Core Operating Limits Report (Colr), Cycle 27, Revision 1

ML111800501
Person / Time
Site:	Prairie Island
Issue date:	06/28/2011
From:	Schimmel M Northern States Power Co, Xcel Energy
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
L-PI-11-063
Download: ML111800501 (33)
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Text

TeXcel EnergyB L-PI-I 1-063 TS 5.6.5.d U S Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001 Prairie Island Nuclear Generating Plant Unit 1 Docket 50-282 License No. DPR-42 Core Operating Limits Report (COLR) for Prairie Island Nuclear Generating Plant (PINGP) Unit 1, Cycle 27, Revision 1 Pursuant to the requirements of Technical Specification 5.6.5.d, the COLR for the PINGP Unit 1, Cycle 27, Revision I , is attached. The limits specified in the attached COLR have been established using Nuclear Regulatory Commission (NRC) approved methodologies.

The COLR has been updated for the Unit 1 Cycle 27, Modes 1 through 6. The following sections have been revised with issuance of Revision 1:

Added the information to item 1 and items 3 through 11 that was previously excluded from Revision 0, pending entering Modes 1 and 2.

Revised the References section, reference 32, to update the 50.59 evaluation 1086 for Revision I , "Unit 1 Cycle 27 Core Reload Modification."

Revised Table I , Minimum Required Shutdown Margin, to add the requirements for Modes 1 and 2.

Added Tables 2 through 6 and Figures Iand 6, which were previously excluded from Revision 0, pending entering Modes Iand 2.

Summaw of Commitments This letter contains no new commitments and no revisions to existing commitments.

Mark A. Schimmel Site Vice President, Prairie Island Nuclear Generating Plant Northern States Power Company - Minnesota 1717 Wakonade Drive East Welch, Minnesota 55089-9642 Telephone: 651.388.1121

Document Control Desk Page 2 Enclosure cc: Administrator, Region Ill, USNRC Project Manager, Prairie Island, USNRC Resident Inspector, Prairie Island, USNRC State of Minnesota

ENCLOSURE PRAIRIE ISLAND NUCLEAR GENERATING PLANT CORE OPERATING LIMITS REPORT UNIT 1 - CYCLE 27 REVISION 1 Record of Revision (6 pages)

PlNGP COLR Unit 1 - Cycle 27, Revision 1 (24 pages)

PRAIRIE ISLAND NUCLEAR GENERATING PLANT Core Operating Limits Report Record of Revision Unit Revision Approval Cycle No. Date Remarks 0 3/22/90 Original Unit 2 Core Operating Limits Report, distributed with Technical Specification Revision 92.

3/22/90 Original Unit 1 Core Operating Limits Report, distributed with Technical Specification Revision 92.

7/27/90 lncorporated expanded V(z) curves.

9/27/90 Clarified rod insertion limit curve applicability 211 1191 lncorporated revised FQof 2.45 as a result of NRC approval of Westinghouse Topical Report WCAP-10924-P-A, Volume 1, Addendum 4, October 1990.

- Not used.

9/27/90. Updated to Unit 2 Cycle 14, incorporated expanded V(z) curves and clarified rod insertion limit curve applicability.

211 1/91 lncorporated revised Fa of 2.45 as a result of NRC approval of Westinghouse Topical Report WCAP-10924-P-A, Volume I , Addendum 4, October 1990.

6/25/91 Updated to Unit 1 Cycle 15.

3/9/92 Updated to Unit 2 Cycle 15 and clarified labeling of Figure 4. Clarified the actions to be taken if the nuclear enthalpy rise hot channel factor exceeds the Technical Specification limit.

12/28/92 Updated to Unit 1 Cycle 16, removed V(z) curves and replaced them with list of bounding V(z) values for three ranges of exposures.

12/8/93 Updated to Unit 2 Cycle 16. Removed the multiple V(z) curves and replaced them with a single figure with bounding V(z) curves for four ranges of exposures. lncorporated additional discussion related to V(z) and K(z).

Page Iof 6

PRAIRIE ISLAND NUCLEAR GENERATING PLANT Core Operating Limits Report Record of Revision Unit Revision Approval Cycle No. Date Remarks 2 16 1 11/3/94 The table containing the bounding V(z) values and Figure 2 updated to incorporate revised bounding V(z) values for the exposure range of 14-21.5 GWDIMTU. Figures 3 through 6 re-formatted.

0 6117/94 Updated to Unit 1 Cycle 17. Removed the list of bounding V(z) values and replaced it with multiple V(z) curves. lncorporated additional discussion related to V(z) and K(z).

0 6/2/95 Updated to Unit 2 Cycle 17. Incorporated Table 1 and expanded Figure 2 with updated bounding V(z) values.

0 2/7/96 Updated to Unit 1 Cycle 18. Incorporated revised F

, limit of 1.77. lncorporated Table Iand updated Figure 2 with revised bounding V(z) values.

0 2127197 Updated to Unit 2 Cycle 18. Revised F , limit to 1.77. Updated Table 1 and Figures 2a through 2e with revised bounding V(z) values.

lncorporated new Figures 2f and 29 with additional bounding V(z) values.

0 9/25/97 Updated to Unit 1 Cycle 19. Updated Table 1 and Figures 2a through 2f with revised bounding V(z) values.

0 12/17/98 Updated to Unit 2 Cycle 19. Updated Table 1 and Figures 2a through 2d with revised bounding V(z) values. Deleted Figures 2e, 2f and 29.

0 5/13/99 Updated to Unit 1 Cycle 20. Updated Table 1 and Figures 2a through 2f with revised bounding V(z) values.

1 8/4/00 Technical Specification Amendment 151:

Relocate shutdown margin (SDM) requirements from Tech Specs and incorporate additional SDM requirements for Modes 3-6 from revised analysis of Uncontrolled Dilution event.

Page 2 of 6

PRAIRIE ISLAND NUCLEAR GENERATING PLANT Core Operating Limits Report Record of Revision Unit Revision Approval Cycle No. Date Remarks 0 5/31/00 Updated to Unit 2 Cycle 20. Updated Table 1 and Figures 2a through 2d with revised bounding V(z) values. Added new Table 2 and Figures 2e, 2f and 29 with additional bounding V(z) values.

Added references to Tables 1 and 2 and to Figures 2e, 2f and 29 to discussion of heat flux hot channel factor limits. Added discussion clarifying applicability of axial flux difference limits when using Tables 1 and 2 and Figures 2a through 29. Added discussion of two tier V(z) curve presented in Table 2 and Figure 29.

1 814100 Technical Specification Amendment 142:

Relocate shutdown margin (SDM) requirements from Tech Specs and incorporate additional SDM requirements for Modes 3-6 from revised analysis of Uncontrolled Dilution event.

2 9/1/00 Revised to change axial flux difference target band.

0 1/31/01 Updated to support refueling activities associated with Unit 1 Cycle 21. Revision 0 of the Unit 1 Cycle 21 COLR had to be issued prior to confirming the applicability of the LOCA analysis.

Therefore, Revision 0 of the Unit 1 Cycle 21 COLR does not contain all of the operating limits necessary to support operation of Unit 1 Cycle I

21. I 2/19/01 Updated to Unit 1 Cycle 21. Updated Tables 1 and 2 and Figures 2a through 2f with revised bounding V(z) values.

2 10/02/02 Revised to support License Amendment 158 changes, including revision of all references to TS, revision of Fa symbols, addition of Table 4, ITC limits, DNB limits and refueling boron concentrations.

0 2/06/02 Updated to Unit 2 Cycle 21 .

I Page 3 of 6

PRAIRIE ISLAND NUCLEAR GENERATING PLANT Core Operating Limits Report Record of Revision Unit Revision Approval Cycle No. Date Remarks 2 21 1 10/02/02 Revised to support License Amendment 149 changes, including revision of all references to TS, revision of FQsymbols, addition of Table 4, ITC limits, DNB limits and refueling boron concentrations. Also revised to include an additional V(z) curve to give greater FQmargin between 13.0 and 16.0 GWdIMTU.

0 11/25/02 Updated to Unit ICycle 22. Updated Tables 1 and 2 and Figures 2a through 2f with revised bounding V(z) values. Incorporated new Figure 29 with additional bounding V(z) values.

Updated Table 3 with revised minimum shutdown margin limits. Deleted and revised text to eliminate duplication with the Technical Specifications and the Bases.

0 9/19/03, Updated to Unit 2 Cycle 22. Updated Tables 1 and 2. A reduced number of exposure ranges were calculated in Table I , therefore new Figures 2a through 2e with revised bounding V(z) values replaced Figures 2a through 2f. New Figure 2f replaced Figure 29 for the 2 tier band bounding V(z) values. Updated Table 3 with revised minimum shutdown margin limits. Deleted and revised text to eliminate duplication with the Technical Specifications and the Bases.

1 7/6/04 Revision to incorporate Westinghouse Safety Analysis Transition per LA 1621153. Revision 1 contains transitional values for the OPIOT AT Trip setpoints that will be used while the physical changes are implemented.

1 7/6/04 Revision to incorporate Westinghouse Safety Analysis transition per LA 1621153. Revision 1 contains transitional values for the OPIOT AT Trip setpoints that will be used while the physical changes are implemented.

2 7/12/04 Revised Fq limit from 2.4 to 2.5. Removed OP and OT delta-T setpoints based on NMC methodology and replaced with Westinghouse developed setpoints.

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PRAIRIE ISLAND NUCLEAR GENERATING PLANT Core Operating Limits Report Record of Revision Unit Revision Approval Cycle No. Date Remarks 1 22 2 7/16/04 Revised Fq limit form 2.4 to 2.5. Removed OP and OT delta-T setpoints based on NMC methodology and replaced with Westinghouse developed setpoints.

0 10/20/04 Updated to Unit 1 Cycle 23.

0 Not used due to core redesign.

1 5119/05 Updated to Unit 2 Cycle 23 and to support redesign of Unit 2 Cycle 23 core.

1 711 1/05 Revised ITC upper limit from < 0 pcmI0F for power levels > 70% RTP to less than a line that slopes linearly from 0 pcm/"F at 70% RTP to -2.9 pcm/"F at 100% RTP. Revised the title of Figure 3 to reference T.S. 3.1.4 Condition B and revised the title of Figure 4 to reference T.S. 3.1.4 Condition A. Added references 24 and 25 to include the 50.59 screenings written to issue revision 1.

0 5/10/06 Updated to Unit 1 Cycle 24.

1 8/7/06 Updated Table 3 to reflect the correct FqW(z) penalty factors.

0 11/26/06 Updated to Unit 2 Cycle 24 Modes 5 and 6.

1 12/6/06 Updated to Unit 2 Cycle 24 for Modes 1-6.

2 9/4/07 Revised to support LA-1791169. Revised reference 24 to include the revision number (revision 0) and the correct date of the report (January 2005). Revised references 6a, 6b, 6c, and 8 to say 'Deleted.' These references referred to the old LBLOCA methodology and model.

2 211 1/08 Updated Table 1 to reflect correct Shutdown Margin Requirements and added Figures 6A through 6H.

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PRAIRIE ISLAND NUCLEAR GENERATING PLANT Core Operating Limits Report Record of Revision Unit Revision Approval Cycle No. Date Remarks 2 24 3 211 1/08 Updated Table 1 to reflect correct Shutdown Margin Requirements and added Figures 6A through 6H.

0 2/24/08 Updated to Unit 1 Cycle 25 1 5/28/08 Updated Table 2 to reflect the correct W(z) at a burnup of 150 MWdIMTU and a core height of 6.20 feet 0 9/26/08 Updated for Unit 2 Cycle 25 0 9/24/09 Updated for Unit 1 Cycle 26 0 513110 Updated for Unit 2 Cycle 26 1 5/17/10 Updated to include part power W(z) factors 1 912110 Updated for second set of W(z) factors 2 9/30/10 Updated for Measurement Uncertainty Recapture power uprate to 1677 MWth and for a second set of W(z) factors 2 9130110 Updated for Measurement Uncertainty Recapture power uprate to 1677 MWth 3 12/17/10 Updated SDM in Table 1 for Mode 2 to say 1.9.

0 5/5/11 Updated for Unit 1 Cycle 27 1 612111 Updated for Unit 1 Cycle 27 Modes 1 through 6 Page 6 of 6

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 PRAIRZE: ISLAND NUCLEAR GENERATING PLANT CORE OPERATING LIMITS REPORT UNIT 1 - CYCLE 27 REVISION 1 Reviewed By: > Date: /A J!

Supervisor, NSSS Supervisor, PWR Analyses Approved By: Date: &/~k/,

Tim ~ l l e p Director, Site Engineering-Interim Note: This report is not past of the Technical Specifications This report is referenced in the Technical Specifications Page 1 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 i

PRAIRIE ISLAND NUCLEAR GENERATING PLANT CORE OPERATING LIMITS REPORT UNIT 1 - CYCLE 27 I REVISION 1 This report provides the values of the limits for Unit 1 Cycle 27 as required by Technical Specification 5.6.5. These values have been established using NRC approved methodology and are established such that all applicable limits of the plant safety analysis are met. The Technical Specifications affected by this report are listed below:

Reactor Core SLs Shutdown Margin (SDM)

Isothermal Temperature Coefficient (ITC)

Shutdown Bank Insertion Limits Control Bank Insertion Limits Physics Tests Exceptions - MODE 2 Heat Flux Hot Channel Factor (FQ(z))

Nuclear Enthalpy Rise Hot Channel Factor (FL)

Axial Flux Difference (AFD)

Reactor Trip System (RTS) Instrumentation Overtemperature AT and Overpower AT Parameter Values for Technical Specification Table 3.3.1-1 (Note 1 and Note 2)

RCS Pressure, Temperature, and Flow - Departure from Nucleate Boiling (DNB) Limits Boron Concentration

1. 2.1.1 Reactor Core Safety Limits I Reactor Core Safety Limits are shown in Figure 1.

Reference Technical Specification 2.1.1,

2. 3.1.1 Shutdown Margin Requirements Minimum Shutdown Margin requirements are shown in Table 1.

Reference Technical Specification 3.1.1.

Page 2 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 i 3. 3.1.3 Isothermal Temperature Coefficient (ITC)

ITC Upper limit:

a. < 5 p c d ° F for power levels < 70% RTP; and

b. a line which slopes linearly from

i. 0 p c d ° F at a power level = 70% RTP to ii. -1.5 p c d ° F at a power level = 100% RTP ITC Lower limit:

a. -43.15 p c d ° F Reference Technical Specification 3.1.3.

4. 3.1.5 Shutdown Bank Insertion Limits The shutdown rods shall be fully withdrawn.

Reference Technical Specification 3.1.5.

5. 3.1.6 Control Bank Insertion Limits i

The control rod banks shall be limited in physical insertion as shown in Figures 2, 3, and 4.

The control rod banks withdrawal sequence shall be Bank A, Bank B, Bank C, and finally Bank D.

The control rod banks shall be withdrawn maintaining 128 step tip-to-tip distance.

Reference Technical Specification 3.1.6.

6. 3.1.8 Physics Tests Exceptions - MODE 2 Minimum Shutdown Margin requirements during physics testing are-shown in Table 1.

Reference Technical Specification 3.1.8.

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Core Operating Limits Report Unit 1, Cycle 27 Revision 1

\

7. 3.2.1 Heat Flux Hot Channel Factor (Fo(Z))

The Heat Flux Hot Channel Factor shall be within the following limits:

I I CFQ = 2.50 IC(Z) is a constant value = 1.0 at all elevations.

The HFP W(Z) values are provided in Table 2 and Table 4.

The W(Z) values in Table 2 are only applicable to Figure 5.

The W(Z) values in Table 4 are only applicable to Figure 6.

The data in Tables 2 and 4 should be used independently; cross interpolation or extrapolation between W(Z) sets is prohibited.

The Past Power W(Z) values for 75% 5 P < 85% and Part Power W(Z) values for 85 5 P < 95% are provided in Table 6.

i I

I The W(Z) values in Table 6 are only applicable to Figure 5.

The F ~ ~ ( Penalty Z) Factors associated with Figure 5 and Table 2 are provided in I Table 3.

The F ~ ~ ( Penalty z) Factors associated with Figure 6 and Table 4 are provided in Table 5.

The Axial Flux Difference (AFD) Band in Figure 6 is more restrictive than the AFD Band in Figure 5. Prior to switching from Figure 6 to Figure 5, F ~ ~ ( must z) be confirmed to meet Technical Specification requirements by one of the follow methods:

1. Confirm F ~ Q ( Zmeets

) the Technical Specification Limit with the Table 2 W(Z) values for the most recent surveillance performed.

2. Perform a new surveillance and confirm F ~ Q ( Z meets ) the Technical Specification Limit with the Table 2 W(Z) values.

The HFP W(Z) values are generated assuming that they will be used for full power surveillance. When a part power surveillance is performed from BOC through 150 MWdIMTU and at a power level specified for Table 6, the W(Z) values provided in Table 6 should be used. When a part power surveillance is Page 4 o f 24

Core Operating Limits Report Unit 1, Cycle 27 Revision I performed after 150 MWDIMTU, or at a power level other than those specified for Table 6, the HFP W(Z) values in Table 2 or Table 4 should be used.

W(Z) values should be multiplied by the factor 1/P, when P > 0.5. When P is I 0.5, the W(Z) values should be multiplied by the factor 1/(0.5), or 2.0. This is consistent with the adjustment in the FQ(Z)limit at part power conditions.

Reference 10 provides the basis for multiple sets of W(Z) curves.

Reference Technical Specification 3.2.1.

8. 3.2.2 Nuclear Enthalp~Rise Hot Channel Factor  !~~a The Nuclear Enthalpy Rise Hot Channel Factor shall be within the following limits:

FAH< 1.77 x [I + 0.3(1- P)] for all 422V+ type fuel assemblies, and FAHI 1.674 x [l + 0.3(1- P)] for all OFA type fuel assemblies where: P is the fiaction of RATED THERMAL POWER at which i the core is operating.

I Reference Technical Specification 3.2.2.

9. 3.2.3 Axial Flux Difference (AFD)

The indicated axial flux difference shall be maintained within the allowed operational space defined by Figure 5 or the more restrictive operational space as defined by Figure 6.

Both Figures 5 and 6 can be used any time during the cycle.

Prior to switching to the more restrictive AFD envelope (Figure 6), it should be confirmed that the plant is within the specified AFD envelope.

Reference Technical Specification 3.2.3.

Page 5 of 24

Core Operating Limits Report Unit 1, Cycle 27 I Revision I i

10. 3.3.1 Reactor Trip Spstem (RTS) Instrumentation Overtemperature AT and Overpower AT Parameter Values for Technical Specification Table 3.3.1-1 (Note 1 and Note 2):

Overtemperature AT Setpoint Overtemperature AT setpoint parameter values:

Indicated AT at RATED THERMAL POWER, %

Average temperature, OF 560.0 OF Pressurizer Pressure, psig 2235 psig 1.17 0.014 1°F 0.00100 /psi 30 seconds 4 seconds A function of the indicated difference between top and bottom detectors of the power range nuclear ion chambers. Selected gains are based on measured instrument response during plant startup tests, where qt and qb are the percent power in the top and bottom halves of the core respectively, and qt + q b is total core power in percent of RATED THERMAL POWER, such that (a) For qt - qb within -13, +8 % f(A1) = 0 (b) For each percent that the magnitude of qt - qb exceeds +8%

'the AT trip setpoint shall be automatically reduced by an equivalent of 1.73 % of RATED THERMAL POWER.

(c) For each percent that the magnitude of qt - qb exceeds -13 %

the AT trip setpoint shall be automatically reduced by an equivalent of 3.846 % of RATED THERMAL POWER.

Overpower AT Setpoint Overpower AT setpoint parameter values:

ATo = Indicated AT at RATED THERMAL POWER, %

T = Average temperature, OF T' = 560.0 OF KL, < 1.11 K5 = 0.0275PF for increasing T; 0 for decreasing T K6

= 0.002I0Ffor T > T' ;0 for T < T' 73 = 10 seconds Reference Technical Specification 3.3.1.

Page 6 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 t 11. 3.4.1 RCS Pressure, Temperature, and Flow - Departure from Nucleate Boiling (DNB)

Limits The DNB Limits are:

Pressurizer pressure limit = 2 190 psia RCS average temperature limit = 564°F RCS total flow rate limit = 178,000 gpm Reference Technical Specification 3.4.1.

12. 3.9.1 Refueling Boron Concentration.

The boron concentration of the reactor coolant system and the refueling cavity shall be sufficient to ensure that the more restrictive of the following conditions is met:

a) Keff 5 0.95 b) 2000 ppm c) The Shutdown Margin specified in Table 1 Reference Technical Specification 3.9.1.

Page 7 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 REFERENCES (NRC Approved Methodologies for COLR Parameters)

1. NSPNAD-8 101-A, "Qualification of Reactor Physics Methods for Application to Prairie Island,"

Revision 2, October 2000.

2. NSPNAD-8102-PA, "Prairie Island Nuclear Power Plant Reload Safety Evaluation Methods for Application to PI Units," Revision 7, July 1999.

3. NSPNAD-97002-PA, "Northern States Power Company's "Steam Line Break Methodology,"

Revision 1, October 2000.

WCAP-9272-P-A, "Westinghouse Reload Safety Evaluation Methodology," July, 1985.

WCAP-10054-P-A, "Westinghouse Small Break ECCS Evaluation Model using the NOTRUMP Code," August, 1985.

WCAP-10054-P-A, "Westinghouse Small Break ECCS Evaluation Model using the NOTRUMP Code," Addendum 2 Revision 1, July 1997.

Not used.

WCAP- 10924-P-A, Volume 1, Revision 1, and Volume 2, Revision 2, "Westinghouse Large Break LOCA Best Estimate Methodology," September 2005.

XN-NF-77-57-(A), XN-NF-77-57, Supplement 1 (A), "Exxon Nuclear Power Distribution Control for Pressurized Water Reactors Phase II," May 1981.

WCAP-13677-P-A, "10 CFR 50.46 Evaluation Model Report: W-COBRAITRAC 2-Loop Upper Plenum Injection Model Update to Support ZIRLO@Cladding Options," February 1994.

NSPNAD-93003-A, "Prairie Island Units 1 and 2 .Transient Power Distribution Methodology,"

Revision 0, April 1993.

NAD-PI-003, "Prairie Island Nuclear Power Plant Required Shutdown Margin During Physics Tests," Revision 0, January 200 1.

NAD-PI-004, "Prairie Island Nuclear Power Plant F ~ ~ ( Penalty z) With Increasing [F'~(z) I K(Z)

Trend," Revision 0, January 200 1.

13. WCAP- 10216-P-A, Revision 1A, "Relaxation of Constant Axial Offset Control1 FQ Surveillance Technical Specification," February 1994.

ZIRLO@is a registered trademark of Westinghouse Electric Company LLC in the United States and may be registered in other countries throughout the world. All rights reserved. Unauthorized use is strictly I prohibited.

Page 8 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 WCAP-8745-P-A, "Design Bases for the Thermal Overpower AT and Thermal Overtemperature AT Trip Functions," September 1986.

WCAP-11397-P-A, "Revised Thermal Design Procedure," April 1989.

WCAP-14483-A, "Generic Methodology for Expanded Core Operating Limits Report," January 1999.

WCAP-7588 Rev. 1-A, "An Evaluation of the Rod Ejection Accident in Westinghouse Pressurized Water Reactors Using Spatial Kinetics Methods," January 1975.

WCAP-7908-A, "FACTRAN - A FORTRAN IV Code for Thermal Transients in a UOz Fuel Rod," December 1989.

WCAP-7907-P-A, "LOFTRAN Code Description," April 1984.

WCAP-7979-P-A, "TWINIUE - A Multidimensional Neutron Kinetics Computer Code,"

January 1975.

WCAP-10965-P-A, "ANC: A Westinghouse Advanced Nodal Computer Code," September 1986.

WCAP-11394-P-A, "Methodo1ogy for the Analysis of the Dropped Rod Event," January 1990.

WCAP-11596-P-A, "Qualification of the PHOENIX-PIANC Nuclear Design System for Pressurized Water Reactor Cores," June 1988.

WCAP-12910 Rev. 1-A, "Pressurizer Safety Valve Set Pressure Shift," May 1993.

WCAP- 14565-P-A, "VIPRE-0 1 Modeling and Qualification for Pressurized Water Reactor Non-LOCA Thermal-Hydraulic Safety Analysis," October 1999.

WCAP-14882-P-A, "RETRAN-02 Modeling and Qualification for Westinghouse Pressurized Water Reactor Non-LOCA Safety Analyses," April 1999.

WCAP-16009-P-A, "Realistic Large-Break LOCA Evaluation Methodology Using the Automated Statistical Treatment Of Uncertainty Method (ASTRUM)," Revision 0, January 2005.

Caldon, Inc. Engineering Report-SOP, "Improving Thermal Power Accuracy and Plant Safety While Increasing Operating Power Level Using the LEFM ~ T System,"

M Revision 0, March 1997.

Caldon, Inc. Engineering Report-157P, "Supplement to Topical Repoi-t ER-SOP: Basis for a Power Uprate With the LEFM ~ T M Check or CheckPlusTMSystem," Revision 5, October 2001.

WCAP-12610-P-A, "VANTAGE+ Fuel Assembly Reference Core Report," April 1995.

Page 9 of 24

Core Operating Limits Report Unit 1, Cycle 27 I Revision I i

3 1. WCAP-12610-P-A and CENPD-404-P-A, Addendum 1-A, "Optimized ZIRLOTM," July 2006.

1 32. 50.59 Evaluation 1086, Revision 1, "Unit 1 Cycle 2'7 Core Reload Modification."

Optimized ZRL,OTMis a trademark of Westinghouse Electric Company LLC in the United States and may be registered in other countries throughout the world. All rights reserved. Unauthorized use is strictly prohibited.

Page 10 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 Table 1 Minimum Required Shutdown Margin, %Ap Number of Charging Pumps RunningA*

Mode I*

0-1 Pump 2 Pumps 3 Pumps 0 - 20000 MWdIMTU - - -

Mode 2" 0-1 Pump 2 Pumps 3 Pumps 0 - 20000 MWdIMTU 1.9 1.9 1.9 Physics Testing in Mode 2 0-1 Pump 2 Pumps 3 Pumps 0 - 20000 MWdIMTU 0.5 0.5 0.5 Mode 3 Tave 2 520 OF (Most Reactive Rod Out) 0-1 Pump 2 Pumps 3 Pumps 0 - 20000 MWdMTU 2.0 2.0 2.0 Mode 3 350 OF ITave < 520°F (Most Reactive Rod Out) 0-1 Pump 2 Pumps 3 Pumps 0 MWdIMTU 2.0 2.0 2.5 12000 MWdIMTU 2.0 2.0 2.0 20000 MWdIMTU 2.0 2.0 2.0 Mode 4 200 OF < Tave < 350°F (Most Reactive Rod Out) 0-1 Pump 2 Pumps 3 Pumps 0 MWdIMTU 2.0 4.0 6.5 12000 MWdMTU 2.0 3.0 4.5 20000 MWdIMTU 2.0 2.0 2.5 Operational Mode Definitions, as per TS Table 1.1- 1.

• For Mode 1 and Mode 2 with L 1.0, the minimum shutdown margin requirements are provided by the Rod Insertion Limits.

• • Charging pump(s) in service only pertains to steady state operations. It does not include transitory operations. For example, operations such as starting a second charging pump in order to secure the operating pump would fall under the one pump in service column.

Page 11 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 Table 1, Continued Minimum Required Shutdown Margin, %Ap Number of Charging Pumps Running**

Mode 5 68°F 5 Tave 5 200°F (Most Reactive Rod Out) 0-1 Pump 2 Pumps 3 Pumps 0 MWdIMTU**

• 2.5 4.5 7.5 12000 MWdIMTU 2.0 3 .O 5.0 20000 MWdIMTU 2.0 2.0 3O.

Mode 6 68°F I Tave < 200°F (ART) 0-1 Pump 2 Pumps 3 Pumps 0 MWd/MTU*** 5.129 5.129 7.0 12000 MWdIMTU 5.129 5.129 5.129 20000 MWdIMTU 5.129 5.129 5.129 Mode 6 68°F 4 Tave < 200°F (ARO) 0-1 Pump 2 Pumps 3 Pumps 0 MWdIMTU**

• 5.129 5.5 9.0 12000 MWdIMTU 5.129 5.129 7.0 20000 MWdIMTU 5.129 5.129 5.129 Operational Mode Definitions, as per TS Table 1.1-1.

• • Charging pump(s) in service only pertains to steady state operations. It does not include transitory operations. For example, operations such as starting a second charging pump in order to secure the operating pump would fall under the one pump in service column.

• • • These values are also applicable for the Unit 1 Cycle 26 end of cycle.

Page 12 of 24

Core Operating Limits Report Unit 1, Cycle 27 I Revision 1 Table 2 W(z) Values associated with Figure 5 (Top 10% and Bottom 8% excluded)&

I Height I BU [MWdlMTU]

I0 1.8O 1.2391 1,1628 1,1506 1 .I346 1,1593 1.1788 1 .I739 11 2.00 1.2235 1,1520 1.1400 1 ,1246 1.1495 1.1680 1.1633 12 2.20 1.2074 1.I411 1.1293 1.1144 1.1396 1.1571 1.1526 13 2-40 1,1910 1.1296 1.1186 1.1044 1.1297 1.1462 1 .I420 14 2.60 1.1745 1.1185 1.1080 1 ,0945 1.1200 1.1353 1.1314 15 2.80 1.1572 1.1131 1 ,0971 1 ,0844 1.1103 1 ,1241 1 .I200 16 3.00 1.1468 1,1120 1 ,0896 I,0778 1 .I014 1.1156 1.1159 17 3-20 1.1426 1.1116 1.0877 1 ,0769 1 ,0989 1.1148 1 .I168 18 3-40 1.1401 1.1107 1.0884 1 ,0786 1.1026 1.1200 1.1231 19 3.60 I, 1380 1.I104 1.0918 1.0838 1.1053 1.1236 1.1280 20 3.80 1.1370 1 .I101 1 ,0968 1 ,0905 1.1083 1.1262 1,1321 21 4-00 1.1357 1.1114 1 .I017 1 ,0968 1.1132 1 .I307 1.1380 22 4.20 1 .I335 1.1139 1.1057 1.I024 1.1185 1 .I359 1 .I445 23 4-40 1 ,1307 1.1154 1.1091 1.1073 1.1227 1.1397 1.1494 24 4.60 1.1273 1.1163 1.1123 1.I114 1.1261 1 .I427 1 .I533 25 4.80 1.1233 1.1165 1.1168 1.1156 1.1287 I. 1445 1.1560 26 5.00 1.1190 1.1168 1.1210 1 ,1205 1,1304 1.1458 1.1579 27 5.20 1.1133 1.I179 1 .I243 1,1252 1.1317 1.1452 1.1583 28 5.40 1 .I092 1.1201 1,1269 1.1290 1.1332 1.1456 1.1586 29 5.60 1,1114 1.I231 1.1289 1.1326 1.1365 I. 1544 1.1662 30 5.80 1.1147 1.1275 1.1344 1.1370 1 .I479 1.1652 1,1777 31 6.00 1 .I193 1.1342 1.1435 1.I455 1.1622 1,1755 1.1888 32 6.20 1.1242 1.1432 1.1544 1.1562 1,1753 1,1846 1.1984 33 6.40 1.1284 1.1532 1,1653 1.1653 1.1875 1.1927 1,2068 34 6-60 1 ,1346 1.1620 1.1752 1.1736 1.1986 1.1994 1.2138 35 6.80 1.1422 1.1699 1.1841 1,1809 1 ,2084 1 ,2048 1.2194 36 7.00 1.1493 1.1767 1 .I917 1,1867 1.2167 1.2088 1.2235

37. 7.20 1.1553 1,1824 1.1983 1.1919 1 ,2235 1.2118 1.2265

• Linear extrapolation based on a line between 16,000 M W D N T U and 18,000 MWDIMTU is adequate for addressing burnups beyond 18,000 M W D N T U .

Page 13 o f 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 Table 2 (cont.) - W(z) Values associated with Figure 5 (Top 10% and Bottom 8% excluded)*

41 8.00 1.1667 1.1945 1.2186 1.2167 1.2310 1 ,2079 1 ,2209 42 8.20 1.1657 1.1934 1.2216 1.2195 I,2274 1 ,2020 1.2139 43 8-40 1.1631 1.1902 1 ,2225 1 .2200 1.2212 1.1936 1 ,2047 44 8.60 1.1588 1.1848 1.2210 1.2183 1,2124 1 .I824 1.1946 45 8.80 1.1511 1.1804 1,2184 1.2174 1 ,2035 1.1782 1.1889 46 9.00 1.1489 1.1784 1.2180 1.2184 1.1937 1.1770 1.1839 47 9.20 1.1566 1.1781 1.2207 1.2199 1.1831 1.1731 1.1745 48 9.40 1,1684 1.1790 1 ,2246 1.2188 1.1782 1.1670 1.1648 49 9.60 1.1785 1.1855 1.2268 1 ,2209 1 .I859 1.1608 1 .I676 50 9.80 1 .I918 1,1945 1.2304 1,2213 1.1949 1.1603 1.1714 51 10.00 1.2020 1 .2034 1.2350 1 .2220 1 .2021 1,1618 1 .I730 52 10.20 1.2121 1.2115 1.2412 1.2252 1.2092 1 .I635 1.1742 53 10.40 1.2232 1.2187 I.2492 1 .2282 1.2155 1 ,1642 1.1743 54 10.60 1,2264 1.2250 1 ,2563 1 ,2334 1,2213 1.1670 1.1746 55 10.80 1.2206 1.2301 1,2621 1 ,2382 1 ,2256 I,1737 1.1771 56 11-00 1.0000 I.OOOO 1 .OOOO I.OOOO 1 .OOOO 1 .OOOO 1 .OOOO 57 11 - 2 0 1 .oooo 1 .oooo 1 .oooo 1 .oooo 1 .oooo 1 .oooo 1 .oooo 58 11,40 1.0000 1 .OOOO 1 .OOOO .

1 0000 1 .OOOO 1 .OOOO 1 .OOOO 59 11-60 1.0000 1 .oooo 1 .oooo 1 .oooo 1 .oooo 1 .oooo 1 .oooo 60 11-80 1.0000 1 .OOOO 1 ,0000 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO

[TOP] 61 12.00 1 ,0000 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO 1 ,0000

• Linear extrapolation based on a line between 16,000 MWDIMTU and 18,000 MWDIMTU is adequate for addressing burnups beyond 18,000 MWDIMTU.

Table 3

~ ~ ~Penalty ( 2 Factor

) associated with Figure 5 and Table 2 Cycle Burnup (MWDIMTU) FWo(Z)Penalty Factor 0 1.0200 20000 1.0200 Linear interpolation is adequate for intermediate cycle burnups, Page 14 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision I Table 4 - W(z) Values associated with Figure 6 (Top 10% and Bottom 8% excluded)*

1 Hninht I BU lMWdlMTUl 150 5000 9000 12000 14000 16000 18000 Ifil A 0 = 0.38 A 0 = -1.89 A 0 = -3.59 A 0 = -4.17 A0 = -2.17 A 0 = -0.82 A 0 = -1.01

[BOTTOM] 1 0.00 1 ,0000 I,0000 1 .OOOO 1 . 0000 1 .OOOO 1 .OOOO 1 .OOOO 37 17.20 1 1.1393 1 1.1823 1.1983 1 1.1917 1 1.2012 1 1.2109 1 1.2254

• Linear extrar~olationbased on a line between 16,000 MWDIMTU and 18,000 MWD/MTU is adequate for addressing burnups beyond 18,000 MWDIMTU.

Page 15 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 Table 4 (cont.) - W(z) Values associated with Figure 6 (Top 10% and Bottom 8% excluded)*

46 9.00 1 .I295 1,1590 1.1842 1.1986 1,1595 1.1564 1.1545 47 9.20 1.1343 1.1593 1.1770 I. I 9 8 5 1.1565 1.1508 1.1401 48 9.40 1.1385 1.1639 1.1791 1.1994 1.1541 1 .I463 1.1289 49 9.60 1.1495 1.1672 1.1854 1.2012 1 .I587 1.1445 1.1190 50 9.80 1.1599 1.1741 1,1921 1.2017 1.1637 1.1439 1,1175 51 10.00 1.1699 1.1804 1.I979 1 ,2033 1.1671 1 .I459 1.1179 52 10.20 1.1820 1.1849 1 ,2023 1 .2092 1.1697 1.1520 1.1193 53 10.40 1.1898 1.1909 1 .2055 1.2164 1.1711 1.1568 I. 1232 54 10.60 1.1950 1.1909 1.2113 1 .2226 1.1742 1.1612 1.1300 55 10.80 1.1905 1.1911 1.2168 1 ,2277 1 .I762 1.1649 1.1485 56 11 . O O 1.0000 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO 57 11.20 1.0000 1 .oooo .

1 0000 1 .oooo 1 .oooo 1 .oooo 1 .oooo 58 11.40 1.0000 .

1 0000 1 ,0000 1 .OOOO 1 .OOOO 1.0000 1 .OOOO 59 11,60 1.0000 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO 1 ,0000 1 .OOOO 60 11.80 1.0000 1 . 0000 1 .OOOO 1 .OOOO 1 .OOOO 1.0000 1 .OOOO

[TOP] 61 12.00 1 .OOOO 1 .OOOO 1 .OOOO 1 .OOOO 1 ,0000 1 .OOOO 1 .OOOO

• Linear extrapolation based on a line between 16,000 MWDJMTU and 18,000 MWDNTU is adequate for addressing burnups beyond 18,000 MWD/MTU.

Table 5 F ~ Q ( ZPenalty

) Factor associated with Figure 6.and Table 4 Cycle Burnup (MWDJMTU) F ~ Q ( ZPenalty

) Factor 0 I.0200 20000 1.0200 Linear interpolation is adequate for intermediate cycle burnups.

Page 16 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision I Table 6 - W(z) Values Associated with Figure 5 for Part Power Surveillances*

(Top 10% and Bottom 8% excluded)

• W(z) values only valid for core average burnups 5 150 MWdlMTU.

80% of full power W(z) values are applicable for powers 75% -< P < 85%.

tt 90% of full power W(z) values are applicable for powers 85% 5 P < 95%.

$ Rod insertion is given as a target value. Use control rods as necessary to control to target AO.

Page 17 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 Table 6 (cont.) - W(z) Values Associated with Figure 5 for Part Power Surveillances*

(Top 10% and Bottom 8% excluded)

• W(z) values only valid for core average burnups 5 150 MWdlMTU.

80% of full power W(z) values are applicable for powers 75% 5 P < 85%.

tt 90% of full power W(z) values are applicable for powers 85% 5 P < 95%.

$ Rod insertion is given as a target value. Use control rods as necessary to control to target AO.

Page 18 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 Figure 1 Reactor Core Safety Limits Fraction of 1677 MWt Rated Thermal Power Page 19 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision I Figure 2 Rod Insertion Limit, 128 Step Tip-to-Tip 0

0 20 40 60 80 100 Power Level, % of Rated Thermal Power Bank Positions Given By:

Bank D = (150 163) * (P - 100) + 185 Bank C = (150 / 63) * (P - 100) + 185 + 128 Bank B = (150 / 63) * (P - 100) + 185 + 128 + 128 NOTE: The top of the active fuel height corresponds to 224 steps. The ARO parlung position may be any position above 224 steps.

Page 20 of 24

Core Operating Limits Report Unit 1, Cycle 27 I Revision 1

(

Figure 3 Rod Insertion Limit, 128 Step Tip-to-Tip, One Bottomed Rod (Technical Specification 3.1.4, Condition B)

Power Level, % of Rated Thermal Power Bank Positions Given By:

NOTE: The top of the active fuel height corresponds to 224 steps. The ARO parking position may be any position above 224 steps.

Page 21 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision 1 Figure 4 Rod Insertion Limit, 128 Step Tip-to-Tip, One Inoperable Rod (Technical Specification 3.1.4, Condition A)

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I Operation I Forbidden in I this Region I

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I 0

0 20 40 60 80 100 Power Level, % of Rated Thermal Power Bank Positions Given By:

Bank D = (150 / 63) * (P - 70) + 224 Bank C = (150 / 63) * (P - 70) +224 + 128 NOTE: The top of the active fuel height corresponds to 224 steps. The ARO parking position may be any position above 224 steps.

Page 22 of 24

Core Operating Limits Report Unit 1, Cycle 27 Revision I Figure 5 Flux Difference Operating Envelope associated with Table 2 and Table 6

-9 8 I

Acceptable

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Core Operating Limits Report Unit 1, Cycle 27 Revision I Figure 6 Flux Difference Operating Envelope associated with Table 4

-6 6 Unacceptable Unacceptable

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Acceptable I \

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