L-19-011, Plant, Unit 1 - Revision 1 of the Cycle 16 Core Operating Limits Report (COLR): Difference between revisions
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Watts Bar Nuclear Plant, Unit 't, Cycle 16 Core Operating Limits Report, Revision 1, January 2019 cc (Enclosure): | Watts Bar Nuclear Plant, Unit 't, Cycle 16 Core Operating Limits Report, Revision 1, January 2019 cc (Enclosure): | ||
NRC Regional Administrator - Region Il NRR Project Manager NRC Senior Resident lnspector ENCLOSURE 1 Watts Bar Nuclear Plant, Unit 1, Cycle 16 Gore Operating Limits Report Revision I January 2019 QA Record 136 1901 18 802 IVATTS BAR NUCLEAR PLANT, UNIT 1, CYCLE CORE OPERATING LIMITS REPORT Revision 1 January 2019 Setter, WR Fuel Engineering Manager ,//1'T-(B.T. Mack, Reacto fnginee Manager Approved by: r, PORC Chairman 16 Prepared by:l ,1re Irt Date r r.fl 8/tt ... -Date Date'/ou/,r d*rt Date D ll, Plant Manager ,/1 ate L,lnit I W.,\T]'S tsAR C1'clc lfi ltevision I Fuel Engineering Verified by: J. f/Ritchi{PVUR Fuel Engineering Reviewed by: Revision Date of PORC Approval Affected Pages Reason for Revision 0 4il27l2018 Ail lnitial lssue 1 See Above 1.9 Revised W(=) values due to DAO > 3%[]agc I ol' I 1.0 CORE OPERATING LIMITS REPORT This Core Operating Limits Report (COLR) for Watts Bar Unit 1 Cycle 16 has been prepared in accordance with the requirements of the Technical Specifications (TS) 5.9.5.The Technical Specifications affected by this report are listed below: 3.1.4 Moderator Temperature Coefficient (MTC)3.1.5 Rod Group Alignment Limits 3.1.6 Shutdown Bank Insertion Limits 3.L.7 Control Bank Insertion Limits 3.2.1 Heat Flux Hot Channel Factor (Fq(Z))3.2.2 Nuclear Enthalpy Rise Hot Charurel Factor (Fo"*)3.2.3 Axial Flux Difference (AFD)3.9.1 BoronConcentration | NRC Regional Administrator - Region Il NRR Project Manager NRC Senior Resident lnspector ENCLOSURE 1 Watts Bar Nuclear Plant, Unit 1, Cycle 16 Gore Operating Limits Report Revision I January 2019 QA Record 136 1901 18 802 IVATTS BAR NUCLEAR PLANT, UNIT 1, CYCLE CORE OPERATING LIMITS REPORT Revision 1 January 2019 Setter, WR Fuel Engineering Manager ,//1'T-(B.T. Mack, Reacto fnginee Manager Approved by: r, PORC Chairman 16 Prepared by:l ,1re Irt Date r r.fl 8/tt ... -Date Date'/ou/,r d*rt Date D ll, Plant Manager ,/1 ate L,lnit I W.,\T]'S tsAR C1'clc lfi ltevision I Fuel Engineering Verified by: J. f/Ritchi{PVUR Fuel Engineering Reviewed by: Revision Date of PORC Approval Affected Pages Reason for Revision 0 4il27l2018 Ail lnitial lssue 1 See Above 1.9 Revised W(=) values due to DAO > 3%[]agc I ol' I 1.0 CORE OPERATING LIMITS REPORT This Core Operating Limits Report (COLR) for Watts Bar Unit 1 Cycle 16 has been prepared in accordance with the requirements of the Technical Specifications (TS) 5.9.5.The Technical Specifications affected by this report are listed below: 3.1.4 Moderator Temperature Coefficient (MTC)3.1.5 Rod Group Alignment Limits 3.1.6 Shutdown Bank Insertion Limits 3.L.7 Control Bank Insertion Limits 3.2.1 Heat Flux Hot Channel Factor (Fq(Z))3.2.2 Nuclear Enthalpy Rise Hot Charurel Factor (Fo"*)3.2.3 Axial Flux Difference (AFD)3.9.1 BoronConcentration 2.0 OPERATING LIMITS The cycle-specific parameter limits for the specifications listed in section 1.0 are presented in the following subsections. | ||
These limits have been developed using the NRC approved methodologies specified in the Technical Specifications Section 5.9.5.The following abbreviations are used in this section: BOL Beginning of Cycle Life ARO AllRods Out ITZP HotZero Thermal Power EOL End of Cycle Life RTP Rated Thermal Power 2.1 MODERATOR TEMPERATURE COEFFICIENT - MTC (LCO 3.1.4)2.1.1 The MTC limits are: The ARO/HZP - MTC shall be less positive than or equal to 0 Ak/l/oF (upper limit).With the measured BOLIAROIHZP - MTC more positive than -3.277 x l0-5 Al/ld"F (as-measured MTC limit), establish control rod withdrawal limits to ensure the MTC remains less positive than or equal to 0 Ak/ld"F (upper limit) for all times in core life.The EOL/ARO/RTP - MTC shall be less negative than or equal to-4.5 x l0a Aldl/oF (lower limi0.2.1.2 The 300 ppm surveillance limit is: The measured 300 ppm /AROiRTP-MTC should be less negative than or equal to-3.75 x l0-4 Ak/ldoF.2.1.3 The 60 ppm surveillance limit is: The measured 60 ppm /ARO/RTP-MTC should be less negative than or equal to 4.28 x l0-4 Ak/k/oF.Unit I Cycle 16 WATTS BAR Page2 of 9 Revision I 2.2 SHUTDOWN MARGTN - SDM (LCO 3.1.5,3.1.6, 3.1.7)2.2.1 For TS 3.1.5, SDM shall be Z l.6a Ak/k in MODE I and MODE 2.2.2.2 For TS 3.1.6, SDM shall be> l.60/o Lklk in MODE I and MODE 2.2.2.3 For TS 3.1.7, SDM shall be> 1.6%o LWk inMODE I andMODE 2 withkeff> | |||
LIMITS The cycle-specific parameter limits for the specifications listed in section 1.0 are presented in the following subsections. | |||
These limits have been developed using the NRC approved methodologies specified in the Technical Specifications Section 5.9.5.The following abbreviations are used in this section: BOL Beginning of Cycle Life ARO AllRods Out ITZP HotZero Thermal Power EOL End of Cycle Life RTP Rated Thermal Power 2.1 MODERATOR TEMPERATURE COEFFICIENT - MTC (LCO 3.1.4)2.1.1 The MTC limits are: The ARO/HZP - MTC shall be less positive than or equal to 0 Ak/l/oF (upper limit).With the measured BOLIAROIHZP - MTC more positive than -3.277 x l0-5 Al/ld"F (as-measured MTC limit), establish control rod withdrawal limits to ensure the MTC remains less positive than or equal to 0 Ak/ld"F (upper limit) for all times in core life.The EOL/ARO/RTP - MTC shall be less negative than or equal to-4.5 x l0a Aldl/oF (lower limi0.2.1.2 The 300 ppm surveillance limit is: The measured 300 ppm /AROiRTP-MTC should be less negative than or equal to-3.75 x l0-4 Ak/ldoF.2.1.3 The 60 ppm surveillance limit is: The measured 60 ppm /ARO/RTP-MTC should be less negative than or equal to 4.28 x l0-4 Ak/k/oF.Unit I Cycle 16 WATTS BAR Page2 of 9 Revision I | |||
MARGTN - SDM (LCO 3.1.5,3.1.6, 3.1.7)2.2.1 For TS 3.1.5, SDM shall be Z l.6a Ak/k in MODE I and MODE 2.2.2.2 For TS 3.1.6, SDM shall be> l.60/o Lklk in MODE I and MODE 2.2.2.3 For TS 3.1.7, SDM shall be> 1.6%o LWk inMODE I andMODE 2 withkeff> | |||
1.0.2.3 SHUTDOWN BANK TNSERTION LIMITS (LCO 3.1.6)2.3.1 The shutdown banks shall be withdrawn to a position greater than or equal to 225 steps withdrawn. | 1.0.2.3 SHUTDOWN BANK TNSERTION LIMITS (LCO 3.1.6)2.3.1 The shutdown banks shall be withdrawn to a position greater than or equal to 225 steps withdrawn. | ||
2.4 CONTROL BAI{K INSERTION LIMITS (LCO 3.1.7)2.4.1 The control banks are fully withdrawn or shall be limited in physical insertion as shown in Figure l.2.4.2 Each control bank shall be considered fully withdrawn from the core at greater than or equal to 225 steps.2.4.3 The control banks shall be operated in sequence by withdrawal of Bank A, Bank B, Bank C, and Bank D. The control banks shall be sequenced in reverse order upon insertion. | |||
BAI{K INSERTION LIMITS (LCO 3.1.7)2.4.1 The control banks are fully withdrawn or shall be limited in physical insertion as shown in Figure l.2.4.2 Each control bank shall be considered fully withdrawn from the core at greater than or equal to 225 steps.2.4.3 The control banks shall be operated in sequence by withdrawal of Bank A, Bank B, Bank C, and Bank D. The control banks shall be sequenced in reverse order upon insertion. | |||
2.4.4 Each control bank not fully withdrawn from the core shall be operated with the following overlap as a function of park position.Park Position (steps) Bank Overlap (steps) Bank Difference (steps)109 r0 11 t2 13 t4 r l5 2.5 HEAT FLUX HOT CHANNEL FACTOR -Bq(Z) (LCO 3.2.1)Fo(Z)< [CFQ/P] *K(Z) forP>0.5 Fq(Z)< [CFQ/0.5] | 2.4.4 Each control bank not fully withdrawn from the core shall be operated with the following overlap as a function of park position.Park Position (steps) Bank Overlap (steps) Bank Difference (steps)109 r0 11 t2 13 t4 r l5 2.5 HEAT FLUX HOT CHANNEL FACTOR -Bq(Z) (LCO 3.2.1)Fo(Z)< [CFQ/P] *K(Z) forP>0.5 Fq(Z)< [CFQ/0.5] | ||
*K(Z) forP<0.5 Where P - Thermal Power lRated Thermal Power 2.s.r cFQ - 2.s0 225 226 227 228 229 na 231 116 116 116 116 116 l l6 116 Unit I WATTS BAR Cycle 16 Revision 1 Page 3 of 9 2.5.2 K(Z) is provided in Figure 2.2-53 Faw(Z) = Fo'(Z) | *K(Z) forP<0.5 Where P - Thermal Power lRated Thermal Power 2.s.r cFQ - 2.s0 225 226 227 228 229 na 231 116 116 116 116 116 l l6 116 Unit I WATTS BAR Cycle 16 Revision 1 Page 3 of 9 2.5.2 K(Z) is provided in Figure 2.2-53 Faw(Z) = Fo'(Z) | ||
Revision as of 01:58, 5 May 2019
| ML19029B238 | |
| Person / Time | |
|---|---|
| Site: | Watts Bar  |
| Issue date: | 01/29/2019 |
| From: | Simmons P Tennessee Valley Authority |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| WBL-19-011 | |
| Download: ML19029B238 (12) | |
Text
Tennessee Valley A wBL-19-011 January 29,2019 10 cFR 50.4 ATTN: Document Control Desk u. s. Nuclear Regulatory commission Washington, D.C. 20555-0001
Subject:
Watts Bar Nuclear plant, Unit 1 Facility Operating License No. NpF-90 NRC Docket No. 50-390 UNIT 1 REVISION 1 OF THE CYCLE '6 CORE OPERATING LIiIITS REPORT (coLR)Pursuant to Watts Bar Nuclear Plant Technical Specifications (Tech Spec) Section 5.g.s.d, Tennessee Valley Authority (TVA) has encloseo irevision i otine unit'i6v"re io cotR. rni.revision updates the W(z) values on Table A.1.There are no regulatory commitments contained in this questions regarding this submittal, please contact Kim Paul Simmons Site Vice President Watts Bar Nuclear plant letter or the enclosure.
should you have Hulvey at (4Zg) 365-7T20.
U.S. Regulatory Commission Page2 January 29,2019
Enclosure:
Watts Bar Nuclear Plant, Unit 't, Cycle 16 Core Operating Limits Report, Revision 1, January 2019 cc (Enclosure):
NRC Regional Administrator - Region Il NRR Project Manager NRC Senior Resident lnspector ENCLOSURE 1 Watts Bar Nuclear Plant, Unit 1, Cycle 16 Gore Operating Limits Report Revision I January 2019 QA Record 136 1901 18 802 IVATTS BAR NUCLEAR PLANT, UNIT 1, CYCLE CORE OPERATING LIMITS REPORT Revision 1 January 2019 Setter, WR Fuel Engineering Manager ,//1'T-(B.T. Mack, Reacto fnginee Manager Approved by: r, PORC Chairman 16 Prepared by:l ,1re Irt Date r r.fl 8/tt ... -Date Date'/ou/,r d*rt Date D ll, Plant Manager ,/1 ate L,lnit I W.,\T]'S tsAR C1'clc lfi ltevision I Fuel Engineering Verified by: J. f/Ritchi{PVUR Fuel Engineering Reviewed by: Revision Date of PORC Approval Affected Pages Reason for Revision 0 4il27l2018 Ail lnitial lssue 1 See Above 1.9 Revised W(=) values due to DAO > 3%[]agc I ol' I 1.0 CORE OPERATING LIMITS REPORT This Core Operating Limits Report (COLR) for Watts Bar Unit 1 Cycle 16 has been prepared in accordance with the requirements of the Technical Specifications (TS) 5.9.5.The Technical Specifications affected by this report are listed below: 3.1.4 Moderator Temperature Coefficient (MTC)3.1.5 Rod Group Alignment Limits 3.1.6 Shutdown Bank Insertion Limits 3.L.7 Control Bank Insertion Limits 3.2.1 Heat Flux Hot Channel Factor (Fq(Z))3.2.2 Nuclear Enthalpy Rise Hot Charurel Factor (Fo"*)3.2.3 Axial Flux Difference (AFD)3.9.1 BoronConcentration 2.0 OPERATING LIMITS The cycle-specific parameter limits for the specifications listed in section 1.0 are presented in the following subsections.
These limits have been developed using the NRC approved methodologies specified in the Technical Specifications Section 5.9.5.The following abbreviations are used in this section: BOL Beginning of Cycle Life ARO AllRods Out ITZP HotZero Thermal Power EOL End of Cycle Life RTP Rated Thermal Power 2.1 MODERATOR TEMPERATURE COEFFICIENT - MTC (LCO 3.1.4)2.1.1 The MTC limits are: The ARO/HZP - MTC shall be less positive than or equal to 0 Ak/l/oF (upper limit).With the measured BOLIAROIHZP - MTC more positive than -3.277 x l0-5 Al/ld"F (as-measured MTC limit), establish control rod withdrawal limits to ensure the MTC remains less positive than or equal to 0 Ak/ld"F (upper limit) for all times in core life.The EOL/ARO/RTP - MTC shall be less negative than or equal to-4.5 x l0a Aldl/oF (lower limi0.2.1.2 The 300 ppm surveillance limit is: The measured 300 ppm /AROiRTP-MTC should be less negative than or equal to-3.75 x l0-4 Ak/ldoF.2.1.3 The 60 ppm surveillance limit is: The measured 60 ppm /ARO/RTP-MTC should be less negative than or equal to 4.28 x l0-4 Ak/k/oF.Unit I Cycle 16 WATTS BAR Page2 of 9 Revision I 2.2 SHUTDOWN MARGTN - SDM (LCO 3.1.5,3.1.6, 3.1.7)2.2.1 For TS 3.1.5, SDM shall be Z l.6a Ak/k in MODE I and MODE 2.2.2.2 For TS 3.1.6, SDM shall be> l.60/o Lklk in MODE I and MODE 2.2.2.3 For TS 3.1.7, SDM shall be> 1.6%o LWk inMODE I andMODE 2 withkeff>
1.0.2.3 SHUTDOWN BANK TNSERTION LIMITS (LCO 3.1.6)2.3.1 The shutdown banks shall be withdrawn to a position greater than or equal to 225 steps withdrawn.
2.4 CONTROL BAI{K INSERTION LIMITS (LCO 3.1.7)2.4.1 The control banks are fully withdrawn or shall be limited in physical insertion as shown in Figure l.2.4.2 Each control bank shall be considered fully withdrawn from the core at greater than or equal to 225 steps.2.4.3 The control banks shall be operated in sequence by withdrawal of Bank A, Bank B, Bank C, and Bank D. The control banks shall be sequenced in reverse order upon insertion.
2.4.4 Each control bank not fully withdrawn from the core shall be operated with the following overlap as a function of park position.Park Position (steps) Bank Overlap (steps) Bank Difference (steps)109 r0 11 t2 13 t4 r l5 2.5 HEAT FLUX HOT CHANNEL FACTOR -Bq(Z) (LCO 3.2.1)Fo(Z)< [CFQ/P] *K(Z) forP>0.5 Fq(Z)< [CFQ/0.5]
- K(Z) forP<0.5 Where P - Thermal Power lRated Thermal Power 2.s.r cFQ - 2.s0 225 226 227 228 229 na 231 116 116 116 116 116 l l6 116 Unit I WATTS BAR Cycle 16 Revision 1 Page 3 of 9 2.5.2 K(Z) is provided in Figure 2.2-53 Faw(Z) = Fo'(Z)
- W(Z)1P for P > 0.5 Fq*(Z) : Fq'(Z)
- W(Z)/0.5 for P < 0.5 where: W(Z) values are provided in Table A.l. The table provides suflicient information to determine W(Z) versus core height for all cycle burnups.2.5.4 Partpower W(Z) values are only required to be used when the part power surveillance is performed using the moveable incore detector system.2.5.5 Faw(Z) Penalty Factor The Faw(Z) penalty factor is provided in Table A.2.2.6 ttucLEAR ENTHALPY RrSE HOT CHANNEL FACTOR - FarrN (LCO 3.2.2)Far* S F*"tt * ( I + PF * ( l-P))where P - Thermal Power lRated Thermal Power TT RTP FaH"" : I.65 for RF A-2 fuel, and PF : 0.3 2.7 AXrAL FLUX DIFFERENCE - AFD (LCO 3.2.3)2.7.1 The AFD limits for Cycle 16 are provided in Figure 3.2.8 REFUELING BORON CONCENTRATION (LCO 3.9.1)2.8.1 The refueling boron concentration shall be > 2000 ppm.3.0 NUMBER OF TPBARS IN REACTOR CORE (TS 4.2.1)3.0.1 There are 1584 tritium producing burnable absorber rods (TPBARs) in the reactor core for Cycle 16.Unit 1 WATTS BAR Cycle 16 Revision 1 Page 4 of 9
?ts E, o-E 3 1so.a a.lrJ F g 3 Lzs I F 6 o a.A H 1oo-z o tts c, 0.0 0.2 0.4 0.5 0.8 1.0 FRACTION OF RATED THERMAT POWER Figure I Control Bank Insertion Limits Versus Thermal Power Four Loop Operation Note: Fully withdrawn region shall be the condition where shutdown and control banks are at a position within the interval of >225 and323l steps withdrawn.
Unit 1 WATTS BAR Cycle 16 Revision 1 Page 5 of 9 1.1 1.2 1.0 0.9 0.8 o.7 0.6 0.5 o.4 0.3 o.2 0.1 0 l-o=o (L*o LL o o.N G E l-o z 2 o 468 Core Height (feet)Figure 2 K(z) - Normalized Fq(z) as a Function of Core Height 10 12 Unit 1 WATTS BAR Cycle 16 Revision I L E-_I core Heioht KU\Page 6 of 9 120 110 100 90 80 40-20-10 0 10 Flux Difference (Ll) Yo f igure 3 Axial Flux Difference Acceptable Operation Limits as a function of Rated Thermal Power (RAOC)o=8ro 6 E o f60 E'o r}a (r fso o s Unit I WATTS BAR Cycle 16 Revision 1 Page 7 of 9 trrr Unit I WATTS BAR Table A.1 RAOC W(Z) Surveillance Factors Cycle 16 Revision 1 Height (ft)Max W(z)at 150 MWD'MTU (100%Powerl Max W(z)at 3000 MWD/MTU (100%Powerl Max W(z)at 60fi)MWD/MTU (100%Powerl Max W(z)at 80fi)MWD'MTU (100%Powerl Max W(z)at 12fi)0 MWD/MTU (100%Powerl Max W(z)at 16fi)0 MWD'MTU (100%Max W(z)at 18000 MWD/MTU (100%Powerl 12.0742 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 11.8730 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 11.6717 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1',!.4705 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1,0000 11.2693 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 11.0680 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 10.8668 1.1622 1.2701 1.2488 1.2143 1.14/,9 1.1530 1.1705 10.6655 1.1598 1.2670 1.2453 1.2113 1.1438 1.1510 1,1679 10.4643 1.1549 1.2612 1.2391 1.2057 1.1403 1.1465 1.1638 10.2631 1.1491 1.2538 1.2312 1.1983 1.1355 1.1405 1.1580 10.0618 1.1438 1.2445 1.2216 1.1900 1.1288 1.1326 1.1514 9.8606 1.1390 1.2.36.2 1.2128 1.1799 1125s 1.1273 1.1435 9.6594 1.1364 1.2301 1.2052 1.1715 1.1253 1.1270 1.1363 9.4581 1.1377 1.2223 1.1978 1.1702 1.1247 1.1264 1.1338 9.2569 1j370 1.2123 1.1997 1.1714 1.1266 1.1236 1.1%7 9.0557 1.1388 1.2042 1.2014 1.1723 1.1273 1.1248 1.1434 8.8544 1.1465 1.1996 1:1978 1.1713 1.1281 1.1304 1.1486 8.6532 1.1579 1.1959 1.1948 1.1712 1.1341 1.1402 1.1558 8.4519 1.1687 1.1914 1.1970 1.1766 1.',1443 1.1571 1.1736 8.2507 1.1769 1.1906 1.1973 1.1798 1.1525 11720 1.1892 8.0495 1.1828 1.1908 1.1953 1.1807 1.1587 1.1843 1.2020 7.8482 1.1866 1.1906 1.1918 1.1802 1.1633 1.1950 1.2131 7.6470 1.1881 1.1887 1jffi7 1.1779 1.1663 1.2034'1.2218 7.4458 1.1878 1.1853 1.1800 1.1741 1.1675 1.2096 1.2282 7.2445 1.1888 1.1806 1.1719 1.1688 1,1666 1.2137 1.2322 7.0433 1.1904 1.1737 1.1628 1.1617 1.1679 1.2157 1.23/,0 6.8420 1.1909 1.1681 1.1573 1.1585 1.1701 1.2156 1.2335 6.6408 1.1898 1.1648 1.1559 1.1587 1.1701 1.2135 1.2309 6.4396 1.1876 1.1599 1.1526 1.1579 1.1692 1.2102 1.2266 6.2383 1.1835 1.1 553 1.1475 1.1557 1.1669 1.2050 1.2205 6.0371 1.1799 1.1515 1.1439 1.1523 1.1626 1.1978 1.2123 5.8359 1.1771'1.1472 1.1410 1.1471 1.1584 1.1889 1.2022 5.6346 1.1738 1.1418 1.1373 11420 1.1559 1.1782 1.1903 5.4334 1.1700 1.1378 1.1 355 1.1404'1.1540 1.1684 1.1782 5.2322 1.1680 1.1363 1.1357 1.1427 1.1537 1.1683 1.1716 5.0309 1.1690 1.1346 1.1357 1.',1454 1.1535 1.1698 1.1708 4.8297 1 1711 1.1318't.1346 1.1469 1.1542 1.1711 1.1717 4.6284 1.1717 1.1286 1.1330 1.1479 1.1582 1.1715 1.1709 4.4272 1.1719 1.1249 1.1309 1.1482 1.1625 1.1710 1.1694 4.2260 1.173/'1.1206 1.1282 1.1480 1.1664 1.1715 1.1672 4.4247 1.1749 1.1162 1.1252 1.1475 11700 1.1732 1.16/10 3.8235 1.1755 1.1111 1.1219 1.1463 1.1734 1.1743 1.1623 3.6223 1.1761 1.1069 1.12'.11 1.1454 1.1766 1.1762 1.1629 3.4210 1.1788 1.1065 1.1259 1.1472 1.1797 1.1829 1.1684 3.2198 1.1886 1.1090 1.1301 1.1518 1.1853 1.1912 1.1734 3.0186 1.1996 1.1 108 1.1351 1.1600 1.1938 1.1978 1.1791 2.8173 1.2095 1.1172 1_1444 11751 1.2093 1.2110 1.1926 2.6161 1.2210 1.1323 1.1588 1.1962 1.2320 1.2337 1.2138 2.4148 1.2356 1.1497 1.1761 1.2166 1.2534 1.2il6 1.2336 2.2136 1.2493 1.1671 1.1944 1.2365 1.2742 1.2747 1.2527 2.0124 1.2620 1.1839 1.2124 1.2559 1.2942 1.2940 1.2711 1.8111 1.2737 1.2001 1.2294'1.2742 1.3131 1.3121 1.2884 1.6099 1.2842 1.2151 1.2452 1.2910 1.3304 1.3286 1.3M3 1.4087 1.2939 1.2279 1.2587 1.3053 1.3450'1.3425 1.3177 1.2074 1.3025 1.2372 1.2684 1.3157 1.3554 1.3520 1.3268 1.0062 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 0.8049 1.0000 1.OOO0 1.0000 1.0000 1.0000 1.0000 1.0000 0.6037 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 o.4025 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 0.2012 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 0.0000 1.0000 1.0000 1.0000'1.0000 1.0000 1.0000 1.0000 Page 8 of 9 trll Table 4.2 Fq*(Z) Penalty Factor Note: l. The Penalty Factor, which is applied to Faw(Z) for compliance with Surveillance Requirement 3.2.1.2, is the maximum factor by which Fq*(Z) is expected to increase per 3l Effective Full Power Days (EFPD) starting from the burnup at which the fow1Zl was determined.
Core Burnup (MWD/MTU)Fo*(z)Penalty Factor A11 Burnups 1.0200 Unit 1 WATTS BAR Cycle 16 Revision 1 Page 9 of 9