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| number = ML080660073
| number = ML080660073
| issue date = 02/22/2008
| issue date = 02/22/2008
| title = Donald C. Cook, Unit 1 Cycle 21 End of Life Moderator Temperature Coefficient Limit Report
| title = Cycle 21 End of Life Moderator Temperature Coefficient Limit Report
| author name = Jensen J N
| author name = Jensen J
| author affiliation = Indiana Michigan Power Co
| author affiliation = Indiana Michigan Power Co
| addressee name =  
| addressee name =  
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=Text=
=Text=
{{#Wiki_filter:INDIANA MICHIGAN POWERO A unit of American Electric Power February 22, 2008 Indiana Michigan Power Cook Nuclear Plant One Cook Place Bridgman, MI 49106 AERcom AEP:NRC:8132 10 CFR 50.4 Docket No.: 50-315 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Mail Stop O-PI-17 Washington, DC 20555-0001 Donald C. Cook Nuclear Plant Unit 1 Unit I Cycle 21 End of Life Moderator Temperature Coefficient Limit Report  
{{#Wiki_filter:Indiana Michigan Power INDIANA                                                                              Cook Nuclear Plant MICHIGAN                                                                              One Cook Place Bridgman, MI 49106 POWERO                                                                                AERcom A unit of American Electric Power February 22, 2008                                                                      AEP:NRC:8132 10 CFR 50.4 Docket No.:           50-315 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Mail Stop O-PI-17 Washington, DC 20555-0001 Donald C. Cook Nuclear Plant Unit 1 Unit I Cycle 21 End of Life Moderator Temperature Coefficient Limit Report


==Reference:==
==Reference:==
Letter from J. N. Jensen, Indiana Michigan Power Company, to U. S. Nuclear Regulatory Commission Document Control Desk, "Supplement to License Amendment Request on the Conditional Exemption from Measurement of End of Life Moderator Temperature Coefficient," AEP:NRC:5132-01, dated June 2, 2005.
Indiana Michigan Power Company, the licensee for the Donald C. Cook Nuclear Plant (CNP), made a commitment in the referenced letter to submit the following information for the first three uses of the WCAP-13749-P-A methodology for each unit at CNP as a condition for approval of the conditional exemption of the most negative end of life moderator temperature coefficient measurement technical specification change:
: 1. A summary of the plant data used to confirm that the Benchmark Criteria of Table 3-2 of WCAP-13749-P-A, Safety Evaluation Supporting the Conditional Exemption of the Most Negative EOL Moderator Temperature Coefficient Measurement, have been met; and,
: 2. The Most Negative Moderator Temperature Coefficient Limit Report (as found in Appendix D of WCAP- 13749-P-A).
The information is attached. This transmittal is the second of the three submittals for Unit 1. There are no new or revised commitments made in this submittal.
4w'


Letter from J. N. Jensen, Indiana Michigan Power Company, to U. S. Nuclear Regulatory Commission Document Control Desk, "Supplement to License Amendment Request on the Conditional Exemption from Measurement of End of Life Moderator Temperature Coefficient," AEP:NRC:5132-01, dated June 2, 2005.Indiana Michigan Power Company, the licensee for the Donald C. Cook Nuclear Plant (CNP), made a commitment in the referenced letter to submit the following information for the first three uses of the WCAP-13749-P-A methodology for each unit at CNP as a condition for approval of the conditional exemption of the most negative end of life moderator temperature coefficient measurement technical specification change: 1. A summary of the plant data used to confirm that the Benchmark Criteria of Table 3-2 of WCAP-13749-P-A, Safety Evaluation Supporting the Conditional Exemption of the Most Negative EOL Moderator Temperature Coefficient Measurement, have been met; and, 2. The Most Negative Moderator Temperature Coefficient Limit Report (as found in Appendix D of WCAP- 13749-P-A).
U. S. Nuclear RegLulatory Commission                                               AEP:NRC:8132 Page 2 Should you have any questions, please contact Mr. James M. Petro, Jr., Regulatory Affairs Manager, at (269) 466-2491.
The information is attached.
Sincerely, Joseph N. Jensen Site Support Services Vice President RSP/rdw Attachments:
This transmittal is the second of the three submittals for Unit 1. There are no new or revised commitments made in this submittal.
: 1. Plant Data Used to Confirm Benchmark Requirements
4w' U. S. Nuclear RegLulatory Commission Page 2 AEP:NRC:8132 Should you have any questions, please contact Mr. James M. Petro, Jr., Regulatory Affairs Manager, at (269) 466-2491.Sincerely, Joseph N. Jensen Site Support Services Vice President RSP/rdw Attachments:
: 2. Most Negative End of Life Moderator Temperature Coefficient Limit Report for Donald C. Cook Nuclear Plant Unit 1, Cycle 21 c:      J. L. Caldwell, NRC Region III K. D. Curry, Ft. Wayne AEP, w/o attachments J. T. King, MPSC MDEQ - WHMD/RPMWS NRC Resident Inspector P. S. Tam, NRC Washington, DC
1.2.Plant Data Used to Confirm Benchmark Requirements Most Negative End of Life Moderator Temperature Coefficient Limit Report for Donald C. Cook Nuclear Plant Unit 1, Cycle 21 c: J. L. Caldwell, NRC Region III K. D. Curry, Ft. Wayne AEP, w/o attachments J. T. King, MPSC MDEQ -WHMD/RPMWS NRC Resident Inspector P. S. Tam, NRC Washington, DC Attachment 1 to AEP:NRC:8132 PLANT DATA USED TO CONFIRM BENCHMARK REQUIREMENTS Attachment I to AEP:NRC:8132 Page 2 Plant Data Used to Confirm Benchmark Requirements To facilitate the review of this information, a list of acronyms used in this attachment is provided.OF degrees Fahrenheit
 
% percent BOL beginning of life CNP Donald C. Cook Nuclear Plant EOL end of life HZP hot zero power ITC isothermal temperature coefficient M measured MTC moderator temperature coefficient MTU metric tons of uranium MWD megawatt-day NRC Nuclear Regulatory Commission pcm percent-millirho P predicted This attachment presents a comparison of the CNP Unit 1 Cycle 21 core characteristics with the requirements for use of the Conditional Exemption of the Most Negative EOL MTC Measurement methodology and presents plant data demonstrating that the Benchmark Criteria presented in WCAP-13749-P-A are met.The Conditional Exemption of the Most Negative EOL MTC Measurement methodology is described in WCAP-13749-P-A.
Attachment 1 to AEP:NRC:8132 PLANT DATA USED TO CONFIRM BENCHMARK REQUIREMENTS
This report was approved by the NRC with two requirements:
 
* only PHOENIX/ANC calculation methods are used for the individual plant analyses relevant to determinations for the EOL MTC plant methodology, and* the predictive correction is reexamined if changes in core fuel designs or continued MTC calculation/measurement data show significant effect on the predictive correction.
Attachment I to AEP:NRC:8132                                                                Page 2 Plant Data Used to Confirm Benchmark Requirements To facilitate the review of this information, a list of acronyms used in this attachment is provided.
The PHOENIX/ANC calculation methods were used for the CNP Unit 1 Cycle 21 core design and relevant analyses.
OF                degrees Fahrenheit
Also, the Unit 1 Cycle 21 core design does not represent a major change in core fuel design and the MTC calculation-to-measurement physics database shows no significant effect on the predictive correction.
    %                  percent BOL                beginning of life CNP                Donald C. Cook Nuclear Plant EOL                end of life HZP                hot zero power ITC                isothermal temperature coefficient M                  measured MTC                moderator temperature coefficient MTU                metric tons of uranium MWD                megawatt-day NRC                Nuclear Regulatory Commission pcm                percent-millirho P                  predicted This attachment presents a comparison of the CNP Unit 1 Cycle 21 core characteristics with the requirements for use of the Conditional Exemption of the Most Negative EOL MTC Measurement methodology and presents plant data demonstrating that the Benchmark Criteria presented in WCAP-13749-P-A are met.
Therefore, the predictive correction of -3 pcm/°F remains valid for this cycle. The Unit 1 Cycle 21 core meets both of the above requirements.
The Conditional Exemption of the Most Negative EOL MTC Measurement methodology is described in WCAP-13749-P-A. This report was approved by the NRC with two requirements:
Attachment I to AEP:NRC:8132 Page 3 The following data tables are provided in support of the benchmark criteria:* Table I -Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology (per WCAP-13749-P-A)
* only PHOENIX/ANC calculation methods are used for the individual plant analyses relevant to determinations for the EOL MTC plant methodology, and
* Table 2 -Flux Map Data: Assembly Powers* Table 3 -Flux Map Data: Core Tilt Criteria* Table 4 -Core Reactivity Balance Data* Table 5 -Low Power Physics Test Data (BOL, HZP): ITC* Table 6 -Low Power Physics Test Data (BOL, HZP): Total Control Bank Worth Attachment I to AEP:NRC:8132.Page 4 Table I Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology (per WCAP-13749-P-A)
* the predictive correction is reexamined if changes in core fuel designs or continued MTC calculation/measurement data show significant effect on the predictive correction.
Parameter Criteria Assembly Power (Measured Normal Reaction Rate)Measured Incore Quadrant Power Tilt (Low Power)Measured Incore Quadrant Power Tilt (Full Power)Core Reactivity Difference
The PHOENIX/ANC calculation methods were used for the CNP Unit 1 Cycle 21 core design and relevant analyses. Also, the Unit 1 Cycle 21 core design does not represent a major change in core fuel design and the MTC calculation-to-measurement physics database shows no significant effect on the predictive correction. Therefore, the predictive correction of -3 pcm/°F remains valid for this cycle. The Unit 1 Cycle 21 core meets both of the above requirements.
+/-0.1 or 10%+/-4%+2 %-1000 pcm+/- 2 pcm/°F BOL HZP ITC Individual Control Bank Worth Total Control Bank Worth NA*+/- 10%* Not required when "The Spatially Corrected Inverse Count Rate (SCICR) Method for Subcritical Reactivity Measurement" has been performed; see letter from J. D. St. John, Westinghouse Electric Company, to M. L. Bellville, American Electric Power Nuclear Generation Group, "NRC Staff Interpretation of WCAP-16260-P-A," NF-AE-06-72, dated May 30, 2006.
 
Attachment I to AEP:NRC:8132 Page 5 Table 2 Flux Map Data: Assembly Powers Assembly Power Determination Map Date Power (Maximum Magnitude of Relative Error)(%) Measured Predicted
Attachment I to AEP:NRC:8132                                                      Page 3 The following data tables are provided in support of the benchmark criteria:
[Predicted
* Table I - Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology (per WCAP-13749-P-A)
-10% of Acceptable Power Power Measuredi Predicted 121-01 11/14/06 23.99 0.428 0.397 0.031 0.040 YES 121-02 11/15/06 46.71 1.174 1.109 0.065 0.111 YES 121-03 11/17/06 87.15 0.347 0.330 0.017 0.033 YES 121-04 * * * * * * *121-05 * * * * * * *121-06 11/18/06 97.43 0.353 0.332 0.021 0.033 YES 121-07 11/20/06 99.93 0.351 0.332 0.019 0.033 YES 121-08 11/22/06 99.95 0.352 0.331 0.021 0.033 YES 121-09 11/27/06 99.90 0.439 0.415 0.024 0.042 YES 121-10 12/11/06 99.85 0.352 0.329 0.023 0.033 YES 121-11 01/15/07 99.84 0.347 0.326 0.021 0.033 YES 121-12 02/12/07 99.87 0.343 0.325 0.018 0.033 YES 121-13 03/12/07 99.84 0.447 0.422 0.025 0.042 YES 121-14 04/16/07 99.91 0.345 0.327 0.018 0.033 YES 121-15 05/14/07 99.86 1.159 1.099 0.060 0.110 YES 121-16 * * * * * *121-17 06/11/07 99.89 0.353 0.334 0.019 0.033 YES 121-18 07/16/07 99.85 0.359 0.340 0.019 0.034 YES 121-19 08/13/07 99.95 0.367 0.346 0.021 0.035 YES 121-20 09/10/07 99.87 0.372 0.351 0.021 0.035 YES 121-21 10/15/07 99.89 0.381 0.359 0.022 0.036 YES 121-22 11/12/07 99.86 0.387 0.365 0.022 0.037 YES 121-23 12/10/07 99.88 0.396 0.370 0.026 0.037 YES Acceptance Criteria:
* Table 2 - Flux Map Data: Assembly Powers
+/- 0.1 or 10%.* Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.
* Table 3 - Flux Map Data: Core Tilt Criteria
Attachment I to AEP:NRC:8132 Page 6 Table 3 Flux MaD Data: Core Tilt Criteria Top Half Incore Quadrant Power Tilt Map # Power(%) Maximum Tilt Minimum Tilt Acceptable 121-01 23.99 1.00695 0.99487 Yes 121-02 46.71 1.00437 0.99418 Yes 121-03 87.15 1.00608 0.99498 Yes 121-04 * * * *121-05 * * * *121-06 97.43 1.00445 0.99551 Yes 121-07 99.93 1.00504 0.99533 Yes 121-08 99.95 1.00402 0.99623 Yes 121-09 99.90 1.00486 0.99507 Yes 121-10 99.85 1.00560 0.99446 Yes 121-11 99.84 1.00345 0.99717 Yes 121-12 99.87 1.00202 0.99631 Yes 121-13 99.84 1.00186 0.99607 Yes 121-14 99.91 1.00158 0.99679 Yes 121-15 99.86 1.00152 0.99752 Yes 121416 * * * *121-17 99.89 1.00207 0.99579 Yes 121-18 99.85 1.00302 0.99546 Yes 121-19 99.95 1.00260 0.99579 Yes 121-20 99.87 1.00344 0.99345 Yes 121-21 99.89 1.00324 0.99275 Yes 121-22 99.86 1.00454 0.99531 Yes 121-23 99.88 1.00479 0.99183 Yes Acceptance Criteria: High power maps -maximum power tilt: 1.02; minimum power tilt: 0.98 Low power maps -maximum power tilt: 1.04; minimum power tilt: 0.96 Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.
* Table 4 - Core Reactivity Balance Data
Attachment 1 to AEP:NRC:8132 Page 7 Table 3 (continued)
* Table 5 - Low Power Physics Test Data (BOL, HZP): ITC
Flux Mat Data: Core Tilt Criteria Bottom Half Incore Quadrant Power Tilt Map # Power(,) Maximum Tilt Minimum Tilt Acceptable 121-01 23.99 1.00702 0.99307 Yes 121-02 46.71 1.00484 0.99327 Yes 121-03 87.15 1.00230 0.99608 Yes 121-04 * * * *121-05 * * * *121-06 97.43 1.00391 0.99654 Yes 121-07 99.93 1.00473 0.99521 Yes 121-08 99.95 1.00595 0.99393 Yes 121-09 99.90 1.00384 0.99463 Yes 121-10 99.85 1.00348 0.99456 Yes 121-11 99.84 1.00405 0.99364 Yes 121-12 99.87 1.00533 0.99565 Yes 121-13 99.84 1.00360 0.99500 Yes 121-14 99.91 1.00393 0.99566 Yes 121-15 99.86 1.00447 0.99690 Yes 121-16 * * * *121-17 99.89 1.00364 0.99710 Yes 121-18 99.85 1.00230 0.99826 Yes 121-19 99.95 1.00482 0.99725 Yes 121-20 99.87 1.00491 0.99582 Yes 121-21 99.89 1.00405 0.99581 Yes 121-22 99.86 1.00510 0.99595 Yes 121-23 99.88 1.00506 0.99496 Yes Acceptance Criteria: High power maps -maximum power tilt: 1.02; minimum power tilt: 0.98 Low power maps -maximum power tilt: 1.04; minimum power tilt: 0.96 Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.
* Table 6 - Low Power Physics Test Data (BOL, HZP): Total Control Bank Worth
Attachment I to AEP:NRC:8132 Page 8 Table 4 Core Reactivity Balance Data Unit I Cycle 21 Boron Letdown Curve Date Burnup Delta Acceptable (MWD/MTU)
 
Reactivity (pcm)November 25, 2006 365.66 -151.2 Yes December 2, 2006 629.55 -45.4 Yes December 9, 2006 894.82 98.7 Yes December 12, 2006 1,008.99 11.2 Yes December 18, 2006 1,238.04 77.4 Yes January 16, 2007 2,331.74 40.0 Yes February 13, 2007 3,388.69 83.8 Yes March 13, 2007 4,446.80 114.5 Yes April 17, 2007 5,767.02 70.9 Yes May 15, 2007 6,826.59 64.3 Yes June 12, 2007 7,880.74 106.6 Yes July 17, 2007 9,202.00 47.4 Yes August 14, 2007 10,259.90 17.5 Yes September 11, 2007 11,255.30 122.4 Yes October 16, 2007 12,577.30 121.3 Yes November 13, 2007 13,638.00 68.2 Yes December 11, 2007 14,694.50 17.8 Yes Acceptance Criteria:
Attachment I to AEP:NRC:8132                                                          .Page 4 Table I Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology (per WCAP-13749-P-A)
+/- 1000 pcm Attachment I to AEP:NRC:8132 Page 9 Table 5 Low Power Physics Test Data (BOL, HZP): ITC Measured ITC Predicted ITC ITC Error (M-P) Acceptable (pcm/°F) (pcm/°F) (pcm/°F)-2.48 -1.08 -1.41 Yes Acceptance Criteria:
Parameter                                                Criteria Assembly Power (Measured Normal Reaction Rate)          +/-0.1    or 10%
ITC error within +/- 2 pcm/°F Table 6 Low Power Physics Test Data (BOL. HZP): Total Control Bank Worth Measured Predicted Delta Worth Worth %Error Worth Worth (M-P) (M-P)xlOO%
Measured Incore Quadrant Power Tilt (Low Power)          +/-4%
Acceptable (pcm) (pcm) (pcm) P Total Measured Worth 6955 7033 1.11% Yes AcceptanceCriteria:
Measured Incore Quadrant Power Tilt (Full Power)        +2 %
Total Measured Worth % error within +/-10%
Core Reactivity Difference                                - 1000 pcm BOL HZP ITC                                              +/-   2 pcm/°F Individual Control Bank Worth                            NA*
Attachment 2 to AEP:NRC:8132 MOST NEGATIVE END OF LIFE MODERATOR TEMPERATURE COEFFICIENT LIMIT REPORT FOR DONALD C. COOK NUCLEAR PLANT UNIT 1, CYCLE 21 Attachment 2 to AEP:NRC:8132 Page 2 Most Negative End of Life Moderator Temperature Coefficient Limit Report for Donald C. Cook Unit 1, Cycle 21 To facilitate the review of this information, a list of acronyms used in this attachment is provided.OF degrees Fahrenheit A delta% percent AFD axial flux difference ARO all rods out BOL beginning of life CB Reactor Coolant System boron concentration CNP Donald C. Cook Nuclear Plant COLR Core Operating Limits Report EOL end of life HFP hot full power HZP hot zero power ITC isothermal temperature coefficient M measured MTC moderator temperature coefficient MTU metric tons of uranium MWD megawatt-day pcm percent-millirho ppm parts per million P predicted RCS Reactor Coolant System RTP reactor thermal power PURPOSE: The purpose of this document is to present cycle-specific best estimate data for use in confirming the most negative EOL MTC limit in Technical Specification 3.1.3. This document also summarizes the methodology used for determining if a HFP 300 ppm MTC measurement is required.PRECAUTIONS AND LIMITATIONS:
Total Control Bank Worth                                  +/- 10%
* Not required when "The Spatially Corrected Inverse Count Rate (SCICR) Method for Subcritical Reactivity Measurement" has been performed; see letter from J. D. St. John, Westinghouse Electric Company, to M. L. Bellville, American Electric Power Nuclear Generation Group, "NRC Staff Interpretation of WCAP-16260-P-A," NF-AE-06-72, dated May 30, 2006.
 
Attachment I to AEP:NRC:8132                                                              Page 5 Table 2 Flux Map Data: Assembly Powers Assembly Power Determination Map        Date      Power             (Maximum Magnitude of Relative Error)
(%)      Measured    Predicted    [Predicted - 10% of    Acceptable Power        Power       Measuredi  Predicted 121-01    11/14/06    23.99      0.428        0.397        0.031      0.040        YES 121-02    11/15/06    46.71      1.174        1.109        0.065      0.111        YES 121-03    11/17/06    87.15      0.347        0.330        0.017      0.033        YES 121-04        *        *          *            *            *          *
* 121-05        *        *          *            *            *          *
* 121-06    11/18/06    97.43      0.353        0.332        0.021      0.033        YES 121-07    11/20/06    99.93      0.351        0.332        0.019      0.033        YES 121-08    11/22/06    99.95      0.352        0.331        0.021      0.033        YES 121-09    11/27/06    99.90      0.439        0.415        0.024      0.042        YES 121-10    12/11/06   99.85      0.352        0.329        0.023      0.033        YES 121-11    01/15/07    99.84      0.347        0.326        0.021      0.033        YES 121-12    02/12/07    99.87      0.343        0.325        0.018      0.033        YES 121-13    03/12/07    99.84      0.447        0.422        0.025      0.042        YES 121-14    04/16/07    99.91      0.345        0.327        0.018      0.033       YES 121-15    05/14/07    99.86      1.159        1.099        0.060      0.110        YES 121-16        *         *           *           *           *
* 121-17    06/11/07    99.89      0.353       0.334        0.019      0.033       YES 121-18    07/16/07    99.85      0.359        0.340        0.019       0.034        YES 121-19    08/13/07    99.95     0.367        0.346        0.021       0.035        YES 121-20    09/10/07    99.87      0.372        0.351        0.021      0.035        YES 121-21    10/15/07    99.89      0.381        0.359        0.022      0.036        YES 121-22    11/12/07   99.86      0.387        0.365        0.022      0.037        YES 121-23    12/10/07   99.88      0.396        0.370        0.026      0.037        YES Acceptance Criteria: +/- 0.1 or 10%.
* Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.
 
Attachment I to AEP:NRC:8132                                                            Page 6 Table 3 Flux MaD Data: Core Tilt Criteria Top Half Incore Quadrant Power Tilt Map #      Power(%)          Maximum Tilt              Minimum Tilt        Acceptable 121-01        23.99             1.00695                  0.99487              Yes 121-02        46.71              1.00437                  0.99418              Yes 121-03        87.15              1.00608                  0.99498              Yes 121-04          *                   *                         *
* 121-05          *                  *                          *
* 121-06       97.43              1.00445                  0.99551              Yes 121-07       99.93              1.00504                  0.99533              Yes 121-08       99.95             1.00402                  0.99623              Yes 121-09        99.90              1.00486                  0.99507              Yes 121-10       99.85              1.00560                  0.99446              Yes 121-11        99.84              1.00345                  0.99717              Yes 121-12        99.87              1.00202                  0.99631              Yes 121-13        99.84              1.00186                  0.99607              Yes 121-14        99.91              1.00158                  0.99679              Yes 121-15        99.86              1.00152                  0.99752              Yes 121416          *                    *                        *
* 121-17        99.89              1.00207                  0.99579              Yes 121-18        99.85              1.00302                  0.99546              Yes 121-19      99.95              1.00260                  0.99579              Yes 121-20      99.87              1.00344                  0.99345              Yes 121-21      99.89              1.00324                  0.99275              Yes 121-22      99.86              1.00454                  0.99531              Yes 121-23      99.88              1.00479                  0.99183              Yes Acceptance Criteria:      High power maps - maximum power tilt: 1.02; minimum power tilt: 0.98 Low power maps - maximum power tilt: 1.04; minimum power tilt: 0.96 Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.
to AEP:NRC:8132                                                              Page 7 Table 3 (continued)
Flux Mat Data: Core Tilt Criteria Bottom Half Incore Quadrant Power Tilt Map #      Power(,)            Maximum Tilt              Minimum Tilt        Acceptable 121-01      23.99               1.00702                  0.99307            Yes 121-02      46.71                1.00484                  0.99327              Yes 121-03      87.15                1.00230                  0.99608              Yes 121-04          *                    *                          *
* 121-05          *                    *                          *
* 121-06      97.43                1.00391                  0.99654              Yes 121-07      99.93                1.00473                  0.99521              Yes 121-08      99.95                1.00595                  0.99393              Yes 121-09      99.90                1.00384                  0.99463              Yes 121-10      99.85                1.00348                  0.99456              Yes 121-11      99.84                1.00405                  0.99364              Yes 121-12      99.87                1.00533                  0.99565              Yes 121-13      99.84                1.00360                  0.99500              Yes 121-14      99.91                1.00393                  0.99566              Yes 121-15      99.86                1.00447                  0.99690              Yes 121-16          *                    *                        *
* 121-17      99.89                1.00364                  0.99710              Yes 121-18      99.85                1.00230                  0.99826              Yes 121-19      99.95                1.00482                  0.99725              Yes 121-20      99.87                1.00491                  0.99582              Yes 121-21      99.89                1.00405                  0.99581              Yes 121-22      99.86                1.00510                  0.99595              Yes 121-23      99.88                1.00506                  0.99496              Yes Acceptance Criteria:     High power maps - maximum power tilt: 1.02; minimum power tilt: 0.98 Low power maps - maximum power tilt: 1.04; minimum power tilt: 0.96 Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.
 
Attachment I to AEP:NRC:8132                                              Page 8 Table 4 Core Reactivity Balance Data Unit I Cycle 21 Boron Letdown Curve Date            Burnup            Delta    Acceptable (MWD/MTU)        Reactivity (pcm)
November 25, 2006          365.66        -151.2      Yes December 2, 2006          629.55          -45.4      Yes December 9, 2006          894.82            98.7      Yes December 12, 2006        1,008.99          11.2      Yes December 18, 2006        1,238.04          77.4      Yes January 16, 2007        2,331.74            40.0     Yes February 13, 2007      3,388.69            83.8      Yes March 13, 2007        4,446.80          114.5      Yes April 17, 2007        5,767.02            70.9      Yes May 15, 2007          6,826.59            64.3      Yes June 12, 2007        7,880.74          106.6      Yes July 17, 2007        9,202.00            47.4      Yes August 14, 2007        10,259.90          17.5      Yes September 11, 2007      11,255.30          122.4      Yes October 16, 2007        12,577.30          121.3      Yes November 13, 2007        13,638.00          68.2      Yes December 11, 2007        14,694.50          17.8      Yes Acceptance Criteria: +/- 1000 pcm
 
Attachment I to AEP:NRC:8132                                                        Page 9 Table 5 Low Power Physics Test Data (BOL, HZP): ITC Measured ITC          Predicted ITC          ITC Error (M-P)          Acceptable (pcm/°F)              (pcm/°F)                (pcm/°F)
        -2.48                -1.08                    -1.41                Yes Acceptance Criteria: ITC error within +/- 2 pcm/°F Table 6 Low Power Physics Test Data (BOL. HZP): Total Control Bank Worth Measured      Predicted    Delta Worth    Worth %Error Worth        Worth          (M-P)        (M-P)xlOO%    Acceptable (pcm)        (pcm)        (pcm)              P Total Measured Worth          6955          7033          -78          -1.11%          Yes AcceptanceCriteria: Total Measured Worth % error within +/-10%
 
Attachment 2 to AEP:NRC:8132 MOST NEGATIVE END OF LIFE MODERATOR TEMPERATURE COEFFICIENT LIMIT REPORT FOR DONALD C. COOK NUCLEAR PLANT UNIT 1, CYCLE 21 to AEP:NRC:8132                                                                Page 2 Most Negative End of Life Moderator Temperature Coefficient Limit Report for Donald C. Cook Unit 1, Cycle 21 To facilitate the review of this information, a list of acronyms used in this attachment is provided.
OF                degrees Fahrenheit A                delta
    %                percent AFD              axial flux difference ARO              all rods out BOL              beginning of life CB                Reactor Coolant System boron concentration CNP              Donald C. Cook Nuclear Plant COLR              Core Operating Limits Report EOL              end of life HFP              hot full power HZP              hot zero power ITC              isothermal temperature coefficient M                measured MTC              moderator temperature coefficient MTU              metric tons of uranium MWD              megawatt-day pcm              percent-millirho ppm              parts per million P                predicted RCS              Reactor Coolant System RTP              reactor thermal power PURPOSE:
The purpose of this document is to present cycle-specific best estimate data for use in confirming the most negative EOL MTC limit in Technical Specification 3.1.3. This document also summarizes the methodology used for determining if a HFP 300 ppm MTC measurement is required.
PRECAUTIONS AND LIMITATIONS:
The EOL MTC exemption data presented in this document apply to CNP Unit 1 Cycle 21 only and may not be used for other operating cycles.
The EOL MTC exemption data presented in this document apply to CNP Unit 1 Cycle 21 only and may not be used for other operating cycles.
Attachment 2 to AEP:NRC:8 132 Page 3 The following reference is applicable to this document: WCAP-13749-P-A, "Safety Evaluation Supporting the Conditional Exemption of the Most Negative EOL Moderator Temperature Coefficient Measurement," March, 1997.PROCEDURE:
to AEP:NRC:8 132                                                           Page 3 The following reference is applicable to this document:
All core performance benchmark criteria listed in Table 1 must be met for the current operating cycle. These criteria are confirmed from startup physics test results and routine HFP CB and incore flux map surveillances performed during the cycle.If all core performance benchmark criteria are met, then the Revised Predicted MTC may be calculated per the algorithm given in Table 2. The required cycle-specific data are provided in Tables 3 and 4, and Figure 1. This methodology is also described in the referenced document.
WCAP-13749-P-A, "Safety Evaluation Supporting the Conditional Exemption of the Most Negative EOL Moderator Temperature Coefficient Measurement," March, 1997.
If all core performance benchmark criteria are met and the Revised Predicted MTC is less negative than COLR Limit 2.2.2.b, then a measurement is not required.
PROCEDURE:
Attachment 2 to AEP:NRC:8132 Page 4 Table 1 Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology Parameter Criteria Assembly Power (Measured Normial Reaction Rate)Measured Incore Quadrant Power Tilt (Low Power)Measured Incore Quadrant Power Tilt (Full Power)Core Reactivity Difference
All core performance benchmark criteria listed in Table 1 must be met for the current operating cycle. These criteria are confirmed from startup physics test results and routine HFP CB and incore flux map surveillances performed during the cycle.
+0.1 or 10%+4%22%+/- 1000 pcrn+/- 2 pcm/°F BOL HZP ITC Individual Control Bank Worth Total Control Bank Worth+/- 10%Not required when "The Spatially Corrected Inverse Count Rate (SCICR) Method for Subcritical Reactivity Measurement" has been performed; see letter from J. D. St. John, Westinghouse Electric Company, to M. L. Bellville, American Electric Power Nuclear Generation Group, "NRC Staff Interpretation of WCAP-16260-P-A," NF-AE-06-72, dated May 30, 2006.
If all core performance benchmark criteria are met, then the Revised Predicted MTC may be calculated per the algorithm given in Table 2. The required cycle-specific data are provided in Tables 3 and 4, and Figure 1. This methodology is also described in the referenced document. If all core performance benchmark criteria are met and the Revised Predicted MTC is less negative than COLR Limit 2.2.2.b, then a measurement is not required.
Attachment 2 to AEP:NRC:8132 Page .5 Table 2 Algorithm for Determinin2 the Revised Predicted Near-EOL 300 ppm MTC The Revised Predicted MTC = Predicted MTC + AFD Correction  
to AEP:NRC:8132                                                           Page 4 Table 1 Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology Parameter                                                 Criteria Assembly Power (Measured Normial Reaction Rate)         +0.1  or 10%
-3 pcm/°F Where: Predicted MTC is calculated from Figure 1 at the bumup corresponding to the measurement of 300 ppm at RTP conditions, AFD Correction is the more negative value of: 0 pcm/°F, (AAFD
Measured Incore Quadrant Power Tilt (Low Power)           +4%
Measured Incore Quadrant Power Tilt (Full Power)           22%
Core Reactivity Difference                               +/- 1000 pcrn BOL HZP ITC                                              +/- 2 pcm/°F Individual Control Bank Worth Total Control Bank Worth                                 +/- 10%
Not required when "The Spatially Corrected Inverse Count Rate (SCICR) Method for Subcritical Reactivity Measurement" has been performed; see letter from J. D. St. John, Westinghouse Electric Company, to M. L. Bellville, American Electric Power Nuclear Generation Group, "NRC Staff Interpretation of WCAP-16260-P-A," NF-AE-06-72, dated May 30, 2006.
to AEP:NRC:8132                                                           Page .5 Table 2 Algorithm for Determinin2 the Revised Predicted Near-EOL 300 ppm MTC The Revised PredictedMTC = PredictedMTC + AFD Correction - 3 pcm/°F Where:
Predicted MTC is calculated from Figure 1 at the bumup corresponding to the measurement of 300 ppm at RTP conditions, AFD Correction is the more negative value of:
0 pcm/°F, (AAFD
* AFD Sensitivity)
* AFD Sensitivity)
AAFD is the measured AFD minus the predicted AFD from an incore flux map taken at or near the burnup corresponding to 300 ppm.AFD Sensitivity  
AAFD is the measured AFD minus the predicted AFD from an incore flux map taken at or near the burnup corresponding to 300 ppm.
= 0.05 pcm / 'F / %AAFD Predictive Correction is -3 pcm/°F, as included in the equation for the Revised Predicted MTC.
AFD Sensitivity = 0.05 pcm / 'F / %AAFD Predictive Correction is -3 pcm/°F, as included in the equation for the Revised Predicted MTC.
Attachment 2 to AEP:NRC:8132 Page 6 Table 3 Worksheet for Calculatin2 the Revised Predicted Near-EOL 300 Dom MTC Unit: 1, Cycle 21 Date: 12/26/2007 Time: 6:27 Reference for Cycle-Specific MTC Data: CNP, Unit I Cycle 21, COLR Part A. Predicted MTC A. 1 Cycle Average Burnup corresponding to the HFP ARO equilibrium xenon CB of 300 ppm.A.2 Predicted HFP ARO MTC corresponding to burMup (A. 1)Part B. AFD Correction B.1 Burnup of most recent HFP, equilibrium conditions incore flux map B.2 Measured HFP AFD at burnup (B.1)Reference incore flux map: ID: 121-23 Date: 12/10/07 B.3 Predicted HFP AFD at burnup (B.1)B.4 MTC Sensitivity to AFD B.5 AFD Correction, more negative of{ 0 pcm/°F, B.4 *(B.2 -B.3)}Part C. Revised Prediction C.1 Revised Prediction (A.2 + B.5 -3 pcm/0 F)C.2 Surveillance Limit (COLR 2.2.2.b)15258 MWD/MTU-20.83 pcm/°F 14657.9 MWD/MTU-2.38 % AFD-2.23 % AFD 0.05 pcm/IF/%AAFD
to AEP:NRC:8132                                                   Page 6 Table 3 Worksheet for Calculatin2 the Revised Predicted Near-EOL 300 Dom MTC Unit:       1, Cycle 21       Date:       12/26/2007   Time:         6:27 Reference for Cycle-Specific MTC Data:
-0.01 pcm/°F-23.84 pcm/0 F-38.4 pcm/°F If C.1 is less negative than C.2, then the HFP 300 ppm MTC measurement is not required per Technical Specification Surveillance Requirement 3.1.3.2.
CNP, Unit I Cycle 21, COLR Part A. Predicted MTC A. 1 Cycle Average Burnup corresponding to the HFP ARO equilibrium xenon CB of 300 ppm.                                             15258  MWD/MTU A.2   Predicted HFP ARO MTC corresponding to burMup (A. 1)                                 -20.83  pcm/°F Part B. AFD Correction B.1 Burnup of most recent HFP, equilibrium conditions incore flux map                     14657.9  MWD/MTU B.2   Measured HFP AFD at burnup (B.1)
Attachment 2 to AEP:NRC:8132 Page 7 Table 4 Data Collection and Calculations Required to Complete the Table 3 Worksheet of the Most Ne2ative Moderator Temperature Coefficient Limit Report Data at the 300 ppm Boron Point:* RCS Boron at 300 ppm at 6:27 on 12/26/2007
Reference incore flux map:
* Burnup at 300 ppm: 15258 MWD/MTU (A.1)* Predicted MTC: -20.83 pcm/0 F (A.2)Data from Last Flux Map:* Flux Map Number: 121-23 (B.2)* Reactor Power (RP): 99.88% RTP* Burnup: 14657.9 MWD/MTU (B.1)* Measured Axial Flux Difference (MAFD): -2.38% (B.2)MAFD = Measured Axial Offset
ID:     121-23     Date: 12/10/07               -2.38  % AFD B.3   Predicted HFP AFD at burnup (B.1)                 -2.23  % AFD B.4   MTC Sensitivity to AFD                             0.05  pcm/IF/%AAFD B.5   AFD Correction, more negative of
* RP / 100%=-2.385%
{ 0 pcm/°F, B.4 *(B.2 - B.3)}                   -0.01  pcm/°F Part C. Revised Prediction C.1 Revised Prediction (A.2 + B.5 - 3 pcm/0 F)         -23.84  pcm/0 F C.2   Surveillance Limit (COLR 2.2.2.b)                 -38.4 pcm/°F If C.1 is less negative than C.2, then the HFP 300 ppm MTC measurement is not required per Technical Specification Surveillance Requirement 3.1.3.2.
* 99.88% /100%= -2.38%Predicted Axial Flux Difference (PAFD): -2.23% (B.3)PAFD = Predicted Axial Offset
to AEP:NRC:8132                                                     Page 7 Table 4 Data Collection and Calculations Required to Complete the Table 3 Worksheet of the Most Ne2ative Moderator Temperature Coefficient Limit Report Data at the 300 ppm Boron Point:
* RP / 100%=-2.23%
* RCS Boron at 300 ppm at 6:27 on 12/26/2007
* 99.88% / 100%= -2.23%A AFD (MAFD-PAFD)
* Burnup at 300 ppm: 15258 MWD/MTU (A.1)
= (-2.38% --2.23%)= -0.15%Determination of the Revised Predicted MTC AFD Sensitivity:
* Predicted MTC: -20.83 pcm/0 F (A.2)
0.05 pcm/°F/ %AAFD (B.4)AFD Correction:  
Data from Last Flux Map:
-0.01 pcm/°F (B.5)where: AFD Correction is the more negative of the following:
* Flux Map Number: 121-23 (B.2)
* Reactor Power (RP): 99.88% RTP
* Burnup: 14657.9 MWD/MTU (B.1)
* Measured Axial Flux Difference (MAFD): -2.38% (B.2)
MAFD = Measured Axial Offset
* RP / 100%
                =-2.385%
* 99.88% /100%
                = -2.38%
Predicted Axial Flux Difference (PAFD): -2.23% (B.3)
PAFD   = Predicted Axial Offset
* RP / 100%
                =-2.23%
* 99.88% / 100%
                = -2.23%
A AFD     (MAFD-PAFD)
                = (-2.38% - -2.23%)
                = -0.15%
Determination of the Revised Predicted MTC AFD Sensitivity: 0.05 pcm/°F/ %AAFD (B.4)
AFD Correction: -0.01 pcm/°F (B.5) where: AFD Correction is the more negative of the following:
0 pcm/°F or (AAFD
0 pcm/°F or (AAFD
* AFD Sensitivity) 0 pcm/nF or (-0.15%
* AFD Sensitivity) 0 pcm/nF or (-0.15%
* 0.05 pcm/°F/ %AAFD)0 pcm/°F or -0.01 pcm/0 F.*.-0.01 pcm/°F Revised Predicted MTC = Predicted MTC + AFD Correction  
* 0.05 pcm/°F/ %AAFD) 0 pcm/°F or -0.01 pcm/0 F
-3 pcm/°F= -20.83 pcm/°F + -0.01 pcm/°F -3 pcm/°F= -23.84 pcm/°F (C.1)
                .*.-0.01 pcm/°F Revised Predicted MTC     = Predicted MTC + AFD Correction -3 pcm/°F
Attachment 2 to AEP:N.RC:8132 Figure 1 Unit 1 Cycle 21 Predicted HFP ARO 300 ppm MTC Versus Burnup Page 8 IL.2-Z .u I r--u q-2.03E-04  
                          = -20.83 pcm/°F + -0.01 pcm/°F -3 pcm/°F
'"-2-05E-04 j-2.07E-04  
                          = -23.84 pcm/°F (C.1) to AEP:N.RC:8132                                                                               Page 8 Figure 1 Unit 1 Cycle 21 Predicted HFP ARO 300 ppm MTC Versus Burnup
-.2.OgE.04 , E 0--2.11E-04-2.13E-04-2.15E-04 130 NS.-I _______ ______ _______ _______ _______ _______ _______--I -_L_1~~i_--
                -Z .u I r--u q
00 14000 15000 Cycle Bumup (MWDIMTU)16000 17000 Burnup (MWDIMTU)
                -2.03E-04                                                                           '"
MTC (Ak/kPF)13000 -2.01 85E-4 14000 -2.0487E-4 15000 -2.0764E-4 16000 -2.1 035E-4 17000 -2.1293E-4}}
IL
            .2 05E-04           j
                -2.07E-04 I-*
                .2.OgE.04                               ,
E 0-NS.-
I
                -2.11E-04
                -2.13E-04
                -2.15E-04     --I -_L_1~~i_--
130 00             14000             15000 Cycle Bumup (MWDIMTU) 16000               17000 Burnup (MWDIMTU)                                   MTC (Ak/kPF) 13000                                         -2.01 85E-4 14000                                         -2.0487E-4 15000                                         -2.0764E-4 16000                                         -2.1 035E-4 17000                                         -2.1293E-4}}

Latest revision as of 05:12, 13 March 2020

Cycle 21 End of Life Moderator Temperature Coefficient Limit Report
ML080660073
Person / Time
Site: Cook American Electric Power icon.png
Issue date: 02/22/2008
From: Jensen J
Indiana Michigan Power Co
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
AEP:NRC:8132
Download: ML080660073 (19)


Text

Indiana Michigan Power INDIANA Cook Nuclear Plant MICHIGAN One Cook Place Bridgman, MI 49106 POWERO AERcom A unit of American Electric Power February 22, 2008 AEP:NRC:8132 10 CFR 50.4 Docket No.: 50-315 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Mail Stop O-PI-17 Washington, DC 20555-0001 Donald C. Cook Nuclear Plant Unit 1 Unit I Cycle 21 End of Life Moderator Temperature Coefficient Limit Report

Reference:

Letter from J. N. Jensen, Indiana Michigan Power Company, to U. S. Nuclear Regulatory Commission Document Control Desk, "Supplement to License Amendment Request on the Conditional Exemption from Measurement of End of Life Moderator Temperature Coefficient," AEP:NRC:5132-01, dated June 2, 2005.

Indiana Michigan Power Company, the licensee for the Donald C. Cook Nuclear Plant (CNP), made a commitment in the referenced letter to submit the following information for the first three uses of the WCAP-13749-P-A methodology for each unit at CNP as a condition for approval of the conditional exemption of the most negative end of life moderator temperature coefficient measurement technical specification change:

1. A summary of the plant data used to confirm that the Benchmark Criteria of Table 3-2 of WCAP-13749-P-A, Safety Evaluation Supporting the Conditional Exemption of the Most Negative EOL Moderator Temperature Coefficient Measurement, have been met; and,
2. The Most Negative Moderator Temperature Coefficient Limit Report (as found in Appendix D of WCAP- 13749-P-A).

The information is attached. This transmittal is the second of the three submittals for Unit 1. There are no new or revised commitments made in this submittal.

4w'

U. S. Nuclear RegLulatory Commission AEP:NRC:8132 Page 2 Should you have any questions, please contact Mr. James M. Petro, Jr., Regulatory Affairs Manager, at (269) 466-2491.

Sincerely, Joseph N. Jensen Site Support Services Vice President RSP/rdw Attachments:

1. Plant Data Used to Confirm Benchmark Requirements
2. Most Negative End of Life Moderator Temperature Coefficient Limit Report for Donald C. Cook Nuclear Plant Unit 1, Cycle 21 c: J. L. Caldwell, NRC Region III K. D. Curry, Ft. Wayne AEP, w/o attachments J. T. King, MPSC MDEQ - WHMD/RPMWS NRC Resident Inspector P. S. Tam, NRC Washington, DC

Attachment 1 to AEP:NRC:8132 PLANT DATA USED TO CONFIRM BENCHMARK REQUIREMENTS

Attachment I to AEP:NRC:8132 Page 2 Plant Data Used to Confirm Benchmark Requirements To facilitate the review of this information, a list of acronyms used in this attachment is provided.

OF degrees Fahrenheit

% percent BOL beginning of life CNP Donald C. Cook Nuclear Plant EOL end of life HZP hot zero power ITC isothermal temperature coefficient M measured MTC moderator temperature coefficient MTU metric tons of uranium MWD megawatt-day NRC Nuclear Regulatory Commission pcm percent-millirho P predicted This attachment presents a comparison of the CNP Unit 1 Cycle 21 core characteristics with the requirements for use of the Conditional Exemption of the Most Negative EOL MTC Measurement methodology and presents plant data demonstrating that the Benchmark Criteria presented in WCAP-13749-P-A are met.

The Conditional Exemption of the Most Negative EOL MTC Measurement methodology is described in WCAP-13749-P-A. This report was approved by the NRC with two requirements:

  • only PHOENIX/ANC calculation methods are used for the individual plant analyses relevant to determinations for the EOL MTC plant methodology, and
  • the predictive correction is reexamined if changes in core fuel designs or continued MTC calculation/measurement data show significant effect on the predictive correction.

The PHOENIX/ANC calculation methods were used for the CNP Unit 1 Cycle 21 core design and relevant analyses. Also, the Unit 1 Cycle 21 core design does not represent a major change in core fuel design and the MTC calculation-to-measurement physics database shows no significant effect on the predictive correction. Therefore, the predictive correction of -3 pcm/°F remains valid for this cycle. The Unit 1 Cycle 21 core meets both of the above requirements.

Attachment I to AEP:NRC:8132 Page 3 The following data tables are provided in support of the benchmark criteria:

  • Table I - Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology (per WCAP-13749-P-A)
  • Table 2 - Flux Map Data: Assembly Powers
  • Table 3 - Flux Map Data: Core Tilt Criteria
  • Table 4 - Core Reactivity Balance Data
  • Table 5 - Low Power Physics Test Data (BOL, HZP): ITC
  • Table 6 - Low Power Physics Test Data (BOL, HZP): Total Control Bank Worth

Attachment I to AEP:NRC:8132 .Page 4 Table I Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology (per WCAP-13749-P-A)

Parameter Criteria Assembly Power (Measured Normal Reaction Rate) +/-0.1 or 10%

Measured Incore Quadrant Power Tilt (Low Power) +/-4%

Measured Incore Quadrant Power Tilt (Full Power) +2 %

Core Reactivity Difference - 1000 pcm BOL HZP ITC +/- 2 pcm/°F Individual Control Bank Worth NA*

Total Control Bank Worth +/- 10%

  • Not required when "The Spatially Corrected Inverse Count Rate (SCICR) Method for Subcritical Reactivity Measurement" has been performed; see letter from J. D. St. John, Westinghouse Electric Company, to M. L. Bellville, American Electric Power Nuclear Generation Group, "NRC Staff Interpretation of WCAP-16260-P-A," NF-AE-06-72, dated May 30, 2006.

Attachment I to AEP:NRC:8132 Page 5 Table 2 Flux Map Data: Assembly Powers Assembly Power Determination Map Date Power (Maximum Magnitude of Relative Error)

(%) Measured Predicted [Predicted - 10% of Acceptable Power Power Measuredi Predicted 121-01 11/14/06 23.99 0.428 0.397 0.031 0.040 YES 121-02 11/15/06 46.71 1.174 1.109 0.065 0.111 YES 121-03 11/17/06 87.15 0.347 0.330 0.017 0.033 YES 121-04 * * * * * *

  • 121-05 * * * * * *
  • 121-06 11/18/06 97.43 0.353 0.332 0.021 0.033 YES 121-07 11/20/06 99.93 0.351 0.332 0.019 0.033 YES 121-08 11/22/06 99.95 0.352 0.331 0.021 0.033 YES 121-09 11/27/06 99.90 0.439 0.415 0.024 0.042 YES 121-10 12/11/06 99.85 0.352 0.329 0.023 0.033 YES 121-11 01/15/07 99.84 0.347 0.326 0.021 0.033 YES 121-12 02/12/07 99.87 0.343 0.325 0.018 0.033 YES 121-13 03/12/07 99.84 0.447 0.422 0.025 0.042 YES 121-14 04/16/07 99.91 0.345 0.327 0.018 0.033 YES 121-15 05/14/07 99.86 1.159 1.099 0.060 0.110 YES 121-16 * * * * *
  • 121-17 06/11/07 99.89 0.353 0.334 0.019 0.033 YES 121-18 07/16/07 99.85 0.359 0.340 0.019 0.034 YES 121-19 08/13/07 99.95 0.367 0.346 0.021 0.035 YES 121-20 09/10/07 99.87 0.372 0.351 0.021 0.035 YES 121-21 10/15/07 99.89 0.381 0.359 0.022 0.036 YES 121-22 11/12/07 99.86 0.387 0.365 0.022 0.037 YES 121-23 12/10/07 99.88 0.396 0.370 0.026 0.037 YES Acceptance Criteria: +/- 0.1 or 10%.
  • Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.

Attachment I to AEP:NRC:8132 Page 6 Table 3 Flux MaD Data: Core Tilt Criteria Top Half Incore Quadrant Power Tilt Map # Power(%) Maximum Tilt Minimum Tilt Acceptable 121-01 23.99 1.00695 0.99487 Yes 121-02 46.71 1.00437 0.99418 Yes 121-03 87.15 1.00608 0.99498 Yes 121-04 * * *

  • 121-05 * * *
  • 121-06 97.43 1.00445 0.99551 Yes 121-07 99.93 1.00504 0.99533 Yes 121-08 99.95 1.00402 0.99623 Yes 121-09 99.90 1.00486 0.99507 Yes 121-10 99.85 1.00560 0.99446 Yes 121-11 99.84 1.00345 0.99717 Yes 121-12 99.87 1.00202 0.99631 Yes 121-13 99.84 1.00186 0.99607 Yes 121-14 99.91 1.00158 0.99679 Yes 121-15 99.86 1.00152 0.99752 Yes 121416 * * *
  • 121-17 99.89 1.00207 0.99579 Yes 121-18 99.85 1.00302 0.99546 Yes 121-19 99.95 1.00260 0.99579 Yes 121-20 99.87 1.00344 0.99345 Yes 121-21 99.89 1.00324 0.99275 Yes 121-22 99.86 1.00454 0.99531 Yes 121-23 99.88 1.00479 0.99183 Yes Acceptance Criteria: High power maps - maximum power tilt: 1.02; minimum power tilt: 0.98 Low power maps - maximum power tilt: 1.04; minimum power tilt: 0.96 Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.

to AEP:NRC:8132 Page 7 Table 3 (continued)

Flux Mat Data: Core Tilt Criteria Bottom Half Incore Quadrant Power Tilt Map # Power(,) Maximum Tilt Minimum Tilt Acceptable 121-01 23.99 1.00702 0.99307 Yes 121-02 46.71 1.00484 0.99327 Yes 121-03 87.15 1.00230 0.99608 Yes 121-04 * * *

  • 121-05 * * *
  • 121-06 97.43 1.00391 0.99654 Yes 121-07 99.93 1.00473 0.99521 Yes 121-08 99.95 1.00595 0.99393 Yes 121-09 99.90 1.00384 0.99463 Yes 121-10 99.85 1.00348 0.99456 Yes 121-11 99.84 1.00405 0.99364 Yes 121-12 99.87 1.00533 0.99565 Yes 121-13 99.84 1.00360 0.99500 Yes 121-14 99.91 1.00393 0.99566 Yes 121-15 99.86 1.00447 0.99690 Yes 121-16 * * *
  • 121-17 99.89 1.00364 0.99710 Yes 121-18 99.85 1.00230 0.99826 Yes 121-19 99.95 1.00482 0.99725 Yes 121-20 99.87 1.00491 0.99582 Yes 121-21 99.89 1.00405 0.99581 Yes 121-22 99.86 1.00510 0.99595 Yes 121-23 99.88 1.00506 0.99496 Yes Acceptance Criteria: High power maps - maximum power tilt: 1.02; minimum power tilt: 0.98 Low power maps - maximum power tilt: 1.04; minimum power tilt: 0.96 Flux maps 121-04, 121-05, and 121-16 were not full core flux maps. As a result, they do not constitute a valid measurement of the indicated parameter.

Attachment I to AEP:NRC:8132 Page 8 Table 4 Core Reactivity Balance Data Unit I Cycle 21 Boron Letdown Curve Date Burnup Delta Acceptable (MWD/MTU) Reactivity (pcm)

November 25, 2006 365.66 -151.2 Yes December 2, 2006 629.55 -45.4 Yes December 9, 2006 894.82 98.7 Yes December 12, 2006 1,008.99 11.2 Yes December 18, 2006 1,238.04 77.4 Yes January 16, 2007 2,331.74 40.0 Yes February 13, 2007 3,388.69 83.8 Yes March 13, 2007 4,446.80 114.5 Yes April 17, 2007 5,767.02 70.9 Yes May 15, 2007 6,826.59 64.3 Yes June 12, 2007 7,880.74 106.6 Yes July 17, 2007 9,202.00 47.4 Yes August 14, 2007 10,259.90 17.5 Yes September 11, 2007 11,255.30 122.4 Yes October 16, 2007 12,577.30 121.3 Yes November 13, 2007 13,638.00 68.2 Yes December 11, 2007 14,694.50 17.8 Yes Acceptance Criteria: +/- 1000 pcm

Attachment I to AEP:NRC:8132 Page 9 Table 5 Low Power Physics Test Data (BOL, HZP): ITC Measured ITC Predicted ITC ITC Error (M-P) Acceptable (pcm/°F) (pcm/°F) (pcm/°F)

-2.48 -1.08 -1.41 Yes Acceptance Criteria: ITC error within +/- 2 pcm/°F Table 6 Low Power Physics Test Data (BOL. HZP): Total Control Bank Worth Measured Predicted Delta Worth Worth %Error Worth Worth (M-P) (M-P)xlOO% Acceptable (pcm) (pcm) (pcm) P Total Measured Worth 6955 7033 -78 -1.11% Yes AcceptanceCriteria: Total Measured Worth % error within +/-10%

Attachment 2 to AEP:NRC:8132 MOST NEGATIVE END OF LIFE MODERATOR TEMPERATURE COEFFICIENT LIMIT REPORT FOR DONALD C. COOK NUCLEAR PLANT UNIT 1, CYCLE 21 to AEP:NRC:8132 Page 2 Most Negative End of Life Moderator Temperature Coefficient Limit Report for Donald C. Cook Unit 1, Cycle 21 To facilitate the review of this information, a list of acronyms used in this attachment is provided.

OF degrees Fahrenheit A delta

% percent AFD axial flux difference ARO all rods out BOL beginning of life CB Reactor Coolant System boron concentration CNP Donald C. Cook Nuclear Plant COLR Core Operating Limits Report EOL end of life HFP hot full power HZP hot zero power ITC isothermal temperature coefficient M measured MTC moderator temperature coefficient MTU metric tons of uranium MWD megawatt-day pcm percent-millirho ppm parts per million P predicted RCS Reactor Coolant System RTP reactor thermal power PURPOSE:

The purpose of this document is to present cycle-specific best estimate data for use in confirming the most negative EOL MTC limit in Technical Specification 3.1.3. This document also summarizes the methodology used for determining if a HFP 300 ppm MTC measurement is required.

PRECAUTIONS AND LIMITATIONS:

The EOL MTC exemption data presented in this document apply to CNP Unit 1 Cycle 21 only and may not be used for other operating cycles.

to AEP:NRC:8 132 Page 3 The following reference is applicable to this document:

WCAP-13749-P-A, "Safety Evaluation Supporting the Conditional Exemption of the Most Negative EOL Moderator Temperature Coefficient Measurement," March, 1997.

PROCEDURE:

All core performance benchmark criteria listed in Table 1 must be met for the current operating cycle. These criteria are confirmed from startup physics test results and routine HFP CB and incore flux map surveillances performed during the cycle.

If all core performance benchmark criteria are met, then the Revised Predicted MTC may be calculated per the algorithm given in Table 2. The required cycle-specific data are provided in Tables 3 and 4, and Figure 1. This methodology is also described in the referenced document. If all core performance benchmark criteria are met and the Revised Predicted MTC is less negative than COLR Limit 2.2.2.b, then a measurement is not required.

to AEP:NRC:8132 Page 4 Table 1 Benchmark Criteria for Application of the 300 ppm MTC Conditional Exemption Methodology Parameter Criteria Assembly Power (Measured Normial Reaction Rate) +0.1 or 10%

Measured Incore Quadrant Power Tilt (Low Power) +4%

Measured Incore Quadrant Power Tilt (Full Power) 22%

Core Reactivity Difference +/- 1000 pcrn BOL HZP ITC +/- 2 pcm/°F Individual Control Bank Worth Total Control Bank Worth +/- 10%

Not required when "The Spatially Corrected Inverse Count Rate (SCICR) Method for Subcritical Reactivity Measurement" has been performed; see letter from J. D. St. John, Westinghouse Electric Company, to M. L. Bellville, American Electric Power Nuclear Generation Group, "NRC Staff Interpretation of WCAP-16260-P-A," NF-AE-06-72, dated May 30, 2006.

to AEP:NRC:8132 Page .5 Table 2 Algorithm for Determinin2 the Revised Predicted Near-EOL 300 ppm MTC The Revised PredictedMTC = PredictedMTC + AFD Correction - 3 pcm/°F Where:

Predicted MTC is calculated from Figure 1 at the bumup corresponding to the measurement of 300 ppm at RTP conditions, AFD Correction is the more negative value of:

0 pcm/°F, (AAFD

  • AFD Sensitivity)

AAFD is the measured AFD minus the predicted AFD from an incore flux map taken at or near the burnup corresponding to 300 ppm.

AFD Sensitivity = 0.05 pcm / 'F / %AAFD Predictive Correction is -3 pcm/°F, as included in the equation for the Revised Predicted MTC.

to AEP:NRC:8132 Page 6 Table 3 Worksheet for Calculatin2 the Revised Predicted Near-EOL 300 Dom MTC Unit: 1, Cycle 21 Date: 12/26/2007 Time: 6:27 Reference for Cycle-Specific MTC Data:

CNP, Unit I Cycle 21, COLR Part A. Predicted MTC A. 1 Cycle Average Burnup corresponding to the HFP ARO equilibrium xenon CB of 300 ppm. 15258 MWD/MTU A.2 Predicted HFP ARO MTC corresponding to burMup (A. 1) -20.83 pcm/°F Part B. AFD Correction B.1 Burnup of most recent HFP, equilibrium conditions incore flux map 14657.9 MWD/MTU B.2 Measured HFP AFD at burnup (B.1)

Reference incore flux map:

ID: 121-23 Date: 12/10/07 -2.38  % AFD B.3 Predicted HFP AFD at burnup (B.1) -2.23  % AFD B.4 MTC Sensitivity to AFD 0.05 pcm/IF/%AAFD B.5 AFD Correction, more negative of

{ 0 pcm/°F, B.4 *(B.2 - B.3)} -0.01 pcm/°F Part C. Revised Prediction C.1 Revised Prediction (A.2 + B.5 - 3 pcm/0 F) -23.84 pcm/0 F C.2 Surveillance Limit (COLR 2.2.2.b) -38.4 pcm/°F If C.1 is less negative than C.2, then the HFP 300 ppm MTC measurement is not required per Technical Specification Surveillance Requirement 3.1.3.2.

to AEP:NRC:8132 Page 7 Table 4 Data Collection and Calculations Required to Complete the Table 3 Worksheet of the Most Ne2ative Moderator Temperature Coefficient Limit Report Data at the 300 ppm Boron Point:

  • RCS Boron at 300 ppm at 6:27 on 12/26/2007
  • Burnup at 300 ppm: 15258 MWD/MTU (A.1)
  • Predicted MTC: -20.83 pcm/0 F (A.2)

Data from Last Flux Map:

  • Flux Map Number: 121-23 (B.2)
  • Reactor Power (RP): 99.88% RTP
  • Burnup: 14657.9 MWD/MTU (B.1)
  • Measured Axial Flux Difference (MAFD): -2.38% (B.2)

MAFD = Measured Axial Offset

=-2.385%

  • 99.88% /100%

= -2.38%

Predicted Axial Flux Difference (PAFD): -2.23% (B.3)

PAFD = Predicted Axial Offset

=-2.23%

  • 99.88% / 100%

= -2.23%

A AFD (MAFD-PAFD)

= (-2.38% - -2.23%)

= -0.15%

Determination of the Revised Predicted MTC AFD Sensitivity: 0.05 pcm/°F/ %AAFD (B.4)

AFD Correction: -0.01 pcm/°F (B.5) where: AFD Correction is the more negative of the following:

0 pcm/°F or (AAFD

  • AFD Sensitivity) 0 pcm/nF or (-0.15%
  • 0.05 pcm/°F/ %AAFD) 0 pcm/°F or -0.01 pcm/0 F

.*.-0.01 pcm/°F Revised Predicted MTC = Predicted MTC + AFD Correction -3 pcm/°F

= -20.83 pcm/°F + -0.01 pcm/°F -3 pcm/°F

= -23.84 pcm/°F (C.1) to AEP:N.RC:8132 Page 8 Figure 1 Unit 1 Cycle 21 Predicted HFP ARO 300 ppm MTC Versus Burnup

-Z .u I r--u q

-2.03E-04 '"

IL

.2 05E-04 j

-2.07E-04 I-*

.2.OgE.04 ,

E 0-NS.-

I

-2.11E-04

-2.13E-04

-2.15E-04 --I -_L_1~~i_--

130 00 14000 15000 Cycle Bumup (MWDIMTU) 16000 17000 Burnup (MWDIMTU) MTC (Ak/kPF) 13000 -2.01 85E-4 14000 -2.0487E-4 15000 -2.0764E-4 16000 -2.1 035E-4 17000 -2.1293E-4