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Category:TECHNICAL SPECIFICATIONS
MONTHYEARML17059C7911999-09-30030 September 1999
Proposed Tech Specs Re Rev B to Conversion of Unit 2 Current TS to ITS
ML20211P5931999-09-10010 September 1999
Marked-up Tech Specs Pages Reflecting Conforming Administrative License Amend Associated with Proposed Transfer of Facilities to Amergen Energy Co,Llc
ML20211H2231999-08-26026 August 1999
Proposed Tech Specs,Supporting Implementation of Noble Metal Chemical by Raising Reactor Water Conductivity Limit in TSs 3.2.3.a,3.2.3.c.1 & 3.2.3.b
ML20206P2661998-12-30030 December 1998
Proposed Tech Specs Making Application of Emergency Condenser Vent Ng Activity Monitor Channel Operability Requirement & Daily Sensor Check SR Consistent with Conditions Stated in LCO 3.1.3.a Re Emergency Cooling Sys
ML20197K1041998-12-0404 December 1998
Revised Proposed TS Bases Reflecting Previous Removal of Condenser Low Vacuum Scram Function from TS as Well as Plant Design & Changes to EDG Ratings,Design Basis Load Limits & Loading Profiles
ML20196H0671998-11-30030 November 1998
Proposed Tech Specs,Correcting LCO & Associated Bases for TS Section 3.1.2, Liquid Poison Sys, That Had Been Incorporated Into TS as Part of NMP Unit 1 TS Amend 101
ML20196D2081998-11-24024 November 1998
Proposed Tech Specs B 2.1.1, Fuel Cladding - Safety Limit, B 3.2.5 & 4.2.5, Reactor Coolant Sys Leakage Rate
ML20154R1101998-10-16016 October 1998
Proposed Ts,Revising LCO 3.7.1.1 & Associated Actions & SRs to Provide Assurance That Four SW Pumps Are Operable & Are Operating within Acceptable Sys Parameters,With Divisional Cross Connect Valves Open
ML20217N7911998-04-24024 April 1998
Revised Pages 2-1,3/4 4-1 & B2-1 to Replace Previously Submitted Pages Contained within Attachment a of 971215 Proposed Change to TS to License NPF-49
ML20202G3751998-02-0505 February 1998
Proposed Tech Specs Pages,Reflecting References to 10CFR50.55a(f) & (G) as Well as Terminology Used in Second Ten Year Isi/Ist,Beginning on 980405
ML20197H3371997-12-15015 December 1997
Proposed Tech Specs Revising SLMCPR from 1.07 to 1.09 for Two Recirculation Loop Operation & from 1.08 to 1.10 for Single Loop Operation
ML20211M5231997-10-0707 October 1997
Proposed Tech Specs Section 4.9.6,reflecting New Setpoints Due to Difference in Weights of Two Existing Triangular Refueling Platform Masts
ML20217G9011997-07-31031 July 1997
Proposed Tech Specs Changing Wording in Action 36 of TS Table 3.3.3-1, Emergency Core Cooling Sys Actuation Instrumentation
ML20148A7751997-04-30030 April 1997
Proposed Change to Tech Specs,Removing Section 3.3.7.3 & Associated Surveillance Section 4.3.7.3,associated Tables 3.3.7.3-1 & 4.3.7.3-1,Bases Section 3.4.3.7.3 & Revising Section 0.0 (Index) Pages VII & Xvii
ML20116D8121996-07-26026 July 1996
Proposed Tech Specs Re Option B of App J to 10CFR50
ML20115H1521996-07-12012 July 1996
Proposed Tech Specs Section 6.2.2.i Re App a
ML20117F9501996-05-15015 May 1996
Proposed Tech Specs Section 3/4.3.2 Re Isolation Actuation Instrumentation
ML20101F4281996-03-20020 March 1996
Proposed TS 3/4.3.1 Re RPS Instrumentation,Deleting Operability Requirements for APRM Neutron flux-upscale, Setdown & Inoperative Functions in Operational Conditions (Oc) 3 & 4 & Modifying Operability Requirements in Oc 5
ML20101D7551996-03-15015 March 1996
Proposed Tech Specs Section 4.6.2 Re Depressurization Sys - Suppression Pool
ML20097D2391996-02-0707 February 1996
Proposed Tech Specs Re Administrative Controls
ML20100C1021996-01-25025 January 1996
Proposed Tech Specs Table 3.3.3-1 Re Emergency Core Cooling Sys Actuation Instrumentation
ML20096G8401996-01-17017 January 1996
Proposed Tech Specs,Representing Revs to Specs 3/4.3.1, 3/4.3.2,3/4.3.3,3/4.3.4.2 & Associated Bases to Relocate Response Time Limit Tables from TSs to Plant USAR
ML20094B5421995-10-25025 October 1995
Proposed Tech Specs Re Position Title Changes & Reassignments of Responsibilities at Upper Mgt Level
ML20091Q9571995-08-28028 August 1995
Proposed TS 3.6.1.7,increasing Time 12-inch & 14-inch Containment Purge Sys Supply & Exhaust Valves May Be Open in Operational Condition 1,2 & 3 from 90 H Per 365 Days to 135 H Per 365 Days & Deleting Expired Footnotes for Clarity
ML20081E2491995-03-0909 March 1995
Proposed Tech Specs,Revising SR 4.6.1.2.a,allowing Second Primary Containment ILRT (Type a) to Be Performed at Refueling Outage 5 or 72 Months After First Type a Test
ML20077N1591995-01-0606 January 1995
Proposed Tech Specs Re Min Gallons of Fuel Oil Required in Day Tanks & Storage Tanks
ML20077N2071995-01-0606 January 1995
Proposed Tech Specs Re Deletion of Certain Instruments Not Classified as Category 1
ML20078Q9241994-12-13013 December 1994
Proposed Tech Specs Re Change to Table 3.6.1.2-1 That Will Allow Maximum Leakage of 24.0 Scfh for Each of Eight MSIVs
ML20077E1561994-12-0202 December 1994
Proposed TS Page 3/4 1-20,reflecting Rev of SLCS Relief Valve Setpoint to Show Influence of Back Pressure & Rev of Bases Page B3/4 5-2 to Show That Hpsc Sys Designed to Supply 517 Gpm Flow Rate at 1,200 (Instead of 1,175) Psid
ML20078J3781994-11-14014 November 1994
Proposed Tech Specs Reducing Leak Rate Test Pressure for Safety Related ADS Nitrogen Receiving Tanks from 385 Psig to 365 Psig
ML20078E0331994-10-28028 October 1994
Proposed Tech Specs 1.0, Definitions, 3/4.3.2, Isolation Actuation Instrumentation & 3/4.9.3, Control Rod Position
ML20078B9841994-10-21021 October 1994
Proposed Tech Specs SR 4.8.1.1.2.e.8,reflecting Addition of Footnote Re 24 H Functional Test of DGs
ML20073L8781994-10-0505 October 1994
Proposed TS Table 3.3.7.1-1 Re Radiation Monitoring Instrumentation
ML20072U3491994-09-0202 September 1994
Proposed Tech Specs Re 18 Month Operability Test of Svc Water Pumps Sys & Resistance Test of Intake Deicing Heater Sys
ML17059A4471994-09-0101 September 1994
Proposed Tech Specs Section 3.2.2, Minimum Reactor Vessel Temperature for Pressurization, & Associated Bases
ML20072P6211994-08-26026 August 1994
Proposed TS 3/4.6.1.3, Primary Containment Air Locks, Allowing Continued Plant Operation If Interlock Becomes Inoperable as Long as Operable Door Locked Shut & Periodically Checked as Being Locked Shut
ML20071G2771994-07-0101 July 1994
Proposed Tech Specs Surveillance Requirements 4.6.5.1.c.1 & 4.6.5.1.c.2
ML20029D4001994-04-27027 April 1994
Proposed Tech Specs Re Drawdown Time Testing & Inleakage Testing for Secondary Containment Integrity
ML20058N3491993-12-14014 December 1993
Proposed Tech Specs 3/4.8.2, DC Sources, 3/4.8.4, Electrical Equipment Protective Devices & Bases for 3/4.6.3, Primary Containment Isolation Valves
ML20056G9391993-09-0202 September 1993
Proposed Tech Specs Section 3/4.1.3.5, CR Scram Accumulators
ML20056G1951993-08-27027 August 1993
Proposed Tech Specs,Revising TS 4.8.1.1.2.e, AC Sources - Operating & Adding TS 4.8.1.1.2.f
ML20044G6261993-05-26026 May 1993
TS Section 6.8 Re Review & Approval Process for Procedure Changes
ML20044F7421993-05-21021 May 1993
Proposed Tech Specs Pages 2-3,3/4 2-2,3/4 3-60,3/4 3-62, 3/4 3-63,3/4 3-64,3/4 3-65 & 6-22 & Bases Page B3/4 2-1
ML20044F3041993-05-19019 May 1993
Proposed Tech Specs Sections 3.4.3.1 & 3.4.3.2 Re Generic Ltr 88-01,drywell Leak Detection Requirements
ML17058B7751993-05-14014 May 1993
Proposed Tech Specs,Reflecting Editorial Changes, Administrative Corrections & Retyping of TS
ML17056C3281993-03-29029 March 1993
Proposed TS Pages 139 & 140 Re LCO SR for Type a & Local Leak Rate Type B & C Tests
ML20012G5441993-02-27027 February 1993
Proposed TS Sections 1.0, Definitions & 3/4.3.6, Control Rod Block Instrumentation.
ML17056C2741993-02-18018 February 1993
Proposed TS Table 3.2.7 Re RCS Isolation Valves,Table 3.2.7.1 Re Primary Coolant Sys Pressure Isolation Valves & Table 3.3.4 Re Primary Containment Isolation Valves,Lines Entering Free Space of Containment
ML17056C2571993-02-12012 February 1993
Proposed,Revised TS Pages 204,204a,207,225a & 230 to Clarify Operator Actions in Event of Loss of Two Instrument Channels
ML20126H9941992-12-30030 December 1992
Proposed Tech Specs 3.4.3.1 & 3.4.3.2 Re RCS Leakage Detection Sys & Operational Leakage to Conform W/ Recommendations of Generic Ltr 88-01
1999-09-30
[Table view]
Category:TECHNICAL SPECIFICATIONS & TEST REPORTS
MONTHYEARML17059C7911999-09-30030 September 1999
Proposed Tech Specs Re Rev B to Conversion of Unit 2 Current TS to ITS
ML20211P5931999-09-10010 September 1999
Marked-up Tech Specs Pages Reflecting Conforming Administrative License Amend Associated with Proposed Transfer of Facilities to Amergen Energy Co,Llc
ML20211H2231999-08-26026 August 1999
Proposed Tech Specs,Supporting Implementation of Noble Metal Chemical by Raising Reactor Water Conductivity Limit in TSs 3.2.3.a,3.2.3.c.1 & 3.2.3.b
ML18041A0731999-07-27027 July 1999
Rev 1 to NMP2-ISI-006, Second Ten Year Interval Inservice Insp Program Plan for Nine Mile Point Nuclear Power Station Unit 2.
ML20206P2661998-12-30030 December 1998
Proposed Tech Specs Making Application of Emergency Condenser Vent Ng Activity Monitor Channel Operability Requirement & Daily Sensor Check SR Consistent with Conditions Stated in LCO 3.1.3.a Re Emergency Cooling Sys
ML20197K1041998-12-0404 December 1998
Revised Proposed TS Bases Reflecting Previous Removal of Condenser Low Vacuum Scram Function from TS as Well as Plant Design & Changes to EDG Ratings,Design Basis Load Limits & Loading Profiles
ML20196H0671998-11-30030 November 1998
Proposed Tech Specs,Correcting LCO & Associated Bases for TS Section 3.1.2, Liquid Poison Sys, That Had Been Incorporated Into TS as Part of NMP Unit 1 TS Amend 101
ML20196D2081998-11-24024 November 1998
Proposed Tech Specs B 2.1.1, Fuel Cladding - Safety Limit, B 3.2.5 & 4.2.5, Reactor Coolant Sys Leakage Rate
ML20154R1101998-10-16016 October 1998
Proposed Ts,Revising LCO 3.7.1.1 & Associated Actions & SRs to Provide Assurance That Four SW Pumps Are Operable & Are Operating within Acceptable Sys Parameters,With Divisional Cross Connect Valves Open
ML20217N7911998-04-24024 April 1998
Revised Pages 2-1,3/4 4-1 & B2-1 to Replace Previously Submitted Pages Contained within Attachment a of 971215 Proposed Change to TS to License NPF-49
ML20202G3751998-02-0505 February 1998
Proposed Tech Specs Pages,Reflecting References to 10CFR50.55a(f) & (G) as Well as Terminology Used in Second Ten Year Isi/Ist,Beginning on 980405
ML20197H3371997-12-15015 December 1997
Proposed Tech Specs Revising SLMCPR from 1.07 to 1.09 for Two Recirculation Loop Operation & from 1.08 to 1.10 for Single Loop Operation
ML20211M5231997-10-0707 October 1997
Proposed Tech Specs Section 4.9.6,reflecting New Setpoints Due to Difference in Weights of Two Existing Triangular Refueling Platform Masts
ML20217G9011997-07-31031 July 1997
Proposed Tech Specs Changing Wording in Action 36 of TS Table 3.3.3-1, Emergency Core Cooling Sys Actuation Instrumentation
ML20148A7751997-04-30030 April 1997
Proposed Change to Tech Specs,Removing Section 3.3.7.3 & Associated Surveillance Section 4.3.7.3,associated Tables 3.3.7.3-1 & 4.3.7.3-1,Bases Section 3.4.3.7.3 & Revising Section 0.0 (Index) Pages VII & Xvii
ML17059B2911996-09-0404 September 1996
NMP Nine Mile Point Nuclear Station Unit 2,Pump & Valve First Ten-Yr Inservice Testing Program Plan.
ML20116D8121996-07-26026 July 1996
Proposed Tech Specs Re Option B of App J to 10CFR50
ML20115H1521996-07-12012 July 1996
Proposed Tech Specs Section 6.2.2.i Re App a
ML20117F9501996-05-15015 May 1996
Proposed Tech Specs Section 3/4.3.2 Re Isolation Actuation Instrumentation
ML20101F4281996-03-20020 March 1996
Proposed TS 3/4.3.1 Re RPS Instrumentation,Deleting Operability Requirements for APRM Neutron flux-upscale, Setdown & Inoperative Functions in Operational Conditions (Oc) 3 & 4 & Modifying Operability Requirements in Oc 5
ML20101D7551996-03-15015 March 1996
Proposed Tech Specs Section 4.6.2 Re Depressurization Sys - Suppression Pool
ML20097D2391996-02-0707 February 1996
Proposed Tech Specs Re Administrative Controls
ML20100C1021996-01-25025 January 1996
Proposed Tech Specs Table 3.3.3-1 Re Emergency Core Cooling Sys Actuation Instrumentation
ML20096G8401996-01-17017 January 1996
Proposed Tech Specs,Representing Revs to Specs 3/4.3.1, 3/4.3.2,3/4.3.3,3/4.3.4.2 & Associated Bases to Relocate Response Time Limit Tables from TSs to Plant USAR
ML20094B5421995-10-25025 October 1995
Proposed Tech Specs Re Position Title Changes & Reassignments of Responsibilities at Upper Mgt Level
ML20091Q9571995-08-28028 August 1995
Proposed TS 3.6.1.7,increasing Time 12-inch & 14-inch Containment Purge Sys Supply & Exhaust Valves May Be Open in Operational Condition 1,2 & 3 from 90 H Per 365 Days to 135 H Per 365 Days & Deleting Expired Footnotes for Clarity
ML20081E2491995-03-0909 March 1995
Proposed Tech Specs,Revising SR 4.6.1.2.a,allowing Second Primary Containment ILRT (Type a) to Be Performed at Refueling Outage 5 or 72 Months After First Type a Test
ML17059B0221995-02-15015 February 1995
Rev 0 to UT-NMP-311V0, Procedure for Manual Ultrasonic Exam of Nozzles Inner Radius & Bore.
ML17059B0211995-02-10010 February 1995
Rev 0 to UT-NMP-309V0, Procedure for Manual Ultrasonic Exam of Planar Flaw Sizing for Nozzle Inner Radius & Bore Regions.
ML17059B0201995-02-10010 February 1995
Rev 0 to UT-NMP-703V0, Procedure for Geris 2000 Ultrasonic Exam of RPV Nozzle Inner Radius & Bore Regions.
ML17059A8881995-01-18018 January 1995
Rev 0 to Field Disposition Instruction 0245-90800, Shroud.
ML20077N1591995-01-0606 January 1995
Proposed Tech Specs Re Min Gallons of Fuel Oil Required in Day Tanks & Storage Tanks
ML20077N2071995-01-0606 January 1995
Proposed Tech Specs Re Deletion of Certain Instruments Not Classified as Category 1
ML20078Q9241994-12-13013 December 1994
Proposed Tech Specs Re Change to Table 3.6.1.2-1 That Will Allow Maximum Leakage of 24.0 Scfh for Each of Eight MSIVs
ML20077E1561994-12-0202 December 1994
Proposed TS Page 3/4 1-20,reflecting Rev of SLCS Relief Valve Setpoint to Show Influence of Back Pressure & Rev of Bases Page B3/4 5-2 to Show That Hpsc Sys Designed to Supply 517 Gpm Flow Rate at 1,200 (Instead of 1,175) Psid
ML20078J3781994-11-14014 November 1994
Proposed Tech Specs Reducing Leak Rate Test Pressure for Safety Related ADS Nitrogen Receiving Tanks from 385 Psig to 365 Psig
ML17059A5661994-11-0909 November 1994
Rev 2 to Emergency Plan Maint Procedure EPMP-EPP-08, Maint, Testing & Operation of Oswego County Prompt Notification Sys.
ML20078E0331994-10-28028 October 1994
Proposed Tech Specs 1.0, Definitions, 3/4.3.2, Isolation Actuation Instrumentation & 3/4.9.3, Control Rod Position
ML20078B9841994-10-21021 October 1994
Proposed Tech Specs SR 4.8.1.1.2.e.8,reflecting Addition of Footnote Re 24 H Functional Test of DGs
ML20073L8781994-10-0505 October 1994
Proposed TS Table 3.3.7.1-1 Re Radiation Monitoring Instrumentation
ML20072U3491994-09-0202 September 1994
Proposed Tech Specs Re 18 Month Operability Test of Svc Water Pumps Sys & Resistance Test of Intake Deicing Heater Sys
ML17059A4471994-09-0101 September 1994
Proposed Tech Specs Section 3.2.2, Minimum Reactor Vessel Temperature for Pressurization, & Associated Bases
ML20072P6211994-08-26026 August 1994
Proposed TS 3/4.6.1.3, Primary Containment Air Locks, Allowing Continued Plant Operation If Interlock Becomes Inoperable as Long as Operable Door Locked Shut & Periodically Checked as Being Locked Shut
ML17059A4241994-07-0606 July 1994
Rev 14 to Nine Mile Point Nuclear Station Unit 1 Odcm.
ML20071G2771994-07-0101 July 1994
Proposed Tech Specs Surveillance Requirements 4.6.5.1.c.1 & 4.6.5.1.c.2
ML20029D4001994-04-27027 April 1994
Proposed Tech Specs Re Drawdown Time Testing & Inleakage Testing for Secondary Containment Integrity
ML18040A2941993-12-17017 December 1993
Rev 13 to Nine Mile Point Nuclear Station Unit 1 Odcm.
ML20058N3491993-12-14014 December 1993
Proposed Tech Specs 3/4.8.2, DC Sources, 3/4.8.4, Electrical Equipment Protective Devices & Bases for 3/4.6.3, Primary Containment Isolation Valves
ML17059A0971993-10-25025 October 1993
Rev 4 to NMP2-IST-001,NMP,Nine Mile Point Nuclear Station, Unit 2,Pump & Valve First Ten-Yr Inservice Testing Program Plan.
ML20056G9391993-09-0202 September 1993
Proposed Tech Specs Section 3/4.1.3.5, CR Scram Accumulators
1999-09-30
[Table view] |
Text
'
EMERGENCY CORFmCOOLING SYSTEMS l 1
ECCS - OPER ATING i
)
SURVEILLANCE REQUIREMENTS 4.5.1 (Continued) e) Performing a leak rate toct for the safety related ADS accumulator pneumatic supply system (including special emergency tube trailer supply piping) up to SRV actuators / operators. With the SRV's actuated by either of the ADS solenoids and with ADS accumulators at 178 psig and with ADS nitrogen receiving tanks at 365 psig (high pressure alarm), the leakage rates j shall not exceed the following limits:
- 1. For the ADS SRV actuators, supply header and accumulators, and the nitrogen receiving tank for the SRV's 2 MSS *PSV 121,126 & 127, maximum allowable leakage is 3 SCFH.
- 2. For the ADS SRV actuators, supply header and accumulators, and the nitrogen receiving tank for the SRV's 2 MSS *PSV 129,130,134,&
137, maximum allowable leakage is 4 SCFH.
1 I
i l
l NINE MILE POINT - UNIT ? 3/4 5-6 Amendment No.
9411210184 941114 PDR ADOCK 05000410 p PDR
s ATTACHMENT B NIAGARA MOHAWK POWER CORPORATION LICENSE NO. NPF-69 DOCKET NO. 50-410 l Snecific Information and No Stanificant Hazards Consideration Analysig _
BACKGROUND The Nine Mile Point Unit 2 (NMP2) Automatic Depressurization System (ADS) is designed to provide automatic depressurization of the reactor vessel by activating seven (7) safety /
relief valves (SRV). These valves vent steam from the reactor vessel to the suppression pool in the event the High Pressure Core Spray System (HPCS) cannot maintain reactor ;
water level following a loss of coolant accident. The ADS reduces reactor pressure so that flow from the Low Pressure Core Spray System (LPCS) and the low pressure coolant injection (LPCI) mode of the Residual Heat Removal System (RHR) can inject to and cool l the core. This limits fuel cladding temperature during small break loss of coolant I accidents. in the ADS mode, each of the ADS SRVs is opened by compressed nitrogen l from its respective accumulator (located in Primary Containment) via a solenoid valve. The )
accumulators are supplied from two nitrogen receiving tanks (located inside Secondary Containment) which are supplied from a bank of high-pressure nitrogen storage tanks located outside of the Reactor Building. The ADS receiving tanks provide an inventory of nitrogen to make up for system leakage and maintain the accumulators charged for five days after initial actuation of the ADS. The nitrogen receiving tanks also provide for one additional sustained SRV actuation during the five days. This five day capability is maintained without taking credit for any makeup from the high pressure nitrogen storage tanks.
In order to maintain a sufficient inventory, the initial pressure of the nitrogen receiver tanks must be at least 334 psig and the leakage for receiving tanks 2lAS *TK4 (supplies 3 ADS SRVs) and 2lAS*TK5 (supplies 4 ADS SRVs) must be less than or equal to 3 SCFH and 4 SCFH, respectively. The ability of the nitrogen receiving tanks to perform their design function is currently verified by Surveillance Requirement 4.5.1.e.2.e), which requires leak rate testing at 385 psig. This pressure corresponds to the highest pressure that can occur in the nitrogen receiving tank without the knowledge of the operator (via the high pressure alarm) and is based upon the high pressure alarm setpoint of 380 psig plus 5 psig for instrument inaccuracies. As designed, the high pressure alarm was intended to alert the operator of an impending overpressure condition and relief valve lift. However, the system was modified to install a rupture disk in series with and upstream of the relief valve. The modification allowed for a constant leak tightness of the system as pressure approached the lift pressure of the relief valve.
Previous surveillance tests have caused several rupture disks to burst at pressures below the manufacturer's stated burst pressure. These disk failures have added to the outage work scope because the disks required replacement and retesting. After consultation with the manufacturer, it was determined that the rupture disks should not be operated at pressures in excess of 367 psig for the rupture disks installed on the nitrogen receiving Page 1 of 4
1 l
I l
4 i
i tanks. At pressures approaching the burst pressure, plastic deformation occurs that can
, reduce the burst pressure of the rupture disk. By reducing the high pressure alarm i setpoint to 360 psig, the highest pressure that can occur in the nitrogen receiving tank l without the operators' knowledge is 365 psig. 1 DESCRIPTION OF PROPOSED CHANGE Current SURVEILLANCE REQUIREMENT 4.5.1.e.2.e) e) Performing a leak rate test for the safety related ADS accumulator pneumatic supply system (including special emergency tube trailer supply piping) up to SRV actuators / operators. With the SRV's actuated by either of the ADS solenoids and with ADS accumulators at 178 psig and with ADS nitrogen receiving tanks at 385 psig (high pressure alarm), the leakage rates shall not exceed the following limits:
Proposed SURVEILLANCE REQUIREMENT 4.5.1.e.2.e) l l
e) Performing a leak rate test for the safety related ADS accumulator l pneumatic supply system (including special emergency tube trailer supply l piping) up to SRV actuators / operators. With the SRV's actuated by either of the ADS solenoids and with ADS accumulators at 178 psig and with ADS nitrogen receiving tanks at 365 psig (high pressure alarm), the leakage rates i shallnot exceed the following limits:
I EVALUATION 1
The proposed change from 385 psig to 365 psig is needed to prevent potential degradation of the rupture disk located on each ADS nitrogen receiving tank during performance of the surveillance requirement. The lower end of the operating pressure band is 340 psig and is determined by the minimum design pressure of 334 psig plus the 5 psig instrument inaccuracy. In order to maintain a reasonable operating pressure band of 20 psig, the upper end of the operating pressure band is 360 psig. The manufacturer's recommended maximum operating pre.ssure for the rupture disks is 360 psig. With the nitrogen receiving tank high pressure alarm set at 360 psig, the maximum pressure that can occur in the tank without the operators' knowledge is 365 psig (due to instrument inaccuracies). The manufacturer was consulted concerning the 365 psig test pressures and concurred that it was within the tolerance of the rupture disk operating pressure after instrument conservatisms were removed (367 psig maximum). To maintain consistency with the current Surveillance Requirement, the proposed test pressure is 365 psig and corresponds to the new maximum value for the high pressure alarm setpoint.
The proposed test pressure of 365 psig is well above the design minimum nitrogen receiving tank pressure of 334 psig and bounds the upper end of the operating pressure range. Therefore, the surveillance leakage test will continue to verify the ability of the receiving tanks to perform their design function by verifying the ADS accumulator pneumatic supply system actualleakage is bounded by the calculated leakage. The 365 Page 2 of 4
psig test pressure will also prevent approaching the rupture disk burst pressure and
. prevent disk degradation. In addition, the proposed change to the leak test pressure still satisfies the requirements of TMI Issue ll.K.3.28.
CONCLUSION The ADS is required to effect or support the safe shutdown of the reactor. This is accomplished by the blowdown of steam from a group of seven designated ADS SRVs to the suppression poof. The operation of the ADS SRVs,in conjunction with the LPCI mode of RHR and/or the LPCS System, functions as an alternative to the HPCS for protection against fuel cladding damage during a small break loss-of-coolant accident. The blowdown of steam by these SRVs depressurizes the reactor allowing injection by the low-pressure makeup sources.
In the event the nitrogen gas supply from the high pressure nitrogen gas storage tanks is lost, a minimum nitrogen pressure of 334 psig in the ADS nitrogen receiver tanks assures a five-day supply of nitrogen to the ADS accumulators, The proposed change to Surveillance Requirement 4.5.1.e.2.e) would decrease the leak rate test pressure of the ADS nitrog;n receiver tanks from 385 psig to 365 psig. The proposed test pressure remains well above the design minimum pressure of 334 psig and bounds the upper end of the operating pressure band. Therefore, the surveillance test continues to ensure that the actualleakage of the safety related ADS accumulator pneumatic supply system is bounded by the leakage assumptions contained in the system design. In addition, the surveillance test continues to ensure that the ADS nitrogen receiver tanks are capable of providing a five-day supply of nitrogen to the ADS accumulators.
The effect of the proposed change has been evaluated and found to have no impact on system reliability or performance. Based upon these considerations, there is reasonable assurance that the health and safety of the public will not be endangered by operation in the proposed manner. Issuance of the proposed amendment is consistent with the common defense and security.
NO SIGNIFICANT HAZARDS C_QNSIDERATION ANALYSIS 10 CFR 50.91 requires that at the time a licensee requests an amendment,it must provide to the Commission its analysis, using the standards in Section 50.92 about the issue of no significant hazards consideration. Therefore,in accordance with 10 CFR 50.91 and 10 CFR 50.92, the following analysis has been performed:
Ihe coeration of Nine Mile Point Unit 2. In accordance with the oronosed umendment, will not involve a slanificant increase in the gobability or conseopences of an accident geviousiv ev_pluated.
The ADS is required to effect or support the safe shutdown of the reactor. This is accomplished by the blowdown of steam from a group of seven designated ADS SRVs to the suppression pool. The proposed change to the test pressure does not affect any accident precursors. Therefore, the proposed change cannot increase the probability of an accident previously evaluated.
Page 3 of 4
In the event the nitrogen gas supply from the nitrogen gas storage tanks is lost, a
. minimum' nitrogen pressure of 334 psig in the ADS nitrogen receiver tanks assures a five-day supply of nitrogen to the ADS accumulators. The proposed change to Surveillance Requirement 4.5.1.e.2.e) would decrease the leak rate test pressure of the ADS nitrogen receiver tanks from 385 psig to 365 psig. Since the proposed test pressure remains well above the design minimum pressure of 334 psig, the surveillance test continues to ensure that the actualleakage of the safety related ADS accumulator pneumatic supply system is bounded by the leakage assumptions contained in the system design. In addition, the surveillance test continues to ensure that the ADS nitrogen receiver tanks are capable of providing a 5-day supply of nitrogen to the ADS accumulators. Therefore, the proposed change does not significantly increase the consequences of a previously evaluated accident.
Ihe coeration of Nine ' Mile Point Unit 2, in accordance with the orocosed amendment, will nqt create the oossibility of a new or different kind of accident from any accident oreviousiv evaluated. -
The proposed leak rate test pressure of 365 psig for the ADS nitrogen receiver tanks is above the minimum design pressure to assure a 5-day supply of nitrogen is available to the ADS accumulators if makeup from the high pressure nitrogen gas storage tanks is lost.
With the proposed change, the ADS will continue to perform its safety function of effecting and supporting the safe shutdown of the reactor. The nitrogen receiving tank test pressure is not a precursor for any new or different accident and the change does not offect the operation of the system in any way.
Accordingly, the proposed change does not create the possibility of a new or different kind of accident from any accident previously evaluated, r
l Ihg ooeration of Nine Mile Point Unit 2, in accordance with the orooosed amendment, will !
Dat involve a sianificant reduction in a marain of safety.
l The operation of the ADS SRVs,in conjunction with the LPCI mode of RHR and/or the ;
- LPCS system, functions as an alternative to the HPCS for protection against fuel cladding l
- damage upon a small break loss-of-coolant accident. The blowdown of steam by these l SRVs depressurizes the reactor, allowing injection by the low-pressure coolant injection j sources. With the proposed change, the ADS will continue to perform its intended safety 4
function of effecting and supporting the safe shutdown of the reactor as an alternate to i the HPCS. The proposed test pressure of 365 psig remains well above the minimum acceptable pressure for the nitrogen receiver tanks of 334 psig. Therefore, the change will not involve a significant reduction in the margin of safety.
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