Cycle 20 Core Operating Limits Report

ML053190197
Person / Time
Site:	Saint Lucie
Issue date:	11/09/2005
From:	Jefferson W Florida Power & Light Co
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
L-2005-232
Download: ML053190197 (14)
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Text

Florida Power & Light Company, 6501 S.Ocean Drive, Jensen Beach, FL 34957 November 9, 2005 FPL L-2005-232 10 CFR 50.36 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555 Re: St. Lucie Unit I Docket No. 50-335 Cycle 20 Core Operatinq Limits Report Pursuant to St. Lucie Unit 1 Technical Specification (TS) 6.9.1.1 1.d, Florida Power & Light Company (FPL) is submitting the Core Operating Limits Report (COLR) for operating cycle 20.

Technical Specification 6.9.1.11.d requires that the COLR, including any mid-cycle revisions or supplements, be provided to the NRC upon issuance for each reload cycle.

Accordingly, enclosed is a copy of the St. Lucie Unit 1, Cycle 20 Core Operating Limits Report, Revision 0.

Please contact us if there are any questions regarding this submittal.

William ie Jr.

Vice Pr side St. Lucie Plant WJ/spt Attachment an FPL Group company

St. Lucie Unit 1 Docket No. 50-335 L-2005-232 Attachment ST. LUCIE UNIT 1, CYCLE 20 CORE OPERATING LIMITS REPORT Revision 0 Prepared By: 6/1,s 6 Verified By:

X 61/-q10E Approved By:

St. Lucie Unit 1 Docket No. 50-335 L-2005-232 Attachment Table of Contents Descriotion Page 1.0 Introduction 3 2.0 Core Operating Limits 2.1 Moderator Temperature Coefficient 4 2.2 Full Length CEA Position - Misalignment > 15 inches 4 2.3 Regulating CEA Insertion Limits 4 2.4 Linear Heat Rate 4 2.5 TOTAL INTEGRATED RADIAL PEAKING FACTOR 5 2.6 DNB Parameters - AXIAL SHAPE INDEX 5 2.7 Refueling Operations - Boron Concentration 5 2.8 SHUTDOWN MARGIN - Tayg Greater Than 200 OF 5 2.9 SHUTDOWN MARGIN - Tay, Less Than or Equal To 200 OF 5 3.0 List of Approved Methods 12 List of Figures Figure Title Page 3.1-1a Allowable Time To Realign CEA vs. Initial FrT 6 3.1-2 CEA Insertion Limits vs. THERMAL POWER 7 3.2-1 Allowable Peak Linear Heat Rate vs. Burnup 8 3.2-2 AXIAL SHAPE INDEX vs. Maximum Allowable Power Level 9 3.2-3 Allowable Combinations of THERMAL POWER and FrT 10 3.2-4 AXIAL SHAPE INDEX Operating Limits vs. THERMAL POWER 11 Re .......... of--13 S-LceU itIC e2 C--L-Sty Lucie Unit 1 Cycle 20 COLR Rev 0 Page 2 of 13

St. Lucie Unit 1 Docket No. 50-335 L-2005-232 Attachment

1.0 INTRODUCTION

This CORE OPERATING LIMITS REPORT (COLR) describes the cycle-specific parameter limits for the operation of St. Lucie Unit 1. It contains the limits for the following as provided in Section 2.

Moderator Temperature Coefficient Full Length CEA Position - Misalignment > 15 Inches Regulating CEA Insertion Limits Linear Heat Rate TOTAL INTEGRATED RADIAL PEAKING FACTOR - FrT DNB Parameter - AXIAL SHAPE INDEX Refueling Operations - Boron Concentration SHUTDOWN MARGIN - Tamg Greater Than 200 OF SHUTDOWN MARGIN -T.,,Less Than or Equal To 200 OF This report also contains the necessary figures which give the limits for the above listed parameters.

Terms appearing in capitalized type are DEFINED TERMS as defined in Section 1.0 of the Technical Specifications.

This report is prepared in accordance with the requirements of Technical Specification 6.9.1.11.

RevO Page3 of 13 Lucie Unit St. Lucie Cycle 20 1 Cycle Unit 1 COLR 20 COLR Rev 0 Page 3 of 13

St. Lucie Unit I Docket No. 50-335 L-2005-232 Attachment 2.0 CORE OPERATING LIMITS 2.1 Moderator TemDerature Coefficient (TS 3.1.1.4)

The moderator temperature coefficient (MTC) shall be less negative than -32 pcm/PF at RATED THERMAL POWER.

2.2 Full Length CEA Position - Misalignment> 15 Inches (TS 3.1.3.1)

The time constraints for full power operation with the misalignment of one full length CEA by 15 or more Inches from any other CEA in its group are shown in Figure 3.1-1a.

2.3 Regulating CEA Insertion Limits (TS 3.1.3.6)

The regulating CEA groups shall be limited to the withdrawal sequence and to the insertion limits shown on Figure 3.1-2, with CEA insertion between the Long Term Steady State Insertion Limits and the Power Dependent Insertion Limits restricted to:

a. < 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> per 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> interval,

b. < 5 Effective Full Power Days per 30 Effective Full Power Day interval, and

c. < 14 Effective Full Power Days per calendar year.

2.4 Linear Heat Rate (TS 3.2.1)

The linear heat rate shall not exceed the limits shown on Figure 3.2-1.

The AXIAL SHAPE INDEX power dependent control limits are shown on Figure 3.2-2.

During operation, with the linear heat rate being monitored by the Excore Detector Monitoring System, the AXIAL SHAPE INDEX shall be maintained within the limits of Figure 3.2-2.

During operation, with the linear heat rate being monitored by the Incore Detector Monitoring System, the Local Power Density alarm setpoints shall be adjusted to less than or equal to the limits shown on Figure 3.2-1.

C cl 2 L --- ---------------- of--13 St.LuieUnt St. Lucie Unit 1 Cycle 20 COLR Rev 0 Page 4 of 13

St. Lucie Unit 1 Docket No. 50-335 L-2005-232 Attachment 2.5 TOTAL INTEGRATED RADIAL PEAKING FACTOR - FrT (TS 3.2.3)

The calculated value of FJT shall be limited to < 1.70.

The power dependent FT limits are shown on Figure 3.2-3.

2.6 DNB Parameters - AXIAL SHAPE INDEX (TS 3.2.5)

The AXIAL SHAPE INDEX shall be maintained within the limits specified in Figure 3.2-4.

2.7 Refueling Operations - Boron Concentration (TS 3.9.1)

With the reactor vessel head unbolted or removed, the boron concentration of all filled portions of the Reactor Coolant System and the refueling cavity shall be maintained uniform and sufficient to ensure that the more restrictive of the following reactivity conditions is met:

a. Either a Ken of 0.95 or less, which includes a 1000 pcm conservative allowance for uncertainties, or

b. A boron concentration of > 1720 ppm, which includes a 50 ppm conservative allowance for uncertainties.

2.8 SHUTDOWN MARGIN -T, Greater Than 200 'F (TS 3.1.1.1)

The SHUTDOWN MARGIN shall be greater than or equal to 3600 pcm.

2.9 SHUTDOWN MARGIN - Top,Less Than or Equal To 200 0F (TS 3.1.1.2)

The SHUTDOWN MARGIN shall be greater than or equal to 2000 pcm.

_. Le Ui 1 yc 20 CL _ Pag 5 of 13___________

St. Lucie Unit 1 Cycle 20 COLR Rev 0 Page 5 of 13

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COLR RevO Pagell ofl3 St. Lucie Unit 1 Lucle Unit Cycle 20 I Cycle 20 COLR RevO0 Pagell1 of 13

St. Lucie Unit I Docket No. 50-335 L-2005-232 Attachment 3.0 LIST OF APPROVED METHODS The analytical methods used to determine the core operating limits are those previously approved by the NRC, and are listed below.

1. WCAP-1 1596-P-A, -Qualification of the PHOENIX-P/ANC Nuclear Design System for Pressurized Water Reactor Cores," June 1988 (Westinghouse Proprietary)

2. NF-TR-95-01, "Nuclear Physics Methodology for Reload Design of Turkey Point &

St. Lucie Nuclear Plants," Florida Power & Light Company, January 1995

3. XN-75-27(A) and Supplements 1 through 5, [also issued as XN-NF-75-27(A)],

"Exxon Nuclear Neutronic(s) Design Methods for Pressurized Water Reactors,'

Exxon Nuclear Company, Inc. / Advanced Nuclear Fuels Corporation, Report and Supplement 1 dated April 1977, Supplement 2 dated December 1980, Supplement 3 dated September 1981 (P), Supplement 4 dated December 1986 (P), and Supplement 5 dated February 1987 (P)

4. ANF-84-73(P)(A) Revision 5, Appendix B, & Supplements 1 and 2, 'Advanced Nuclear Fuels Methodology for Pressurized Water Reactors: Analysis of Chapter 15 Events," Advanced Nuclear Fuels Corporation, October 1990

5. XN-NF-82-21(P)(A) Revision 1, "Application of Exxon Nuclear Company PWR Thermal Margin Methodology to Mixed Core Configurations," Exxon Nuclear Company, Inc., September 1983

6. EMF-84-093(P)(A) Revision 1,"Steam Line Break Methodology for PWRs," Siemens Power Corporation, February 1999 (This document is a Revision to ANF-84-93)

7. XN-75-32(P)(A) Supplements 1through 4, "Computational Procedure for Evaluating Fuel Rod Bowing," Exxon Nuclear Company, Inc., October 1983

8. XN-NF-82-49(P)(A) Revision 1 Supplement 1, 'Exxon Nuclear Company Evaluation Model Revised EXEM PWR Small Break Model," Siemens Power Corporation, December 1994

9. XN-NF-78-44(NP)(A), 'A Generic Analysis of the Control Rod Ejection Transient for Pressurized Water Reactors,' Exxon Nuclear Company, Inc., October 1983

10. XN-NF-621(P)(A) Revision 1, 'Exxon Nuclear DNB Correlation for PWR Fuel Designs," Exxon Nuclear Company, Inc., September 1983

11. EMF-2087(P)(A) Revision 0, "SEMWPWR-98: ECCS Evaluation Model for PWR LBLOCA Applications," Siemens Power Corporation, June 1999 S_Lu_ Unit 1 Cycle 20 CL Rv 0 - P. 12 of 13 SL Lucie Unit I Cycle 20 COLR Rev 0 Page 12 of 13

St. Lucie Unit 1 Docket No. 50-335 L-2005-232 Attachment

12. XN-NF-82-06(P)(A) Revision 1,and Supplements 2,4 and 5, Qualification of Exxon Nuclear Fuel for Extended Burnup," Exxon Nuclear Company, Inc., October 1986

13. ANF-88-133(P)(A) and Supplement 1, 'Qualification of Advanced Nuclear Fuels' PWR Design Methodology for Rod Burnups of 62 GWdIMTU," Advanced Nuclear Fuels Corporation, December 1991

14. XN-NF-85-92(P)(A), 'Exxon Nuclear Uranium Dioxide/Gadolinia Irradiation Examination and Thermal Conductivity Results," Exxon Nuclear Company, Inc.,

November 1986

15. ANF-89-151(P)(A), "ANF-RELAP Methodology for Pressurized Water Reactors:

Analysis of Non-LOCA Chapter 15 Events," Advanced Nuclear Fuels Corporation, May 1992

16. Deleted

17. EMF-92-116(P)(A), Revision 0, "Generic Mechanical Design Criteria for PWR Fuel Design," Siemens Power Corporation, February 1999

18. EMF-92-153(P)(A) Revision 1, 'HTP: Departure from Nucleate Boiling Correlation for High Thermal Performance Fuel," Siemens Power Corporation, January 2005

19. EMF-96-029(P)(A) Volumes 1 and 2, 'Reactor Analysis System for PWRs Volume 1 - Methodology Description, Volume 2 - Benchmarking Results," Siemens Power Corporation, January 1997

20. EMF-1961 (P)(A), Revision 0, "Statistical Setpoint/Transient Methodology for Combustion Engineering Type Reactors," Siemens Power Corporation, July 2000

21. EMF-2310(P)(A), Rcvision 1, "SRP Chapter 15 Non-LOCA Methodology for Pressurized Water Reactors," May 2004

22. EMF-2328(P)(A), Revision 0, "PWR Small Break LOCA Evaluation Model, S-RELAP5 Based," March 2001 St c 0 ---.-U1 ----Page 13 o 13_

St. Lucie Unit 1 Cycle 20 COLR Rev 0 Page 13 of 13