Technical Specification Bases Manual

ML18017A227
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Site:	Susquehanna
Issue date:	12/15/2017
From:	Susquehanna
To:	Document Control Desk, Office of Nuclear Reactor Regulation
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2017-25029
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TSBl - TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL REMOVE MANUAL TABLE OF CONTENTS DATE: 12/05/2017 ADD MANUAL TABLE OF CONTENTS DATE: 12/14/2017 CATEGORY: DOCUMENTS TYPE: TSBl ID: TEXT 3.8.3 ADD: REV: 6 REMOVE: REV:5

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TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL Table Of Contents Issue Date: 12/14/2017 Procedure Name Rev Issue Date Change ID Change Number TEXT LOES 129 12/14/2017

Title:

LIST OF EFFECTIVE SECTIONS TEXT TOC 23 07/02/2014

Title:

TABLE OF CONTENTS TEXT 2 .1.1 6 01/22/2015

Title:

SAFETY LIMITS (SLS) REACTOR CORE SLS

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SAFETY LIMITS (SLS) REACTOR COOLANT SYSTEM, (RCS.) PRESSURE S

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• Tit~e: LIMITING CONDITION FOR OPERA~}of (,~Ci!O)-~A:e"PtICABILITY

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REACTIVITY CONTROL SYSTEMS SHUTDOWN MARGIN (SDM)

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REACTIVITY CONTROL. SYSTEMS REACTIVITY ANOMALIES I ( ~....,~ \ ',v"

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REACTIVITY *, CONTROL SYSTEMS CONTROL ROD OPERABILITY

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TEXT 3 .1.4 5 11/16/2016

Title:

REACTIVITY CONTROL SYSTEMS CONTROL ROD SCRAM TIMES TEXT 3 .1.5 2 11/16/2016

Title:

REACTIVITY CONTROL SYSTEMS CONTROL ROD SCRAM ACCUMULATORS TEXT 3 .1. 6 4 11/16/2016

Title:

REACTIVITY CONTROL SYSTEMS ROD PATTERN CONTROL Page! of 8 Report Date: 12/14/17

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Title:

TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL TEXT 3 .1. 7 4 11/16/2016

Title:

REACTIVITY CONTROL SYSTEMS STANDBY LIQUID CONTROL (SLC) SYSTEM TEXT 3 .1. 8 4 11/16/2016

Title:

REACTIVITY CONTROL SYSTEMS SCRAM DISCHARGE VOLUME (SDV) VENT AND DRAIN VALVES TEXT 3.2.1 3 11/16/2016

Title:

POWER DISTRIBUTION LIMITS AVERAGE PLANAR LINEAR HEAT GENERATION RATE (APLHGR)

TEXT 3.2.2 4 11/16/2016

Title:

POWER DISTRIBUTION LIMITS MINIMUM CRITICAL POWER RATIO (MCPR)

TEXT 3.2.3 3 11/16/2016

Title:

POWER DISTRIBUTION LIMITS LINEAR HEAT GENERATION RATE (LHGR) 7 11/16/2016

Title:

INSTRUMENTATION REACTOR PROTECTION SYSTEM (RPS) INSTRUMENTATION TEXT 3.3.1.2 3 11/16/2016

Title:

INSTRUMENTATION SOURCE RANGE MONITOR (SRM) INSTRUMENTATION TEXT 3.3.2.1 5 11/16/2016

Title:

INSTRUMENTATION CONTROL ROD BLOCK INSTRUMENTATION TEXT 3.3.2.2 3 11/,16/2016

Title:

INSTRUMENTATION FEEDWATER MAIN TURBINE HIGH WATER LEVEL TRIP INSTRUMENTATION TEXT 3.3.3.1 10 11/16/2016

Title:

INSTRUMENTATION POST ACCIDENT MONITORING (PAM) INSTRUMENTATION TEXT 3.3.3.2 2 11/16/2016

Title:

INSTRUMENTATION REMOTE SHUTDOWN SYSTEM TEXT 3.3.4.1 3 11/16/2016 Page~

Title:

INSTRUMENTATION END OF CYCLE RECIRCULATION PUMP TRIP (EOC-RPT) INSTRUMENTATION of 8 Report Date: 12/14/17

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TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL TEXT 3.3.4.2 1 11/16/2016

Title:

INSTRUMENTATION ANTICIPATED TRANSIENT WITHOUT SCRAM RECIRCULATION PUMP TRIP (ATWS-RPT) INSTRUMENTATION TEXT 3.3.5.1 4 11/16/2016

Title:

INSTRUMENTATION EMERGENCY CORE COOLING SYSTEM (ECCS) INSTRUMENTATION TEXT 3.3.5.2 1 11/16/2016

Title:

INSTRUMENTATION REACTOR CORE ISOLATION COOLING (RCIC) SYSTEM INSTRUMENTATION TEXT 3.3.6.1 8 11/16/2016

Title:

INSTRUMENTATION PRIMARY CONTAINMENT ISOLATION INSTRUMENTATION TEXT 3.3.6.2 5 11/16/2016

Title:

INSTRlJMENTATION SECONDARY CONTAINMENT ISOLATION INSTRUMENTATION

• ~XT 3.3.7.1 3 11/16/2016

Title:

INSTRUMENTATION CONTROL ROOM EMERGENCY OUTSIDE AIR SUPPLY (CREOAS) SYSTEM INSTRUMENTATION TEXT 3.3.8.1 3 11/16/2016 .

Title:

INSTRUMENTATION LOSS OF POWER. (LOP) INSTRUMENTATION TEXT 3.3.8.2 1 11/16/2016

Title:

INSTRUMENTATION REACTOR PROTECTION SYSTEM (RPS) ELECTRIC POWER MONITORING TEXT 3.4.1 5 11/16/2016

Title:

REACTOR COOLANT SYSTEM (RCS) RECIRCULATION LOOPS OPERATING TEXT 3.4.2 4 11/16/2016

Title:

REACTOR COOLANT SYSTEM (RCS) JET PUMPS TEXT 3.4.3 3 01/13/2012

Title:

REACTOR COOLANT SYSTEM RCS SAFETY RELIEF VALVES S/RVS TEXT 3 4 4 1 11/16/2016

• Tit~e: REACTOR COOLANT SYSTEM (RCS) RCS OPERATIONAL LEAKAGE Page~ of 8 Report Date: 12/14/17

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TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL TEXT 3.4.5 2 04/13/2016

Title:

REACTOR COOLANT SYSTEM (RCS) RCS PRESSURE ISOLATION VALVE (PIV) LEAKAGE TEXT 3.4.6 5 11/16/2016

Title:

REACTOR COOLANT SYSTEM (RCS) RCS LEAKAGE DETECTION INSTRUMENTATION TEXT 3.4.7 3 11/16/2016

Title:

REACTOR COOLANT SYSTEM (RCS) RCS SPECIFIC ACTIVITY TEXT 3.4.8 3 11/16/2016

Title:

REACTOR COOLANT SYSTEM (RCS) RESIDUAL HEAT REMOVAL (RHR) SHUTDOWN COOLING SYSTEM

- HOT SHUTDOWN TEXT 3.4.9 2 11/16/2016

Title:

REACTOR COOLAl"\JT SYSTEM (RCS) RESIDUAL HEAT REMOVAL (RHR) SHUTDOWN COOLING SYSTEM

- COLD SHUTDOWN

'EXT 3.4.10 5 11/16/2016

Title:

REACTOR COOLANT SYSTEM (RCS) RCS PRESSURE AND TEMPERATURE (P/T) LIMITS TEXT 3.4.11 1 '11/16/2016

Title:

REACTOR COOLANT SYSTEM (RCS) REACTOR STEAM DOME PRESSURE TEXT 3.5.1 5 11/16/2016

Title:

EMERGENCY CORE COOLING SYSTEMS (ECCS) AND REACTOR CORE ISOLATION COOLING (RCIC)

SYSTEM ECCS - OPERATING TEXT 3.5.2 1 11/16/2016

Title:

EMERGENCY CORE COOLING SYSTEMS (ECCS) AND REACTOR CORE ISOLATION COOLING (RCIC)

SYSTEM ECCS - SHUTDOWN TEXT 3.5.3 5 05/31/2017

Title:

EMERGENCY CORE COOLING SYSTEMS (ECCS) AND REACTOR CORE ISOLATION COOLING (RCIC)

SYSTEM RCIC SYSTEM TEXT 3 . 6 . 1. 1 6 11/16/2016

Title:

PRIMARY CONTAINMENT TEXT 3.6.1.2 2 11/16/2016

Title:

CONTAINMENT SYSTEMS PRIMARY CONTAINMENT AIR LOCK Page! of 8 Report Date: 12/14/17

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TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL TEXT 3 . 6 . 1. 3 13 11/16/2016

Title:

CONTAINMENT SYSTEMS PRIMARY CONTAINMENT ISOLATION VALVES (PCIVS)

TEXT 3.6.1.4 2 11/16/2016

Title:

CONTAINMENT SYSTEMS CONTAINMENT PRESSURE TEXT 3 . 6 . 1. 5 2 11/16/2016

Title:

CONTAINMENT SYSTEMS DRYWELL AIR TEMPERATURE TEXT 3.6.1.6 1 11/16/2016

Title:

CONTAINMENT SYSTEMS SUPPRESSION CHAMBER-TO-DRYWELL VACUUM BREAKERS TEXT 3.6.2.1 3 11/16/2016

Title:

CONTAINMENT SYSTEMS SUPPRESSION POOL AVERAGE TEMPERATURE

~EXT 3.6.2.2 1 11/16/2016

Title:

CONTAINMENT SYSTEMS SUPPRESSION POOL WATER LEVEL TEXT 3.6.2.3 2 11/16/2016

Title:

CONTAINMENT SYSTEMS RESIDUAL HEAT REMOVAL (Rl:IR) SUPPRESSION POOL COOLING TEXT 3.6.2.4 1 11/16/2016

Title:

CONTAINMENT SYSTEMS RESIDUAL HEAT REMOVAL (RHR) SUPPRESSION POOL SPRAY TEXT 3.6.3.1 2 06/13/2006

Title:

CONTAINMENT SYSTEMS PRIMARY CONTAINMENT HYDROGEN RECOMBINERS TEXT 3.6.3.2 3 09/29/2017

Title:

CONTAINMENT SYSTEMS DRYWELL AIR FLOW SYSTEM LDCN 5296 TEXT 3.6.3.3 3 09/29/2017

Title:

CONTAINMENT SYSTEMS PRIMARY CONTAINMENT OXYGEN CONCENTRATION TEXT 3 6 4 1 13 04/19/2017

• . Tit~e: ~ONTAINMENT SYSTEMS SECONDARY CONTAINMENT Page~ of 8 Report Date: 12/14/17

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Title:

TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL TEXT 3.6.4.2 12 04/19/2017

Title:

CONTAINMENT SYSTEMS SECONDARY CONTAINMENT ISOLATION VALVES (SCIVS)

TEXT 3.6.4.3 6 09/15/2017

Title:

CONTAINMENT SYSTEMS STANDBY GAS TREATMENT (SGT) SYSTEM TEXT 3.7.1 5 11/16/2016

Title:

PLANT SYSTEMS RESIDUAL HEAT REMOVAL SERVICE WATER (RHRSW) SYSTEM AND THE ULTIMATE HEAT SINK (UHS)

TEXT 3.7.2 3 11/16/2016

Title:

PLANT SYSTEMS EMERGENCY SERVICE WATER (ESW) SYSTEM TEXT 3.7.3 3 09/15/2017

Title:

PLANT SYSTEMS CONTROL ROOM EMERGENCY OUTSIDE AIR SUPPLY (CREOAS) SYSTEM

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Title:

PLANT SYSTEMS CONTROL ROOM FLOOR COOLING SYSTEM TEXT 3.7.5 2 11/16/2016

Title:

PLANT SYSTEMS MAIN CONDENSER OFFGAS TEXT 3.7.6 3 11/16/2016

Title:

PLANT SYSTEMS MAIN TURBINE BYPASS SYSTEM TEXT 3.7.7 2 11/16/2016

Title:

PLANT SYSTEMS SPENT FUEL STORAGE POOL WATER LEVEL TEXT 3.7.8 1 11/16/2016

Title:

PLANT SYSTEMS TEXT 3.8.1 8 11/16/2016

Title:

ELECTRICAL POWER SYSTEMS AC SOURCES - OPERATING TEXT 3.8.2 0 11/15/2002

Title:

ELECTRICAL POWER SYSTEMS AC SOURCES - SHUTDOWN Page .§. of 8 Report Date: 12/14/17

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Title:

TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL TEXT 3.8.3 6 12/14/2017 *

Title:

ELECTRICAL POWER SYSTEMS DIESEL FUEL OIL, LUBE OIL, AND STARTING AIR TEXT 3.8.4 4 11/16/2016

Title:

ELECTRICAL POWER SYSTEMS DC SOURCES - OPERATING TEXT 3.8.5 1 12/14/2006

Title:

ELECTRICAL POWER SYSTEMS DC SOURCES - SHUTDOWN TEXT 3.8.6 2 11/16/2016

Title:

ELECTRICAL POWER SYSTEMS BATTERY CELL PARAMETERS TEXT 3.8.7 2 11/16/2016

Title:

ELECTRICAL POWER SYSTEMS DISTRIBUTION SYSTEMS - OPERATING

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3. 8. 8 1 11/16/2016

Title:

ELECTRICAL POWER SYSTEMS DISTRIBUTION SYSTEMS - SHUTDOWN TEXT 3.9.1 1 11/16/2016

Title:

REFUELING OPERATIONS REFUELING EQUIPMENT INTERLOCKS TEXT 3.9.2 2 11/16/2016

Title:

REFUELING OPERATIONS REFUEL POSITION ONE-ROD-OUT INTERLOCK TEXT 3.9.3 1 11/16/2016

Title:

REFUELING OPERATIONS CONTROL ROD POSITION TEXT 3.9.4 0 11/15/2002

Title:

REFUELING OPERATIONS CONTROL ROD POSITION INDICATION TEXT 3.9.5 1 11/16/2016

Title:

REFUELING OPERATIONS CONTROL ROD OPERABILITY - REFUELING TEXT 3.9.6 2 11/16/2016

~ ' Title, REFUELING OPERATIONS REACTOR PRESSURE VESSEL (RPV) WATER LEVEL Page J_ of 8 Report Date: 12/14/17

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Title:

TECHNICAL SPECIFICATION BASES UNIT 1 MANUAL TEXT 3.9.7 1 11/16/2016

Title:

REFUELING OPERATIONS RESIDUAL HEAT REMOVAL (RHR) - HIGH WATER LEVEL TEXT 3.9.8 1 11/16/2016

Title:

REFUELING OPERATIONS RESIDUAL HEAT REMOVAL (RHR) - LOW WATER LEVEL TEXT 3.10.l 1 01/23/2008

Title:

SPECIAL OPERATIONS INSERVICE LEAK AND HYDROSTATIC TESTING OPERATION TEXT 3.10.2 1 11/16/2016

Title:

SPECIAL OPERATIONS REACTOR MODE SWITCH INTERLOCK TESTING TEXT 3.10.3 1 11/16/2016

Title:

SPECIAL OPERATIONS SINGLE CONTROL ROD WITHDRAWAL - HOT Sh-UTDOWN

__:'EXT 3.10.4 1 11/16/2016

Title:

SPECIAL OPERATIONS SINGLE CONTROL ROD WITHDRAWAL TEXT 3.10.5 1 11/16/2016

- COLD SHUTDOWN

Title:

SPECIAL OPERATIONS SINGLE CONTROL ROD DRIVE (CRD) REMOVAL - REFUELING TEXT 3.10.6 1 11/16/2016

Title:

SPECIAL OPERATIONS MULTIPLE CONTROL ROD WITHDRAWAL - REFUELING TEXT 3.10.7 1 04/18/2006

Title:

SPECIAL OPERATIONS CONTROL ROD TESTING - OPERATING TEXT 3.10.8 2 11/16/2016

Title:

SPECIAL OPERATIONS SHUTDOWN MARGIN (SDM) TEST - REFUELING Page §_ of 8 Report Date: 12/14/17

SUSQUEHANNA STEAM ELECTRIC STATION

• LIST OF EFFECTIVE SECTIONS (TECHNICAL SPECIFICATIONS BASES)

Section TOC 8 2.0 Title Revision Table of Contents ...............................................................................................23 SAFETY LIMITS BASES B2.1.1 Reactor Core SLs ............................................................................................... 6 B2.1.2 Reactor Coolant System (RCS) Pressure SL.. ................... ;................................ 1 B 3.0 LCO AND SR APPLICABILITY BASES .............................................................. 3 B 3.1 REACTIVITY CONTROL BASES 83.1.1 Shutdown Margin (SOM) .................................................................................,... 2 83.1.2 Reactivity An.omalies .............................. :........................................................... 1 B3.1.3 Control Rod OPERABILITY ................................................................................ 3 83.1.4 Control Rod Scram Times ................................................................................... 5 B3.1.5 Control Rod Scram Accumulators ....................................................................... 2 83.1.6 Rod Pattern Control ............................................................................................ 4 B3.1.7 Standby Liquid Control (SLC) System ................................................................. 4 83.1.8 Scram Discharge Volume (SDV) Vent and Drain Valves: .................................... 4 B 3.2 POWER DISTRIBUTION LIMITS BASES B3.2.1 Average Planar Linear Heat Generation Rate (APLHGR) ................................... 3 B3.2.2 Minimum Critical Power Ratio (MCPR) ............................................................... 4 83.2.3 Linear Heat Generation Rate (LHGR) ................................................................. 3 B 3.3 INSTRUMENTATION 83.3.1.1 Reactor Protection System (RPS) Instrumentation ............................................. 7 83.3.1.2 Source Range Monitor (SRM) Instrumentation ................................................... 3 83.3.2.1 Control Rod Block Instrumentation ..................................................................... 5 83.3.2.2 Feedwater - Main Turbine High Water Level Trip Instrumentation ...................... 3 83.3.3.1 Post Accident Monitoring (PAM) Instrumentation ............................................... 10 83.3.3.2 Remote Shutdown System ................................................................................. 2 B3.3.4.1 End of Cycle Recirculation Pump Trip (EOC-RPT) Instrumentation .................... 3 83.3.4.2 Anticipated Transient Without Scram Recirculation Pump Trip (ATWS-RPT) lnstrumentation ............................................................ 1 B3.3.5.1 Emergency Core Cooling System (ECCS) Instrumentation ................................. 4 B3.3.5.2 Reactor Core Isolation Cooling (RCIC) System Instrumentation ......................... 1 83.3.6.1 Primary Containment Isolation Instrumentation ................................................... 8 83.3.6.2 Secondary Containment Isolation Instrumentation .............................................. 5 83.3.7.1 Control Room Emergency Outside Air Supply (CREOAS) ................................. 3 83.3.8.1 Loss of Power (LOP) Instrumentation ............................................................., ... 3 B3.3.8.2 Reactor Protection System (RPS) Electric Power Monitoring .............................. 1

• SUSQUEHANNA - UNIT 1 TS/ B LOES-1 Revision 129

SUSQUEHANNA STEAM ELECTRIC STATION

• LIST OF EFFECTIVE SECTIONS (TECHNICAL SPECIFICATIONS BASES)

Section B 3.4 Title REACTOR COOLANT SYSTEM BASES Revision 83.4.1 Recirculation Loops Operating ............................................................................ 5 83.4.2 Jet Pumps ....................................................................................................... 4 B3.4.3 Safety/Relief Valves (S/RVs) .............................................................................. 3 83.4.4 RCS Operational LEAKAGE .............................................................................. 1 83.4.5 RCS Pressure Isolation Valve (PIV) Leakage ..................................................... 2 B3.4.6 RCS Leakage Detection Instrumentation ............................................................ 5 B3.4.7 RCS Specific Activity .......................................................................................... 3 83.4.8 Residual Heat Removal (RHR) Shutdown Cooling System - Hot Shutdown ..................................................................................... 3 83.4.9 Residual Heat Removal (RHR) Shutdown Cooling System - Cold Shutdown.................................................................................... 2 83.4.10 RCS Pressure and Temperature (PIT) Limits ...................................................... 5 83.4.11 Reactor Steam Dome Pressure .......................................................................... 1 83.5 ECCS AND RCIC BASES 83.5.1 ECCS - Operating .............................................................................................. 5 93.5.2 ECCS - Shutdown ............................................................................................... 1 83.5.3 RCIC System ....................................................................................................... 5

• 83.6 93.6.1.1 83.6.1.2 83.6.1.3 CONTAl NM ENT SYSTEMS BASES Primary Containment .......................................................................................... 6 Primary Containment Air Lock ............................................................................ 2 Primary Containment Isolation Valves (PCIVs) .................................................. 13 83.6.1.4 Containment Pressure ........................................................................................ 2 83.6.1.5 Drywell Air Temperature ..................................................................................... 2 83.6.1.6 Suppression Chamber-to-Drywell Vacuum Breakers .......................................... 1 83.6.2.1 Suppression Pool Average Temperature ............................................................ 3 83.6.2.2 Suppression Pool Water Level.. .......................................................................... 1 83.6.2.3 Residual Heat Removal (RHR) Suppression Pool Cooling ................................. 2 B3.6.2.4 Residual Heat Removal (RHR) Suppression Pool Spray .................................... 1 83.6.3.1 Not Used ....................................................................................................... 2 B3.6.3.2 Drywell Air Flow System ..................................................................................... 3 83.6.3.3 Primary Containment Oxygen Concentration ...................................................... 3 83.6.4.1 Secondary Containment .................................................................................... 13 83.6.4.2 Secondary Containment Isolation Valves (SCIVs) ............................................. 12 83.6.4.3 Standby Gas Treatment (SGT) System .............................................................. 6

• SUSQUEHANNA - UNIT 1 TS/ B LOES-2 Revision 129

SUSQUEHANNA STEAM ELECTRIC STATION

• LIST OF EFFECTIVE SEGTIONS (TECHNICAL SPECIFICATIONS BASES)

Section B3.7 Title PLANT SYSTEMS BASES Revision 83.7.1 Residual Heat Removal Service Water (RHRSW) System and the Ultimate Heat Sink (UHS) ...................................................................... 5 B3.7.2 Emergency Service Water (ESW) System .......................................................... 3 B3.7.3 Control Room Emergency Outside Air Supply (CREOAS) System ..................... 3 83.7.4 Control Room Floor Cooling System ................................................................... 1 B3.7.5 Main Condenser Offgas ...................................................................................... 2 B3.7.6 Main Turbine Bypass System ............................................................................. 3 83.7.7 Spent Fuel Storage Pool Water Level. ................................................................ 2 83.7.8 Main Turbine Pressure Regulation System ......................................................... 1 83.8 ELECTRICAL POWER SYSTEMS BASES 83.8.1 AC Sources - Operating ........ ; ............................................................................ 8 B3.8.2 AC Sources - Shutdown ..................................................................................... 0 83.8.3 Diesel Fuel Oil, Lube Oil, and Starting Air ........................................................... 6 B3.8.4 DC Sources- Operating ..................................................................................... 4 B3.8.5 DC Sources - Shutdown ..................................................................................... 1 B3.8.6 Battery Cell Parameters ...................................................................................... 2 83.8.7 Distribution Systems - Operating ........................................................................ 2

• B3.8.8 B3.9 B3.9.1 B3.9.2 Distribution Systems - Shutdown ....................................................................... 1 REFUELING OPERATIONS BASES Refueling Equipment Interlocks .......................................................................... 1 Refuel Position One-Rod-Out Interlock ............................................................... 1 B3.9.3 Control Rod Position ........................................................................................... 1 B3.9.4 Control Rod Position Indication ........................................................................... O 83.9.5 Control Rod OPERABILITY - Refueling ............................................................. 1 B3.9.6 Reactor Pressure Vessel (RPV) Water Level. ..................................................... 2 B3.9.7 Residual Heat Removal (RHR) - High Water Level ............................................ 1 83.9.8 Residual Heat Removal (RHR) - Low Water Level ............................................. 1 B3.10 SPECIAL OPERATIONS BASES 83.10.1 lnservice Leak and Hydrostatic Testing Operation .............................................. 1 B3.10.2 Reactor Mode Switch Interlock Testing ............................................................... 1 B3.10.3 Single Control Rod Withdrawal - Hot Shutdown ................................................. 1 83.10.4 Single Control Rod Withdrawal - Cold Shutdown ............................................... 1 83.10.5 Single Control Rod Drive (CRD) Removal - Refueling ........................................ 1 B3.10.6 Multiple Control Rod Withdrawal - Refueling ...................................................... 1 B3.10.7 Control Rod Testing - Operating .....................................................................*... 1 B3.10.8 Shutdown Margin (SOM) Test - Refueling .......................................................... 2

• SUSQUEHANNA - UNIT 1 TS/ B LOES-3 Revision 129

Rev. 6 Diesel Fuel Oil, Lube Oil, and Starting Air

• B 3.8.3 B 3.8 ELECTRICAL POWER SYSTEMS B 3.8.3 Diesel Fuel Oil, Lube Oil, and Starting Air BASES BACKGROUND Each diesel generator (DG) is provided with a storage tank having a fuel oil capacity sufficient to operate that OG for a period of 7 days while the DG is supplying its continuous rated capacity as discussed in FSAR, Section 9.5.4 (Ref. 'I). The maximum load demand is calculated using the assumption that at least three DGs are available.

This on-site fuel oil storage tank (FOST) capacity is sufficient to operate the DGs for longer than the time to replenish the onsite supply from outside sources.

Fuel oil is transferred from storage tank to day tank by a transfer pump associated with each storage tank Independent pumps and piping preclude the failure of one pump, or the rupture of any pipe, valve, or tank to result in the loss of more than one DG. All outside tanks, pumps, and piping are located underground.

For proper operation of the standby DGs, it is necessary to ensure the proper quality of the fuel oil. Regulatory Guide 1.137 (Ref. 2) addresses the recommended fuel oil practices as supplemented by ANSI N195 (Ref. 3)., The fuel oil properties governed by these SRs are the water and sediment content, the kinematic viscosity, specific gravity (or API gravity) and impurity level.

The DG lubrication system is. designed to provide sufficient lubrication to permit proper operation of its associated DG under all loading conditions.

The system is required to circulate the lube oil to the diesel engine working surfaces and to remove excess heat generated by friction during operation. Each engine oil sump contains an inventory capable of supporting a minimum of 7 days of operation. This supply is sufficient to allow the operator to replenish lube oil from outside sources.

Each DG has an air start system with two air receivers (DG E has four air receivers) and each DG air start system provides adequate capacity for five successive start cycles on the DG without recharging the air start receivers. Each bank of two air receivers for DG E has adequate capacity for a minimum of five successive start cycles .

• SUSQUEHANNA- UNIT 1 TS/ B 3.8-45 (continued)

Rev. 6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES (continued)

APPLICABLE SAFETY ANALYSES The initial conditions of Design Basis Accident (OBA) and transient analyses in FSAR, Chapter 6 (Ref. 4), and Chapter 15 (Ref. 5), assume B 3.8.3 Engineered Safety Feature (ESF) systems are OPERABLE. The DGs are designed to provide sufficient capacity, capability, redundancy, and reliability to ensure the availability of necessary power to ESF systems so that fuel, Reactor Coolant System, and containment design limits are not exceeded. These limits are discussed in more detail in the Bases for Section 3.2, Power Distribution Limits; Section 3.4, Reactor Coolant System (RCS); and Section 3.6, Containment Systems.

Since diesel fuel oil, lube oil, and starting air subsystem support the operation of the standby AC power sources, they satisfy Criterion 3 of the NRC Policy Statement (Ref. 6).

LCO Stored diesel fuel oil is required to have sufficient supply for 7 days of full load operation. It is also required to meet specific standards for quality.

Additionally, sufficient lube oil supply must be available to ensure the capability to operate at full load for 7 days. This requirement, in conjunction with an ability to obtain replacement supplies within 7 days, supports the availability of DGs required to shut down the reactor and to maintain it in a safe condition for an anticipated operational occurrence (AOO) or a postulated OBA with loss of offsite power. DG day tank fuel oil requirements, as well as transfer capability from the storage tank to the day tank, are addressed in LCO 3.8.1, "AC Sources-Operating," and LCO 3.8.2, "AC Sources-Shutdown."

The starting air system is required to have a minimum capacity for five successive DG start attempts without recharging the air start receivers.

APPLICABILITY The AC sources (LCO 3.8.1 and Lco*s.8.2) are required to ensure the availability of the required power to shut down the reactor and maintain it in a safe shutdown condition after an AOO or a postulated OBA.

Because stored diesel fuel oil, lube oil, and starting air subsystem support LCO 3.8.1 and LCO 3.8.2, stored diesel fuel oil, lube oil,

• SUSQUEHANNA - UNIT 1 TS/ B 3.8-46 (continued)

Rev.6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES APPLICABILITY (continued)

B 3.8.3 and starting air are required to be within limits when the associated DG is required to be OPERABLE.

ACTIONS The ACTIONS Table is modified by a Note indicating that separate Condition entry is allowed for each DG. This is acceptable, since the Required Actions for each Condition provide appropriate compensatory actions for each inoperable DG subsystem. Complying with the Required Actions for one inoperable DG subsystem niay allow for continued operation, and subsequent inoperable DG subsystem(s) governed by separate Condition entry and application of associated Required Actions.

In this Condition, the 7 day fuel oil supply for a DG is not available.

However, the Condition is restricted to fuel oil level reductions that maintain at least a 6 day supply. These circumstances may be caused by events such as:

a. Full load operation required for an inadvertent start while at minimum required level; or

b. Feed and bleed operations that may be necessitated by increasing particulate levels or any number of other oil quality degradations.

This restriction allows sufficient time for obtaining the requisite replacement volume and performing the analyses required prior to addition of the fuel oil to the tank. A period of 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> is considered sufficient to complete restoration of the required level prior to declaring the DG inoperable. This period is acceptable based on the remaining capacity(> 6 days), the fact that action will be initiated to obtain replenishment, the availability of fuel oil in the storage tank of the fifth diesel generator that is not required to be OPERABLE, and the low probability of an event during this brief period.

• SUSQUEHANNA - UNIT 1 TS/ B 3.8-47 (continued)

Rev. 6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES ACTIONS (continued)

B 3.8.3 With lube oil sump level not visible in the sight glass, sufficient lube oil to support 7 days of continuous DG operation at full load conditions may not be available. Therefore, the DG is declared inoperable immediately.

This Condition is entered as a result of a failure to meet the acceptance criterion for particulates. Normally, trending of particulate levels allows sufficient time to correct high particulate levels prior to reaching the limit of acceptability. Poor sample procedures (bottom sampling), contaminated sampling equipment, and errors in laboratory analysis can produce failures that do not follow a trend. Since the presence of particulates does not mean failure of the fuel oil to bum properly in the diesel engine, since particulate concentration is unlikely to change significantly between Surveillance Frequency intervals, and since proper engine performance has been recently demonstrated (within 31 days), it is prudent to allow a brief period prior to declaring the associated DG inoperable. The 7 day Completion Time allows for further evaluation, resampling, and re-analysis of the DG fuel oil.

With the new fuel oil properties defined in the Bases for SR 3.8.3.3 not within the required limits, a period of 30 days is allowed for restoring the stored fuel oil properties. This period provides sufficient time to test the stored fuel oil to determine that the new fuel oil, when mixed with previously stored fuel oil, remains acceptable, or to restore the stored fuel oil properties. This restoration may involve feed and bleed procedures, filtering, or combination of these procedures. Even if a DG start and load was required during this time interval and the fuel oil properties were outside limits, there is high likelihood that the DG would still be capable of performing its intended function.

• SUSQUEHANNA - UNIT 1 TS I B 3.8-48 (continued)

Rev.6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES ACTIONS (continued)

B 3.8.3 With starting air receiver pressure < 240 psig in one or more air receivers, sufficient capacity for five successive DG start attempts cannot be provided by the air start system. However, as long as all receiver pressures are > 180 psig, there is adequate capacity for at least one start attempt, and the DG can be considered OPERABLE while the air receiver pressure is restored to the required limit. A period of 48 hol!rs is considered sufficient to complete restoration to the required pressure prior to declaring the DG inoperable. This period is acceptable based on the remaining air start capacity, the fact that most DG starts are accomplished on the first attempt, and the low probability of an event during this brief period. Entry into Condition E is not required when air receiver pressure is less than required limits following a successful start while the DG is operating.

Ll With a Required Action and associated Completion Time of A through E net met, or the stored diesel fuel oil, lube oil, or starting air not within SR limits for reasons other than addressed by Conditions A, B, C, D or E, the associated DG may be incapable of performing its intended function and t-*-

must be immediately declared inoperable.

SURVEILLANCE SR 3.8.3.1 REQUIREMENTS This SR provides verification that there is an adequate inventory of fuel oil in the storage tanks to support each DG's operation for 7 days at continuous rated capacity which is greater than the maximum post LOCA load demand. The 7 day period is sufficient time to place the unit in a safe shutdown condition and to bring in replenishment fuel from an offsite location.

The Surveillance Frequency is controlled under the Surveillance Frequency Control Program.

• SUSQUEHANNA- UNIT 1 TS/ B 3.8-49 (continued)

Rev. 6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES SURVEILLANCE REQUIREMENTS SR 3.8.3.2 B 3.8.3 (continued) This Surveillance ensures that sufficient lubricating oil inventory is available to support at least 7 days of full load operation for each DG. The sump_ level requirement is based on the DG manufacturer's consumption values. The acceptance criteria of maintaining a visible level in the sight glass ensures adequate inventory for 7 days of full load operation without the level reaching the manufacturer's recommended minimum level.

The Surveillance Frequency is controlled under the Surveillance Frequency Control Program.

SR 3.8.3.3 The tests listed below are a means of determining whether new fuel oil is of the appropriate grade and has not been contaminated with substances that would have an immediate detrimental impact on diesel engine combustion. If results from these tests are within acceptable limits, the fuel oil may be added to the storage tanks without concern for contaminating the entire volume of fuel oil in the storage tanks. These tests are to be conducted prior to adding the new fuel to the storage tank(s), but in no case is the time between receipt of new fuel and conducting the tests to exceed 31 days. The tests, limits, and applicable ASTM Standards are as follows:

a. Sample the new fuel oil following the guidelines of ASTM 04057 (Ref. 7);

b. Verify, following the guidelines of the tests specified in ASTM 0975 (Ref. 7), that the sample has:.

- a Density at 15°C of 2:: 0.835 kg/L and s 0.876 kg/L per ASTM D1298 (Ref. 7) or an API Gravity of 2:: 30 and s 38 per ASTM D287 (Ref. 7)

- a Kinematic Viscosity at 40°C of:?: 1.9 centistokes and s 4.1 centistokes

- A Flash Point of 2:: 52°C

• SUSQUEHANNA - UNIT 1 TS/ B 3.8-50 (continued)

Rev. 6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES SURVEILLANCE REQUIREMENT SR 3.8.3.3 (continued)

B 3.8.3

c. Verify that the new fuel oil has a clear and bright appearance when tested following the guidelines of ASTM D4176 procedure (Ref. 7),

or has :s 0.05% (vol) water and sediment when tested following the guidelines of ASTM 01796 or ASTM 02709 (Ref. 7). Note that if dye is used in the diesel fuel oil, the water and sediment test must be performed.

Failure to meet any of the limits for key properties of new fuel oil prior to addition to the storage tank is cause for rejecting the new fuel oil, but does not represent a failure to meet the LCO concern since the fuel oil is not added to the storage tanks.

Within 31 days following the initial new fuel oil sample, the fuel oil is analyzed to establish that the other properties specified in Specification 5.5.9 and Reference 7 are met for new fuel oil when tested following the guidelines of ASTM 0975 (Ref. 7). The 31 day period is acceptable because the fuel oil properties of interest, even if they were not within stated limits, would not have an immediate effect on DG operation. This Surveillance ensures the availability of high quality fuel oil for the DGs .

Fuel oil degradation during long term storage shows up as an increase in *~1i1~

particulate, mostly due to oxidation. The presence of particulate does not mean that the fuel oil will not burn properly in a diesel engine. The particulate can cause fouling of filters and fuel oil injection equipment, however, which can cause engine failure.

Particulate concentrations should be determined following the guidelines of ASTM D6217 (Ref. 7). This method involves a filtration determination of total particulate concentration in the fuel oil. This limit is 10 mg/I. It is acceptable to obtain a field-sample for subsequent laboratory testing in lieu of field testing. The Frequency of this test takes into consideration fuel oil degradation trends that indicate that particulate concentration is unlikely to change significantly between Frequency intervals.

SR 3.8.3.4 This Surveillance ensures that, without the aid of the refill compressor, sufficient air start capacity for each DG is available. The system design requirements provide for a minimum of five engine start cycles without recharging.

(continued)

SUSQUEHANNA - UNIT 1 TS/ B 3.8-51

Rev.6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES SURVEILLANCE REQUIREMENTS SR 3.8.3.4 (continued)

B 3.8.3 The pressure specified in this SR is intended to reflect the lowest value at which the five starts can be accomplished. The air starting system capacity for each start cycle is calculated based on the following:

1. each cranking cycle duration should be approximately three seconds,or

2. consist of tvvo to three engine revolutions, or

3. air start requirements per engine start provided by the engine manufacturer, whichever air start requirement is larger.

The SuNeillance is modified by a Note which does not require the SR to be met when the associated DG is running. This is acceptable because once the DG is started, the safety function of the air start system is performed .

• The Surveillance Frequency is controlled under the Surveillance Frequency Control Program.

SR 3.8.3.5 Microbiological fouling is a major cause of fuel oil degradation. There are numerous bacteria that can grow in fuel oil and cause fouling, but all must have a water environment in order to suNive. Periodic removal of water from the fuel storage tanks eliminates the necessary environment for bacterial suNival. This is the most effective means of controlling microbiological fouling. In addition, it eliminates the

• potential for water entrainment in the fuel oil during DG operation.

Water may come from any of several sources, including condensation, ground water, rain water, contaminated fuel oil, and from breakdown of the fuel oil by bacteria. Frequent checking for and removal of accumulated water minimizes fouling and

• SUSQUEHANNA- UNIT 1 TS I B 3.8-52 (continued)

Rev. 6 Diesel Fuel Oil, Lube Oil, and Starting Air

• BASES SURVEILLANCE REQUIREMENTS SR 3.8.3.5 (continued)

B 3.8.3 provides data regarding the watertight integrity of the fuel oil system. The Surveillance Frequency is controlled under tl1e Surveillance Frequency Control Program.

REFERENCES 1. FSAR, Section 9.5.4.

2. Regulatory Guide 1.137.

3. ANSI N195, 1976.

4. FSAR, Chapter 6.

5. FSAR, Chapter 15.

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

7. ASTM Standard: 04057; 0975; 04176; 01796; 01298; 0287; D2709; and D6217.

• SUSQUEHANNA - UNIT 1 TS I B 3.8-53