|
|---|
Category:TECHNICAL SPECIFICATIONS
MONTHYEARML20210K3631999-07-30030 July 1999
Marked-up & Revised TS Bases Page B 3/4 5-2 Re ECCS
ML20196G3671999-06-23023 June 1999
Proposed Tech Specs Increasing AOT for Crac from 30 Days to 60 Days on One Time Basis for Each Train to Facilitate on- Line Implementation of Design Enhancements During Current Operating Cycle
ML20198E7411998-12-16016 December 1998
Proposed Tech Specs Pages Re LAR-98-15,involving Relocation of TS 3/4.7.10 & Associated TS Table 3.7-3 to Technical Requirements Manual
ML20198E7831998-12-16016 December 1998
Proposed Tech Specs Pages to LAR 98-09,re Editorial & Administrative Changes to TS
ML20155J1821998-11-0404 November 1998
Proposed Tech Specs 4.5.2b.1,removing Prescriptive Requirements of Using Venting Process as Sole Means to Verify That ECCS Piping Is Full of Water
ML20249B4181998-06-17017 June 1998
Proposed Tech Specs 3.7.6 Re Control Room Emergency Makeup Air & Filtration Subsystem
ML20247R7021998-05-20020 May 1998
Proposed Tech Specs Re Rev of Refueling Water Storage Tank low-low Level Setpoint
ML20217E8871998-04-22022 April 1998
Proposed Tech Specs Re Surveillance Intervals to Accommodate 24-month Fuel Cycle,Per GL 91-04
ML20217F9651998-04-21021 April 1998
Proposed Tech Specs Page 3/4 5-5 Re Venting of Operating Chemical Vol & Control Sys Centrifugal Charging Pump
ML20216C5921998-04-0808 April 1998
Proposed Tech Specs Changing Surveillance Intervals to Accommodate 24-month Fuel Cycle Per GL 91-04
ML20217Q2981998-04-0303 April 1998
Proposed Tech Specs Pages Re LAR 98-02,proposing Changes to TS to Accommodate Fuel Cycles of Up to 24 Months
ML20217M3771998-03-27027 March 1998
Proposed Tech Specs 3.7.6 Re Control Room Emergency Makeup Air & Filtration Subsystem
ML20217F0961998-03-23023 March 1998
Proposed Tech Specs Pages,Incorporating New Spec 3.0.5 Administrative Controls,Currently Approved for Use in NUREG-1431
ML20217Q1031998-03-0505 March 1998
Proposed Tech Specs Incorporating Programmatic Controls for Radioactive Effluents & for Environ Monitoring Conforming to Applicable Regulatory Requirements
ML20217N7321998-03-0202 March 1998
Proposed Tech Specs Pages,Revising Frequency for Performance of Specific Surveillances & Deleting Requirements for Accelerated Testing When Number of Valid Test Failures Associated W/Edgs Is Met or Exceeded
ML20217N8211998-03-0202 March 1998
Proposed Tech Specs 4.5.2B.1,excluding Prescriptive Requirement to Vent Operating CVCS CCP Casing
ML20211E9981997-09-26026 September 1997
Proposed Tech Specs 3.7.6,separating Requirements for CR HVAC Sys Re Operation of CR Emergency Makeup Air & Filtration Sys Subsystem & CR Air Conditioning Subsystem
ML20148G0011997-05-29029 May 1997
Proposed Tech Specs Replacing Term Zircaloy W/Terminology That Identifies NRC Approved Westinghouse Fuel Assembly Design Consisting of Assemblies W/Either ZIRLO or Zircaloy- 4 Fuel Cladding Matl
ML20135C3541997-02-26026 February 1997
Proposed Tech Specs,Providing Retyped Page of Proposed Changes Re Design Features Fuel Assembly Reconstitution
ML20134Q3451997-02-18018 February 1997
Proposed Tech Specs 5.3.1 Re Fuel Assemblies
ML20134L8681997-02-12012 February 1997
Proposed Tech Specs 6.0 Re Administrative Controls
ML20129B8361996-10-17017 October 1996
Proposed Tech Specs,Consisting of Change Request 96-02, Proposing Changes That Involve Relocation of Four TS Re Instrumentation Requirements Contained in TS Section 3/4.3 & Relocation of Selected Requirements
ML20129B7761996-10-16016 October 1996
Proposed Tech Specs,Consisting of Change Request 96-06, Proposing Four Changes Re EDG Requirements Contained in TS 3/4.8.1, AC Sources
ML20113B2031996-06-20020 June 1996
Proposed Tech Specs Re Svc Water Cooling Tower Loop Electrical Supply
ML20117K3111996-06-0404 June 1996
Proposed Tech Specs Re Containment Leakage Testing Modifying Implementing Performance Based Program at Seabrook Station IAW 10CFR50,App J,Option B & Reg Guide 1.163 Requirements
ML20094D5341995-10-30030 October 1995
Proposed Tech Spec 3.4.6.2, RCS Operational Leakage Pressure Isolation Valve Table
ML20092M1071995-09-22022 September 1995
Proposed TS 3.3.2,Table 3.3-3, ESFAS Instrumentation, Correcting Action Ref for Functional Unit 8.b Re Automatic Switchover to Containment Sump/Rwst Level low-low
ML20098A4721995-09-20020 September 1995
Proposed Tech Specs,Relocating Functional Unit 6.b, FW Isolation-Low RCS Tavg Coincident W/Rt from TS Requirements Manual Licensee Controlled Document
ML20092K2201995-09-20020 September 1995
Proposed Tech Specs,Changing Plant TS Bases Section 3/4.9.1 for Refueling B Concentration
ML20092F9171995-09-12012 September 1995
Proposed Tech Specs Bases Section Clarifying What Specifically Constitutes Operable Pressurizer Safety Valve in Mode 5
ML20092A6331995-09-0505 September 1995
Proposed Tech Specs,Revising Main Steam Safety Valve Setpoints & Max Allowable Power Range Neutron Flux High Setpoints W/Inoperable Main Steam Safety Valves
ML20091S1601995-08-28028 August 1995
Proposed Tech Specs Re Positive Moderator Temp Coefficient
ML20086R2111995-07-24024 July 1995
Proposed Tech Specs,Relocating Table 3.4-1, RCS PIVs from TS 3.4.6.2, RCS Operational Leakage to Techical Requirements Manual
ML20085L1161995-06-16016 June 1995
Proposed Tech Specs Re Increased Requirements for Core Reactivity Control Available from Borated Water Sources
ML20084U5521995-06-0707 June 1995
Proposed Tech Specs,Consisting of Amend Request 95-02, Revising Footnote to SR 4.4.7 & Table 3.4-2 to Increase Temp Limit at Which Rc O Levels Determined by Sampling from 180 Degrees F to 250 Degrees F
ML20084N9561995-05-31031 May 1995
Proposed Tech Specs Re Operation of Core W/Positive Moderator Temp Coefficient
ML20082L5211995-04-16016 April 1995
Proposed Tech Specs,Revising TS 3.9.4 That Addresses Containment Bldg Penetrations to Allow Use of Alternate Containment Bldg Penetration Closure Methodologies for Postulated Accident Scenarios During Core Alterations
ML20078E0491995-01-25025 January 1995
Proposed Tech Specs Re Changing of Surveillance Requirement 4.6.1.2.a from Specific Schedule for Performance of Containment ILRTs
ML20078L5561994-11-23023 November 1994
Proposed Tech Specs Re Independent Technical Reviews
ML20076G4701994-10-0707 October 1994
Proposed Tech Specs Re Administrative Control Requirements for Emergency & Security Plans,Per GL 93-07
ML20072G0371994-08-15015 August 1994
Proposed Bases of TS 3/4.1.1.3, Moderator Temp Coefficient & 3/4.3.3.2, Incore Detector Sys
ML20059H6381994-01-14014 January 1994
Proposed Tech Specs,Changing Administrative Controls in Section 6.0 to Redefine Composition of Sorc,Create Station Qualified Reviewer Program,Delete Requirement to Perform Periodic Procedure Reviews & Revise TS 6.4.2.9
ML20058C3161993-11-23023 November 1993
Proposed Tech Specs,Allowing Operation of Core within Axial Flux Difference Band Expanded from Current Band in TSs & Improved Fuel Cycle Mgt Through Implementation of Core Design Enhancements
ML20059C5441993-10-28028 October 1993
Proposed Tech Specs Implementing Thirteen Line Item Improvements Recommended by GL 93-05, Line-Item TS Improvements to Reduce SRs for Testing During Power Operation
ML20056F7671993-08-26026 August 1993
Proposed Tech Specs Requesting Exercise of Enforcement Discretion from Requirement to Perform Channel Check on Narrow Range RWST low-low Level Transmitters
ML20045C5571993-06-18018 June 1993
Proposed Tech Spec 6.2.3 Reflecting Title Change to Independent Technical Reviews & Deletion of Requirement to Maintain Five Person Organization,Iseg
ML20045D5841993-06-18018 June 1993
Proposed Tech Specs Reducing Frequency of Surveillances, Required to Verify Integrity of CST Enclosure
ML20127F8101993-01-13013 January 1993
Proposed TS 6.8.1.4 Re Submittal Frequency of Semiannual Radioactive Effluent Release Rept
ML20117A8041992-11-25025 November 1992
Proposed Tech Specs for Incore Detector Sys
ML20106E4181992-11-0303 November 1992
Proposed TS Section 6.2.2.f Deleting Requirement That Operations Manager Hold or Have Held Senior Reactor Operator License Prior to Assuming Operations Manager Position
1999-07-30
[Table view]
Category:TECHNICAL SPECIFICATIONS & TEST REPORTS
MONTHYEARML20210R8051999-08-10010 August 1999
Startup Test Rept for Cycle 7
ML20210K3631999-07-30030 July 1999
Marked-up & Revised TS Bases Page B 3/4 5-2 Re ECCS
ML20196G3671999-06-23023 June 1999
Proposed Tech Specs Increasing AOT for Crac from 30 Days to 60 Days on One Time Basis for Each Train to Facilitate on- Line Implementation of Design Enhancements During Current Operating Cycle
ML20198E7411998-12-16016 December 1998
Proposed Tech Specs Pages Re LAR-98-15,involving Relocation of TS 3/4.7.10 & Associated TS Table 3.7-3 to Technical Requirements Manual
ML20198E7831998-12-16016 December 1998
Proposed Tech Specs Pages to LAR 98-09,re Editorial & Administrative Changes to TS
ML20155J1821998-11-0404 November 1998
Proposed Tech Specs 4.5.2b.1,removing Prescriptive Requirements of Using Venting Process as Sole Means to Verify That ECCS Piping Is Full of Water
ML20249B4181998-06-17017 June 1998
Proposed Tech Specs 3.7.6 Re Control Room Emergency Makeup Air & Filtration Subsystem
ML20247R7021998-05-20020 May 1998
Proposed Tech Specs Re Rev of Refueling Water Storage Tank low-low Level Setpoint
ML20217E8871998-04-22022 April 1998
Proposed Tech Specs Re Surveillance Intervals to Accommodate 24-month Fuel Cycle,Per GL 91-04
ML20217F9651998-04-21021 April 1998
Proposed Tech Specs Page 3/4 5-5 Re Venting of Operating Chemical Vol & Control Sys Centrifugal Charging Pump
ML20216C5921998-04-0808 April 1998
Proposed Tech Specs Changing Surveillance Intervals to Accommodate 24-month Fuel Cycle Per GL 91-04
ML20217Q2981998-04-0303 April 1998
Proposed Tech Specs Pages Re LAR 98-02,proposing Changes to TS to Accommodate Fuel Cycles of Up to 24 Months
ML20217M3771998-03-27027 March 1998
Proposed Tech Specs 3.7.6 Re Control Room Emergency Makeup Air & Filtration Subsystem
ML20217F0961998-03-23023 March 1998
Proposed Tech Specs Pages,Incorporating New Spec 3.0.5 Administrative Controls,Currently Approved for Use in NUREG-1431
ML20217Q1031998-03-0505 March 1998
Proposed Tech Specs Incorporating Programmatic Controls for Radioactive Effluents & for Environ Monitoring Conforming to Applicable Regulatory Requirements
ML20217N8211998-03-0202 March 1998
Proposed Tech Specs 4.5.2B.1,excluding Prescriptive Requirement to Vent Operating CVCS CCP Casing
ML20217N7321998-03-0202 March 1998
Proposed Tech Specs Pages,Revising Frequency for Performance of Specific Surveillances & Deleting Requirements for Accelerated Testing When Number of Valid Test Failures Associated W/Edgs Is Met or Exceeded
ML20217Q1111998-02-25025 February 1998
Rev 18 to Odcm
ML20211F4401997-09-26026 September 1997
Cycle 6 Startup Test Rept for Seabrook Station,Unit 1
ML20211E9981997-09-26026 September 1997
Proposed Tech Specs 3.7.6,separating Requirements for CR HVAC Sys Re Operation of CR Emergency Makeup Air & Filtration Sys Subsystem & CR Air Conditioning Subsystem
ML20195J1451997-07-23023 July 1997
Rev 15 to Seabrook Station Operating Experience Manual (Ssoe)
ML20148G0011997-05-29029 May 1997
Proposed Tech Specs Replacing Term Zircaloy W/Terminology That Identifies NRC Approved Westinghouse Fuel Assembly Design Consisting of Assemblies W/Either ZIRLO or Zircaloy- 4 Fuel Cladding Matl
ML20148K1251997-05-0707 May 1997
Rev 6 to Part I, Seabrook Station Pump & Valve IST Program Plan
ML20135C3541997-02-26026 February 1997
Proposed Tech Specs,Providing Retyped Page of Proposed Changes Re Design Features Fuel Assembly Reconstitution
ML20134Q3451997-02-18018 February 1997
Proposed Tech Specs 5.3.1 Re Fuel Assemblies
ML20134L8681997-02-12012 February 1997
Proposed Tech Specs 6.0 Re Administrative Controls
ML20138J3351996-12-19019 December 1996
Rev 16 to Offsite Dose Calculation Manual
ML20129B8361996-10-17017 October 1996
Proposed Tech Specs,Consisting of Change Request 96-02, Proposing Changes That Involve Relocation of Four TS Re Instrumentation Requirements Contained in TS Section 3/4.3 & Relocation of Selected Requirements
ML20129B7761996-10-16016 October 1996
Proposed Tech Specs,Consisting of Change Request 96-06, Proposing Four Changes Re EDG Requirements Contained in TS 3/4.8.1, AC Sources
ML20113B2031996-06-20020 June 1996
Proposed Tech Specs Re Svc Water Cooling Tower Loop Electrical Supply
ML20117K3111996-06-0404 June 1996
Proposed Tech Specs Re Containment Leakage Testing Modifying Implementing Performance Based Program at Seabrook Station IAW 10CFR50,App J,Option B & Reg Guide 1.163 Requirements
ML20115J7481996-03-26026 March 1996
Procedure for Ultrasonic Examination of Centrifugally Cast Stainless Steel Piping Using Low Frequency SAFT-UT System
ML20138J3621996-03-21021 March 1996
Process Control Program
ML20100G8351996-02-16016 February 1996
Startup Test Rept,Cycle 5. W/
ML20094D5341995-10-30030 October 1995
Proposed Tech Spec 3.4.6.2, RCS Operational Leakage Pressure Isolation Valve Table
ML20092M1071995-09-22022 September 1995
Proposed TS 3.3.2,Table 3.3-3, ESFAS Instrumentation, Correcting Action Ref for Functional Unit 8.b Re Automatic Switchover to Containment Sump/Rwst Level low-low
ML20092K2201995-09-20020 September 1995
Proposed Tech Specs,Changing Plant TS Bases Section 3/4.9.1 for Refueling B Concentration
ML20098A4721995-09-20020 September 1995
Proposed Tech Specs,Relocating Functional Unit 6.b, FW Isolation-Low RCS Tavg Coincident W/Rt from TS Requirements Manual Licensee Controlled Document
ML20092F9171995-09-12012 September 1995
Proposed Tech Specs Bases Section Clarifying What Specifically Constitutes Operable Pressurizer Safety Valve in Mode 5
ML20092A6331995-09-0505 September 1995
Proposed Tech Specs,Revising Main Steam Safety Valve Setpoints & Max Allowable Power Range Neutron Flux High Setpoints W/Inoperable Main Steam Safety Valves
ML20091S1601995-08-28028 August 1995
Proposed Tech Specs Re Positive Moderator Temp Coefficient
ML20086R2111995-07-24024 July 1995
Proposed Tech Specs,Relocating Table 3.4-1, RCS PIVs from TS 3.4.6.2, RCS Operational Leakage to Techical Requirements Manual
ML20085L1161995-06-16016 June 1995
Proposed Tech Specs Re Increased Requirements for Core Reactivity Control Available from Borated Water Sources
ML20084U5521995-06-0707 June 1995
Proposed Tech Specs,Consisting of Amend Request 95-02, Revising Footnote to SR 4.4.7 & Table 3.4-2 to Increase Temp Limit at Which Rc O Levels Determined by Sampling from 180 Degrees F to 250 Degrees F
ML20084N9561995-05-31031 May 1995
Proposed Tech Specs Re Operation of Core W/Positive Moderator Temp Coefficient
ML20083K7351995-04-19019 April 1995
Rev 74 to Emergency Response Manual (Sser)
ML20082L5211995-04-16016 April 1995
Proposed Tech Specs,Revising TS 3.9.4 That Addresses Containment Bldg Penetrations to Allow Use of Alternate Containment Bldg Penetration Closure Methodologies for Postulated Accident Scenarios During Core Alterations
ML20081J6021995-03-22022 March 1995
Revised Table A.3-1, Radioactive Liquid Waste Sampling & Analysis Program, to ODCM
ML20078E0491995-01-25025 January 1995
Proposed Tech Specs Re Changing of Surveillance Requirement 4.6.1.2.a from Specific Schedule for Performance of Containment ILRTs
ML20079B2491994-12-27027 December 1994
Proposed Changes to Part a of ODCM
1999-08-10
[Table view] |
Text
'
. 'ENERGENCY CORE COOLING SYSTEMS
^
BASES 3/4.5.2 and 3/4.5.3 ECCS SUBSYSTEMS (Continued) /
When the RCS has a vent area equal to or greater than 18 square inches, one Safety Injection pump may be made OPERABLE when in MODE S or MODE 6 (below 200'F). When operating in this configuration, cold overpressure protection is f provided by the mechanical vent opening, equal to or greater than 18 square inches that is required to be present in the RCS boundary prior to making the SI pump, OPERABLE. This required RCS vent area and the surveillance requirement to verify the presence of the RCS vent area provides assurance that a mass t addition transient can be relieved and that adequate cold overpressure protection is provided. 3 gp -
j The Surveillance Requirements provided'to ensure PERABILITY of each com-ponent ensures that at a minimum, the assumptions used in the safety analyses are met and that subsystem OPERABILITY is maintainid. Surveillance Requirements for throttle valve position stops and flow balance testing provide assurance that proper ECCS flows will be maintained in the event of a LOCA. Maintenance of proper flow resistance and pressure drop in the piping system to each injec-tion point is necessary to: (1) prevent total pump flow from exceeding runout conditions when the system is in its minimum resistance configuration, (2) pro-vide the proper flow split between injection points in accordance with the assumptions used in the ECCS-LOCA analyses, and (3) provide an acceptable level of total ECCS flow to all injection points equal to or above that assumed in,the ECCS-LOCA analyses. -
3/4.5.4 REFUELING WATER STORAGE TANK The OPERABILITY of the refueling water storage tank (RWST) as part of the ECCS ensures that a sufficient supply of borated water is available for injection by the ECCS in the event of a LOCA. The limits on RWST minimum volume and boron concentration ensure that: (1) sufficient water is available within containment to permit recirculation cooling flow to the core and (2) the reactor will remain subcritical in the cold condition following mixing of the {
RWST and the RCS water volumes with all control rods insertad except for the most reactive control assembly. These assumptions are consistent with the LOCA analyses.
The contained water volume limit includes an allowance for water not usable because of tank discharge line location or other physical characteristics.
The limits on contained water volume and boron concentration of the RWST also ensure a pH value of between 8.5 and 11.0 for the solution recirculated within containment after a LOCA. This pH band minimizes the evolution of iodine and minimizes the effect of chloride and caustic stress corrosion on mechanical systems and components.
SEABROOK - UNIT 1 -
8 3/4 5-2 Amendment No.
9908060087 990730 PDR ADOCK 05000443 P PDR I
/
l,) '
m qpgLpJ)&JATUrt4704Ajt'b4M(f /
With the exception of the operating centrifugal charging pump, the ECCS pumps are n standby, non-operating of entrained gases. Maintainin mode. As such, flow path iping has the potential to develop void at the accessible ECCS$g the piping from th CCC'; ymup to the RCS full of water (by verifyin
- diping high' points and pump casings, excluding the operating centrifugal charging pump) ensures that the system will perform properly, injecting its fu the RCS upon demand. This will also prevent water hammer, pump cavitation and pumpi condensable gas (e.g., air, nitrogen, or hydrogen) into the reactor vessel following a safet signal or during shutdown cooling. The 31 day Frequency takes into consideration the gradu gas accumulation in the ECCS piping and the procedural controls governing system operation.
U P
EMERGENCY CORE COOLING SYSTEMS j
BASES 3/4.5.2 and 3/4.5.3 ECCS SUBSYSTEMS (Continued) i When the RCS has a vent area equal to or greater than 18 square inches, one Safety injection pump may be made OPERABLE when in MODE G or MODE 6 (below 200 F). When operating in this configuration, cold overpressure protection is provided by the mechanical vent opening, equal to or greater than 18 l square inches, that is required to be present in the RCS boundary prior to making the Si pump
) OPERABLE. This required RCS vent s rea and the surveillance requirement to verify the presence of the RCS vent area provides assurance that a mass addition transient can be relieved and that adequate cold
- overpressure protection is provided.
1 The Surveillance Requirements provided to ensure OPERABILITY of each component ensures that at a minimum, the assumptions used in the safety analyses are met and that subsystem OPERABILITY is maintained. With the exception of the operating centrifugal charging pump, the ECCS pumps are normally in a standby, non-operating mode. As such, flow path piping h :s the potential to develop voids and pockets of entrained gases. Maintaining the piping from the refueling water storage tank l
(RWST) to the RCS full of water (by veriffing at the accessible ECCS piping high points and pump casings, excluding the operating centrifugal charging pump) e,nsures that the system will perform properly, injecting its full capacity into the RCS upon demand. This will also prevent water hammer, pump cavitation, and pumping of non-condensable gas (e.g., a r, nitrogen, or hydrogen) it'to the reactor vessel following a safety injection (SI) signal or during shutdown ccoling. The 31 day Frequency takes into consideration the gradual nature of gas accumulation in the ECCS piping and the procedural controls governing aystem operation.
l Surveillance Requirements for throttle vah'e position stops and flow balance testing provide assurance that l proper ECCS flows will be maintained in the event of a LOCA. Maintenance of proper flow resistance and pressure drop in the piping system to each injection point is necessary to: (1) prevent total pump flow from exceeding runout conditions when the system is in its minimum resistance configuration, (2) provide the proper flow split between injection points in accordance with the assumptions used in the ECCS-LOCA analyses, and (3) provide an acceptable level of total ECCS flow to all injection points ec"al to or above that assumed in the ECCS-LOCA analyses.
3/4.5.4 REFUELING WATER STORAGE TANK l The OPERABILITY of the refueling water storage tank (RWST) as part of the ECCS ensures that a sufficient supply of borated water is available for injection by the ECCS in the event of a LOCA. The limits on RWST minimum volume and boron concentration ensure that: (1) sufficient water is available within containment to permit recirculation cooling flow to the core and (2) the reactor will remain suberitical in the cold condition following mixing of the RWST and the RCS water volumes with all control rods inserted except for the most reactive control assembly. These assumptions are consistent with the LOCA analyses.
The contained water volume limit includes an allowance for water not usable because of tank discharge line location or other physical characteristics.
SEABROOK- UNIT 1 B3/45-2 Amendment No. 5
