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Category:TECHNICAL SPECIFICATIONS
MONTHYEARML20209H5051999-07-14014 July 1999
Proposed Tech Specs Pages 3.1-15 & 3.1-17 of Table 3.1.1
ML20209E0951999-07-0707 July 1999
Proposed Tech Specs,Changing Component Surveillance Frequencies to Indicate Frequency of Once Per Three Months
ML20212H5441999-06-18018 June 1999
Proposed Tech Specs Reflecting Installation of Addl SFP Storage Racks That Will Accommodate Increase in Spent Fuel Assemblies Beyond Existing Storage Capacity of SFP as Described in Licensing Rept
ML20195D0761999-06-0303 June 1999
Proposed Tech Specs,Permitting Plant Operation with Three Operable Recirculation Loops
ML20205P8531999-04-15015 April 1999
Proposed Tech Specs,Modifying Number of Items in Sections 2 & 3 of Tss,Expanding Two Definitions in Section 1 & Modifying Bases Statements in Sections 2,3 & 4
ML20198K0671998-12-23023 December 1998
Proposed Tech Specs Pages 3.8-2 & 4.8-1,changed to Specify Surveillance Frequency of Once Per Three Months
ML20195C6561998-11-10010 November 1998
Proposed Tech Specs Section 5.1.A,removing Restriction on Sale or Lease of Property within Exclusion Area
ML20155J7501998-11-0505 November 1998
Proposed Tech Specs,Modifying Safety Limits & Surveillances of LPRM & APRM Sys & Related Bases to Ensure APRM Channels Respond within Necessary Range & Accuracy & to Verify Channel Operability
ML20151V5091998-09-0303 September 1998
Proposed Tech Specs 3.4.A.10.e & 3.5.A.2.e Re Condensate Storage Tank Level
ML20237D9591998-08-21021 August 1998
Proposed Tech Specs Removing Requirement for ADS Function of EMRV to Be Operable During Rv Pressure Testing & Correcting Note H of Table 3.1.1
ML20237B2221998-08-0606 August 1998
Proposed Revised Tech Specs Pages for Change Request 205,dtd 961031,correcting Minor & Inadvertent Editorial Changes in Locations Where Changes Have Not Been Proposed
ML20236T1211998-07-23023 July 1998
Proposed Tech Specs Pages for Amend to License DPR-16,to Establish That Existing SLMCPR Contained in TS 2.1.A Is Applicable for Next Operating Cycle (Cycle 17)
ML20236T4981998-07-21021 July 1998
Proposed Tech Specs Re Reactivity Control
ML20236T4811998-07-21021 July 1998
Proposed Tech Specs Re Changes to Administrative Controls
ML20236J1431998-06-30030 June 1998
Proposed Tech Specs,Consisting of Revised Page 3-5 Re RPV Pressure/Temp Limits
ML20236H2181998-06-29029 June 1998
Proposed Tech Specs,Modifying EDG Insp Requirement Previously Submitted in Entirety
ML20248K2851998-05-28028 May 1998
Proposed Tech Specs Re That Such First Type a Test Required by Primary Containment Leakage Rate Testing Program Be Performed During Refueling Outage 18R
ML20197G2771997-12-23023 December 1997
Proposed Tech Specs Reflecting Change in Trade Name of Owner & Operator of Oyster Creek Nuclear Generating Station
ML20197J2561997-12-10010 December 1997
Proposed Tech Specs Changing Pages 2.3-6,2.3-7,3.1-11, 3.1-14,3.1-16,3.4-8,3.8-2,3.8-3,4.3-1,4.5-13 & 6-1
ML20210L3311997-08-15015 August 1997
Proposed Tech Specs,Incorporating Note Which Indicates That Proposed Change to SL Mcrp Applicable for Current Operating Cycle (Cycle 16) Only
ML20135C2001996-11-27027 November 1996
Proposed Tech Specs Pages 4.7-1,4.7-2,4.7-3 & 4.7-4 Re Surveillances for Station Batteries
ML20129K3401996-11-12012 November 1996
Proposed Tech Specs,Consisting of Change Request 224, Implementing Revised 10CFR20, Stds for Protection Against Radiation Effective 910620
ML20134H0541996-10-31031 October 1996
Proposed Tech Spec,Requesting Deletion of Table 3.5.2
ML20129C0691996-10-10010 October 1996
Proposed Tech Specs,Clarifying Functional Requirement to Provide Interlock Permissive Which Ensures Source of Cooling Water Available Via Core Spray Sys Prior to Depressurization
ML20129A5731996-10-10010 October 1996
Proposed Tech Specs,Revising Addl Group of Surveillances Where Justification Completed Following Receipt of Amend 144
ML20134F4101996-10-0404 October 1996
Proposed Tech Specs 2.1.A & 3.10.C to Reflect Change in SLMCPR & Revise Operating CPR Limit for Stability, Respectively
ML20117E7061996-08-23023 August 1996
Proposed Tech Specs,Proposing New pressure-temp Limits Up to 22,27 & 32 EFPY Based on Predicted Nilductility Adjusted Ref Temp for Corrresponding EFPY of Operation
ML20115G2101996-07-17017 July 1996
Proposed Tech Specs,Allowing Implementation of 10CFR,App J, Option B
ML20113A8641996-06-19019 June 1996
Proposed Tech Specs Table of Contents,1.24 Re Footnote to definition,1.25 Re Definition,Section 3.5.A.3b Re Containment,Section 4.5 Re Containment,Bases for Section 4.5 & Section 6.9.3.b Re Reporting Requirements
ML20111A3841996-05-0707 May 1996
Proposed Tech Specs,Adopting Provisions of STS NUREG-1433, Rev 1,dtd 950407,Sections SR 3.0.1,3.0.3 & Associated Bases
ML20107E7751996-04-15015 April 1996
Proposed Tech Specs 5.3.1 Re Handling Heavy Loads Over Irradiated Fuel
ML20101J7681996-03-28028 March 1996
Proposed Tech Specs,Modifying Statements in TS & Bases to Correctly Reflect Ref Parameter for Anticipatory Scram Signal Bypass
ML20101J6091996-03-25025 March 1996
Proposed Tech Specs,Deleting Spec Which Requires Thorough Insp of EDG Every 24 Months During Shutdown
ML20100J9151996-02-23023 February 1996
Proposed Tech Specs Re Implementation of 10CFR50,App J, Option B
ML20100H9971996-02-22022 February 1996
Proposed Tech Specs 3.7-1,3.7-2,4.7-1 & 4.7-2 Re Deletion of TS Requirement to bi-annually Inspect EDG & Mod of Spec Re AOT
ML20095C1031995-12-0505 December 1995
Proposed Tech Specs Re Rev of Submittal Date for Annual Exposure Data Rept Bringing Plant Into Conformance w/10CFR20.2206 & Relaxing Overly Restrictive Administrative Requirement
ML20086A7161995-06-26026 June 1995
Proposed Tech Specs Re Performance of Reactor Shutdown & Drywell to Inspect Snubbers in Svc for Only 12 Months
ML20080P6501995-02-28028 February 1995
Proposed Tech Specs Change Request 225 Re Change to Page 6-4 of Tech Spec Section 6.5.1.12.Change Consistent w/NUREG-1433,STSs General Electric Plants,BWR/4,Rev 0,dtd 920928
ML20078N3791995-02-0808 February 1995
Proposed Tech Specs Re Oyster Creek Spent Fuel Pool Expansion
ML20078Q6481994-12-15015 December 1994
Revised TS & Bases Pages to Section 3.1 of TS Change Request 191
ML20078M1431994-11-25025 November 1994
Proposed TS 5.3.1.E,allowing 2,645 Fuel Assemblies to Be Stored in Fuel Pool
ML20072S2921994-09-0202 September 1994
Proposed Tech Specs Supporting Rev of APRM Channel Calibr Interval from Weekly to Quarterly
ML20072L4741994-08-19019 August 1994
Proposed Tech Specs Control Rod Exercising & Standby Liquid Control Pump Operability Testing
ML20070E3411994-07-0808 July 1994
Proposed Tech Specs Re Improved Protection to Safety Related Electrical Equipment from Loss of Capability
ML20078A7731994-06-24024 June 1994
Proposed Tech Specs Reflecting Removal of Recirculation Flow Scram
ML20069M8231994-06-15015 June 1994
Proposed Tech Spec 2.3.D, Reactor High Pressure,Relief Valve Initiation
ML20070R5261994-05-12012 May 1994
Proposed TS Sections 3.1 & 4.1 for Protective Instrumentation
ML20029E0451994-05-0606 May 1994
Proposed Tech Specs Clarifying Requirements for Demonstrating Shutdown Margin
ML20065M9991994-04-19019 April 1994
Proposed Tech Specs Updating & Clarifying TS 3.4.B.1 to Be Consistent W/Existing TS 1.39 & 4.3.D Re Five Electromatic Relief Valves Pressure Relief Function Inoperable or Bypassed During Sys Pressure Testing
ML20029C7571994-04-15015 April 1994
Proposed TS Change Request 215,deleting Audit Program Frequency Requirements from TS 6.5.3 & Utilize Operational QA Plan as Controlling Document
1999-07-07
[Table view]
Category:TECHNICAL SPECIFICATIONS & TEST REPORTS
MONTHYEARML20212B5741999-09-0505 September 1999
Rev 11 to 2000-ADM-4532.04, Oyster Creek Emergency Offsite Dose Calculation Manual
ML20209H5051999-07-14014 July 1999
Proposed Tech Specs Pages 3.1-15 & 3.1-17 of Table 3.1.1
ML20209E0951999-07-0707 July 1999
Proposed Tech Specs,Changing Component Surveillance Frequencies to Indicate Frequency of Once Per Three Months
ML20212H5441999-06-18018 June 1999
Proposed Tech Specs Reflecting Installation of Addl SFP Storage Racks That Will Accommodate Increase in Spent Fuel Assemblies Beyond Existing Storage Capacity of SFP as Described in Licensing Rept
ML20195D0761999-06-0303 June 1999
Proposed Tech Specs,Permitting Plant Operation with Three Operable Recirculation Loops
ML20205P8531999-04-15015 April 1999
Proposed Tech Specs,Modifying Number of Items in Sections 2 & 3 of Tss,Expanding Two Definitions in Section 1 & Modifying Bases Statements in Sections 2,3 & 4
ML20198K0671998-12-23023 December 1998
Proposed Tech Specs Pages 3.8-2 & 4.8-1,changed to Specify Surveillance Frequency of Once Per Three Months
ML20195C6561998-11-10010 November 1998
Proposed Tech Specs Section 5.1.A,removing Restriction on Sale or Lease of Property within Exclusion Area
ML20155J7501998-11-0505 November 1998
Proposed Tech Specs,Modifying Safety Limits & Surveillances of LPRM & APRM Sys & Related Bases to Ensure APRM Channels Respond within Necessary Range & Accuracy & to Verify Channel Operability
ML20151V5091998-09-0303 September 1998
Proposed Tech Specs 3.4.A.10.e & 3.5.A.2.e Re Condensate Storage Tank Level
ML20237D9591998-08-21021 August 1998
Proposed Tech Specs Removing Requirement for ADS Function of EMRV to Be Operable During Rv Pressure Testing & Correcting Note H of Table 3.1.1
ML20237B2221998-08-0606 August 1998
Proposed Revised Tech Specs Pages for Change Request 205,dtd 961031,correcting Minor & Inadvertent Editorial Changes in Locations Where Changes Have Not Been Proposed
ML20236T1211998-07-23023 July 1998
Proposed Tech Specs Pages for Amend to License DPR-16,to Establish That Existing SLMCPR Contained in TS 2.1.A Is Applicable for Next Operating Cycle (Cycle 17)
ML20236T4811998-07-21021 July 1998
Proposed Tech Specs Re Changes to Administrative Controls
ML20236T4981998-07-21021 July 1998
Proposed Tech Specs Re Reactivity Control
ML20236J1431998-06-30030 June 1998
Proposed Tech Specs,Consisting of Revised Page 3-5 Re RPV Pressure/Temp Limits
ML20236H2181998-06-29029 June 1998
Proposed Tech Specs,Modifying EDG Insp Requirement Previously Submitted in Entirety
ML20248K2851998-05-28028 May 1998
Proposed Tech Specs Re That Such First Type a Test Required by Primary Containment Leakage Rate Testing Program Be Performed During Refueling Outage 18R
ML20197G2771997-12-23023 December 1997
Proposed Tech Specs Reflecting Change in Trade Name of Owner & Operator of Oyster Creek Nuclear Generating Station
ML20197J2561997-12-10010 December 1997
Proposed Tech Specs Changing Pages 2.3-6,2.3-7,3.1-11, 3.1-14,3.1-16,3.4-8,3.8-2,3.8-3,4.3-1,4.5-13 & 6-1
ML20210L3311997-08-15015 August 1997
Proposed Tech Specs,Incorporating Note Which Indicates That Proposed Change to SL Mcrp Applicable for Current Operating Cycle (Cycle 16) Only
ML20135C2001996-11-27027 November 1996
Proposed Tech Specs Pages 4.7-1,4.7-2,4.7-3 & 4.7-4 Re Surveillances for Station Batteries
ML20129K3401996-11-12012 November 1996
Proposed Tech Specs,Consisting of Change Request 224, Implementing Revised 10CFR20, Stds for Protection Against Radiation Effective 910620
ML20134H0541996-10-31031 October 1996
Proposed Tech Spec,Requesting Deletion of Table 3.5.2
ML20129C0691996-10-10010 October 1996
Proposed Tech Specs,Clarifying Functional Requirement to Provide Interlock Permissive Which Ensures Source of Cooling Water Available Via Core Spray Sys Prior to Depressurization
ML20129A5731996-10-10010 October 1996
Proposed Tech Specs,Revising Addl Group of Surveillances Where Justification Completed Following Receipt of Amend 144
ML20134F4101996-10-0404 October 1996
Proposed Tech Specs 2.1.A & 3.10.C to Reflect Change in SLMCPR & Revise Operating CPR Limit for Stability, Respectively
ML20117E7061996-08-23023 August 1996
Proposed Tech Specs,Proposing New pressure-temp Limits Up to 22,27 & 32 EFPY Based on Predicted Nilductility Adjusted Ref Temp for Corrresponding EFPY of Operation
ML20115G2101996-07-17017 July 1996
Proposed Tech Specs,Allowing Implementation of 10CFR,App J, Option B
ML20113A8641996-06-19019 June 1996
Proposed Tech Specs Table of Contents,1.24 Re Footnote to definition,1.25 Re Definition,Section 3.5.A.3b Re Containment,Section 4.5 Re Containment,Bases for Section 4.5 & Section 6.9.3.b Re Reporting Requirements
ML20111A3841996-05-0707 May 1996
Proposed Tech Specs,Adopting Provisions of STS NUREG-1433, Rev 1,dtd 950407,Sections SR 3.0.1,3.0.3 & Associated Bases
ML20107E7751996-04-15015 April 1996
Proposed Tech Specs 5.3.1 Re Handling Heavy Loads Over Irradiated Fuel
ML20101P1561996-03-31031 March 1996
Rev 9 to Oyster Creek Nuclear Generating Station Pump & Valve IST Program
ML20101J7681996-03-28028 March 1996
Proposed Tech Specs,Modifying Statements in TS & Bases to Correctly Reflect Ref Parameter for Anticipatory Scram Signal Bypass
ML20101J6091996-03-25025 March 1996
Proposed Tech Specs,Deleting Spec Which Requires Thorough Insp of EDG Every 24 Months During Shutdown
ML20100J9151996-02-23023 February 1996
Proposed Tech Specs Re Implementation of 10CFR50,App J, Option B
ML20100H9971996-02-22022 February 1996
Proposed Tech Specs 3.7-1,3.7-2,4.7-1 & 4.7-2 Re Deletion of TS Requirement to bi-annually Inspect EDG & Mod of Spec Re AOT
ML20095C1031995-12-0505 December 1995
Proposed Tech Specs Re Rev of Submittal Date for Annual Exposure Data Rept Bringing Plant Into Conformance w/10CFR20.2206 & Relaxing Overly Restrictive Administrative Requirement
ML20086A7161995-06-26026 June 1995
Proposed Tech Specs Re Performance of Reactor Shutdown & Drywell to Inspect Snubbers in Svc for Only 12 Months
ML20080P6501995-02-28028 February 1995
Proposed Tech Specs Change Request 225 Re Change to Page 6-4 of Tech Spec Section 6.5.1.12.Change Consistent w/NUREG-1433,STSs General Electric Plants,BWR/4,Rev 0,dtd 920928
ML20078N3791995-02-0808 February 1995
Proposed Tech Specs Re Oyster Creek Spent Fuel Pool Expansion
ML20078Q6481994-12-15015 December 1994
Revised TS & Bases Pages to Section 3.1 of TS Change Request 191
ML20078M1431994-11-25025 November 1994
Proposed TS 5.3.1.E,allowing 2,645 Fuel Assemblies to Be Stored in Fuel Pool
ML20073F9501994-09-26026 September 1994
Revised Plan for Long Range Planning Program for Oyster Creek Nuclear Generating Station
ML20073F9411994-09-26026 September 1994
Revised Plan for Long Range Planning Program for TMI Nuclear Station Unit 1
ML20072S2921994-09-0202 September 1994
Proposed Tech Specs Supporting Rev of APRM Channel Calibr Interval from Weekly to Quarterly
ML20072Q4251994-08-20020 August 1994
Rev 0 to Oyster Creek Nuclear Generating Station Sea Turtle Surveillance,Handling & Reporting Instructions for Operations Personnel
ML20072L4741994-08-19019 August 1994
Proposed Tech Specs Control Rod Exercising & Standby Liquid Control Pump Operability Testing
ML20070J7971994-07-31031 July 1994
Rev 8 to Oyster Creek Nuclear Generating Station Pump & Valve Inservice Testing Program
ML20070E3411994-07-0808 July 1994
Proposed Tech Specs Re Improved Protection to Safety Related Electrical Equipment from Loss of Capability
1999-09-05
[Table view] |
Text
. _ _ _ _ _ _ _ _ _ . - - _ _ _ _ _ - _ . . . _ _ , . . .
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O PM 9 Atta,chment 1- ,
Summary of Tech. Spec. Change Request No. 117
\ .
Current Proposed No. Tech. Spec. Tech. Spec. Extent of Change Justification
- 7. -
Bases Statement Maintaining a minimum recirculation See Extent of Change for paragenph 4 flow of 39.65;x10 6 lb/hr in range 10 Change 10.
page 2.3-5 will precidde' violating the' fuel cladding safety limit even in the face of a complete-rod withdrawal initiated at 35% of rated power.
- 8. Bases Statement Bases Statement Operation of the reactor at pressurea See Extent of Change for paragraph 2 paragraph 2 lower than 825 psig requires that the Changes 2 and 5.
page 2.3-6 page 2.3-6 reactor mode switch be in the Startup position and the IRMs be in range 9 or lower, where protection of the fuel cladding integrity safety limit is provided by the IRM high neutron flux scram.
Section 3.1 Protective Instrumentation
- 9. Table 3.1.1 Table 3.1.1 Indication of Lo-Pressure in Main See Extent.of Change for Section B Section B Steamline Reactor Isolation function Change 2 Line 5 Line 5 being operable in startup mode.
Section 3.3 Reactor Coolant
- 10. - Specification . Minimum flow for ation in IRM
- See Bases Statement 3 . 3 . 11 range 10 39.65 x01 plb/hr listed paragraph 4 page 3.3-2a page 2.3-5 ,-
4 .
e
3.3-2a G. Primary Coolant System Pressure Isolation Valves Applicability:
Operational Conditions - Startup and Run Modes; applies to the operational status of the primary coolant system pressure isolation valves.
Objective:
'Ib increase the reliability of primary coolant system pressure isolation valves thereby reducing the potential of an intersystem loss of coolant accident.
Specification:
- 1. During reactor power operating conditions, the integrity of all pressure isolation valves listed in Table 3.3.1 shall be demonstrated. Valve leakage shall-not exceed the amounts indicated.
- 2. If Specification 1 cannot be met, an orderly shutdown shall be initiated and the reactor shall be in the cold shutdown condition within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
H. Required Mi:t En Recirculation Flow Rate for Operation in IRM Range 10
- 1. During STARTUP mode operation, a minimum recirculation flow rate is required before operating in IRM range 10 to insure that technical specification transient MCPR limits for operation are not exceeded. This minimum flow rate is no longer required once the reactor is in the RUN mode.
- 2. 39.65 x 106 lb/hr is the minimum recirculation flow rate necessary for operation in IRM range 10 at this time.' 'Ihis flow rate leaves sufficient margin between the minimum flow required by the RWE analysis performed and the minimum flow used while operating in IRM range 10.
Oyster Creek Nuclear Generating Station Provisional Operating License No. DPR-16 Docket No. 50-219 Technical Specification Gange Request No.117 Applicant hereby requests the comission to change.the above mentioned Technical Specification Change Request as follows:
- 1. Section to be changed:
Technical Specification section 3.3.H
- 2. Extent of Gange:
his Technical Specification Gange Request revision. specifies that there is a minimum recirculation flow rate necessary for operation in IRM range 10.
- 3. Ganges Requested:
%e licensee requests that section 3.3.H of Technical Specification Change. Request No.' 117,be changed to read as
'follows:
"H. Required Minimum Recirculation Flow Rate for Operation'in IRM Range 10
- 1. During STARTUP mode operation, a minimum recirculation flow rate is required _before operating in IRM range 10 to insure that technical specification transient MCPR limits for operation are not exceeded. mis minimum flow rate is no longer required once the reactor is in the RUN mode.
- 2. 39.65 x 106 lb/hr is the minimum recirculation flow rate necessary for operation in IRM range 10 at this time. Eis flow rate leaves sufficient margin between j i the minimum flow required by the RWE analysis performed and the minimum flow used while operating in IRM range 10." -
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4 4.. Discussion:
This revised Technical Specification Change Request is made in ,
response to further GPUN review carried out after the original submittal. This review discovered the discrepancy between the original submittal and the actual intent of the sutnittal. The !
discrepancy has been rectified with this revision.
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OYSTER CREEK GENERATING STATION PROVISIOtUd, OPERATING LICENSE 10. DPR-16 DOCKET 10. 50-219 TECIMICAL SPECIFICATION CHANGE REGJECT NO.117 Pursuant to 10 CFR 50.91, an analysis concerning significant hazards considerations is provided belcw:
- 1. Sections to be changed:
f i Sections 2. 3.1, 2. 3.7, 3. 3, Tables 3.1.1 and 4.1.1
- 2. Extent of Changes:
See Attachment 1 ,
- 3. Changes Requested:
s See Attachment 1
- 4. Discussion:
Oyster Creek 'has been experiencing difficulty in switching from the STAR'IUP rode to the RUN mode without getting a rod withdrawal block. The switch from the STAR'IUP mode to the RUN mode is made when the IRMs are reading about 100 (0 to 125 scale) on range 9, at approximately 10% of reactor power. In going to RUN mode, neutron monitoring is switched from the IRM's to LPRM/APRM's. The problem occurs at this time due to LPRM's reading
'downscale which causes a rod block. A sufficient nunber of LPRM's are downscale, due to the physical locatica of the LPRMs in the core and the skewed axial flux distribution in the core during a reactor startup, that they cannot all be bypassed within operability limits of Oyster Creek Technical specifications.
The proposed change will add a tenth range to the IRMs, increasing the neutron monitoring with the IRMs from 10% to approximately 40% of rated power. This will significantly increase the IBM /APRM system overlap and allow for a smooth transition from STARTUP to RUN mode. The switch from STARTUP to RUN mode can be performed at a higher power level when the LPRM downscale rod blocks have cleared. -
A technical evaluation of the proposed change was performed to insure that the affected syster's would perform their required safety function.
A rod withdrawal error (RNE) analysis was perfornied to evaluate the adequacy of the IRM rod block. The RNE transient was initiated at 35%
power. Reactor power is just at the IRM rod block, but the rod block is i
not initiated. Since the APRM system response w w assumed to be degraded and the IRMs do not provide as much core coverage as LPRM/APRMS, the RWE analysis was performed under a conservation assumption that no nuclear instrumentation would terminate the event. The analysis was performed at peak cycle reactivity and with a xenon free core. A control rod pattern consistent with analyzed power and flow conditions was established. Each control rod was separately withdrawn to the full out position. A final power level was determined for each control rod. A minimum flow of 14.0 Mlb/hr (23% of rated flow) was found necessary to insure that a RWE at 35% ,
power or less would not exceed technical specification transient MCPR '
. limits for operation in range 10. The minimum flow is required to insure the technical specification limit is not violated. Therefore, the minimum
. flow value itself should be a technical specification limit. The analysis was Cycle 9 specific and does not necessarily bound future cycle operating t conditions. The analysis did not include the uncertainties in the heat balance at low power or in the ability of the IRMs to track core average
- power. In order to insure that the uncertainties above are accounted for I' and that the RWE in the IRM range will be bounded for future cycles, a minimum recirculation flow of 39.65 M1b/hr has been established for i operation in IRM range 10. Critical Power Ratio (CPR) calculaticas at this flow indicate that a bundle power of 3.36 MW would be required to give the same initial CPR used in the RWE analysis. This is close to twice the power for the limiting bundle in the RWE analysis at 35% of rated thermal power. With design peaking factors this corresponds to approximately a core thermal power at 60% of rated. Thus, a minimum recirculation flow of 39.65 M1b/hr for operation in IRM 10 will be conservative. The core flow of 39.65 MlWhr ~ ' '
is set as a Technical Specification limit by this change request.
-The adequacy of the IRM scram was determined by comparing the scram level on the IRM range 10 to the scram level on the APRMs at 30% of rated flow.
. . The IRM scram is at 38.4% of rated power while the APRM scram is at 52.7%
of rated power. The minimum flow for Oyster Creek is at 30% of rated and this would be the lowest APRM scram point. The increased recirculation flow to 65% of flow will provide additional margin to CPR limits. The APRM screm at 65% of rated flow is 87.1% of rated power, while the IRM range 10 scram remains at 38.4% of rated power. Therefore, transients requiring a scram based on flux excursion will be terminated sooner with a IRM range 10 scram then with an APRM scram. The transients requiring a scram by nuclear l- instrumentation are the loss of feedwater heating and the improper startup of an idle recirculation loop. The loss of feedwater heating transient is not affected by the range 10 IRM since the feedwater heaters will not be put into service until after the LPRM downscales have cleared, thus insuring the operability of the APRM system. This will be adninistratively controlled. The improper startup of an idle recirculation loop becomes l less severe at lower power level and the IRM scram would be adequate to t terminate the flux excursion.
l-l S. Determination l
We have determined that the subject change request involves no significant hazards in that operation of the Oyster Creek Nuclear Generating Station in r . - , ,,wn- - . _ , - - - - . - - , . , . - -.n, - , - - . - . . , n... .--.,..,--,,.n-c. . . , .-. ,: , - - - _ - . . . , . . ,-
accordance with Technical Specification Change Request !b.117 woald not:
, i) 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.
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