pages TRM / 3.7-20 through TRM / 3.7-22 Page TRM / 3.7-23 Page TRM / 3.7-24 Page TRM / 3.7-25 Page TRM / 3.7-26 Page TRM / 3.7-27 Pages TRM / 3.7-28 through TRM / 3.7-34a Page TRM / 3.7-35 Pages TRM / 3.7-36 and TRM / 3.7-37 Pages 3.7-38 and 3.7-39 Page TRM / 3.7-40 Page TRM / 3.7-41 Pages TRM / 3.7-41a through TRM / 3.7-41c Page TRM / 3.7-42 Page TRM / 3.7-43 Pages TRM / 3.7-44 through TRM / 3.7-46 Page TRM / 3.7-47 Page TRM / 3.7-48 Page TRM / 3.7-49 Page TRM / 3.7-50 Page TRM / 3.7-51 Page TRM / 3.7-52 Page TRM / 3.7-53 Page TRM / 3.7-54 Pages TRM / 3.7-55 through TRM / 3.7-57 08/31/1998 03/31/2006 04/07/2009 08/02/1999 04/07/2009 12/29/19991 08/02/1999 04/07/2009 08/09/2005 08/02/1999 04/07/2009 08/02/1999 04/07/2009 08/02/1999 04/07/2009 03/31/2006 08/02/1999 09/25/2012 11/24/2011 09/25/2012 03/31/2006 02/01/1999 08/31/1998 03/31/2006 05/24/2012 05/24/2012 09/04/2008 08/31/1998 10/05/2006 06/07/2007 10/05/2006 06/07/2007 03/09/2001 08/16/2006 12/03/2004 04/15/2003 07/29/1999 04/01/2009 SUSQUEHANNA - UNIT 1 TRM / LOES-3 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date 3.8 3.9 ELECTRICAL POWER Page TRM / 3.8-1 Page TRM / 3.8-2 Pages TRM / 3.8-3 and TRM /3.8-4 Pages TRM / 3.8-5 and TRM / 3.8-6 Page TRM / 3.8-7 Pages TRM / 3.8-8 through TRM / 3.8-10 Page TRM / 3.8-11 Page TRM / 3.8-12 Page TRM / 3.8-13 Page TRM / 3.8-14 Pages TRM / 3.8-15 through TRM / 3.8-17 Page 3.8-18 Page TRM / 3.8-19 Page 3.8-20 Pages TRM / 3.8-21 through TRM / 3.8-23 Pages TRM / 3.8-24 and TRM / 3.8-25 Page TRM / 3.8-26 Page TRM / 3.8-27 Pages TRM / 3.8-28 and TRM / 3.8-29 REFUELING OPERATIONS Pages 3.9-1 through 3.9-3 MISCELLANEOUS Page TRM / 3.10-1 Pages 3.10-2 and 3.10-3 Pages 3.10-2 and 3.10-3 Page TRM / 3.10-4 Pages TRM / 3.10-5 and TRM / 3.10-6 Page TRM / 3.10-7 RADIOACTIVE EFFLUENTS Page TRM / 3.11-1 Pages 3.11-2 and 3.11-3 Page TRM / 3.11-4 Page 3.11-5 Page TRM / 3.11-6 Pages TRM / 3.11-7 and TRM / 3.11-8 Pages TRM / 3.11-9 and TRM / 3.11-10 Pages TRM / 3.11-11 and TRM / 3.11-12 Page TRM / 3.11-13 04/02/2002 01/28/2005 03/25/2010 04/02/2002 10/31/2007 12/03/2004 09/03/2004 12/03/2004 03/25/2010 08/31/1998 04/02/2002 08/31/1998 04/02/2002 08/31/1998 06/06/1999 11/30/2011 05/28/2009 11/29/2006 05/28/2009 08/31/1998 03/31/2006 08/31/1998 08/31/1998 08/01/2006 03/22/2006 06/10/2010 03/31/2006 08/31/1998 03/31/2006 08/31/1998 03/31/2006 08/31/1998 10/09/2012 08/31/1998 04/12/2007 3.10 3.11 SUSQUEHANNA - UNIT 1 TRM / LOES-4 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date Page TRM /3.11-14 Pages 3.11-15 and 3.11-16 Page TRM / 3.11-17 Page 3.11-18 Page TRM / 3.11-19 Pages TRM / 3.11-20 and TRM / 3.11-21 Page TRM / 3.11-22 Page TRM /3.11-23 Page TRM / 3.11-24 Page TRM /3.11-25 Pages TRM / 3.11-26 and TRM / 3.11-27 Page TRM / 3.11-28 Page TRM / 3.11-29 Pages TRM / 3.11.30 through TRM / 3.11.32 Page TRM / 3.11-33 Page 3.11-34 Page TRM / 3.11-35 Pages TRM / 3.11-36 through TRM / 3.11-39 Pages 3.11-40 through 3.11-43 Page TRM / 3.11-44 Page TRM / 3.11-45 Page 3.11-46 Page TRM / 3.11-47 LOADS CONTROL PROGRAM Pages TRM / 3.12-1 through TRM / 3.12-3 Page TRM / 3.12-4 Page TRM / 3.12-5 ADMINISTRATIVE CONTROLS Pages TRM / 4.0-1 through TRM / 4.0-3 Page TRM / 4.0-4 Pages TRM / 4.0-5 through TRM / 4.0-8 12/03/2004 09/01/1998 03/31/2006 08/31/1998 08/15/2005 03/31/2006 04/02/2002 11/14/2006 05/13/2005 04/12/2007 01/21/2004 09/08/2009 12/03/2004 01/21/2004 03/31/2006 08/31/1998 03/31/2006 11/30/2005 08/31/1998 08/01/2006 03/31/2006 08/31/1998 03/31/2006 02/05/1999 03/14/2008 02/05/1999 08/31/1998 12/11/2008 08/31/1998 3.12 4.0 SUSQUEHANNA - UNIT 1 TRM / LOES-5 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date B 3.0 B 3.1 B 3.2 B 3.3 APPLICABILITY BASES Pages TRM / B 3.0-1 through TRM / B 3.0-3 Page TRM / B 3.0-4 Page TRM / B 3.0-5 Page TRM / B 3.0-6 Page TRM / B 3.0-7 Pages TRM / B 3.0-8 through TRM / B 3.0-10 Pages TRM / B 3.0-11 and TRM / B 3.0-12 Pages TRM / B 3.0-13 and TRM / B 3.0-14 Page TRM / B 3.0-15 REACTIVITY CONTROL SYSTEMS BASES Page TRM / B 3.1-1 Pages TRM / B 3.1-2 and TRM / B 3.1-3 Page B 3.1-4 Page TRM / B 3.1-5 Pages TRM / B 3.1-6 and TRM / B 3.1-7 Page TRM / B 3.1-8 CORE OPERATING LIMITS BASES Page B 3.2-1 INSTRUMENTATION BASES Page TRM / B 3.3-1 Page TRM / B 3.3-2 Page TRM / B 3.3-2a Page TRM / B 3.3-3 Page TRM / B 3.3-3a Page TRM / B 3.3-4 Page TRM / B 3.3-5 Page TRM / B 3.3-6 Page TRM / B 3.3-7 Page TRM / B. 3.3-8 Page TRM / B 3.3-9 Pages TRM / B 3.3-10 through TRM / B 3.3-13 Page TRM / B 3.3-14 Page TRM / B 3.3-14a Page TRM / B 3.3-14b Pages TRM / B 3.3-15 and TRM / B 3.3-16 Page TRM / B 3.3-17 Pages TRM / B 3.3-17a through TRM / B 3.3-17c Page TRM / B 3.3-17d 08/31/1998 01/10/2007 04/14/2008 08/31/1998 04/12/2007 08/31/1998 03/15/2002 11/30/2005 03/15/2002 07/13/1999 10/31/2007 08/31/1998 11/15/2005 03/22/2006 02/18/1999 08/31/1998 04/07/2000 03/10/2011 10/31/2007 12/11/2008 10/31/2007 06/30/2010 05/30/2006 06/30/2010 10/30/2007 06/30/2010 10/31/2007 01/07/2011 06/25/2002 10/31/2007 10/31/2007 10/22/2003 03/22/2006 03/22/2006 03/27/2008 SUSQUEHANNA-UNITi TRM / LOES-6 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 1 TRM / LOES-6 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title B 3.4 B 3.5 B 3.6 Pages TRM / B 3.3-17e and TRM / B 3.3-17f Pages TRM / B 3.3-18 and TRM / B 3.3-19 Page TRM / B 3.3-20 Page TRM / B 3.3-21 Pages TRM / B 3.3-22 and TRM / B 3.3-23 REACTOR COOLANT SYSTEM BASES Page B 3.4-1 Pages TRM / B 3.4-2 and TRM / B 3.4-3 Pages TRM / B 3.4-4 and TRM / B 3.4-4a Page TRM / B 3.4-5 Page B 3.4-6 Pages TRM / B 3.4-7 and TRM / B 3.4-8 ECCS AND RCIC BASES Pages B 3.5-1 and B 3.5-2 Pages TRM / B 3.5-3 through TRM / 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 Page TRM / B 3.6-6 Pages B.3.6-7 through TRM / B 3.6-11 PLANT SYSTEMS BASES Pages B 3.7-1 and B 3.7-2 Page TRM / B 3.7-3 Page TRM / B 3.7-3a Page TRM / B 3.7-4 Page TRM / B 3.7-5 Page TRM / B 3.7-6 Pages TRM / B 3.7-7 and TRM / B 3.7-7a Pages TRM / B 3.7-8 and TRM / B 3.7-9 Page TRM / B 3.7-10 Page TRM / B 3.7-i0a Page TRM / B 3.7-11 Page TRM / B 3.7-11a Pages TRM / B 3.7-12 and TRM / B 3.7-13 Pages TRM / B 3.7-14 and TRM / B 3.7-14a Effective Date 03/22/2006 08/03/2010 10/22/2003 05/16/2003 04/07/2009 08/31/1998 04/01/2009 10/31/2007 10/15/1999 08/31/1998 04/25/2013 08/31/1998 10/31/2007 07/26/2001 02/01/1999 08/31/1998 03/27/2008 04/04/2007 12/03/2004 12/31/2002 08/31/1998 06/10/2010 12/27/2007 03/31/2006 08/02/1999 03/31/2006 08/02/1999 05/29/2013 08/02/1999 03/31/2006 08/02/1999 03/31/2006 08/02/1999 09/25/2012 B 3.7 SUSQUEHANNA

- UNIT I TRM / LOES-7 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 1 TRM / LOES-7 EFFECTIVE DATE 05/29/2013

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Section Title Effective Date B 3.8 B.3.9 Page TRM / B 3.7-14b Pages TRM / B 3.7-15 and TRM / B 3.7-16 Pages B 3.7-17 through B 3.7-20 Page TRM / B 3.7-21 Pages TRM / B 3.7-21a through TRM / B 3.7-21d Pages TRM / B 3.7-21e through TRM / B 3.7-21g Page TRM / B 3.7-22 and TRM / B 3.7-23 Pages TRM / B 3.7-24 through TRM / B 3.7-28 Pages TRM / B 3.7-29 and TRM / B 3.7-30 Pages TRM / B 3.7-30a and TRM / B 3.7-30b Page TRM / B 3.7-31 Page TRM / B 3.7-32 Page TRM / B 3.7-33 Page TRM / B 3.7-34 Page TRM / B 3.7-35 Pages TRM / B 3.7-36 through TRM / B 3.7-39 Page TRM / B 3.7-40 ELECTRICAL POWER. BASES Page TRM / B 3.8-1 Pages TRM / B 3.8-2 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 / B 3.8-4 Page TRM / B 3.8-4a Page TRM / B 3.8-5 Pages TRM / B 3.8-6 through TRM / B 3.8-16 Page TRM / B 3.8-17 Pages TRM / B 3.8-17a and TRM / B 3.8-17b Pages TRM / B 3.8-18 through TRM / B 3.8-20 Pages TRM / B 3.8-21 and TRM / B 3.8-22 Page TRM / B 3.8-23 Page TRM / B 3.8-24 REFUELING OPERATIONS BASES Pages B 3.9-1 through B 3.9-7 11/24/2011 02/01/1999 08/31/1998 05/29/2013 05/24/2012 05/29/2013 01/30/2008 10/05/2006 06/07/2007 10/05/2006 11/30/2011 03/09/2001 04/15/2003 12/03/2004 07/05/2000 04/01/2009 04/08/2010 04/02/2002 01/28/2005 03/01/2010 04/02/2002 04/02/2002 08/10/2004 04/02/2002 08/31/1998 04/02/2002 11/30/2011 11/30/2011 05/29/2013 05/28/2009 05/29/2013 05/28/2009 08/31/1998 08/31/1998 03/22/2006 08/23/1999 B 3.10 MISCELLANEOUS BASES Page B 3.10-1 Pages TRM / B 3.10-2 and TRM / B 3.10-3 Pages TRM / B 3.10-4 and TRM / B 3.10-5 SUSQUEHANNA - UNIT 1 TRM / LOES-8 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 1 TRM / LOES-8 EFFECTIVE DATE 05/29/2013

SUSQUEHANNA STEAM ELECTRIC STATION PPL Rev. 76 LIST OF EFFECTIVE SECTIONS (TECHNICAL REQUIREMENTS MANUAL)

Section Title Effective Date B 3.11 RADIOACTIVE EFFLUENTS BASES Pages B 3.11-1 through B 3.11-9 Page TRM / B 3.11-10 Pages TRM/B 3.11-11 and TRM/B 3.11-11a Pages TRM/B 3.11-12 and TRM/B 3.11-13 Page TRM / B 3.11-14 Page TRM / B 3.11-15 Pages B 3.11-16 through B 3.11-19 Page TRM / B 3.11-20 Page TRM / B 3.11-20a Page TRM / B 3.11-21 Pages TRM / B 3.11-22 and TRM / B 3.11.23 Page TRM / B 3.11.23a Pages TRM / B 3.11-24 and TRM / B 3.11-25 Pages B 3.11-26 and B 3.11-27 Pages TRM / B 3.11-28 and TRM / B 3.11-29 Pages TRM / B 3.11-30 and TRM / B 3.11-31 Page TRM / B 3.11-32 Page TRM / B 3.11-33 Pages TRM / B 3.11-34 and TRM / B 3.11-35 Page TRM / B 3.11-36 B.3.12 LOADS CONTROL PROGRAM BASES Page TRM / B 3.12-1 Page TRM / B 3.12-2 Page TRM / B 3.12-3 08/30/1998 02/01/1999 04/07/2000 02/01/1999 12/03/2004 02/01/1999 08/30/1998 04/02/2002 04/02/2002 05/13/2005 11/14/2006 05/13/2005 01/21/2004 08/30/1998 11/30/2005 05/29/2013 08/30/1998 06/30/2010 08/30/1998 02/12/1999 09/19/2007 11/29/2010 02/05/1999 TRM1 text LOES 5/29/2013 SUSQUEHANNA-UNITi TRM / LOES-9 EFFECTIVE DATE 05/29/2013 SUSQUEHANNA - UNIT 1 TRM / LOES-9 EFFECTIVE DATE 05/29/2013

Halon Systems PPL Rev. 2 B 3.7.3.4 B 3.7.3.4 Halon Systems BASES TRO The OPERABILITY of the fire suppression Halon systems is one part of ensuring that adequate fire suppression capability is available to confine and.extinguish fires occurring in any portion of the facility where safety related equipment is located. The fire suppression system consists of the water supply system, spray and sprinkler systems, C0 2 systems, Halon systems, fire hose stations, and fire hydrants. The collective capability of the fire suppression systems is adequate to minimize potential damage to safety related equipment and is a major element in the facility fire protection program.

An OPERABLE Halon system will have storage tanks with at least 95% of full charge weight and 90% of full charge pressure.

An OPERABLE Halon system will have storage tanks with at least covered with a blank to keep the Halon System OPERABLE. Removal of any PGCC Floor panel or opening of any PGCC panel door causes the affected PGCC module Halon system to become inoperable if the floor panel or panel door must be left open and unattended or cannot be immediately closed.

The basis for those systems included within the scope of this TRO includes both Safety Related and Safe Shutdown system protection. The Halon systems are described in FPRR.

ACTIONS The Actions are defined to ensure proper corrective measures and compensatory actions are taken in response to the inoperable systems or components.

Hourly Firewatch Patrols shall be completed once each clock hour.

Individual zones on the hourly firewatch patrol shall be toured at intervals (i.e. - zone A and back to zone A) of sixty minutes with a margin of fifteen minutes.

A Continuous Firewatch must remain in the specified area at all times and must patrol the required fire zones in the specified area at least once per fifteen minutes with a margin of five minutes. Areas exist within the plant (continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.7-8 EFFECTIVE DATE 05/29/2013

Halon Systems B 3.7.3.4 PPL Rev. 2 B 3.7.3.4 Halon Systems BASES (continued)

ACTIONS (continued) where the posting of a firewatch does not provide acceptable radiological ALARA practices. For these inaccessible areas, alternate measures should be taken to assure an adequate level of fire protection is maintained. The specified area can be as small as one fire zone or as large as a firewatch can reasonably patrol within the fifteen minute time period. The specified area is limited to two floors of the Control Structure or Reactor Buildings.

The floors must be adjacent or served by an operable elevator.

TRS The TRSs provide assurances that the minimum OPERABILITY requirements of the fire suppression Halon systems are met. An allowance is made for ensuring a sufficient volume of Halon in the Halon storage tanks by verifying the weight and pressure of the tanks.

The Surveillances are modified by a Note to indicate that when a system is placed in an inoperable status solely for performance of required Surveillances, entry into associated Conditions and Required Actions may be delayed for up to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. Upon completion of the test, or expiration of the 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> allowance, the system must be restored to an operable condition, or the applicable Condition entered and 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> Required Action(s) completed. The 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> allowance is a reasonable out of service time based on prior plant test performance. This allowance also does not result in an increased risk of a fire. Required Surveillances include those surveillances under other subsections of TRM 3.7.3.

TRS 3.7.3.4.3 The purpose of the flow test is to verify that there are no obstructions/blockages in the Halon system headers or nozzles. The use of air or nitrogen is acceptable for use in the performance of the flow test.

REFERENCES

1. FPRR Section 4.9 SUSQUEHANNA - UNIT 1 TRM / B 3.7-9 EFFECTIVE DATE 05/29/2013

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 B 3.7.6 ESSW Pumphouse Ventilation BASES TRO The ESSW Pumphouse Ventilation System provides heat removal capability to ensure equipment temperature limits are maintained for the ESW pumps and the Unit 1 and Unit 2 RHRSW pumps. These pumps are required to operate to mitigate a design basis event. The ESSW Pumphouse ventilation system consists of two subsystems that provide the primary means to remove heat from the pumphouse. Each subsystem consists of four trains but only two fan trains in a subsystem are required for operability. A train consists of a fan and associated dampers. The associated dampers for a fan train are an outside supply damper, two recirculation dampers and an exhaust damper. The fail safe position of the outside supply and exhaust dampers is closed and the recirculation damper fail safe position is open.

Note that when the outside supply damper is placed in the fail safe position (closed), one of the recirculation dampers should be gagged in the open position to prevent potential fan damage. Placing the outside supply damper in the fail safe position assures that a single failure of an outside supply damper will not cause.freezing temperatures in the subsystem during winter.

Analysis has shown that two fan trains in a subsystem (fan, duct, dampers and associated controls) will maintain temperatures within operability limits.

Analysis has also shown that one fan train assures adequate cooling (36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />) during summer months.

If only one damper or multiple dampers in one fan train are failed, the appropriate damper positions are. closed for the supply and exhaust dampers and open for the recirculation dampers regardless of the time of year (see Table B3.7.6-1). If the supply damper is failed or gagged closed, one of the recirculation dampers must be opened to prevent potential fan damage. The above actions allow the dampers to remain in the above configuration through any season since the remaining fan systems can maintain temperatures in the pumphouse. With the exception of the supply damper failure requiring one recirculation damper to be gagged open, only the damper or dampers that are failed need to be placed in the position dictated by Table B3.7.6-1 or as directed by Engineering. The affected fan train is considered not operable.

If one damper or multiple dampers in two or three fan trains are failed during June, July or August, the appropriate damper positions is open for the supply and exhaust dampers and closed for the recirculation dampers (see Table B3.7.6-2). Note that the time frames are for when the damper failure initially occurred and changes to damper positions are not required even if the TRO (continued)

SUSQUEHANNA - UNIT 1 TIRM / B 3.7-21 EFFECTIVE DATE 05/29/2013

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 B 3.7.6 ESSW Pumphouse Ventilation BASES TRO (continued) carries into an adjacent month. If one damper or multiple dampers in two or three fan trains are failed during any month except June, July or August, the appropriate damper positions is closed for the supply and exhaust dampers and open for the recirculation dampers (see Table B3.7.6-3). All dampers in the affected train must be placed in the position specified in Table B3.7.6-2 or Table B3.7.6-3 or as directed by Engineering. If the supply damper is failed closed, one of the recirculation dampers must be opened to prevent potential fan damage. The damper configuration in Table 3.7.6-2 maintains the fan train operable if the fan is operable.

If all 4 Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are failed and three Division II fan trains (0V521B, 0V521D, 1V506B and 2V506B) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-O, Door 1701-0 and Door 1706-0 and confirming Door 1704-0 and 1705-0 are closed. If all 4 Division II fan trains (0V521 B, 0V521 D, 1V506B and 2V506B) are failed and three Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-0, confirming Door 1704-0 and 1705-0 are closed and gagging open two exhaust dampers in Division I1. Note that during winter months this will require additional heater installation. Other appropriate ventilation alignment will be determined by engineering.

Each ventilation subsystem provides cooling for separate divisions of equipment. Each division consists of two ESW pumps, one Unit 1 RHRSW pump and one Unit 2 RHRSW pump. The two ESSW Pumphouse Ventilation Subsystems provide the normal and emergency ventilation for the ESSW pumphouse. (Reference 1)

W ACTIONS The ACTIONS are modified by two Notes. Note 1 directs the entry into both a Condition for an inoperable fan(s) and Condition D, E, F or G for inoperable dampers when both one or more fans and one or more dampers are inoperable. Should the fan(s) and one or more dampers in an ESSW Pumphouse Ventilation Subsystem fan train(s) be inoperable, entry into two Conditions is required.

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.7-21 a EFFECTIVE DATE 05/24/2012

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 B 3.7.6 ESSW Pumphouse Ventilation BASES ACTIONS (continued)

Note 2 allows a gagged damper to be un-gagged intermittently under administrative controls to allow for work and/or operability testing. These controls consist of stationing a dedicated person capable of installing a gag, who is in communication with the control room,'at the damper. In this way, the damper can be re-gagged if the associated ESW/RHRSW pump starts.

An exception to the administrative control requirement to have a dedicated person stationed at the damper is when a damper has been repaired and successfully tested for operability but all of the required documentation has not been completed (i.e., functional but not administratively operable). If an inoperable damper remains un-gagged under administrative controls for a period of time greater than allowed by the action statements (i.e., 72 hrs.),

the associated ESW\\RHRSW pump must be declared inoperable.

The Actions are defined to ensure proper corrective measures are taken in response to inoperable components. The completion times are similar to completion times for the ESW system and are also based on engineering judgement that accounts for the fact that the system is a support system whose function is to maintain the ESSW Pumphouse temperature within limits.

Each subsystem of ESSW pumphouse equipment can maintain acceptable temperatures to meet design basis limits when all ventilation subsystem fan trains are OPERABLE. If a fan's associated damper(s) are inoperable, the associated fan subsystem can perform its intended safety function provided the inoperable fan(s) damper(s) are gagged in the appropriate position as determined by Table B3.7.6-1, B3.7.6-2 and B3.7.6-3 or by Engineering. The gagged damper position ensures that the ambient temperatures will remain within limits thus assuring operability of ESSW pumphouse equipment. An inoperable fan reduces the cooling capability of the subsystem thus compromising the subsystems ability to maintain temperatures within design limits.

Conditions D, E, F and G relate to inoperable dampers in a subsystem.

Condition D is specific to the failure of one or more dampers on one fan train in a subsystem. Condition D requires the dampers to be gagged in the fail safe position. Adequate cooling to the division will be provided by the remaining fans.

(continued)

II SUSQUEHANNA - UNIT 1 TRM / B 3.7-21 b EFFECTIVE DATE 05/24/2012

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 B 3.7.6 ESSW Pumphouse Ventilation BASES ACTIONS (continued)

An example of a hypothetical Condition D entry would be the failure of the 'D' ESW Fan supply damper (TD-08206D1). This condition would require gagging the damper or securing and deactivating the damper actuator in the fail safe position (closed for this damper) within 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> due to Condition D entry assuming all other dampers in the division are operable. If the 'D' ESW fan exhaust damper (TD-08206D4) were to fail at a later date (but before the

'D' ESW supply damper was repaired), entry into Condition D would be required for the 'D' ESW exhaust damper since it is associated with the same fan train as the 'D' ESW supply damper.

A second example is provided for the hypothetical entry into Condition E. If the 'D' ESW supply damper (TD08206D1) failed, entry into Condition D would be required and the damper would be gagged in the fail safe position (closed for this damper) assuming all other dampers in the division are operable. If the 'B' ESW supply damper (TD08206B1) failed at a later date (but before the 'D' ESW supply damper was repaired), separate entry into Condition E would be required since it is associated with a different fan train.

Additional damper failures would require entry into either Condition F or G.

Conditions D, E, F and G are modified by a separate note to allow separate Condition entry for each damper. The purpose of this note is to allow adequate time to gag or secure and deactivate the damper actuator of the damper that has failed. This is acceptable since the Required Action for this condition provides appropriate compensatory actions.

Condition G contains an action to establish an appropriate flow path within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />. If all 4 Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are failed and three Division II fan trains (0V521B, 0V521D, 1V506B and 2V506B) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-0, Door 1701-0 and Door 1706-0 and confirming Door 1704-0 and 1705-0 are closed. If all 4 Division II fan trains (0V521B, 0V521 D, 1V506B and 2V506B) are failed and three Division I fan trains (0V521A, 0V521C, 1V506A and 2V506A) are operable an acceptable ventilation alignment is blocking open Door 1702-0, Door 1703-0, confirming Door 1704-0 and 1705-0 are closed and gagging open two exhaust dampers in Division I1. Note that during winter months this will require additional heater installation. Other appropriate ventilation alignment will be determined by engineering.

(continued)

SUSQU EHAN NA - U N IT 1 TRM / B 3.7-21 c EFFECTIVE DATE 05/24/2012

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 B 3.7.6 ESSW Pumphouse Ventilation BASES TRS The TRSs are defined to be performed at the specified Frequency to ensure that the ESSW Pumphouse Ventilation Systems are maintained OPERABLE.

Verifying the fans are OPERABLE includes ensuring fans and associated dampers have properly functioned when operated to support normal pump operation. This ensures adequate pump heat removal capability.

REFERENCES

1.

FSAR Section 9.4.8

2.

Safety Evaluation NL-99-057

3.

50.59 SD 00756 SUSQUEHANNA - UNIT 1 TRM / B 3.7-21 d EFFECTIVE DATE 05/24/2012

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 Table B3.7.6-1: Damper Position for One (1) Fan Train Inoperable Due to Inoperable Damper(s)

Affected Fan A T Fain Failed Damper Gagged or Secured Position Train 0V521A Closed: TD-08206A1 "Supply" and TD-08206A4 "Exhaust" Open: TD-08206A2 and TD-08206A3 "Recirculation Dampers" 0V521C Closed: TD-08206C1 "Supply" and TD-08206C4 "Exhaust" Open: TD-08206C2 and TD-08206C3 "Recirculation Dampers" 1V506A Closed: TD-18201A1 "Supply" and TD-18201A4 "Exhaust" Open: TD-18201A2 and TD-18201A3 "Recirculation Dampers" 2V506A Closed: TD-28201A1 "Supply" and TD-28201A4 "Exhaust" Open: TD-28201A2 and TD-28201A3 "Recirculation Dampers" 0V521 B Closed: TD-08206B1 "Supply" and TD-08206B4 "Exhaust" Open: TD-08206B2 and TD-08206B3 "Recirculation Dampers" 0V521 D Closed: TD-08206D1 "Supply" and TD-08206D4 "Exhaust" Open: TD-08206D2 and TD-08206D3 "Recirculation Dampers" 1V506B Closed: TD-18201B1 "Supply" and TD-18201B4 "Exhaust" Open: TD-18201B2 and TD-18201B3 "Recirculation Dampers" 2V506B Closed: TD-28201B1 "Supply" and TD-28201B4 "Exhaust" Open: TD-28201 B2 and TD-28201B3 "Recirculation Dampers" Note: With the exception of the supply damper failure requiring one recirculation damper to be gagged open, only the damper or dampers that are failed need to be placed in the position dictated by this table or as directed by Engineering.

SUSQUEHANNA - UNIT 1 TRM / B 3.7-21 e EFFECTIVE DATE 05/29/2013

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 Table B3.7.6-2: Damper Position for Two (2) or Three (3) Fan Trains Inoperable Due to Inoperable Damper(s) During June, July or August Affected Fan Failed Damper Gagged or Secured Position Train 0V521A Closed: TD-08206A2 and TD-08206A3 "Recirculation Dampers" Open: TD-08206A1 "Supply" and TD-08206A4 "Exhaust" 0V521 C Closed: TD-08206C2 and TD-08206C3 "Recirculation Dampers" Open: TD-08206C1 "Supply" and TD-08206C4 "Exhaust" 1V506A' Closed: TD-18201A2 and TD-18201A3 "Recirculation Dampers" Open: TD-18201A1 "Supply" and TD-18201A4 "Exhaust" 2V506A Closed: TD-28201A2 and TD-28201A3 "Recirculation Dampers" Open: TD-28201A1 "Supply" and TD-28201A4 "Exhaust" 0V521 B Closed: TD-08206B2 and TD-08206B3 "Recirculation Dampers" Open: TD-08206B1 "Supply" and TD-08206B4 "Exhaust" 0V521 D Closed: TD-08206D2 and TD-08206D3 "Recirculation Dampers" Open: TD-08206D1 "Supply" and TD-08206D4 "Exhaust" 1V506B Closed: TD-18201 B2 and TD-18201 B3 "Recirculation Dampers" Open: TD-18201 B1 "Supply" and TD-18201 B4 "Exhaust" 2V506B Closed: TD-28201B2 and TD-28201B3 "Recirculation Dampers" Open: TD-28201 B1 "Supply" and TD-28201 B4 "Exhaust" Note: All dampers in the affected train must be placed in the position specified in this table or as directed by Engineering. The damper configuration in this table maintains the fan train operable if the fan is operable.

SUSQUEHANNA - UNIT 1 TRM / B 3.7-21f EFFECTIVE DATE 05/29/2013

PPL Rev. 4 ESSW Pumphouse Ventilation B 3.7.6 Table B3.7.6-3: Damper Position for Two (2) or Three (3) Fan Trains Inoperable Due to Inoperable Damper(s) During September through May Affected Fan Failed Damper Gagged or Secured Position Train 0V521A Closed: TD-08206A1 "Supply" and TD-08206A4 "Exhaust" Open: TD-08206A2 and TD-08206A3 "Recirculation Dampers" 0V521C Closed: TD-08206C1 "Supply" and TD-08206C4 "Exhaust" Open: TD-08206C2 and TD-08206C3 "Recirculation Dampers" 1V506A Closed: TD-18201A1 "Supply" and TD-18201A4 "Exhaust" Open: TD-18201A2 and TD-18201A3 "Recirculation Dampers" 2V506A Closed: TD-28201A1 "Supply" and TD-28201A4 "Exhaust" Open: TD-28201A2 and TD-28201A3 "Recirculation Dampers" 0V521 B Closed: TD-08206B1 "Supply" and TD-08206B4 "Exhaust" Open: TD-08206B2 and TD-08206B3 "Recirculation Dampers" 0V521 D Closed: TD-08206D1 "Supply" and TD-08206D4 "Exhaust" Open: TD-08206D2 and TD-08206D3 "Recirculation Dampers" 1V506B Closed: TD-18201B1 "Supply" and TD-18201B4 "Exhaust" Open: TD-182011B2 and TD-18201B3 "Recirculation Dampers" 2V506B Closed: TD-28201 B1 "Supply" and TD-28201 B4 "Exhaust" Open: TD-28201B2 and TD-28201B3 "Recirculation Dampers" Note: All dampers in the affected train must be placed in the position specified in this table or as directed by Engineering. If the supply damper is failed closed, one of the recirculation dampers must be opened to prevent potential fan damage.

SUSQUEHANNA - UNIT 1 TRM / B 3.7-21g EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 B 3.8.7 Battery Monitoring and Maintenance Program BASES BACKGROUND This TRO delineates the limits on electrolytetemperature, electrolyte level, float voltage, and specific gravity for the Unit 1 DC electrical power subsystems batteries and comprises the "Battery Monitoring and Maintenance Program" as required under Technical Specification 5.5.13.

A discussion of these batteries and their OPERABILITY requirements is provided in the Bases for Technical Specification LCO 3.8.4, "DC Sources-Operating," and LCO 3.8.5, "DC Sources-Shutdown."

APPLICABLE SAFETY ANALYSES The initial conditions of Design Basis Accident (DBA) and transient analyses in FSAR, Chapter 6 (Ref. 1) and Chapter 15 (Ref. 2), assume Engineered Safety Feature systems are OPERABLE. The DC electrical power subsystems provide normal and emergency DC electrical power for the diesel generators (DGs), emergency auxiliaries, and control and switching during all MODES of operation.

The OPERABILITY of the DC subsystems is consistent with the initial assumptions of the accident analyses and is based upon meeting the design basis of the unit. This includes maintaining DC sources identified in Technical Specification Table 3.8.4-1 OPERABLE during accident conditions, in the event of:

a.

An assumed loss of all offsite AC or all onsite AC power, and

b.

A worst case single failure.

Since battery cell parameters support the operation of the DC electrical power subsystems, they satisfy Critedion 3 of the NRC Policy Statement (Ref. 3).

TRO Battery cell parameters must remain within acceptable limits to ensure availability of the required DC power to shut down the reactor and maintain it in a safe condition after an anticipated operational occurrence or a postulated DBA.

Electrolyte limits are conservatively established, allowing continued DC electrical system function even with Category A limits not met.

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.8-18 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES (continued)

APPLICABILITY The battery cell parameters are required solely for the support of the associated DC electrical power subsystem. Therefore, battery cell parameters are required to be within required limits only when the associated DC power source is required to be OPERABLE. Refer to the Applicability discussions in Technical Specification Bases for LCO 3.8.4 and LCO 3.8.5.

ACTIONS A Note has been added to provide clarification that, for the purpose of this TRO, separate Condition entry is allowed for each battery. This is acceptable, since the Required Actions for each Condition provide appro-priate compensatory actions for each inoperable battery. Complying with the Required Actions may allow for continued operation, and subsequent inoperable batteries are governed by subsequent Condition entry and application of associated Required Actions.

A.1, A.2, and A.3 With parameters of one or more cells in one or more batteries not within Category A limits but within the Category B limits specified in Table 3.8.7-1, the battery is degraded but there is still sufficient capacity to perform the intended function. Therefore, the affected battery is not required to be considered inoperable solely as a result of Category A limits not met and continued operation is permitted for a limited period.

The pilot cell electrolyte level and float voltage are required to be verified to meet the Category B limits within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> (Required Action A.1). This check provides a quick indication of the status of the remainder of the battery cells. One hour provides time to inspect the electrolyte level and to confirm the float voltage of the pilot cell. One hour is considered a reasonable amount of time to perform the required verification.

Verification that the Category B limits are met (Required Action A.2) provides assurance that during the time needed to restore the parameters to the Category A limits, the battery is still capable of performing its intended function. A period of 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> is allowed to complete the initial verification because average temperature measurement must be obtained for the battery. Taking into consideration both the time required to perform the required verification and the assurance that the battery cell parameters are not severely degraded, this time is considered reasonable.

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.8-19 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES ACTIONS A.1, A.2, and A.3 (continued)

Verification of the average temperature of the battery within the design bases ensures operability. The verification is repeated at 7-day intervals until the parameters are restored to Category A limits.

Continued operation is only permitted for 31 days before battery cell parameters must be restored to within Category A limits. Taking into consideration that, while battery capacity is degraded, sufficient capacity exists to perform the intended function and to allow time to fully restore the battery cell parameters to normal limits, this time is acceptable for operation prior to declaring the DC batteries inoperable.

B.1 Failure to complete the checks required for Actions A.1 or A.2 require immediate action. Entry into Technical Specification 3.8.6 must be entered immediately.

C.1 When any battery parameter is outside the Category B limit for any connected cell, sufficient capacity to supply the maximum expected load requirement is not ensured and the corresponding DC electrical power subsystem must be declared inoperable. Additionally, other potentially extreme conditions, such as not completing the Required Action A.3 within the required Completion Time also are cause for immediately declaring the associated DC electrical power subsystem inoperable.

D.1 Cells that have been discovered with electrolyte level below the top of the plates are equalized and tested lAW Technical Specification 5.5.13.

E.1 Required Action E. 1 is to ensure that under extreme conditions, such as failure to complete the required Action D.1 within the required completion time, average electrolyte temperature falling below 600 F, or intercell connections found not within required connection resistance also are cause for immediately declaring the associated battery inoperable.

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.8-20 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES (continued)

SURVEILLANCE TRS 3.8.7.1 REQUIREMENTS The quarterly inspection for visible corrosion at the terminal and connector is consistent with IEEE-450. The "OR" condition is to ensure, if there is visible corrosion, intercell connection resistance is not impacted.

TRS 3.8.7.2 The quarterly inspection of average electrolyte temperature is consistent with IEEE-450 recommendation to check 10% of the connected cells.

Lower than normal temperatures act to inhibit or reduce battery capacity.

This TRS ensures that the operating temperatures remain within an acceptable operating range. This limit is based on manufacturer's recommendations and battery sizing calculations.

TRS 3.8.7.3 IEEE-450 (Ref. 4) recommends a check of specific gravity every year. The Frequency of the TRS (every 2 years) is acceptable because other administrative controls ensure adequate battery performance during the 2-year interval and aligns performance during refueling outages. Further, operating experience has shown this component usually pass the TRS when performed at the 2-year Frequency; therefore, the frequency is acceptable from a reliability standpoint.

The limit specified for specific gravity for each connected cell is no more than 0.020 below the average of all connected cells with the temperature corrected average __ 1.195. These values are based on manufacturers recommendations for the minimum required value. The minimum specific gravity value required for each cell ensures that the effects of a highly charged or newly installed cell do not mask overall degradation of the battery.

Specific gravity gradients produced during the recharging process may result in delays of several days until the specific gravity stabilizes.

However, a minor battery recharge (such as equalizing charge that does not follow a deep discharge) does not produce specific gravity gradients that are significant.

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.8-21 EFFECTIVE DATE 05/28/2009

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES SURVEILLANCE REQUIREMENTS TRS 3.8.7.4 (continued)

Visual inspection of the battery cells, cell plates, and battery racks provides an indication of physical damage or abnormal deterioration that could potentially degrade battery performance. The presence of physical damage or deterioration does not represent a failure of the TRS, provided an evaluation determines that the physical damage or deterioration does not affect the OPERABILITY of the battery (its ability to perform its design function). The Frequency of the TRS is acceptable because other administrative controls ensure adequate battery performance during the 2-year interval and aligns performance during refueling outages. Further, operating experience has shown these components usually pass the TRS when performed at the 2-year Frequency; therefore, the frequency is acceptable from a reliability standpoint.

TRS 3.8.7.5 The connection resistance limits for this SR must be below the limits specified in the SR. The calculated average resistance limit ensure that the total voltage drop across the battery connections is consistent to those assumed in the battery calculations, while the upper limit for battery resistance prevents the possibility of battery damage due to overheating of the connections.

The Frequency of this SR is acceptable because other administrative controls ensure adequate battery performance during the 2-year interval and aligns performance with refueling outage intervals.

Furthermore, operating experience has shown these components usually pass the Surveillance when performed at the 2-year Frequency; therefore, the Frequency is acceptable from a reliability standpoint.

Table 3.8.7-1 This table delineates the limits on electrolyte level, float voltage, and temperature for two different categories. The meaning of each category is discussed below.

Category A defines the normal parameter limits for each connected cell.

The term "connected cell" excludes any battery cell that may be jumpered out (continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.8-22 EFFECTIVE DATE 05/28/2009

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES SURVEILLANCE REQUIREMENTS Table 3.8.7-1 (continued)

The Category A limits specified for electrolyte level are based on manufacturer's recommendations and are consistent with the guidance in IEEE-450 (Ref. 4), with the extra / inch allowance above the high water level indication for operating margin to account for temperature and charge effects. In addition to this allowance, footnote (a) to Table 3.8.7-1 permits the electrolyte level to be above the specified maximum level during equalizing charge, provided it is not overflowing. These limits ensure that the plates suffer no physical damage, and that adequate electron transfer capability is maintained in the event of transient conditions. IEEE-450 (Ref. 4) recommends that electrolyte level readings should be made only after the battery has been at float charge for at least 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br />.

The Category A limit specified for float voltage is _> 2.13 V per cell.

This value is based on the recommendation of IEEE-450 (Ref. 4) which states that prolonged operation of cells below 2.13 V can reduce the life expectancy of cells.

Category B defines the limits for each connected cell. These values, although reduced, provide assurance that sufficient capacity exists to perform theintended function and maintain a margin of safety. When any battery parameter is outside the Category B limits, the assurance of sufficient capacity described above no longer exists, and Technical Specification 3.8.6 must be entered immediately.

The Category B limit specified for electrolyte level (above the top of the plates and not overflowing) ensures that the plates suffer no physical damage and maintain adequate electron transfer capability. The Category B allowable limit for voltage is based on IEEE-450 (Ref. 4), which states that a cell voltage of 2.07 V or below, under float conditions and not caused by elevated temperature of the cell, indicates internal cell problems and may require cell replacement.

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.8-23 EFFECTIVE DATE 05/29/2013

PPL Rev. 2 Battery Monitoring and Maintenance Program B 3.8.7 BASES REFERENCES

1.

FSAR, Chapter 6

2.

FSAR, Chapter 15

3.

Final Policy Statement on Technical Specifications Improvements, July 22, 1993 (58 FR 39132)

4.

IEEE Standard 450-1995 SUSQUEHANNA - UNIT 1 TRM / B 3.8'-24 EFFECTIVE DATE 05/28/2009

Monitoring Program PPL Rev. 4 B 3.11.4.1 B 3.11.4.1 Monitoring Program BASES-TRO The radiological environmental monitoring program required by this Requirement provides representative measurements of radiation and of radioactive materials in those environmental exposure pathways and for those radionuclides that lead to the highest potential radiation exposures of MEMBERS OF THE PUBLIC resulting from the station operation. This monitoring program thereby supplements the radiological effluent monitoring program by verifying that the measurable concentrations of radioactive materials and levels of radiation are not higher than expected on the basis of the effluent measurements and modeling of the environmental exposure pathways. Changes to the radiological environmental monitoring program specified in Table 3.11.4.1-1 may be made based on expected SSES operation and the results of radiological environmental monitoring during SSES operation.

The required detection capabilities for environmental sample analyses are tabulated in terms of the lower limits of detection (LLDs). The LLDs required by Table 3.11.4.1-3 are considered optimum for routine environmental measurements in industrial laboratories. It should be recognized that the LLD is defined as an a priori (before the fact) limit representing the capability of a measurement system and not as an a posteriori (after the fact) limit for a particular measurement.

Detailed discussion of the LLD, and other detection limits, can be found in HASL Procedures Manual, HASL-300 (revised annually); Currie, L. A.,

"Limits for Qualitative Detection and Quantitative Determination -

Application to Radiochemistry" Anal. Chem. 40, 586-93 (1968); and Hartwell, J. K., "Detection Limits for Radioanalytical Counting Techniques,"

Atlantic Richfield Hanford Company Report ARH-SA-215 (June 1975).

(Reference 1)

This section of the TRM is also part of the ODCM (Reference 2).

ACTIONS The Actions are defined to ensure proper corrective measures are taken when requirements are not met. Once a Condition Report is generated (per the applicable Action), the TRO may be exited because at that time, the Condition that caused the TRO is no longer out of compliance with the program.

(continued)

SUSQUEHANNA - UNIT 1 TRM I B 3.11-28 EFFECTIVE DATE 11/30/2005

Monitoring Program PPL Rev. 4 B 3.11.4.1 B 3.11.4.1 Monitoring Program BASES ACTIONS Per Action A.1, the Annual Radiological Environmental Operating Report (continued) shall provide a description of the reasons for not conducting the program as required and the plans for preventing a recurrence.

The Special Report submitted per Action B.1 shall identify the cause(s) for exceeding the limit(s) and define the corrective actions to be taken to reduce radioactive effluents so that the potential annual dose to a MEMBER OF THE PUBLIC is less than the! calendar year limits of Requirements 3.11.1.2, 3.11.2.2 and 3.11.2.3.

Include revised figure(s) and table for the ODCM reflecting the new locations for obtaining samples per Action F. 1 in the next Radioactive Effluent Release Report.

TRS The TRSs are defined to be performed at the specified frequency to ensure that the requirements are implemented. Monitoring samples collected per TRS 3.11.4.1.1 shall be from the specific locations given in the table and figure in the ODCM. (Reference 2)

The TRSs are modified by a Note to take exception to TRS 3.0.3.

Table 3.11.4.1-1 Sample Locations Specific parameters of distance and direction sector from the centerline of one reactor, and additional description where pertinent, shall be provided for each and every sample location in this Table and in a table and figure(s) in the ODCM. Refer to NUREG-0133, "Preparation of Radiological Effluent Technical Specifications for Nuclear Power Plants," October 1978, and to Radiological Assessment Branch Technical Position, Revision 1, November 1979. (Reference 3) Deviations are permitted from the required sampling schedule if specimens are unobtainable due to hazardous conditions, seasonal unavailability, malfunction of automatic sampling equipment and other legitimate reasons.

If specimens are unobtainable due to sampling equipment malfunction, every effort shall be made to complete corrective action prior to the end of the next sampling (continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.11-29 EFFECTIVE DATE 11/30/2005

Monitoring Program PPL Rev. 4 B 3.11.4.1 B 3.11.4.11 Monitoring Program BASES TRS period. All deviations from the sampling schedule shall be documented, in (continued) the Annual Radiological Environmental Operating Report. It is recognized that, at times, it may not be possible or practicable to continue to obtain samples of the media of choice at the most: desired location or time.

In these instances suitable alternative media and locations may be chosen for the particular pathway in question and appropriate substitutions made within 30 days in the radiological environmental monitoring program.

Identify the cause of the unavailability of samples for that pathway and identify the new location(s) for obtaining replacement samples in the next Radioactive Effluent Release Report and also include in the report a revised figure(s) and table for the ODCM reflecting the new location(s).

Direct Radiation One or more instruments, such as a pressurized ion chamber, for measuring and recording dose rate continuously may be used in place of, or in addition to, integrating dosimeters. Film badges shall not be used as dosimeters for measuring direct radiation.

Radioiodine and Particulates - Sampling and Collection Frequency The charcoal cartridges used in the airborne radioiodine sampling conducted as part of the radiological environmental monitoring program are designed and tested by the manufacturer to assure a high efficiency in the capture of radioiodine. Certificates from the! manufacturer of the cartridges are provided with each batch of cartridges certifying the percent retention of the radiodine for stated air flows.

Radioiodine and Particulates - Particulate Sample: Waterborne - Surface, Ground, Sediment; Food Products Gamma isotopic analysis means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility.

Waterborne - Surface The "upstream sample" shall be taken at a distance beyond significant influence of the discharge. The "downstream" sample shall be taken within the discharge line or just downstream of the discharge line near the mixing zone.

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.11-30 EFFECTIVE DATE 05/29/2013

Monitoring Program B 3.11.4.1 PPL Rev. 4 B 3.11.4.1 Monitoring Program BASES TRS (continued)

Waterborne - Drinking - Sampling and Collection Frequency A composite sample is one in which the quantity (aliquot) of liquid sampled is proportional to the quantity of flowing liquid and in which the method of sampling employed results in a specimen that is representative of the liquid flow. In this program composite samples shall be collected at time intervals that are very short (e.g., hourly) relative to the compositing period (e.g., monthly) in order to assure obtaining a representative sample.

Waterborne - Ground - Samples and Sample Locations Groundwater samples shall be taken when this source is tapped for drinking or irrigation purposes in areas where the hydraulic gradient or recharge properties are suitable for contamination.

Drinking Water 131 Analyses Calculation of the dose projected from I-131 in drinking water to determine if 1-131 analyses of the water are required shall be performed for the maximum organ and age group using the methodology and parameters of the ODCM.

Food Products - Sampling and Collection Frequency If harvest occurs more than once a year, sampling shall be performed during each discrete harvest. If harvest occurs continuously, sampling shall be monthly.

Attention shall be paid to including samples of tuborous and-root food products.

Table 3.11.4.1-3 This list does not mean that only these nuclides are to be considered.

Other peaks that are identifiable at 95% confidence level together with those of the above nuclides, shall also be analyzed and reported in the Annual Radiological Environmental Operating report.

Required detection capabilities for dosimeters used for environmental measurements are given in Regulatory Guide 4.13. (Reference 4)

(continued)

SUSQUEHANNA - UNIT 1 TRM / B 3.11-31 EFFECTIVE DATE 05/29/2013

Monitoring Program B 3.11.4.1 PPL Rev. 4 B 3.11.4.1 Monitoring Program BASES TRS (continued)

The LLD is defined, for purpose of these Requirements, as the smallest concentration of radioactive material in a sample that will yield a net count (above system background) that will be detected with 95% probability with only 5% probability of falsely concluding that a blank observation represents a "real" signal.

For a particular measurement system (which may include radiochemical separation):

LLD =

.46s E e V

• 2.22 a Y

• exp(-At)

Where:

LLD is the a priori lower limit of detection as; defined above (as picrocuries per unit mass or volume),

Sb is the standard deviation of the background counting rate or of the countingrate of a blank sample as appropriate (as counts per minute),

E is the counting efficiency, as counts per disintegration, V is the sample size, in units of mass or volume, 2.22 is the number of disintegrations per minute per picrocurie, Y is the fractional radiochemical yield, when applicable, X is the radioactive decay constant for the particular radionuclide, and At for environmental samples is the elapsed time between sample collection (or end of the sample collection period) and time of counting.

Typical values of E, V, Y, and At should be used in the calculation.

(continued)

SUSQUEHANNA - UNIT 1 TRIVI / B 3.11-32 EFFECTIVE DATE 08/30/1998

Monitoring Program B 3.11.4.1 PPL Rev. 4 B 3.11.4!.1 Monitoring Program BASES TRS it should be recognized that the LLD is defined as a priori (before the fact)

(continued) limit representing the capability of a measurement system and not as an a posteriori (after the fact) limit for a particular measurement. Analyses shall be performed in such a manner that the stated LLDs will be achieved under routine conditions. Occasionally background fluctuations, unavoidably small sample sizes, the presence of interfering nuclides, or other uncontrollable circumstances may render these LLDS unachievable.

In such cases, the contributing factors shall be identified and described in the Annual Radiological Environmental Operating Report.

REFERENCES

1.

HASL Procedures Manual, HASL-300 (revised annually); Curie, L.A.,

"Limits for Qualitative Detection and Quantitative Determination -

Application to Radiochemistry" Anal. Chem. 40, 586-93 (1968); and Hartwell, J. K., "Detection Limits for Radioanalytical Counting Techniques," Atlantic Richfield Hanford Company Report ARH-SA-215 (June 1975) Offsite Dose Calculation Manual

2.

Technical Specification 5.5.1 - Offsite [)ose Calculation Manual

3.

NUREG-0133, "Preparation of Radiological Effluent Technical Specifications for Nuclear Power Plants," October 1978, and to Radiological Assessment Branch Technical Position, Revision 1, November 1979

4.

Regulatory Guide 4.13

5.

NUREG-1302, Offsite Dose Calculation Manual Guidance: "Standard Radiological Effluent Controls for Boiling Water Reactors," April 1991 SUSQUEHANNA - UNIT 1 TRM / B 3.11-33 EFFECTIVE DATE 06/30/2010