Letter Sequence Request |
|---|
|
|
MONTHYEARML20093M6531984-10-18018 October 1984
Requests Review & Approval of Startup Feed Pump Operation Practice.Recent Review Revealed That Portions of Suction, Discharge & Cooling Water Piping Met Hazard Criteria Not Previously Examined.Fee Paid
Project stage: Other
ML20108B5861984-11-12012 November 1984
Application to Amend License NPF-3,allowing Startup & Operation Utilizing Current Startup Feedwater Pump Configuration.Ser & Significant Hazards Consideration Encl
Project stage: Request
ML20108B5591984-11-12012 November 1984
Forwards Application to Amend License NPF-3,allowing Startup & Operation Utilizing Current Startup Feedwater Pump Configuration
Project stage: Request
ML20101L8021984-12-21021 December 1984
Submits Addl Info Re 841112 Application for Amend to License NPF-3,per Aw Deagazio Request.Hydrostatic Testing of Turbine Plant Cooling Water Pipeline to ANSI B31.1 Criteria Completed on 841220 W/Acceptable Results
Project stage: Request
ML20129B5781985-01-0808 January 1985
Notice of Issuance of Amend 83 to License NPF-3
Project stage: Approval
1984-11-12
[Table View] |
|
|---|
Category:OPERATING LICENSES-APPLIATION TO AMEND-RENEW EXISTING
MONTHYEARML20216E6051999-09-0707 September 1999
Application for Amend to License NPF-3,revising Tech Specs 3/4.3.2.1,safety Features Actuation Sys Instrumentation & Associated Bases 3/4.3.1 & 3/4.3.2,reactor Protection Sys & Safety Sys Instrumentation
ML20210H0631999-07-28028 July 1999
Application for Amend to License NPF-3,revising TS 3/4.7.5.1, Ultimate Heat Sink, by Allowing Plant Operation in Modes 1-4 with Water Temp Less than or Equal to 90 F
ML20210G4131999-07-27027 July 1999
Application for Amend to License NPF-3,changing TSs 6.4, Training, 6.5.2.8, Audits, 6.10, Record Retention, 6.14, Process Control Program & 6.15, Odcm
ML20210G8831999-07-26026 July 1999
Application for Amend to License NPF-3,revising TSs 3/4.3.3.1, Radiation Monitoring Instrumentation, 3/4.3.3.2, Instrumentation - Incore Detectors & 3/4.3.3.9, Instrumentation - Waste Gas Sys Oxygen Monitor
ML20210G5251999-07-26026 July 1999
Application for Amend to License NPF-3,revising Tech Specs for Implementation of 10CFR50,App J,Option B for Type B & C Containment Leakage Rate Testing
ML20210G4631999-07-26026 July 1999
Application for Amend to License NPF-3,revising Tech Specs 3/4.3.2.1, Safety Features Actuation Sys Instrumention & Associated Bases 3/4.3.1 & 3/4.3.2, Reactor Protection Sys & Safety Sys Instrumentation
ML20195F9121999-06-10010 June 1999
Application for Amend to License NPF-3,changing TS 3/4.6.4.4 Hydrogen Purge Sys, TS 3/4.6.5.1, Shield Bldg Emergency Ventilation Sys & TS 3/4.7.6.1, Crevs
ML20207E7861999-05-21021 May 1999
Application for Amend to License NPF-3,allowing Use of Expanded Spent Fuel Storage Capability
ML20205E4961999-03-19019 March 1999
Application for Amend to License NPF-3,requesting Withdrawal of Proposed New Action B to TS 3.6.5.2,previously Submitted in 981027 Application
ML20204F1691999-03-0909 March 1999
Application for Amend to License NPF-3,adopting Changes in Frequency & Scope of Volumetric Exams Justified by W TR WCAP-14535A
ML20196F3791998-11-30030 November 1998
Supplemental Application for Amend to License NPF-3, Proposing Changes to License Conditions 2.C(6) & 2.E by Transferring Operating Authority for DBNPS from Toed & Centerior Svc Co to Firstenergy Nuclear Operating Co
ML20155E3181998-10-28028 October 1998
Application for Amend to License NPF-3,revising Various Sections of TS 6.0, Administrative Controls, Including Relocation of Contents of 6.11 to Plant Ufsar,Per NUREG-1430,Rev 1
ML20155E0701998-10-27027 October 1998
Application for Amend to License NPF-3,revising TSs 3/4.3.1.1 Re RPS Instrumentation & 3/4.3.2.3 Re ARTS Instrumentation by Providing Potential Reduction in Spurious Trip Rate to Provide Cost Savings in Excess of $50,000
ML20155D7731998-10-27027 October 1998
Application for Amend to License NPF-3,relocating Existing TS SR 4.6.5.1.d.4 Re Evs Negative Pressure Testing to TS 3/4.6.5.2,deleting TS Definition 1.24 & Making Related Changes Associated with Deletion of Subject Definition
ML20155D8481998-10-27027 October 1998
Application for Amend to License NPF-3,revising Existing TS SRs 4.8.2.3.2.d,4.8.2.3.2.e,4.8.2.3.2.f & Table 4.8-1 Re Testing of 125 Volt DC Station Batteries & Applicable TS Bases
ML20151W2811998-09-0808 September 1998
Application for Amend to License NPF-3,permitting Use of Framatome Cogema Fuels M5 Advanced Alloy Fuel Rod Cladding & Fuel Assembly Spacer Grids
ML20151W2851998-09-0808 September 1998
Application for Amend to License NPF-3,revising TS Section 3/4.7.6, Plant Systems - CREVS & Associated Bases
ML20236G6461998-06-29029 June 1998
Application for Amend to License NPF-3,transferring Operating Authority for DBNPS from TE & Centerior Svc Co to New Operating Company Called Firstenergy Nuclear Operating Co.Marked Up License,Safety & Environ Assessments Included
ML20236R2301998-06-29029 June 1998
Resubmitted Application for Amend to License NPF-3, Transferring Operating Authority for DBNPS from Teco & Centerior Svc Co to New Operating Company Called Firstenergy Nuclear Operating Co.Safety Assessment & EA Included
ML20217P8671998-04-24024 April 1998
Application for Amend to License NPF-3,modifying Existing TS 3/4.3.1.1,3/4.3.2.1,3/4.3.2.2 & Associated Bases by Relocating Tables of Response Time Limits from TS to Plant USAR Technical Requirements Manual
ML20217P8251998-04-24024 April 1998
Application for Amend to License NPF-3,clarifying Discussion of Margin Between RPS High Pressure Trip Setpoint & Lift Setting for Pressurizer Code Safety Valves
ML20203L0861998-02-26026 February 1998
Application for Amend to License NPF-3 to Revise TS 3/4.4.5 & TS 3/4.4.6.2,incorporating New Repair Roll Process for SG Tubes W/Defects in Upper Tube Sheet
ML20197J2511997-12-23023 December 1997
Application for Amend to License NPF-3.Amend Changes TS Definitions 1.12,TS 3/4.9.5 & New TS 3.0.6
ML20197J5861997-12-23023 December 1997
Application for Amend to License NPF-3,revising TS Surveillance Requirements for ISI Requirements of Internal Auxiliary Feedwater Header,Header to Shroud Attachment Welds & External Header Thermal Sleeves
ML20217R2801997-08-26026 August 1997
Application for Amend to License NPF-3,clarifying LCO 3.6.1.3.a & Revising Surveillance Requirement 4.6.1.3.c
ML20217R2831997-08-26026 August 1997
Application for Amend to License NPF-3,modifying TS 3.2.5 Action Statement to Require Power Reduction to Less than 5% of Rated Thermal Power within Four Hrs If RCS Flow Rate Is Less than Specified Limit for Greater than Two Hrs
ML20217G5931997-07-29029 July 1997
Suppl 950929 to Application for Amend to License NPF-3, Change TS 3/4.4.3 Re Safety Valves & Pilot Operated Relief valve-operating & Associated Bases 3/4.4.2 & 3/4.4.3
ML20141F1051997-06-24024 June 1997
Application for Amend to License NPF-3,deleting Requirements for Safety Features Actuation Sys Containment High Radiation Monitors
ML20138A3201997-04-18018 April 1997
Application for Amend to License NPF-3,requesting Conversion to 24-month Fuel Cycle
ML20138C3131997-04-18018 April 1997
Application for Amend to License NPF-3,requesting Rev to TS 3/4.7.6 to Include New Required Actions in Event That One or Both Channels of Radiation Monitoring Instrumentation Becomes Inoperable
ML20137M1061997-03-31031 March 1997
Application for Amend to License NPF-57,revising TS to Improve Consistency Between TS & Plant Configuration, Operation & Testing & Complete Required CA to Resolve TS Discrepancies Identified in CA Program
ML20138M1251997-02-14014 February 1997
Application for Amend to License NPF-3,requesting Delay of Heat Removal Sys Valve Pit Surveillance Requirements
ML20134D7461997-01-30030 January 1997
Application for Amend to License NPF-3,revising SR Intervals from 18 to 24 Months Based on Results of DBNPS Instrument Drift Study & TS 2.2, Limiting Safety Sys Settings, Based on Results of Revised Framatome RPS Instrument String Error
ML20134B0561997-01-20020 January 1997
Application for Amend to License NPF-3,involving TS 3/4.5.3 Re ECCS Subsystems
ML20132C7771996-12-13013 December 1996
Application for Amend to License NPF-3,authorizing Transfers of Control
ML20132B6871996-12-11011 December 1996
Application for Amend to License NPF-3,revising TS Definitions,Instrumentation TS & ECCS TS for Conversion to 24 Month Fuel Cycle
ML20134F1851996-10-28028 October 1996
Application for Amend to License NPF-3,requesting Revisions to 3/4.8.1.1,3/4.8.1.2,3/4.8.2.3,3/4.8.2.4 & 3/4.8 Re Electrical Power Systems
ML20117P5301996-09-17017 September 1996
Application for Amend to License NPF-3,supporting Conversion of DBNPS from 18 Month to 24 Month Fuel Cycle
ML20117N8441996-09-12012 September 1996
Application for Amend to License NPF-3,revising Reactivity Control Systems & Emergency Core Cooling Systems
ML20117M1971996-09-0404 September 1996
Application for Amend to License NPF-3,App A,Modifying TS 6.2.3 by Removing Specific Overtime Limits & Working H from TS Consistent W/Nrc Recent Determination,On Generic Basis, That Limits Need Not Be Specified
ML20116K2601996-08-0707 August 1996
Application for Amend to License NPF-3,changing Tech Specs 1.0, Definitions, Bases 3/4.0, Applicability & 3/4.6.2.1, Containment Sys - Depressurization & Cooling Sys - Containment Spray Sys
ML20117K1871996-05-28028 May 1996
Application for Amend to License NPF-3,revising TS 3/4.3.1.1 RPS Instrumentation & TS 3/4.3.2.2 - Anticipatory RTS Instrumentation to Increase Trip Device Test Interval
ML20107L3541996-04-18018 April 1996
Application for Amend to License NPF-3,requesting NRC Review & Approval to Use Alternate Electrical Lineup.Station Blackout DG as Standby Emergency Power Source to Supply Loads Normally Supplied by EDG 1,while Being Reworked
ML20101M1601996-03-29029 March 1996
Application for Amend to License NPF-3,App A,Re Surveillance Requirements for Charcoal Filter Lab Testing to Revise Testing Methodology Used to Determine Operability of Charcoal Filters in ESF Air Handling Units
ML20101C6911996-03-0606 March 1996
Application for Amend to License NPF-3,revising TS 3/4.5.2 to Allow Deferment of SR 4.5.2.b for ECCS Flowpath Containing HPI 1-2 Pump Until 10th Refueling Outage, Scheduled to Begin 960408
ML20100E0051996-02-0505 February 1996
LAR 93-0003 to License NPF-3,revising Table 3.3-3 of TS 3/4.3.2.1 Re Safety Features Actuation Sys Instrumentation to More Accurately Reflect Design & Actuation Logic of Plant Sequencers & Undervoltage Relays
ML20095F5861995-12-12012 December 1995
Application for Amend to License NPF-3,revising TSs Re Containment Sys
ML20098C5131995-10-0202 October 1995
Application for Amend to License NPF-3,revising TS Section 5.0,design Features & Adopting Improved STS for B&W Plants Format & Content
ML20098C1071995-09-29029 September 1995
Application for Amend to License NPF-3,modifying TS 3.4.3 & Associated Bases for Pressurizer Code Safety Valve Lift Setpoint Tolerances
ML20098C3931995-09-29029 September 1995
Application for Amend to License NPF-3,revising Tech Spec 3/4.1.2.8, Reactivity Control Sys - Borated Water Sources - Shutdown, Tech Spec 3/4.1.2.9, Reactivity Control Sys - Operating & TS 3/4.5.1, ECCS - Core Flooding Tanks
1999-09-07
[Table view]
Category:TEXT-LICENSE APPLICATIONS & PERMITS
MONTHYEARML20216E6051999-09-0707 September 1999
Application for Amend to License NPF-3,revising Tech Specs 3/4.3.2.1,safety Features Actuation Sys Instrumentation & Associated Bases 3/4.3.1 & 3/4.3.2,reactor Protection Sys & Safety Sys Instrumentation
ML20210H0631999-07-28028 July 1999
Application for Amend to License NPF-3,revising TS 3/4.7.5.1, Ultimate Heat Sink, by Allowing Plant Operation in Modes 1-4 with Water Temp Less than or Equal to 90 F
ML20210G4131999-07-27027 July 1999
Application for Amend to License NPF-3,changing TSs 6.4, Training, 6.5.2.8, Audits, 6.10, Record Retention, 6.14, Process Control Program & 6.15, Odcm
ML20210G8831999-07-26026 July 1999
Application for Amend to License NPF-3,revising TSs 3/4.3.3.1, Radiation Monitoring Instrumentation, 3/4.3.3.2, Instrumentation - Incore Detectors & 3/4.3.3.9, Instrumentation - Waste Gas Sys Oxygen Monitor
ML20210G5251999-07-26026 July 1999
Application for Amend to License NPF-3,revising Tech Specs for Implementation of 10CFR50,App J,Option B for Type B & C Containment Leakage Rate Testing
ML20210G4631999-07-26026 July 1999
Application for Amend to License NPF-3,revising Tech Specs 3/4.3.2.1, Safety Features Actuation Sys Instrumention & Associated Bases 3/4.3.1 & 3/4.3.2, Reactor Protection Sys & Safety Sys Instrumentation
ML20195F9121999-06-10010 June 1999
Application for Amend to License NPF-3,changing TS 3/4.6.4.4 Hydrogen Purge Sys, TS 3/4.6.5.1, Shield Bldg Emergency Ventilation Sys & TS 3/4.7.6.1, Crevs
ML20207E7861999-05-21021 May 1999
Application for Amend to License NPF-3,allowing Use of Expanded Spent Fuel Storage Capability
ML20205E4961999-03-19019 March 1999
Application for Amend to License NPF-3,requesting Withdrawal of Proposed New Action B to TS 3.6.5.2,previously Submitted in 981027 Application
ML20204F1691999-03-0909 March 1999
Application for Amend to License NPF-3,adopting Changes in Frequency & Scope of Volumetric Exams Justified by W TR WCAP-14535A
ML20196F3791998-11-30030 November 1998
Supplemental Application for Amend to License NPF-3, Proposing Changes to License Conditions 2.C(6) & 2.E by Transferring Operating Authority for DBNPS from Toed & Centerior Svc Co to Firstenergy Nuclear Operating Co
ML20155E3181998-10-28028 October 1998
Application for Amend to License NPF-3,revising Various Sections of TS 6.0, Administrative Controls, Including Relocation of Contents of 6.11 to Plant Ufsar,Per NUREG-1430,Rev 1
ML20155E0701998-10-27027 October 1998
Application for Amend to License NPF-3,revising TSs 3/4.3.1.1 Re RPS Instrumentation & 3/4.3.2.3 Re ARTS Instrumentation by Providing Potential Reduction in Spurious Trip Rate to Provide Cost Savings in Excess of $50,000
ML20155D7731998-10-27027 October 1998
Application for Amend to License NPF-3,relocating Existing TS SR 4.6.5.1.d.4 Re Evs Negative Pressure Testing to TS 3/4.6.5.2,deleting TS Definition 1.24 & Making Related Changes Associated with Deletion of Subject Definition
ML20155D8481998-10-27027 October 1998
Application for Amend to License NPF-3,revising Existing TS SRs 4.8.2.3.2.d,4.8.2.3.2.e,4.8.2.3.2.f & Table 4.8-1 Re Testing of 125 Volt DC Station Batteries & Applicable TS Bases
ML20151W2811998-09-0808 September 1998
Application for Amend to License NPF-3,permitting Use of Framatome Cogema Fuels M5 Advanced Alloy Fuel Rod Cladding & Fuel Assembly Spacer Grids
ML20151W2851998-09-0808 September 1998
Application for Amend to License NPF-3,revising TS Section 3/4.7.6, Plant Systems - CREVS & Associated Bases
ML20236G6461998-06-29029 June 1998
Application for Amend to License NPF-3,transferring Operating Authority for DBNPS from TE & Centerior Svc Co to New Operating Company Called Firstenergy Nuclear Operating Co.Marked Up License,Safety & Environ Assessments Included
ML20236R2301998-06-29029 June 1998
Resubmitted Application for Amend to License NPF-3, Transferring Operating Authority for DBNPS from Teco & Centerior Svc Co to New Operating Company Called Firstenergy Nuclear Operating Co.Safety Assessment & EA Included
ML20217P8671998-04-24024 April 1998
Application for Amend to License NPF-3,modifying Existing TS 3/4.3.1.1,3/4.3.2.1,3/4.3.2.2 & Associated Bases by Relocating Tables of Response Time Limits from TS to Plant USAR Technical Requirements Manual
ML20217P8251998-04-24024 April 1998
Application for Amend to License NPF-3,clarifying Discussion of Margin Between RPS High Pressure Trip Setpoint & Lift Setting for Pressurizer Code Safety Valves
ML20203L0861998-02-26026 February 1998
Application for Amend to License NPF-3 to Revise TS 3/4.4.5 & TS 3/4.4.6.2,incorporating New Repair Roll Process for SG Tubes W/Defects in Upper Tube Sheet
ML20197J2511997-12-23023 December 1997
Application for Amend to License NPF-3.Amend Changes TS Definitions 1.12,TS 3/4.9.5 & New TS 3.0.6
ML20197J5861997-12-23023 December 1997
Application for Amend to License NPF-3,revising TS Surveillance Requirements for ISI Requirements of Internal Auxiliary Feedwater Header,Header to Shroud Attachment Welds & External Header Thermal Sleeves
ML20217R2801997-08-26026 August 1997
Application for Amend to License NPF-3,clarifying LCO 3.6.1.3.a & Revising Surveillance Requirement 4.6.1.3.c
ML20217R2831997-08-26026 August 1997
Application for Amend to License NPF-3,modifying TS 3.2.5 Action Statement to Require Power Reduction to Less than 5% of Rated Thermal Power within Four Hrs If RCS Flow Rate Is Less than Specified Limit for Greater than Two Hrs
ML20217G5931997-07-29029 July 1997
Suppl 950929 to Application for Amend to License NPF-3, Change TS 3/4.4.3 Re Safety Valves & Pilot Operated Relief valve-operating & Associated Bases 3/4.4.2 & 3/4.4.3
ML20141F1051997-06-24024 June 1997
Application for Amend to License NPF-3,deleting Requirements for Safety Features Actuation Sys Containment High Radiation Monitors
ML20138A3201997-04-18018 April 1997
Application for Amend to License NPF-3,requesting Conversion to 24-month Fuel Cycle
ML20138C3131997-04-18018 April 1997
Application for Amend to License NPF-3,requesting Rev to TS 3/4.7.6 to Include New Required Actions in Event That One or Both Channels of Radiation Monitoring Instrumentation Becomes Inoperable
ML20137M1061997-03-31031 March 1997
Application for Amend to License NPF-57,revising TS to Improve Consistency Between TS & Plant Configuration, Operation & Testing & Complete Required CA to Resolve TS Discrepancies Identified in CA Program
ML20138M1251997-02-14014 February 1997
Application for Amend to License NPF-3,requesting Delay of Heat Removal Sys Valve Pit Surveillance Requirements
ML20134D7461997-01-30030 January 1997
Application for Amend to License NPF-3,revising SR Intervals from 18 to 24 Months Based on Results of DBNPS Instrument Drift Study & TS 2.2, Limiting Safety Sys Settings, Based on Results of Revised Framatome RPS Instrument String Error
ML20134B0561997-01-20020 January 1997
Application for Amend to License NPF-3,involving TS 3/4.5.3 Re ECCS Subsystems
ML20132C7771996-12-13013 December 1996
Application for Amend to License NPF-3,authorizing Transfers of Control
ML20132B6871996-12-11011 December 1996
Application for Amend to License NPF-3,revising TS Definitions,Instrumentation TS & ECCS TS for Conversion to 24 Month Fuel Cycle
ML20134F1851996-10-28028 October 1996
Application for Amend to License NPF-3,requesting Revisions to 3/4.8.1.1,3/4.8.1.2,3/4.8.2.3,3/4.8.2.4 & 3/4.8 Re Electrical Power Systems
ML20117P5301996-09-17017 September 1996
Application for Amend to License NPF-3,supporting Conversion of DBNPS from 18 Month to 24 Month Fuel Cycle
ML20117N8441996-09-12012 September 1996
Application for Amend to License NPF-3,revising Reactivity Control Systems & Emergency Core Cooling Systems
ML20117M1971996-09-0404 September 1996
Application for Amend to License NPF-3,App A,Modifying TS 6.2.3 by Removing Specific Overtime Limits & Working H from TS Consistent W/Nrc Recent Determination,On Generic Basis, That Limits Need Not Be Specified
ML20116K2601996-08-0707 August 1996
Application for Amend to License NPF-3,changing Tech Specs 1.0, Definitions, Bases 3/4.0, Applicability & 3/4.6.2.1, Containment Sys - Depressurization & Cooling Sys - Containment Spray Sys
ML20117K1871996-05-28028 May 1996
Application for Amend to License NPF-3,revising TS 3/4.3.1.1 RPS Instrumentation & TS 3/4.3.2.2 - Anticipatory RTS Instrumentation to Increase Trip Device Test Interval
ML20107L3541996-04-18018 April 1996
Application for Amend to License NPF-3,requesting NRC Review & Approval to Use Alternate Electrical Lineup.Station Blackout DG as Standby Emergency Power Source to Supply Loads Normally Supplied by EDG 1,while Being Reworked
ML20101M1601996-03-29029 March 1996
Application for Amend to License NPF-3,App A,Re Surveillance Requirements for Charcoal Filter Lab Testing to Revise Testing Methodology Used to Determine Operability of Charcoal Filters in ESF Air Handling Units
ML20101C6911996-03-0606 March 1996
Application for Amend to License NPF-3,revising TS 3/4.5.2 to Allow Deferment of SR 4.5.2.b for ECCS Flowpath Containing HPI 1-2 Pump Until 10th Refueling Outage, Scheduled to Begin 960408
ML20100E0051996-02-0505 February 1996
LAR 93-0003 to License NPF-3,revising Table 3.3-3 of TS 3/4.3.2.1 Re Safety Features Actuation Sys Instrumentation to More Accurately Reflect Design & Actuation Logic of Plant Sequencers & Undervoltage Relays
ML20095F5861995-12-12012 December 1995
Application for Amend to License NPF-3,revising TSs Re Containment Sys
ML20098C5131995-10-0202 October 1995
Application for Amend to License NPF-3,revising TS Section 5.0,design Features & Adopting Improved STS for B&W Plants Format & Content
ML20098C1071995-09-29029 September 1995
Application for Amend to License NPF-3,modifying TS 3.4.3 & Associated Bases for Pressurizer Code Safety Valve Lift Setpoint Tolerances
ML20098C3931995-09-29029 September 1995
Application for Amend to License NPF-3,revising Tech Spec 3/4.1.2.8, Reactivity Control Sys - Borated Water Sources - Shutdown, Tech Spec 3/4.1.2.9, Reactivity Control Sys - Operating & TS 3/4.5.1, ECCS - Core Flooding Tanks
1999-09-07
[Table view] |
Text
_ _ _ _ _ _ _ _ _ _ _ _ _
APPLICATION FOR AMENDMENT TO FACILITY OPERATING LICENSE NO. NPF-3 FOR DAVIS-BESSE NUCLEAR POWER STATION UNIT NO. 1 Enclosed are forty-three (43) copies of the requested change to the Davis-Besse Nuclear Power Station Unit No. 1 Facility Operating License No. NPF-3, with the Safety Evaluation for the requested change.
This amendment request concerns License Condition 2.C.(3)(t).
By /s/ C. T. Daft C. T. Daft, Director Quality Assurance For R. P. Crouse Vice President, Nuclear Sworn and subscribed before me this 12thday of November,1984.
/s/ Nora Lynn Flood Notary Public, State of Ohio My Commission Expires 9/1/87 SEAL 8411160113 641112 PDR ADOCK 05000346 p P DP.
I
Docket No. 50-346 License No. NPF-3 Serial No. 1100 November 12, 1984 Attachments I. Changes to the Davis-Besse Nuclear Power Station Unit No. 1. Operating l
License No. NPF-3 License Condition.
A. Time required to Implement: This change is to be effective upon NRC approval.
B. Reason for Change (Facility Change Request 84-192).
- NRC requested this License Condition to allow startup and operation utilizing the current SUFP configuration.
C. Safety Evaluation (See Attached)
D. Significant Hazardt Consideration (See Attached) i i
i l
l i
SAFETY EVALUATION This License Condition (2.C.(3)(t)) is being submitted to allow startup and operation, utilizing the current Startup Feedwater Pump (SUFP) config-uration, of the Davis-Besse Nuclear Power Station Unit No. 1 until a new SUFP system can be installed.
The SUFP system itself performs no safety function. It is, however, used as a backup to the main and auxiliary feedwater systems for supplying water to the steam generators in case of the total loss of these two systems.
The SUFP is located in Room 238 which is the same room as one of the auxiliary feedwater pumps (AFP), pump 1-2. During the review of the high/
moderate energy line break criteria as it relates to the AFW rooms, it was determined that the SUFP system can jeopardize AFP 1-2 in the event of a pipe leak or rupture.
The SUFP system is non-seismic downstream of valve FW91. The suction of the SUFP system ut11 ires the Deserator or the Condensate Storage Tank (CST) as its water source. The normal source is the Deaerator. It also uses the non-seismic Turbine Plant Cooling Water (TPCW) system for pump cooling. The line from the Deserator to the SUFP also runs through Room 237. Room 237 contains AFP 1-1. The discharge line from the SUFP is aligned to the inlet of the high pressure feedwater heaters. In the past, these systems were not valved off so as to provide immediate backup for the Main Feedwater System (MFWS) if needed.
Since this problem was identified, the SUFP system and the TPCW system in Rooms 237 & 238 have been isolated. This isolation has been accomplished by closing valve FW91 from the CST, valve FW32 from the Deaerator, valves CW196 and CW197 used for pump cooling, and valve FW106 in the discharge line.
- The main concern with the location of the SUFP is the potential for pipe whip and jet impingement in Room 238 and flooding and high temperature in Room 237 or 238. The main concern with the TPCW system is the potential for flooding these rooms. These concerns will only be realized when the SUFP system is in operation, i.e., during startup and shutdown of the reactor.
During the period that the startup pump is running, the suction piping to the SUFP is a moderate energy line based on the criteria in USAR Section ,
3.6 which states that a line outside containment operating above 275 psig '
! or 200*F is a moderate energy line. The discharge piping from the SUFP is
( a high energy line based on the USAR Section 3.6 which states that a line outside containment operating both above 275 psig and 200'F is a high energy line. If a high energy lir2 is in service more than six hours, Section 3.6 requires that it must be analyzed for pipe rupture. The SUFP
, system could be in operation for as long as 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> for one reactor
! startup and shutdown cycle but can be in operation for as long as 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> during zero power physics testing. The total number of reactor trips in a year is conservatively assumed to be 8 times. The TPCW systen 1
1
~
. . _ - - - _ _ . _ - . . , _ _ - - - ~
. l
, supply and return piping are neither moderate nor high energy lines but, since the lines are non-seismic, a flooding concern remains.
It has been postulated that during a seismic event the pipes would rupture in such a manner as to damage AFP 1-2 or possibly AFP 1-1 due to flooding.
It has also been postulated that with a high energy pipe break the sheared j pipe could damage AFP 1-2 due to jet impingement or pipe whip and would ,
i cause high temperatures and pressure in Room 238. A moderate energy pipe i break could damage either AFP 1-1 or 1-2 due to flooding and high tempera-ture in either Room 237 or 238. A rupture / break in the TPCW piping could damage either AFP 1-1 or 1-2 due to flooding in either Room 237 or 238.
~
A Probability Risk Assessment (PRA) study has been performed since this situation was discovered. The attached PRA justification documents that ,
the worst case probability for a rupture / break in the SUFP and the.TPCW i piping causing the failure of AFP 1-2 is of the order of 3.2E-6/yr. The 1
probability for failure of AFP 1-1 in Room 237 is smaller due to less SUFP v l piping in the rocm. The probability for failure of the AFWS due to pipe :
rupture / break in the SUFP and the TPCW system is documented in calculation I
number C-NSA-45.02-2. This probability is insignificant in light of the
- AFWS unavailability on the order of IE-2/yr, for each train which was j developed by EDS (now Impe11) and submitted to the NRC in December, 1981.
I i Although these risks to the AFWS from the SUFP system are considered
! insignificant, the SUFP suction and discharge piping were hydrotested in j the Fall, 1984, to the original acceptance criteria (ANSI B31.1) to ensure the integrity of the SUFP suction and discharge piping. In addition, certain precautionary measures will be observed during SUFP operation, j when the SUFP is not being used as a source of auxiliary feedwater. An
, operator shall be positioned at the AFW room area when the SUFP is operating
! in Modes 1 through 3. Upon indication of a pipe leak the operator will l l either trip the SUFP locally or contact the control room to trip the SUFP.
This may not reduce the probability for a pipe break in the SUFP system, however, it will reduce significantly the impact of a SUFP system failure resulting in a AFWS failure. He would then close all SUFP isolation valves which are external to the AFW rooms. This operator action is being taken since piping leaks are expected to occur prior to any complete piping rupture. If the SUFP is being used as a source of auxiliary i feedwater, specific direction appropriato to the situation will be provided j to the operator by the shift supervisor.
1 l Pursuant to the above it has been determined that the use of the SUFP i system on an interim basis, until the new SUFP system is installed, does j not significantly increase the probability of the loss of the AFWS.
l l
l i
( l i
. . - _ _ _ , . _ _ - . _ . _ . . _ , - .._,_,_..---_--,__.m,_, ____,______._______.,_.___.mm -. _ .__
i I
SIGNIFICANT HA7ARDS CONSIDERATION The proposed License Condition (2.C.(3)(t)) would allow startup and operation of the Davis-Besse Nuclear Power Station Unit No. I utilizing
. the current Startup Feedwater Pump (SUFP) and also require installation of
! a new SUFF. This License Condition does not represent a Significant 1
Hazard.
1 Toledo Edison (TED) was requested by the NRC Staff to submit a License Condition (2.C.(3)(t)) to allow startup and operation utilizing the
- current SUFP. This request results from TED submittal dated October 18,
- ' 1984 (Serial No. 1070) concerning NRC review of the SUFP operation and approval for interim operation until the new proposed SUFP is operable.
The October 18, 1984 letter identified that SUFP system itself performs no safety function. It is, however, used as a backup to the main and auxiliary
{ feedwater systems for supplying water to the steam generators in case of i the total loss of these two systems.
i 1 The SUFP is located in Room 238 which is the same room.as one of the i auxiliary feedwater pumps (AFP), pump 1-2. During the review of the high/
{ moderate energy line break criteria as it relates to the AFW rooms, it was
{ determined that the SUFP system can jeopardize AFP pump 1-2 in the event
- of a pipe leak or rupture.
4 I
The SUFP system is non-seismic downstream of valve FW91. The suction of the SUFP system utilizes the Deserator or the Cendensate Storage Tank l (CST) as its water source. The normal source is the Demerator. It also t uses the non-seismic Turbine Plant Cooling Water (TPCW) system for pump
! cooling. The line from the Demerator to the SUFP also runs through f Room 237. Room 237 contains AFP 1-1. The discharge line from the SUFP is ;
{ aligned to the inlet of the high pressure feedwater heaters. In the past,
! these systems were not valved off so as to provide immediate backup for j the Main Feedwater System (MFWS) if needed.
i l Since this problem was identified, the SUFP system and the TPCW system in -
l Rooms 237 & 238 have been isolated. This isolation has been accomplished
! by closing valve FW91 from the CST, valve FW32 from the Deserator, valves i
! CW196 and CW197 used for pump cooling, and valve FW106 in the discharge l line.
I
! The main concern with the location of the SUFP in the potential for pipe j whip and jet impingement in Room 238 and flooding and high temperature in l Room 237 or 238. The main concern with the TPCW system is the potential l for flooding these rooms. These concerns will only be realized when the i SUFP system is in operation, i.e., during startup and shutdown of the I reactor.
f During the period that the startup pump is running, the suction piping to l the SUFP is a moderate energy line based on the criteria in USAR Section i
3.6 which states that a line outside containment operating above 275 psig
! or 200*F is a moderate energy line. The discharge piping from the SUFP is l
[ a high energy line based on the USAR Section 3.6 which states that a line l outside containment operating both above 275 psig and 200*F 18 a high >
- , . - - + - , , , - , - ,,w... ,,w- - ,- ,,,.-,,,em- -,,-,-v ,,,=.--,,,,---,,---w,-.--w-,9.-,.,.m,----.,--m, ,w,-e,-m. ,-.---,,%,,--- , - - , - - - -*v
energy line. If a high energy line is in service more than six hours.
Section 3.6 requires that it must be analyzed for pipe rupture. The SUFP system could be in operation for as long as 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> for one reactor startup and shutdown cycle but can be in operation for as long as 168 >
hours during zero power physics testing. The total number of reactor tripa in a year is conservatively assumed to be 8 times. The TPCW system supply and return piping are neither moderate nor high energy lines but, since the-lines are non-seismic, a flooding concern remains.
It has been postulated that during a seismic event the pipes would rupture in such a manner as to damage AFP 1-2 or possibly AFP 1-1 due to flooding.
It has also been postulated that with a high energy pipe break the sheared pipe could damage AFP 1-2 due to jet impingement or pipe whip and would cause high temperatures and pressure in Room 238. A moderate energy pipe break could damage either AFP 1-1 or 1-2 due to flooding and high tempera-ture in either Room 237 or 238. A rupture / break in the TPCW piping could damage either AFP 1-1 or 1-2 due to flooding in either Room 237 or 238.
A Probability Risk Assessment (PRA) study has been performed since this situation was discovered. The attached PRA justification documents that the worst case probability for a rupture / break in the SUFP and the TPCW piping causing the failure of AFP 1-2 is of the order of 3.2E-6/yr. The probability for failure of AFP 1-1 in Room 237 is smaller due to less SUFP piping in the room. The probability for failure of the AFWS due to pipe rupture / break in the SUFP and the TPCW system is documented in calculation number C-NSA-45.02-2. This probability is insignificant in light of the AFWS unavailability on the order of IE-2/yr. for each train which was developed by EDS (now Impell) and submitted to the NRC in December, 1981.
Although these risks to the AFWS from the SUFP system are considered insignificant, the SUFP suction and discharge piping were hydrotested in the Fall, 1984, to the original acceptance criteria (ANSI B31.1) to ensure the integrity of the SUFP suction and discharge piping. In e.ddition,
- certain precautionary measures will be observed during SUFP operation, when the SUFP is not being used as a source of auxiliary feedwater. An operator shall be positioned at AFP room area when the SUFP is operating in Modes 1 through 3. Upon indication of a pipe leak the operator will either trip the SUFP locally or contact the control room to trip the SUFP.
This may not reduce the probability for a pipe break in the SUFP system, however, it will reduce significantly the impact of a SUFP system failure causing a AFWS failure. He would then close all SUFP isolation valves which are external to the AFP rooms. This operator action is being taken since piping leaks are expected to occur prior to any complete piping rupture. If the SUFP is being used as a source of auxiliary feedwater, specific direction appropriate to the situation will be provided to the operator by the shift supervisor.
The Commission has provided examples of amendments which are not likely to involve a significant hazards consideration (48 FR 14870), such as a change that constitutes an additional limitation, restriction, or control not presently included in the technical specifications: for example, a more stringent surveillance requirement (example 11). The License Condition will require TED to isolate the piping on the SUFP and station an operator in the SUFP/AFW pump area when the SUFP is operating. Also, the License
e.
Condition will require TED to install a SUFP and associated piping and valves external to Rooms 237 and 238 before commencing startup of Cycle 6.
These conditions are not presently required of TED and constitutes an additional restriction on operation and plant modification.
Based on the above information, this amendment request would not 1) involve a significant increase in the probability or consequences of an accident previously evaluated; or 2) create the possibility of a new or different kind of accident from any accident previously evaluated; or 3) involve a significant reduction in a margin of safety.
Therefore, based on the above, the requested license amendment does not present a Significant Hazard.
e l
i f
i I
l i
\
4 DAVIS-BESSE NUCLEAR POWER STATION i
UNIT NO. 1 LICENSE CONDITION 2.C.(3)(t)
Toledo Edison shall operate the Startup Feedwater Pump (SUFP) System with the following operational restrictions:
- 1. Toledo Edison will station an operator in the Startup Feedwater
'- Pump / Auxiliary Feedwater Pump (SUFP/AFW) area during operation of the SUFP to monitor SUFP/ Turbine Plant Cooling Water (TPCW) piping status in the AFW Pump Rooms. In the event of SUFP/TPCW pipe leakage, the operator will trip the SUFP locally or notify the Control Room to trip the SUFP, and isolate the SUFP/TPCW piping.
- 2. Toledo Edison will isolate and maintain isolation outside the SUFP/
AFW area of the SUFP suction, discharge, and turbine plant cooling water piping, when the SUFP is not in operation (Modes 1. 2 and 3).
- 3. Toledo Edison will install a SUFP, associated piping, and valves, to remove the hazards to the AFW pumps before commencing Cycle 6.
i 4
1 l .
/
--. e - - . , - .
-t PRA Based Justification for Continued Operation of the SUFP System During SUFP operation, a portion of the SUFP discharge line and the minimum recirculation line renders itself to consideration as a high energy line. Similarly, a portion of the suction piping because of use with the deaerator storage tank water requires consideration as a moderate energy line. The immediate safety impact of lack of such high/ moderate energy line considerations is on the Auxiliary Feedwater System (AFWS) since the SUFP is housed in the same room as Auxiliary Feedpump (AFP) 2.
A portion of the discharge and minimum recirculation lines is routed in this same room. In addition, the suction path from the deaerator runs
- through both AFP rooms. With SUFP in operation while taking suction from the deaerator the following lengths of pipes may pose a challenge to the AFWS in view of the high/ moderate energy line breaks. Further, the non-seismic TPCW piping, in AFP rooms (as noted below) poses a potential flooding concern.
17 feet of 4" discharge line in AFP Room 2 18 feet of 1\" minimum recirculation line in AFP Room 2 27 feet of 6" suction line in AFW Room 2 27 feet of 6" suction line in AFP Room 1 62 feet of 4" TPCW line in AFP Room 1 1
40 feet of 4" in AFP Room 2 24 feet of $2d in AFP Room 2 The SUFP may be operated continuously for a period of approximately 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> every reactor shutdown /startup. In a year with a fuel reload, the SUFP system may be operated for as long as 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> continuously during zero power physics testing. Based on the expected number of reactor trips in a year (conservatively assuming ten trips per non-refueling year and eight trips in a refueling year) the maximum number of hours per year that the SUFP system would be in operation for any year is of the order of 744 hours0.00861 days <br />0.207 hours <br />0.00123 weeks <br />2.83092e-4 months <br />.
The overall figure of merit for any one train of the Davis-Besse AFWS is of the order of 10-2 per year as deduced from the EDS (now Impell) AFWS PRA study (EDS Report No. 02-1040-0195, Revision 1) submitted to the NRC in December 1981. This implies that one train of the Davis-Besse AFWS will be unavailable with a frequency of 10-2 per year for all initiating events which may require availability of AFWS.
Assuming the duration of SUFP operation per year presented above, the I
total worst case probability of any break (whether high energy, moderate energy or seismic) in the unanalyzed piping which may challenge the availability of an AFW train is of the order of 3.2 x 10-6 per year. The worst case probability is for AFW train 2 because of significantly larger overall length of piping in this room. This evaluation conservatively l assumes that any rupture of this non-seismic piping will flood the room to the extent of causing train inoperability with a probability of unit.
Since the SUFP system failure as postulated above poses a challenge to the AFW train at a frequency of 3.2 x 10-8 per year, the probability of such SUFP system ruptures / breaks leading to inoperability of an AFW train is i
l t
i
., )
insignificant as compared to other failures that may render the AFW system inoperable. It is, therefore, concluded that the above issue poses a very minimal risk to the accomplishment of the safety function of the AFWS and an extremely negligible risk to public health and safety. Continued operation of the SUFP system in the mode evaluated above is, therefore, adequately justified.
- - ._.
