|
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Category:TECHNICAL SPECIFICATIONS
MONTHYEARML20217K9011999-10-18018 October 1999
Proposed Tech Specs 3.6.2.2 Loc,Allowing Plant to Operate with Two Independent Trains of Containment Cooling, Consisting of One Fan Cooler Per Train,Operable During Modes 1,2,3 & 4
ML20211F3701999-08-24024 August 1999
Proposed Tech Specs,Revising Efas,Originally Submitted on 980702 as TS Change Request NPF-38-207
ML20211F5501999-08-24024 August 1999
Proposed Tech Specs Page Xviii, Index Administrative Controls, Originally Submitted with TS Change Request NPF-38-220
ML20210M9681999-08-0404 August 1999
Existing & Proposed marked-up TS Pages Modifying TS 3.5.2 by Extending AOT to Seven Days for One LPSI Train Inoperable & AOT of 72 Hours Imposed for Other Conditions
ML20210M9861999-08-0404 August 1999
Existing & Proposed TS Pages Modifying TS 3.5.2 by Extending AOT to Seven Days for One HPSI Train Inoperable & TS 3.5.3, Changing end-state to Hot Shutdown with at Least One Operable Shutdown
ML20210H2371999-07-29029 July 1999
Proposed Tech Specs 3.6.2.1 Extending Allowable Outage Time to Seven Days for One Containment Spray Sys Train Inoperable
ML20210H1771999-07-29029 July 1999
Proposed Tech Specs 3.8.1.1 Re EDG AOT Increase from 72 H to Ten Days
ML20210B3411999-07-19019 July 1999
Proposed Tech Specs 4.5.2.f.2,increasing Performance Requirement for LPSI Pumps
ML20209H3191999-07-15015 July 1999
Proposed Tech Specs Pages Modifying TS 3/4.4.8.1,Figures 3.4-2 & 3.4-3 to Extend RCS Pressure Temperature Curves to 20 EFPY
ML20210D0521999-07-15015 July 1999
Proposed Tech Specs Creating New TS for Feedwater Isolation Valves
ML20210D1071999-07-15015 July 1999
Proposed Tech Specs Adding TS Bases Control Program to TS Administrative Controls Section & Correcting Editorial Error Identified in TS Following Issuance of Amend 146,dtd 981019
ML20209D4091999-07-0707 July 1999
Proposed Tech Specs,Revising Actions 19 & 20 for Table 3.3-3 for Functional Unit 7 Emergency Feedwater, Items B & C,Per 980702 TS Change Request NPF-38-207
ML20195B1811999-05-20020 May 1999
Proposed Tech Specs Changes to Bases B 3/4.3.1 & 3/4.3.2, B 3/4.6.3,B 3/4.7.1.2 & B 3/4.7.12
ML20203C4891999-02-0505 February 1999
Proposed Revised Tech Specs Pages 3/4 3-12a & B 3/4 3-1a Re Reactor Trip Circuit Breaker Surveillance Interval Extension
ML20199E0861999-01-12012 January 1999
Proposed Tech Specs Re Rev 1 for TS Change Request NPF-38-174
ML20199D9851999-01-12012 January 1999
Proposed Tech Specs,Adding Requirement That CR Intake Monitors Be Operable & SRs Be Applicable During Movement of Irradiated Fuel
ML20198G2401998-12-23023 December 1998
Proposed Tech Specs,Modifying LCO for 3.3.3.7.1 for Chlorine Detection Sys by Changing Alarm/Trip Setpoint from 3 Ppm to 2 Ppm
ML20196D2181998-11-30030 November 1998
Proposed Tech Specs Pages 3/4 8-8,3/4 9-8,3/4 9-9 & B 3/4 9-2,revised for Consistency Between Action Statements & NUREG-1432,Rev 1, Std Tech Specs for CE Plants
ML20154E4171998-10-0606 October 1998
Proposed Tech Specs Pages Re TS Change Request NPF-38-212, Modifying Requirement to Perform Mtc Test Near End of Each Cycle
ML20154E1141998-10-0101 October 1998
Proposed Tech Specs Modifying TS 3.3.3.7.3 & SR 4.3.3.7.3 for Broad Range Gas Sys
ML20153D5771998-09-23023 September 1998
Proposed Tech Specs Revising Description Re Reactor Power Input Used by Operating Bypass Permissive & Trip Enable of 10-4% Bistable
ML20153B4441998-09-18018 September 1998
Proposed Tech Specs Modifying Notes in Tables 2.2-1 & 3.3-1 Re Reactor Protective Instrumentation
ML20151W5971998-09-11011 September 1998
Proposed Tech Specs Re Notes in Table 2.2-1 Re Reactor Protective Instrumentation Trip Setpoints Limits & Table 3.3-1 Re Reactor Protective Instrumentation
ML20237A7921998-08-12012 August 1998
Proposed Tech Specs,Increasing Max Boron Concentration in SITs & Rwsp from 2300 Ppm to 2900 Ppm
ML20236U7361998-07-29029 July 1998
Proposed Tech Specs Pages Revising TS 6.9.1.11.1 to Replace Ref to Abb Combustion Engineering SBLOCA ECCS Performance Evaluation Model
ML20236H1501998-07-0202 July 1998
Proposed Tech Specs Section 3/4.3.2,adding Restriction on Period of Time Channel of Efas Instrumentation Can Remain in Tripped Condition
ML20249C8321998-06-29029 June 1998
Proposed Tech Specs 3.7.6.1,3.7.6.2,3.7.6.3,3.7.6.4 & 3.7.6.5,revising Control Room Ventilation to Be Consistent w/NUREG-1432
ML20249C7901998-06-29029 June 1998
Proposed Tech Specs Adding Footnote to Action Statements to Allow CR Ventilation Sys to Be Unisolated Periodically Under Administrative Controls
ML20249A3101998-06-12012 June 1998
Proposed Tech Specs Pages,Adding Footnote to TS Refueling Operations,Surveillance Requirements 4.9.7.2,to Effect Limited Deviation to Allow Crane Main Hook Electrical Interlocks to Be Replaced W/Administrative Controls
ML20248B7611998-05-28028 May 1998
Proposed TS Pages Supporting Change to TS 3.7.1.2, Surveillance Requirement 4.7.1.2 & Bases for Emergency Feedwater Sys
ML20247P2431998-05-21021 May 1998
Proposed Tech Specs Re Design Feature Suppl
ML20217P8411998-05-0101 May 1998
Rev TS Pages Changing Actions Required Should Channel of Recirculation Actuation Signal (RAS) Be Placed in Tripped Condition,Replacing TS Pages Submitted in 970603 Submittal
ML20217D5181998-03-25025 March 1998
Proposed TS 3.9.8.1,3.9.8.2,TS Action 3.9.8.2a,3.8.1.2 & Bases 3/4.9.8
ML20198R1251998-01-21021 January 1998
Corrections to Proposed Tech Spec 3/4.1 Re Reactivity Control Sys
ML20198R3081998-01-21021 January 1998
Errata to Proposed TS Change Request NPF-38-196 Which Changed TS 3.1.1.1,3.1.1.2,3.10.1 & Figure 3.1.-1 by Removing Cycle Dependent B Concentration & Boration Flow Rate from Action Statements
ML20197C6431997-12-22022 December 1997
Proposed Tech Specs Page Supplementing TS Change Request NPF-38-186,by Retaining Operations Superintendent in Paragraph 6.2.2.f of Administrative Controls Section
ML20199A1101997-11-13013 November 1997
Proposed Tech Specs,Modifying 6.8.4.a, Primary Coolant Sources Outside Containment to Add Portions of Containment Vacuum Relief Sys & Primary Sampling Sys to Program
ML20199A0011997-11-13013 November 1997
Errata to Proposed Tech Specs Change Request NPF-38-193, Replacing Pages 13 Through 21
ML20217G2421997-10-0707 October 1997
Proposed Tech Specs Modifying 3.3.3.7.3 & Surveillance Requirement 4.3.3.7.3 for Broad Range Gas Detection Sys
ML20211F8141997-09-25025 September 1997
Proposed Tech Specs Pages Modifying LCO 3.6.1.2, Containment Leakage, Associated Action & SR 4.6.1.2
ML20141G7131997-07-0707 July 1997
Proposed Tech Specs Expanding Applicability of TS 3.7.1.3 to Include Mode 4 Operational Requirements & Maintains 91 Percent Minimum Condensate Storage Pool Level Previously Requested for Modes 1,2 & 3
ML20141D8551997-06-26026 June 1997
Proposed Tech Specs Revising TS Tables 3.7-1 & 3.7-2 by Changing MSSVs Orifice Size from 26 Inches to 28.27 Inches & Relocating Orifice Size from TS to TS Bases
ML20140B1671997-06-0303 June 1997
Proposed Tech Specs,Modifying Action Requirements for TS 3/4.3.2 for SI Sys Sump Recirculation Actuation Signal
ML20148G6631997-06-0303 June 1997
Proposed Tech Specs,Requesting Minimum Required Level in Condensate Storage Pool Be Increased from 82% to 91% to Account for Vortexing & Instrumentation Measurement Uncertainties
ML20141K1741997-05-24024 May 1997
Proposed Tech Specs 3.1.1.1,3.1.1.2,3.10.1 & Figure 3.1-1, Removing Cycle Dependent Boron Concentration
ML20141K1951997-05-24024 May 1997
Proposed Tech Specs 3/4.7.4 Modifying Ultimate Heat Sink, Table 3.7-3,by Incorporating More Restrictive Dry Cooling Tower Fan Requirements & Changes Wet Cooling Tower Water Consumption in TS Bases
ML20140H0831997-05-0606 May 1997
Proposed Tech Specs Modifying Wording of SR 4.5.2.j by Replacing Venting ECCS Pump Casings & Discharge Piping High Points, with Verifying ECCS Piping Is Full of Water
ML20140C8881997-04-17017 April 1997
Proposed Tech Specs,Replacing Attachment to Waterford 3 Submittal W3F1-97-0067,dtd 970407,correcting Oversight
ML20137T4051997-04-11011 April 1997
Proposed Tech Specs,Modifying TS 3.3.3.7.3 & SR 4.3.3.7.3 for Broad Range Gas Detection Sys
ML20137T4541997-04-11011 April 1997
Proposed Tech Specs Making TS 3.6.2.2 & Surveillance Requirement 4.6.2.2 Consistent W/Containment Cooling Assumptions in Waterford 3 Containment Analysis
1999-08-04
[Table view]
Category:TECHNICAL SPECIFICATIONS & TEST REPORTS
MONTHYEARML20217K9011999-10-18018 October 1999
Proposed Tech Specs 3.6.2.2 Loc,Allowing Plant to Operate with Two Independent Trains of Containment Cooling, Consisting of One Fan Cooler Per Train,Operable During Modes 1,2,3 & 4
ML20211F5501999-08-24024 August 1999
Proposed Tech Specs Page Xviii, Index Administrative Controls, Originally Submitted with TS Change Request NPF-38-220
ML20211F3701999-08-24024 August 1999
Proposed Tech Specs,Revising Efas,Originally Submitted on 980702 as TS Change Request NPF-38-207
ML20210M9681999-08-0404 August 1999
Existing & Proposed marked-up TS Pages Modifying TS 3.5.2 by Extending AOT to Seven Days for One LPSI Train Inoperable & AOT of 72 Hours Imposed for Other Conditions
ML20210M9861999-08-0404 August 1999
Existing & Proposed TS Pages Modifying TS 3.5.2 by Extending AOT to Seven Days for One HPSI Train Inoperable & TS 3.5.3, Changing end-state to Hot Shutdown with at Least One Operable Shutdown
ML20210H1771999-07-29029 July 1999
Proposed Tech Specs 3.8.1.1 Re EDG AOT Increase from 72 H to Ten Days
ML20210H2371999-07-29029 July 1999
Proposed Tech Specs 3.6.2.1 Extending Allowable Outage Time to Seven Days for One Containment Spray Sys Train Inoperable
ML20210B3411999-07-19019 July 1999
Proposed Tech Specs 4.5.2.f.2,increasing Performance Requirement for LPSI Pumps
ML20210D0521999-07-15015 July 1999
Proposed Tech Specs Creating New TS for Feedwater Isolation Valves
ML20210D1071999-07-15015 July 1999
Proposed Tech Specs Adding TS Bases Control Program to TS Administrative Controls Section & Correcting Editorial Error Identified in TS Following Issuance of Amend 146,dtd 981019
ML20209H3191999-07-15015 July 1999
Proposed Tech Specs Pages Modifying TS 3/4.4.8.1,Figures 3.4-2 & 3.4-3 to Extend RCS Pressure Temperature Curves to 20 EFPY
ML20209D4091999-07-0707 July 1999
Proposed Tech Specs,Revising Actions 19 & 20 for Table 3.3-3 for Functional Unit 7 Emergency Feedwater, Items B & C,Per 980702 TS Change Request NPF-38-207
ML20196E9971999-05-24024 May 1999
Rev 3 to NTP-203, Emergency Plan Training
ML20195B1811999-05-20020 May 1999
Proposed Tech Specs Changes to Bases B 3/4.3.1 & 3/4.3.2, B 3/4.6.3,B 3/4.7.1.2 & B 3/4.7.12
ML20204H2591999-03-16016 March 1999
Rev 0 to STD-100-237, Procedure for Modification of RCS Pressure Boundary for Installation of Mechanical Nozzle Seal Assemblies (Mnsa) for Waterford Nuclear Generating Station Unit 3
ML20204H2511999-03-16016 March 1999
Rev 1 to C-NOME-EP-0189, Engineering Procedure for Installation of Mechanical Nozzle Seal Assemblies for Waterford 3
ML20203C4891999-02-0505 February 1999
Proposed Revised Tech Specs Pages 3/4 3-12a & B 3/4 3-1a Re Reactor Trip Circuit Breaker Surveillance Interval Extension
ML20199D9851999-01-12012 January 1999
Proposed Tech Specs,Adding Requirement That CR Intake Monitors Be Operable & SRs Be Applicable During Movement of Irradiated Fuel
ML20199E0861999-01-12012 January 1999
Proposed Tech Specs Re Rev 1 for TS Change Request NPF-38-174
ML20198G2401998-12-23023 December 1998
Proposed Tech Specs,Modifying LCO for 3.3.3.7.1 for Chlorine Detection Sys by Changing Alarm/Trip Setpoint from 3 Ppm to 2 Ppm
ML20196D2181998-11-30030 November 1998
Proposed Tech Specs Pages 3/4 8-8,3/4 9-8,3/4 9-9 & B 3/4 9-2,revised for Consistency Between Action Statements & NUREG-1432,Rev 1, Std Tech Specs for CE Plants
ML20154E4171998-10-0606 October 1998
Proposed Tech Specs Pages Re TS Change Request NPF-38-212, Modifying Requirement to Perform Mtc Test Near End of Each Cycle
ML20154E1141998-10-0101 October 1998
Proposed Tech Specs Modifying TS 3.3.3.7.3 & SR 4.3.3.7.3 for Broad Range Gas Sys
ML20153D5771998-09-23023 September 1998
Proposed Tech Specs Revising Description Re Reactor Power Input Used by Operating Bypass Permissive & Trip Enable of 10-4% Bistable
ML20153B4441998-09-18018 September 1998
Proposed Tech Specs Modifying Notes in Tables 2.2-1 & 3.3-1 Re Reactor Protective Instrumentation
ML20151W5971998-09-11011 September 1998
Proposed Tech Specs Re Notes in Table 2.2-1 Re Reactor Protective Instrumentation Trip Setpoints Limits & Table 3.3-1 Re Reactor Protective Instrumentation
ML20237A7921998-08-12012 August 1998
Proposed Tech Specs,Increasing Max Boron Concentration in SITs & Rwsp from 2300 Ppm to 2900 Ppm
ML20236U7361998-07-29029 July 1998
Proposed Tech Specs Pages Revising TS 6.9.1.11.1 to Replace Ref to Abb Combustion Engineering SBLOCA ECCS Performance Evaluation Model
ML20236H1501998-07-0202 July 1998
Proposed Tech Specs Section 3/4.3.2,adding Restriction on Period of Time Channel of Efas Instrumentation Can Remain in Tripped Condition
ML20249C8321998-06-29029 June 1998
Proposed Tech Specs 3.7.6.1,3.7.6.2,3.7.6.3,3.7.6.4 & 3.7.6.5,revising Control Room Ventilation to Be Consistent w/NUREG-1432
ML20249C7901998-06-29029 June 1998
Proposed Tech Specs Adding Footnote to Action Statements to Allow CR Ventilation Sys to Be Unisolated Periodically Under Administrative Controls
ML20249A3101998-06-12012 June 1998
Proposed Tech Specs Pages,Adding Footnote to TS Refueling Operations,Surveillance Requirements 4.9.7.2,to Effect Limited Deviation to Allow Crane Main Hook Electrical Interlocks to Be Replaced W/Administrative Controls
ML20248B7611998-05-28028 May 1998
Proposed TS Pages Supporting Change to TS 3.7.1.2, Surveillance Requirement 4.7.1.2 & Bases for Emergency Feedwater Sys
ML20248H7871998-05-25025 May 1998
Rev 1 to Waterford Unit 3 Second Interval ISI Plan
ML20247P2431998-05-21021 May 1998
Proposed Tech Specs Re Design Feature Suppl
ML20217P8411998-05-0101 May 1998
Rev TS Pages Changing Actions Required Should Channel of Recirculation Actuation Signal (RAS) Be Placed in Tripped Condition,Replacing TS Pages Submitted in 970603 Submittal
ML20217L9971998-04-30030 April 1998
Small Break LOCA ECCS Performance Analysis Using Abb/Ce Suppl 2 Model
ML20217D5181998-03-25025 March 1998
Proposed TS 3.9.8.1,3.9.8.2,TS Action 3.9.8.2a,3.8.1.2 & Bases 3/4.9.8
ML20198R3081998-01-21021 January 1998
Errata to Proposed TS Change Request NPF-38-196 Which Changed TS 3.1.1.1,3.1.1.2,3.10.1 & Figure 3.1.-1 by Removing Cycle Dependent B Concentration & Boration Flow Rate from Action Statements
ML20198R1251998-01-21021 January 1998
Corrections to Proposed Tech Spec 3/4.1 Re Reactivity Control Sys
ML20197C6431997-12-22022 December 1997
Proposed Tech Specs Page Supplementing TS Change Request NPF-38-186,by Retaining Operations Superintendent in Paragraph 6.2.2.f of Administrative Controls Section
ML20202C2911997-12-0101 December 1997
Rev 0 to Pump & Valve Inservice Test Plan for Second 10-Yr Interval. Page 23 of Incoming Submittal Not Included
ML20199A0011997-11-13013 November 1997
Errata to Proposed Tech Specs Change Request NPF-38-193, Replacing Pages 13 Through 21
ML20199A1101997-11-13013 November 1997
Proposed Tech Specs,Modifying 6.8.4.a, Primary Coolant Sources Outside Containment to Add Portions of Containment Vacuum Relief Sys & Primary Sampling Sys to Program
ML20217M0221997-10-28028 October 1997
Rev 8 to RW-001-210, Process Control Program
ML20217H5931997-10-14014 October 1997
Revised Page of App B of FOL, Environ Protection Plan (Nonradiological)
ML20217G2421997-10-0707 October 1997
Proposed Tech Specs Modifying 3.3.3.7.3 & Surveillance Requirement 4.3.3.7.3 for Broad Range Gas Detection Sys
ML20211F8141997-09-25025 September 1997
Proposed Tech Specs Pages Modifying LCO 3.6.1.2, Containment Leakage, Associated Action & SR 4.6.1.2
ML20141G7131997-07-0707 July 1997
Proposed Tech Specs Expanding Applicability of TS 3.7.1.3 to Include Mode 4 Operational Requirements & Maintains 91 Percent Minimum Condensate Storage Pool Level Previously Requested for Modes 1,2 & 3
ML20141D8551997-06-26026 June 1997
Proposed Tech Specs Revising TS Tables 3.7-1 & 3.7-2 by Changing MSSVs Orifice Size from 26 Inches to 28.27 Inches & Relocating Orifice Size from TS to TS Bases
1999-08-04
[Table view] |
Text
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I NPF-38-172 l
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ATTACHMENT Revised Pages l
l 9612310154 961226 PDR ADOCK 05000382 P PDR ,
l ELECTRICAL POWER SYSTEM SURVEILLANCE REQUIREMENTS 2 4.8.1.1.1 Each of the above required independent circuits between the offsite transmission network and
- the onsite Class 1E distribution system shall be:
- a. Determined OPERABLE at least once per 7 days by verifying conrect breaker
- alignments, indicated power availability, and
< b. Demonstrated OPERABLE at least once per 18 months by transferring manually and 5 automatically unit power supply from the normal circuit to the attemate circuit.
? 4.8.1.1.2 Each diesel generator shall be demonstrated OPERABLE *:
i
) a. At least once per 31 days on a STAGGERED TEST BASIS by: l i 1. Verifying the fuel level in the diesel oil feed tank, i
- 2. Verifying the fuel level in the diesel generator fuel oil storage tank,
- 3. Verifying the fuel transfer pump can be started and transfers fuel from the storage system to the diesel oil feed tank, 1
i 4. Verifying the diesel starts **. The generator voltage and frequency shall be at i
least 3920 volts and 58.8 Hz in 510 seconds after the start signal. The steady state voltage and frequency shall be maintained at 4160 + 420,-240 volts and 60 i 1.2 Hz. The diesel generator shall be started for this test by using one of the following signals:
a) Manual.
b) Simulated loss-of-offsite power by itself.
c) Simulated loss-of-offsite power in conjunction with an ESF actuation test signal.
d) An ESF actuation test signal by itself.
1
- All planned starts for the purpose of surveillance in this section may be preceded by a prelube period as recommended by the manufacturer.
- A modified diesel generator start involving idling and gradual acceleration to synchronous speed may be used for this surveillance requirement as recommended by the manufacturer. When modified start procedures are not used, the time, speed, voltage, and frequency tolerances of this surveillance >
requirement must be met.
WATERFORD - UNIT 3 3/4 8-3 AMENDMENT NO. 23,74
1
= j
. ELECTRICAL POWER SYSTEMS BASES A.C. SOURCES. D.C. SOURCES. AND ONSITE POWER DISTRIBUTION SYSTEMS (Continued) )
i The Surveillance Requirements for demonstrating the OPERABILITY of the diesel generators are consistent with the recommendations of Regulatory Guides 1.9 " Selection of Diesel Generator Set Capacity for ,
Standby Power Supplies," March 10,1971, and 1.108 " Periodic Testing of Diesel Generator Units Used as Onsite j Electric Power Systems at Nuclear Power Plants," Revision 1, August 1977, and 1.137, " Fuel Oil Systems for 1 Standby Diesel Generators," Revision 1, October 1979. Other provisions are derived from Generic Letter 93-05 1 "Line-Item Technical Specifications Improvements to Reduce Surveillance Requirements for Testing During Power Operation" 94-01 " Removal of Accelerated Testing and Special Reporting Requirements for Emergency Diesel Generators," and NUREG 1432 Standard Technical Specifications Combustion Engineering Plants The minimum voltage and frequency stated in the Surveillance Requirement are those necessary to ensure the diesel generator can accept the Design Basis Accident loading while maintaining acceptable voltage l and frequency levels. Stable operation at the nominal voltage and frequency values is also essential to establishing diesel generator OPERABILITY, but a time constraint is not imposed. This is because a typical diesel generator will experience a period of voltage and frequency oscillations prior to reaching steady state operation if these oscillations are not dampened out by load application. This period may extend beyond the 10 second acceptance criteria and could be a cause for failing the Surveillance Requirement. In lieu of a time constraint in the Surveillance Requirement, the actual time to reach steady state operation is monitored and trended. This is to ensure there is no voltage regulator or govemor degradation which could cause a diesel generator to become I inoperable. The 10 seconds in the Surveillance Requirement is met when the diesel generator first reaches the specified voltage and frequency, at which time the output breaker would close if an automatic actuation had occurred.
l The diesel generator Surveillance testing performed once per 18 months during shutdown is in ,
accordance with Regulatory Guide 1.108, Regulatory Position C.2. !
INSERT A The maximum voltage limit in surveillance test 4.8.1.1.2.d.2 was increased to 5023 volts in response to NRC Information Notice 91-13; Inadequate Testing of Emergency Diesel Generators. A maximum voltage limit is provided to ensure that components e irically connected to the diesel generator are not damaged as a result of the momentary voltage excursion experianced during this test.
The Surveillance Requirement for demonstrating the OPERABILITY of the station batteries are based on the recommendations of Regulatory Guide 1.129," Maintenance Testing and Replacement of Large Lead Storage Batteries for Nuclear Power Plants," February 1978, and IEEE Std 450-1980, "lEEE Recommended Practice for Maintenance, Testing, and Replacement of Large Lead Storage Batteries for Generating Stri:ons and Substations."
Verifying average electrolyte temperature above the minimum for which the battery was sized, total battery terminal voltage on float charge, connection resistance values and the performance of battery service and discharge tests ensures the effectiveness of the charging system, the ability to handle high discharge rates and compares the battery capacity at that time with the rated capacity.
Table 4.8-2 specifies the normal limits for each designated pilot cell and each connected cell for electrolyte level, float voltage, and specific gravity. The limits for the designated pilot cells fioat voltage and specific gravity, greater than 2.13 volts and 0.015 below the manufacturers full charge specific gravity or a battery charger current that had stabilized at a low value, is characteristic of a charged cell with adequate capacity. The normal limits for each connected cell for float voltage and specific gravity, greater than 2.13 volts and not more than 0.020 below the manufacturers full charge specific gravity with an average specific gravity of all the connected cells not more than 0.010 below the manufacturers full charge specific gravity, ensures the OPERABILITY and capability of the battery.
WATERFORD UNIT 3 B 3/4 8-2 AMENDMENT NO. 88,92
- 1 INSERT A ,
PROPOSED !
REVIEWERS NOTE: The underlined text is from Letter dated November 7,1995. The italicized text was proposed in a previous change submitted by letter dated July 7,1995.
The Onsite Power System includes three 4.16 kV ESF buses (3A3-S. 383-S. and 3AB3-S). Power for safety related loads is normally supplied by the non-safety related 4.16 kV buses (3A2 and 3B2) of the Offsite Power System. Should offsite power from either of these buses be lost. the Onsite Power System will receive power automatically from the appropriate diesel aenerator. Non-safety related loads will be automatically disconnected from the safety Onsite Power System. Each ESF bus (3A3-S or 3B3-S) is redundant to the other-each can supply sufficient power to its safety related loads to enable safe shutdown or to mitiaate the consecuences of a desian basis accident. The third bus. 3AB3-S. may be connected to either 3A3-S or 3B3-S.
but never to both. Therefore 3AB3-S is not considered as a third. separate source of ESF power. The three ESF buses and their loads are tested as described below.
Surveillance requirements 4.6.1.1.2.d.3 and 4.6.1.1.2.d.5 are the integrated testing requirements that demonstrate the as designed operation of the standby A.C. power sources during loss of the offsite power source and during a loss of offsite power in conjunction with a Safety Injection Actuation Signal (SIAS).
The testing verifies all actions encountered from the loss-of-offsite power (LOOP), including shedding of the nonessentialloads and the energizing of the emergency busses and respective loads from the diesel generator. It further demonstrates the capability of the diesel generators to automatically achieve the required voltage and frequency within the speciMed time.
The requirement to verify the connection and energization of permanently connected loads and auto-connected loads is intended to satisfactorily show the relationship of these loads to the diesel generators loading logic. Permanently connectedloads are those loads that remain connected to the bus upon the bus deenergizing and are subsequently enert;aed by the dieselgenerators. Auto connectedloads are those loads that are disconnected from the bus upon the bus deenergizing and are auto-connected through the automatic loaa sequencer. Surveillance 0.8.1.1.2.d.3b veri 6es the dieselgenerators capability to energize the shutdown loads and surveillance 4.8.1.1.1.d.5b veri 6es the diesel generators capability to energize the emergency loads.
Shutdown loads are those icads required upon a LOOP (Re: FSAR Table 6.3.1). Emergencyloads are those loads required upon a LOOP in conjunction with an SIAS. This testing veri 5es that in the event of a Design Bases Accident (DBA) coincident with a loss of offsite power, the diesel generators are capable of supplying the necessary power to Engineered Safety Features (ESF) systems so that the fuel, Reactor Coolant System (RCS),
and containment design limits are not exceeded.
Surveillance reauirement 4.8.1.1.2d.1 reauires the verification at least once per 18 months of the diesel aenerators' ability to reject a load of areater than or eaual to 498 Kw while specific voltaae and frecuency constraints are maintained. The intent of this Surveillance reauirement is to reauire the diesel aenerator to reiect the laraest sinale load. The lamest sinale load on the diesel aenerator is the Essential Chiller which reauires 430 Kw under tomado/ missile conditions. The difference between the specified 498 Kw load in the Surveillance reauirement and the 430 Kw reauired by the actual laraest sinale load is a marain of conservatism. A method of rejectina a load arester than or eaual to 498 Kw utilizina the wet and dry coolina tower fans has been developed and will satisfy the Surveillance reauirement.
The loadina rance for the diesel aenerators (4000-4400 Kw) as specified la surveillance reauirements is eaual to approximately 90 to 100 percent of its continuous ratina. This provides for a rance to conduct testina without inadvertently overloadina of the diesel aenerators. Inadvertent overioadina creates unnecessary wear and mechanical stress that may adversely affect the reliability and lonaevity of the diesel aenerators.
