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{{#Wiki_filter:Technical Specification 5.6.5(d)
{{#Wiki_filter:Technical Specification 5.6.5(d)
Palo Verde Nuclear Generating Station 5871 S. Wintersburg Road Tonopah, AZ 85354 102-08096-MDD/MSC April 22, 2020 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washington, DC 20555-0001
A member of the STARS Alliance LLC Callaway Diablo Canyon Palo Verde Wolf Creek Palo Verde Nuclear Generating Station 5871 S. Wintersburg Road Tonopah, AZ 85354 102-08096-MDD/MSC April 22, 2020 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washington, DC 20555-0001  


==Subject:==
==Subject:==
Palo Verde Nuclear Generating Station (PVNGS) Units 1, 2, and 3 Docket Nos. STN 50-528, 50-529, and 50-530 Unit 1 Core Operating Limits Report Revision 28 Unit 2 Core Operating Limits Report Revision 23 Unit 3 Core Operating Limits Report Revision 27
Palo Verde Nuclear Generating Station (PVNGS) Units 1, 2, and 3 Docket Nos. STN 50-528, 50-529, and 50-530 Unit 1 Core Operating Limits Report Revision 28 Unit 2 Core Operating Limits Report Revision 23 Unit 3 Core Operating Limits Report Revision 27  


==Dear Sirs:==
==Dear Sirs:==
Pursuant to PVNGS Technical Specifications, Section 5.6.5(d), enclosed are the Units 1, 2, and 3 Core Operating Limits Report (COLR), Revisions 28, 23, and 27, respectively, which were made effective April 15, 2020.
Pursuant to PVNGS Technical Specifications, Section 5.6.5(d), enclosed are the Units 1, 2, and 3 Core Operating Limits Report (COLR), Revisions 28, 23, and 27, respectively, which were made effective April 15, 2020.
The changes implemented by these revisions are to the table in the Analytical Methods section of each units COLR. Previously, documents referenced in that table lacked certain details in the reference information. No technical changes were necessary. In addition, as a result of License Amendment 212, a new section 4.2.1 was added that details the specific fuel types being used in each reactor for the current operating cycles.
The changes implemented by these revisions are to the table in the Analytical Methods section of each units COLR. Previously, documents referenced in that table lacked certain details in the reference information. No technical changes were necessary. In addition, as a result of License Amendment 212, a new section 4.2.1 was added that details the specific fuel types being used in each reactor for the current operating cycles.
These changes affect several pages in the respective COLRs. Revision bars have been applied to those pages which contain changes.
These changes affect several pages in the respective COLRs. Revision bars have been applied to those pages which contain changes.
No commitments are being made to the Nuclear Regulatory Commission (NRC) by this letter. If you have any questions about this submittal please contact Matthew S. Cox, Licensing Section Leader, at (623) 393-5753.
No commitments are being made to the Nuclear Regulatory Commission (NRC) by this letter. If you have any questions about this submittal please contact Matthew S. Cox, Licensing Section Leader, at (623) 393-5753.
Sincerely, Digitally signed by Dilorenzo, Michael Dilorenzo, Michael              D(Z99838)
Sincerely, Michael D. DiLorenzo Nuclear Regulatory Affairs Department Leader MDD/MSC/mg : Unit 1 Core Operating Limits Report, Revision 28 : Unit 2 Core Operating Limits Report, Revision 23 : Unit 3 Core Operating Limits Report, Revision 27 cc:
S. A. Morris NRC Region IV Regional Administrator S. P. Lingam NRC NRR Project Manager for PVNGS C. A. Peabody NRC Senior Resident Inspector for PVNGS Dilorenzo, Michael D(Z99838)
Digitally signed by Dilorenzo, Michael D(Z99838)
DN: cn=Dilorenzo, Michael D(Z99838)
DN: cn=Dilorenzo, Michael D(Z99838)
D(Z99838)                        Date: 2020.04.22 11:17:35 -07'00' Michael D. DiLorenzo Nuclear Regulatory Affairs Department Leader MDD/MSC/mg : Unit 1 Core Operating Limits Report, Revision 28 : Unit 2 Core Operating Limits Report, Revision 23 : Unit 3 Core Operating Limits Report, Revision 27 cc:
Date: 2020.04.22 11:17:35 -07'00'
S. A. Morris                        NRC Region IV Regional Administrator S. P. Lingam                        NRC NRR Project Manager for PVNGS C. A. Peabody                      NRC Senior Resident Inspector for PVNGS A member of the STARS Alliance LLC Callaway  Diablo Canyon  Palo Verde  Wolf Creek


Enclosure 1 Unit 1 Core Operating Limits Report Revision 28
Unit 1 Core Operating Limits Report Revision 28


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Shawn    Reason: I have reviewed this document Date: 2020.04.10 15:21:17 P(Z37857) -07'00' Digitally signed by Karlson, 5HVSRQVLEOH6HFWLRQ/HDGHU        Karlson,    Charles F(V55086)
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FIGURE 3.1.1-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS OPEN 7
3DJHRI
6 (500, 5.0) 5 REGION OF ACCEPTABLE SHUTDOWN MARGIN (% K/K)
391*681,7&25(23(5$7,1*/,0,765(3257 0
OPERATION 4
1 2
3 REGION OF UNACCEPTABLE 2
3 4
OPERATION 1
5 6
(350, 1.0) 0 0    100        200      300            400          500    600 COLD LEG TEMPERATURE (F) 3DJHRI
7 0
100 200 300 400 500 600 SHUTDOWN MARGIN (% K/K)
COLD LEG TEMPERATURE (F)
FIGURE 3.1.1-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS OPEN REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 1.0)
(500, 5.0)


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FIGURE 3.1.2-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS CLOSED 7
3DJHRI
(500, 6.5) 6 REGION OF ACCEPTABLE 5
391*681,7&25(23(5$7,1*/,0,765(3257 0
OPERATION SHUTDOWN MARGIN (% K/K) 4 (350, 4.0) 3 REGION OF UNACCEPTABLE 2
1 2
OPERATION 1
3 4
0 0    100        200      300            400            500   600 COLD LEG TEMPERATURE (F) 3DJHRI
5 6
7 0
100 200 300 400 500 600 SHUTDOWN MARGIN (% K/K)
COLD LEG TEMPERATURE (F)
FIGURE 3.1.2-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS CLOSED REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 4.0)
(500, 6.5)


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FIGURE 3.1.4-1 MTC ACCEPTABLE OPERATION, MODES 1 AND 2 0.5 (0%,0.5)
3DJHRI
(100%,0) 0.0 (50%, 0.0)
391*681,7&25(23(5$7,1*/,0,765(3257
                                                  -0.5                                                                 (100%,-0.2)
-4.5
MODERATOR TEMPERATURE COEFFICIENT (x 104/&deg;F)
-4.0
                                                  -1.0
-3.5
                                                  -1.5                               MTC AREA OF ACCEPTABLE
-3.0
                                                  -2.0                               OPERATION
-2.5
                                                  -2.5
-2.0
                                                  -3.0
-1.5
                                                  -3.5
-1.0
                                                  -4.0 (0%,-4.4)                                                      (100%,-4.4)
-0.5 0.0 0.5 0
                                                  -4.5 0     10   20     30     40       50     60   70     80     90     100 CORE POWER LEVEL
10 20 30 40 50 60 70 80 90 100 MODERATOR TEMPERATURE COEFFICIENT (x 104/&deg;F)
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
(% OF RATED THERMAL POWER)
Maintain Operation within Boundary TECH SPEC 3.1.4 Maximum Upper Limit 3DJHRI
FIGURE 3.1.4-1 MTC ACCEPTABLE OPERATION, MODES 1 AND 2 MTC AREA OF ACCEPTABLE OPERATION (0%,0.5)
(100%,0)
(50%, 0.0)
(100%,-0.2)
(0%,-4.4)
(100%,-4.4)
Maintain Operation within Boundary TECH SPEC 3.1.4 Maximum Upper Limit


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FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*
0 5
20                                                                 20 16  100% to
10 15 20 0
                                                                                                >80% RTP 15                                                                 15 MINIMUM REQUIRED POWER REDUCTION 12        12  80% to
10 20 30 40 50 60 MINIMUM REQUIRED POWER REDUCTION
                                                                                                >70% RTP 10                                                                 10
(% OF RATED THERMAL POWER)
(% OF RATED THERMAL POWER) 9 8                  8    70% to
TIME AFTER DEVIATION, MINUTES FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*
                                                                                                >45% RTP 6         6 5                                                                 5 4        4                  4 45% RTP 3
20 100% to
3 2         2 1
>80% RTP 16 12 8
0 0
4 0
0        10      20        30            40      50      60 TIME AFTER DEVIATION, MINUTES
15 80% to
>70% RTP 12 9
6 3
10 70% to
>45% RTP 8
6 4
2 5
45% RTP 4
3 2
1
* WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
* WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
* NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:
* NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:
                                          - > 95 % RATED THERMAL POWER
- > 95 % RATED THERMAL POWER
                                          - COLSS IN SERVICE AND CEACS IN SERVICE
- COLSS IN SERVICE AND CEACS IN SERVICE
                                          - AZIMUTHAL POWER TILT IS LESS THAN 3.0 %
- AZIMUTHAL POWER TILT IS LESS THAN 3.0 %
                                          - ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION 3DJHRI
- ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION


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FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE) 1.0 NOTE:
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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*
30 120 0
90 150*
60 120 30 90 0
60 150*
30 120 0
90 150*
60 120 30 90 0
60 30 0
FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE)
NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
0.9                                                                                                                                  To meet the Transient Insertion Limit (TIL) all conditions below must be met:
To meet the Transient Insertion Limit (TIL) all conditions below must be met:
0.8                                                                                                                                        CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be fully withdrawn* for TRANSIENT INSERTION LIMIT FRACTION OF RATED THERMAL POWER 0.7                                                                                                                                      power levels 20%.
AND CEA Group 3 must be fully withdrawn* for power levels 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
AND GROUP 5 60 INCHES CEA Group 4 must be fully withdrawn* for GROUP 5 108 INCHES 0.6 power levels 70.87%.
AND CEA Group 4 must be fully withdrawn* for power levels 70.87%.
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
0.5                                                                                                                                      TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).
TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph SHORT TERM STEADY STATE INSERTION LIMIT 0.4 LONG TERM STEADY STATE INSERTION LIMIT or by the equation:
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equation:
TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).
TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).
0.3 0.2 GROUP 3 60 INCHES 0.1 0.0 GROUP 5                                                                                   GROUP 3                                     GROUP 1 150* 120 90                                                                      60        30    0 150* 120 90                              60                  30    0 150* 120 90    60    30  0 GROUP 4                                                               GROUP 2 150* 120 90                                            60  30    0 150* 120 90                    60  30  0 CEA POSITION (INCHES WITHDRAWN)
TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1
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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*
30 120 0
90 150*
60 120 30 90 0
60 150*
30 120 0
90 150*
60 120 30 90 0
60 30 0
FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE)
NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
To meet the Transient Insertion Limit (TIL) all conditions below must be met:
CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be fully withdrawn* for power levels 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
AND CEA Group 4 must be fully withdrawn* for power levels 54.97%.
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
TIL4 = (250.9" x Fractional Power) + 9.82" (for power 20% and < 54.97%).
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equations:
TIL5 = (250.9" x Fractional Power) - 80.18" (for power 31.96% and 75.00%).
TIL5 = 108" (for power lever 75.00%).
TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1


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CEA POSITION (INCHES WITHDRAWN)
FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE) 1.0 NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
0.9                                                                                                                To meet the Transient Insertion Limit (TIL) all conditions below must be met:
0.8                                                                                                                      CEA Groups 1 and 2 must be  fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be  fully withdrawn* for TRANSIENT INSERTION LIMIT FRACTION OF RATED THERMAL POWER 0.7                                                                                                                    power levels  20%.
CEA Group 3 must be withdrawn  60" for power  0% and < 20%.
AND CEA Group 4 must be  fully withdrawn* for GROUP 5 108 INCHES 0.6 power levels  54.97%.
CEA Group 4 must be withdrawn  the group 4 TIL (TIL4) as indicated on the graph or by the equation:
0.5                                                                                                                    TIL4 = (250.9" x Fractional Power) + 9.82" (for power  20% and < 54.97%).
GROUP 5 60 INCHES AND CEA Group 5 must be withdrawn  the 0.4                                                                                                                    group 5 TIL (TIL5) as indicated on the graph LONG TERM STEADY STATE INSERTION LIMIT or by the equations:
SHORT TERM STEADY STATE TIL5 = (250.9" x Fractional Power) - 80.18" (for power  31.96% and  75.00%).
TIL5 = 108" (for power lever  75.00%).
0.3 INSERTION LIMIT 0.2 GROUP 3 60 INCHES 0.1 0.0 GROUP 5                                                                  GROUP 3                                      GROUP 1 150* 120 90                                                        60    30    0 150* 120 90                              60                  30    0 150* 120 90    60    30  0 GROUP 4                                                                GROUP 2 150* 120 90                                  60  30    0 150* 120 90                    60  30  0 CEA POSITION (INCHES WITHDRAWN)
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FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER 0.0 10.0 20.0 30.0 PART STRENGTH CEA POSITION (INCHES WITHDRAWN) 40.0 50.0 60.0 70.0 TRANSIENT INSERTION LIMIT (75.0 INCHES) 80.0 (50% RATED THERMAL POWER) 90.0         OPERATION                                            OPERATION UNACCEPTABLE                                        RESTRICTED 100.0 110.0 LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES) 120.0 130.0 OPERATION ACCEPTABLE 140.0 150.0 1.0   0.9    0.8      0.0.0.5   0.0.0.2                    0.1   0.0 FRACTION OF RATED THERMAL POWER 3DJHRI
3DJHRI
391*681,7&25(23(5$7,1*/,0,765(3257 0.0 10.0 20.0 30.0 40.0 50.0 60.0 70.0 80.0 90.0 100.0 110.0 120.0 130.0 140.0 150.0 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 PART STRENGTH CEA POSITION (INCHES WITHDRAWN)
FRACTION OF RATED THERMAL POWER FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER OPERATION ACCEPTABLE OPERATION UNACCEPTABLE OPERATION RESTRICTED LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES)
TRANSIENT INSERTION LIMIT (75.0 INCHES)
(50% RATED THERMAL POWER)


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FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE) 20.0 15.0                           REGION OF UNACCEPTABLE OPERATION AZIMUTHAL POWER TILT (%)
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10.0 5.0 REGION OF ACCEPTABLE OPERATION 0.0 20.0   30.0   40.0       50.0   60.0   70.0       80.0   90.0   100.0 CORE POWER LEVEL
391*681,7&25(23(5$7,1*/,0,765(3257 0.0 5.0 10.0 15.0 20.0 20.0 30.0 40.0 50.0 60.0 70.0 80.0 90.0 100.0 AZIMUTHAL POWER TILT (%)
(% OF RATED THERMAL POWER) 3DJHRI
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE)
REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION


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FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL 25 (95, 20) 20 COLSS DNBR POWER OPERATION LIMIT REDUCTION 15
3DJHRI
(% OF RATED THERMAL POWER) 10 5
391*681,7&25(23(5$7,1*/,0,765(3257 0
5 10 15 20 25 50 60 70 80 90 100 COLSS DNBR POWER OPERATION LIMIT REDUCTION
(% OF RATED THERMAL POWER)
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL (95, 20)
(80, 5)
(80, 5)
(70, 0) 0 50        60          70        80        90              100 CORE POWER LEVEL
(70, 0)
(% OF RATED THERMAL POWER) 3DJHRI


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FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE) 2.5 ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL 2.4 (0.06, 2.38)            (0.1, 2.38) 2.3
3DJHRI
391*681,7&25(23(5$7,1*/,0,765(3257 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5
-0.20
-0.15
-0.10
-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE)
(-0.1, 1.99)
(-0.1, 2.28)
(-0.1, 2.28)
CPC MINIMUM DNBR 2.2 ACCEPTABLE OPERATION POWER AT OR ABOVE 90%
(0.06, 2.38)
AT LEAST 1 CEAC OPERABLE IN 2.1                            EACH OPERABLE CPC CHANNEL (0.08, 2.07) (0.1, 2.07) 2.0        (-0.1, 1.99)
(0.08, 2.07)
UNACCEPTABLE 1.9                                    OPERATION 1.8
(0.1, 2.38)
                    -0.20    -0.15      -0.10      -0.05  0.00          0.05  0.10      0.15  0.20 CORE AVERAGE ASI 3DJHRI
(0.1, 2.07)
ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL ACCEPTABLE OPERATION POWER AT OR ABOVE 90%
AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION


391*681,7&25(23(5$7,1*/,0,765(3257                           5HYLVLRQ
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FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL) 3.6 ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE 3.5 IN ANY OPERABLE CPC CHANNEL (0.0, 3.41)     (0.1, 3.41) 3.4 CPC MINIMUM DNBR 3.3
3DJHRI
(-0.1, 3.27) 3.2 UNACCEPTABLE OPERATION 3.1 3.0
391*681,7&25(23(5$7,1*/,0,765(3257 3.0 3.1 3.2 3.3 3.4 3.5 3.6
                    -0.20  -0.15    -0.10        -0.05    0.00  0.05    0.10      0.15  0.20 CORE AVERAGE ASI 3DJHRI
-0.20
-0.15
-0.10
-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL)
(-0.1, 3.27)
(0.0, 3.41)
(0.1, 3.41)
ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION


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Enclosure 2 Unit 2 Core Operating Limits Report Revision 23
Unit 2 Core Operating Limits Report Revision 23


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5HVSRQVLEOH(QJLQHHU                         Digitally signed by Trimble,
5HVSRQVLEOH(QJLQHHU
  'DWH Trimble,   Patrick C(Z95337)
'DWH
DN: cn=Trimble, Patrick Patrick    C(Z95337)
,QGHSHQGHQW5HYLHZHU
Reason: I am the Responsible Engineer for this document C(Z95337)  Date: 2020.04.10 15:10:54
'DWH 5HVSRQVLEOH6HFWLRQ/HDGHU
                                                -07'00'
'DWH
  ,QGHSHQGHQW5HYLHZHU              Gill, Digitally signed by Gill, Shawn P(Z37857)
: Trimble, Patrick C(Z95337)
  'DWH                                        DN: cn=Gill, Shawn Shawn    P(Z37857)
Digitally signed by Trimble, Patrick C(Z95337)
Reason: I have reviewed this document P(Z37857) Date: 2020.04.10 15:23:04
DN: cn=Trimble, Patrick C(Z95337)
                                              -07'00' Digitally signed by Karlson, 5HVSRQVLEOH6HFWLRQ/HDGHU        Karlson,    Charles F(V55086)
Reason: I am the Responsible Engineer for this document Date: 2020.04.10 15:10:54  
  'DWH                                          DN: cn=Karlson, Charles Charles    F(V55086)
-07'00'
Reason: I am approving this document F(V55086)  Date: 2020.04.10 15:45:50
: Gill, Shawn P(Z37857)
                                                -07'00' 3DJHRI
Digitally signed by Gill, Shawn P(Z37857)
DN: cn=Gill, Shawn P(Z37857)
Reason: I have reviewed this document Date: 2020.04.10 15:23:04  
-07'00'
: Karlson, Charles F(V55086)
Digitally signed by Karlson, Charles F(V55086)
DN: cn=Karlson, Charles F(V55086)
Reason: I am approving this document Date: 2020.04.10 15:45:50  
-07'00'


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10 20 30 40 50 60 70 80 90 100 MODERATOR TEMPERATURE COEFFICIENT (x 104/&deg;F)
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
(% OF RATED THERMAL POWER)
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FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*
0 5
20                                                                 20 16  100% to
10 15 20 0
                                                                                                >80% RTP 15                                                                 15 MINIMUM REQUIRED POWER REDUCTION 12        12  80% to
10 20 30 40 50 60 MINIMUM REQUIRED POWER REDUCTION
                                                                                                >70% RTP 10                                                                 10
(% OF RATED THERMAL POWER)
(% OF RATED THERMAL POWER) 9 8                  8    70% to
TIME AFTER DEVIATION, MINUTES FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*
                                                                                                >45% RTP 6         6 5                                                                 5 4        4                  4 45% RTP 3
20 100% to
3 2         2 1
>80% RTP 16 12 8
0 0
4 0
0        10      20        30        40          50      60 TIME AFTER DEVIATION, MINUTES
15 80% to
>70% RTP 12 9
6 3
10 70% to
>45% RTP 8
6 4
2 5
45% RTP 4
3 2
1
* WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
* WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
* NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:
* NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:
                                          - > 95 % RATED THERMAL POWER
- > 95 % RATED THERMAL POWER
                                          - COLSS IN SERVICE AND CEACS IN SERVICE
- COLSS IN SERVICE AND CEACS IN SERVICE
                                          - AZIMUTHAL POWER TILT IS LESS THAN 3.0 %
- AZIMUTHAL POWER TILT IS LESS THAN 3.0 %
                                          - ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION 3DJHRI
- ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION


391*681,7&25(23(5$7,1*/,0,765(3257                                                                                                                                                       5HYLVLRQ
5HYLVLRQ
3DJHRI
391*681,7&25(23(5$7,1*/,0,765(3257


FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE) 1.0 NOTE:
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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*
30 120 0
90 150*
60 120 30 90 0
60 150*
30 120 0
90 150*
60 120 30 90 0
60 30 0
FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE)
NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
0.9                                                                                                                                  To meet the Transient Insertion Limit (TIL) all conditions below must be met:
To meet the Transient Insertion Limit (TIL) all conditions below must be met:
0.8                                                                                                                                        CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be fully withdrawn* for TRANSIENT INSERTION LIMIT FRACTION OF RATED THERMAL POWER 0.7                                                                                                                                      power levels 20%.
AND CEA Group 3 must be fully withdrawn* for power levels 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
AND GROUP 5 60 INCHES CEA Group 4 must be fully withdrawn* for GROUP 5 108 INCHES 0.6 power levels 70.87%.
AND CEA Group 4 must be fully withdrawn* for power levels 70.87%.
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
0.5                                                                                                                                      TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).
TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph SHORT TERM STEADY STATE INSERTION LIMIT 0.4 LONG TERM STEADY STATE INSERTION LIMIT or by the equation:
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equation:
TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).
TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).
0.3 0.2 GROUP 3 60 INCHES 0.1 0.0 GROUP 5                                                                                   GROUP 3                                     GROUP 1 150* 120 90                                                                      60        30    0 150* 120 90                              60                  30    0 150* 120 90    60    30  0 GROUP 4                                                               GROUP 2 150* 120 90                                            60  30    0 150* 120 90                    60  30  0 CEA POSITION (INCHES WITHDRAWN)
TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1
    )XOO\:LWKGUDZQ ): LVGHILQHGDV!' 3XOVH&RXQWHU DQG!' 5637 
 
CEA POSITION (INCHES WITHDRAWN)
 
5HYLVLRQ
3DJHRI
391*681,7&25(23(5$7,1*/,0,765(3257
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1RIXUWKHU&($ZLWKGUDZDODERYH):LVUHTXLUHGIRU&($V&#xb6;WRPHHWWKH7,/UHTXLUHPHQWV
3DJHRI
0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*
30 120 0
90 150*
60 120 30 90 0
60 150*
30 120 0
90 150*
60 120 30 90 0
60 30 0
FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE)
NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
To meet the Transient Insertion Limit (TIL) all conditions below must be met:
CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be fully withdrawn* for power levels 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
AND CEA Group 4 must be fully withdrawn* for power levels 54.97%.
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
TIL4 = (250.9" x Fractional Power) + 9.82" (for power 20% and < 54.97%).
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equations:
TIL5 = (250.9" x Fractional Power) - 80.18" (for power 31.96% and 75.00%).
TIL5 = 108" (for power lever 75.00%).
TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1


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CEA POSITION (INCHES WITHDRAWN)
FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE) 1.0 NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
0.9                                                                                                                To meet the Transient Insertion Limit (TIL) all conditions below must be met:
0.8                                                                                                                      CEA Groups 1 and 2 must be  fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be  fully withdrawn* for TRANSIENT INSERTION LIMIT FRACTION OF RATED THERMAL POWER 0.7                                                                                                                    power levels  20%.
CEA Group 3 must be withdrawn  60" for power  0% and < 20%.
AND CEA Group 4 must be  fully withdrawn* for GROUP 5 108 INCHES 0.6 power levels  54.97%.
CEA Group 4 must be withdrawn  the group 4 TIL (TIL4) as indicated on the graph or by the equation:
0.5                                                                                                                    TIL4 = (250.9" x Fractional Power) + 9.82" (for power  20% and < 54.97%).
GROUP 5 60 INCHES AND CEA Group 5 must be withdrawn  the 0.4                                                                                                                    group 5 TIL (TIL5) as indicated on the graph LONG TERM STEADY STATE INSERTION LIMIT or by the equations:
SHORT TERM STEADY STATE TIL5 = (250.9" x Fractional Power) - 80.18" (for power  31.96% and  75.00%).
TIL5 = 108" (for power lever  75.00%).
0.3 INSERTION LIMIT 0.2 GROUP 3 60 INCHES 0.1 0.0 GROUP 5                                                                  GROUP 3                                      GROUP 1 150* 120 90                                                        60    30    0 150* 120 90                              60                  30    0 150* 120 90    60    30  0 GROUP 4                                                                GROUP 2 150* 120 90                                  60  30    0 150* 120 90                    60  30  0 CEA POSITION (INCHES WITHDRAWN)
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3DJHRI


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5HYLVLRQ
FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER 0.0 10.0 20.0 30.0 PART STRENGTH CEA POSITION (INCHES WITHDRAWN) 40.0 50.0 60.0 70.0 TRANSIENT INSERTION LIMIT (75.0 INCHES) 80.0 (50% RATED THERMAL POWER) 90.0         OPERATION                                            OPERATION UNACCEPTABLE                                        RESTRICTED 100.0 110.0 LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES) 120.0 130.0 OPERATION ACCEPTABLE 140.0 150.0 1.0   0.9    0.8      0.0.0.5   0.0.0.2                    0.1   0.0 FRACTION OF RATED THERMAL POWER 3DJHRI
3DJHRI
391*681,7&25(23(5$7,1*/,0,765(3257 0.0 10.0 20.0 30.0 40.0 50.0 60.0 70.0 80.0 90.0 100.0 110.0 120.0 130.0 140.0 150.0 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 PART STRENGTH CEA POSITION (INCHES WITHDRAWN)
FRACTION OF RATED THERMAL POWER FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER OPERATION ACCEPTABLE OPERATION UNACCEPTABLE OPERATION RESTRICTED LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES)
TRANSIENT INSERTION LIMIT (75.0 INCHES)
(50% RATED THERMAL POWER)


391*681,7&25(23(5$7,1*/,0,765(3257                         5HYLVLRQ
5HYLVLRQ
FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE) 20.0 15.0                           REGION OF UNACCEPTABLE OPERATION AZIMUTHAL POWER TILT (%)
3DJHRI
10.0 5.0 REGION OF ACCEPTABLE OPERATION 0.0 20.0   30.0   40.0       50.0   60.0   70.0       80.0   90.0   100.0 CORE POWER LEVEL
391*681,7&25(23(5$7,1*/,0,765(3257 0.0 5.0 10.0 15.0 20.0 20.0 30.0 40.0 50.0 60.0 70.0 80.0 90.0 100.0 AZIMUTHAL POWER TILT (%)
(% OF RATED THERMAL POWER) 3DJHRI
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE)
REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION


391*681,7&25(23(5$7,1*/,0,765(3257                       5HYLVLRQ
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FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL 25 (95, 20) 20 COLSS DNBR POWER OPERATION LIMIT REDUCTION 15
3DJHRI
(% OF RATED THERMAL POWER) 10 5
391*681,7&25(23(5$7,1*/,0,765(3257 0
5 10 15 20 25 50 60 70 80 90 100 COLSS DNBR POWER OPERATION LIMIT REDUCTION
(% OF RATED THERMAL POWER)
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL (95, 20)
(80, 5)
(80, 5)
(70, 0) 0 50        60          70        80        90              100 CORE POWER LEVEL
(70, 0)
(% OF RATED THERMAL POWER) 3DJHRI


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FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE) 2.5 ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL 2.4 (0.06, 2.38)            (0.1, 2.38) 2.3
3DJHRI
391*681,7&25(23(5$7,1*/,0,765(3257 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5
-0.20
-0.15
-0.10
-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE)
(-0.1, 1.99)
(-0.1, 2.28)
(-0.1, 2.28)
CPC MINIMUM DNBR 2.2 ACCEPTABLE OPERATION POWER AT OR ABOVE 90%
(0.06, 2.38)
AT LEAST 1 CEAC OPERABLE IN 2.1                            EACH OPERABLE CPC CHANNEL (0.08, 2.07) (0.1, 2.07) 2.0        (-0.1, 1.99)
(0.08, 2.07)
UNACCEPTABLE 1.9                                    OPERATION 1.8
(0.1, 2.38)
                    -0.20    -0.15      -0.10      -0.05  0.00          0.05  0.10      0.15  0.20 CORE AVERAGE ASI 3DJHRI
(0.1, 2.07)
ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL ACCEPTABLE OPERATION POWER AT OR ABOVE 90%
AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION


391*681,7&25(23(5$7,1*/,0,765(3257                           5HYLVLRQ
5HYLVLRQ
FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL) 3.6 ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE 3.5 IN ANY OPERABLE CPC CHANNEL (0.0, 3.41)     (0.1, 3.41) 3.4 CPC MINIMUM DNBR 3.3
3DJHRI
(-0.1, 3.27) 3.2 UNACCEPTABLE OPERATION 3.1 3.0
391*681,7&25(23(5$7,1*/,0,765(3257 3.0 3.1 3.2 3.3 3.4 3.5 3.6
                    -0.20  -0.15    -0.10        -0.05    0.00  0.05    0.10      0.15  0.20 CORE AVERAGE ASI 3DJHRI
-0.20
-0.15
-0.10
-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL)
(-0.1, 3.27)
(0.0, 3.41)
(0.1, 3.41)
ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION


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Enclosure 3 Unit 3 Core Operating Limits Report Revision 27
Unit 3 Core Operating Limits Report Revision 27  


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Patrick    DN: cn=Trimble, Patrick C(Z95337)
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Reason: I am the Responsible Engineer for this document C(Z95337)  Date: 2020.04.10 15:16:13 -07'00'
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: Trimble, Patrick C(Z95337)
Reason: I have reviewed this P(Z37857)    document Date: 2020.04.10 15:26:05
Digitally signed by Trimble, Patrick C(Z95337)
                                                  -07'00' Digitally signed by Karlson, 5HVSRQVLEOH6HFWLRQ/HDGHU        Karlson,    Charles F(V55086)
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  'DWH                                          DN: cn=Karlson, Charles Charles      F(V55086)
Reason: I am the Responsible Engineer for this document Date: 2020.04.10 15:16:13 -07'00' Gill, Shawn P(Z37857)
Reason: I am approving this document F(V55086)    Date: 2020.04.10 15:44:13
Digitally signed by Gill, Shawn P(Z37857)
                                                -07'00' 3DJHRI
DN: cn=Gill, Shawn P(Z37857)
Reason: I have reviewed this document Date: 2020.04.10 15:26:05  
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: Karlson, Charles F(V55086)
Digitally signed by Karlson, Charles F(V55086)
DN: cn=Karlson, Charles F(V55086)
Reason: I am approving this document Date: 2020.04.10 15:44:13  
-07'00'


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FIGURE 3.1.1-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS OPEN 7
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6 (500, 5.0) 5 REGION OF ACCEPTABLE SHUTDOWN MARGIN (% K/K)
391*681,7&25(23(5$7,1*/,0,765(3257 0
OPERATION 4
1 2
3 REGION OF UNACCEPTABLE 2
3 4
OPERATION 1
5 6
(350, 1.0) 0 0    100        200      300            400          500    600 COLD LEG TEMPERATURE (F) 3DJHRI
7 0
100 200 300 400 500 600 SHUTDOWN MARGIN (% K/K)
COLD LEG TEMPERATURE (F)
FIGURE 3.1.1-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS OPEN REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 1.0)
(500, 5.0)


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FIGURE 3.1.2-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS CLOSED 7
3DJHRI
(500, 6.5) 6 REGION OF ACCEPTABLE 5
391*681,7&25(23(5$7,1*/,0,765(3257 0
OPERATION SHUTDOWN MARGIN (% K/K) 4 (350, 4.0) 3 REGION OF UNACCEPTABLE 2
1 2
OPERATION 1
3 4
0 0    100        200      300            400            500   600 COLD LEG TEMPERATURE (F) 3DJHRI
5 6
7 0
100 200 300 400 500 600 SHUTDOWN MARGIN (% K/K)
COLD LEG TEMPERATURE (F)
FIGURE 3.1.2-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS CLOSED REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 4.0)
(500, 6.5)


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FIGURE 3.1.4-1 MTC ACCEPTABLE OPERATION, MODES 1 AND 2 0.5 (0%,0.5)
3DJHRI
(100%,0) 0.0 (50%, 0.0)
391*681,7&25(23(5$7,1*/,0,765(3257
                                                  -0.5                                                                 (100%,-0.2)
-4.5
MODERATOR TEMPERATURE COEFFICIENT (x 104/&deg;F)
-4.0
                                                  -1.0
-3.5
                                                  -1.5                               MTC AREA OF ACCEPTABLE
-3.0
                                                  -2.0                               OPERATION
-2.5
                                                  -2.5
-2.0
                                                  -3.0
-1.5
                                                  -3.5
-1.0
                                                  -4.0 (0%,-4.4)                                                      (100%,-4.4)
-0.5 0.0 0.5 0
                                                  -4.5 0     10   20     30     40       50     60   70     80     90     100 CORE POWER LEVEL
10 20 30 40 50 60 70 80 90 100 MODERATOR TEMPERATURE COEFFICIENT (x 104/&deg;F)
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
(% OF RATED THERMAL POWER)
Maintain Operation within Boundary TECH SPEC 3.1.4 Maximum Upper Limit 3DJHRI
FIGURE 3.1.4-1 MTC ACCEPTABLE OPERATION, MODES 1 AND 2 MTC AREA OF ACCEPTABLE OPERATION (0%,0.5)
(100%,0)
(50%, 0.0)
(100%,-0.2)
(0%,-4.4)
(100%,-4.4)
Maintain Operation within Boundary TECH SPEC 3.1.4 Maximum Upper Limit


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FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*
0 5
20                                                                 20 16  100% to
10 15 20 0
                                                                                                >80% RTP 15                                                                 15 MINIMUM REQUIRED POWER REDUCTION 12        12  80% to
10 20 30 40 50 60 MINIMUM REQUIRED POWER REDUCTION
                                                                                                >70% RTP 10                                                                 10
(% OF RATED THERMAL POWER)
(% OF RATED THERMAL POWER) 9 8                  8    70% to
TIME AFTER DEVIATION, MINUTES FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*
                                                                                                >45% RTP 6         6 5                                                                 5 4        4                  4 45% RTP 3
20 100% to
3 2         2 1
>80% RTP 16 12 8
0 0
4 0
0        10      20        30        40          50      60 TIME AFTER DEVIATION, MINUTES
15 80% to
>70% RTP 12 9
6 3
10 70% to
>45% RTP 8
6 4
2 5
45% RTP 4
3 2
1
* WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
* WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
* NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:
* NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:
                                          - > 95 % RATED THERMAL POWER
- > 95 % RATED THERMAL POWER
                                          - COLSS IN SERVICE AND CEACS IN SERVICE
- COLSS IN SERVICE AND CEACS IN SERVICE
                                          - AZIMUTHAL POWER TILT IS LESS THAN 3.0 %
- AZIMUTHAL POWER TILT IS LESS THAN 3.0 %
                                          - ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION 3DJHRI
- ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION


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FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE) 1.0 NOTE:
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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*
30 120 0
90 150*
60 120 30 90 0
60 150*
30 120 0
90 150*
60 120 30 90 0
60 30 0
FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE)
NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
0.9                                                                                                                                  To meet the Transient Insertion Limit (TIL) all conditions below must be met:
To meet the Transient Insertion Limit (TIL) all conditions below must be met:
0.8                                                                                                                                        CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be fully withdrawn* for TRANSIENT INSERTION LIMIT FRACTION OF RATED THERMAL POWER 0.7                                                                                                                                      power levels 20%.
AND CEA Group 3 must be fully withdrawn* for power levels 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
AND GROUP 5 60 INCHES CEA Group 4 must be fully withdrawn* for GROUP 5 108 INCHES 0.6 power levels 70.87%.
AND CEA Group 4 must be fully withdrawn* for power levels 70.87%.
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
0.5                                                                                                                                      TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).
TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph SHORT TERM STEADY STATE INSERTION LIMIT 0.4 LONG TERM STEADY STATE INSERTION LIMIT or by the equation:
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equation:
TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).
TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).
0.3 0.2 GROUP 3 60 INCHES 0.1 0.0 GROUP 5                                                                                   GROUP 3                                     GROUP 1 150* 120 90                                                                      60        30    0 150* 120 90                              60                  30    0 150* 120 90    60    30  0 GROUP 4                                                               GROUP 2 150* 120 90                                            60  30    0 150* 120 90                    60  30  0 CEA POSITION (INCHES WITHDRAWN)
TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1
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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*
30 120 0
90 150*
60 120 30 90 0
60 150*
30 120 0
90 150*
60 120 30 90 0
60 30 0
FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE)
NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
To meet the Transient Insertion Limit (TIL) all conditions below must be met:
CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be fully withdrawn* for power levels 20%.
CEA Group 3 must be withdrawn 60" for power 0% and < 20%.
AND CEA Group 4 must be fully withdrawn* for power levels 54.97%.
CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:
TIL4 = (250.9" x Fractional Power) + 9.82" (for power 20% and < 54.97%).
AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equations:
TIL5 = (250.9" x Fractional Power) - 80.18" (for power 31.96% and 75.00%).
TIL5 = 108" (for power lever 75.00%).
TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1


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CEA POSITION (INCHES WITHDRAWN)
FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE) 1.0 NOTE:
See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.
0.9                                                                                                                To meet the Transient Insertion Limit (TIL) all conditions below must be met:
0.8                                                                                                                      CEA Groups 1 and 2 must be  fully withdrawn* (see definition below) in MODE 1 and MODE 2.
AND CEA Group 3 must be  fully withdrawn* for TRANSIENT INSERTION LIMIT FRACTION OF RATED THERMAL POWER 0.7                                                                                                                    power levels  20%.
CEA Group 3 must be withdrawn  60" for power  0% and < 20%.
AND CEA Group 4 must be  fully withdrawn* for GROUP 5 108 INCHES 0.6 power levels  54.97%.
CEA Group 4 must be withdrawn  the group 4 TIL (TIL4) as indicated on the graph or by the equation:
0.5                                                                                                                    TIL4 = (250.9" x Fractional Power) + 9.82" (for power  20% and < 54.97%).
GROUP 5 60 INCHES AND CEA Group 5 must be withdrawn  the 0.4                                                                                                                    group 5 TIL (TIL5) as indicated on the graph LONG TERM STEADY STATE INSERTION LIMIT or by the equations:
SHORT TERM STEADY STATE TIL5 = (250.9" x Fractional Power) - 80.18" (for power  31.96% and  75.00%).
TIL5 = 108" (for power lever  75.00%).
0.3 INSERTION LIMIT 0.2 GROUP 3 60 INCHES 0.1 0.0 GROUP 5                                                                  GROUP 3                                      GROUP 1 150* 120 90                                                        60    30    0 150* 120 90                              60                  30    0 150* 120 90    60    30  0 GROUP 4                                                                GROUP 2 150* 120 90                                  60  30    0 150* 120 90                    60  30  0 CEA POSITION (INCHES WITHDRAWN)
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FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER 0.0 10.0 20.0 30.0 PART STRENGTH CEA POSITION (INCHES WITHDRAWN) 40.0 50.0 60.0 70.0 TRANSIENT INSERTION LIMIT (75.0 INCHES) 80.0 (50% RATED THERMAL POWER) 90.0         OPERATION                                            OPERATION UNACCEPTABLE                                        RESTRICTED 100.0 110.0 LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES) 120.0 130.0 OPERATION ACCEPTABLE 140.0 150.0 1.0   0.9    0.8      0.0.0.5   0.0.0.2                    0.1   0.0 FRACTION OF RATED THERMAL POWER 3DJHRI
3DJHRI
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FRACTION OF RATED THERMAL POWER FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER OPERATION ACCEPTABLE OPERATION UNACCEPTABLE OPERATION RESTRICTED LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES)
TRANSIENT INSERTION LIMIT (75.0 INCHES)
(50% RATED THERMAL POWER)


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10.0 5.0 REGION OF ACCEPTABLE OPERATION 0.0 20.0   30.0   40.0       50.0   60.0   70.0       80.0   90.0   100.0 CORE POWER LEVEL
391*681,7&25(23(5$7,1*/,0,765(3257 0.0 5.0 10.0 15.0 20.0 20.0 30.0 40.0 50.0 60.0 70.0 80.0 90.0 100.0 AZIMUTHAL POWER TILT (%)
(% OF RATED THERMAL POWER) 3DJHRI
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE)
REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION


391*681,7&25(23(5$7,1*/,0,765(3257                       5HYLVLRQ
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FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL 25 (95, 20) 20 COLSS DNBR POWER OPERATION LIMIT REDUCTION 15
3DJHRI
(% OF RATED THERMAL POWER) 10 5
391*681,7&25(23(5$7,1*/,0,765(3257 0
5 10 15 20 25 50 60 70 80 90 100 COLSS DNBR POWER OPERATION LIMIT REDUCTION
(% OF RATED THERMAL POWER)
CORE POWER LEVEL
(% OF RATED THERMAL POWER)
FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL (95, 20)
(80, 5)
(80, 5)
(70, 0) 0 50        60          70        80        90              100 CORE POWER LEVEL
(70, 0)
(% OF RATED THERMAL POWER) 3DJHRI


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FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE) 2.5 ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL 2.4 (0.06, 2.38)            (0.1, 2.38) 2.3
3DJHRI
391*681,7&25(23(5$7,1*/,0,765(3257 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5
-0.20
-0.15
-0.10
-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE)
(-0.1, 1.99)
(-0.1, 2.28)
(-0.1, 2.28)
CPC MINIMUM DNBR 2.2 ACCEPTABLE OPERATION POWER AT OR ABOVE 90%
(0.06, 2.38)
AT LEAST 1 CEAC OPERABLE IN 2.1                            EACH OPERABLE CPC CHANNEL (0.08, 2.07) (0.1, 2.07) 2.0
(0.08, 2.07)
(-0.1, 1.99)
(0.1, 2.38)
UNACCEPTABLE 1.9                                    OPERATION 1.8
(0.1, 2.07)
                    -0.20    -0.15      -0.10      -0.05    0.00          0.05  0.10      0.15  0.20 CORE AVERAGE ASI 3DJHRI
ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL ACCEPTABLE OPERATION POWER AT OR ABOVE 90%
AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION


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FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL) 3.6 ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE 3.5 IN ANY OPERABLE CPC CHANNEL (0.0, 3.41)     (0.1, 3.41) 3.4 CPC MINIMUM DNBR 3.3
3DJHRI
(-0.1, 3.27) 3.2 UNACCEPTABLE OPERATION 3.1 3.0
391*681,7&25(23(5$7,1*/,0,765(3257 3.0 3.1 3.2 3.3 3.4 3.5 3.6
                    -0.20  -0.15    -0.10        -0.05    0.00  0.05    0.10      0.15  0.20 CORE AVERAGE ASI 3DJHRI
-0.20
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(-0.1, 3.27)
(0.0, 3.41)
(0.1, 3.41)
ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION


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Latest revision as of 01:13, 13 December 2024

Unit 1 Core Operating Limits Report Revision 28 Unit 2 Core Operating Limits Report Revision 23 Unit 3 Core Operating Limits Report Revision 27
ML20113F035
Person / Time
Site: Palo Verde  
Issue date: 04/22/2020
From: Dilorenzo M
Arizona Public Service Co
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
102-08096-MDD/MSC
Download: ML20113F035 (94)
v  d  e


Text

Technical Specification 5.6.5(d)

A member of the STARS Alliance LLC Callaway Diablo Canyon Palo Verde Wolf Creek Palo Verde Nuclear Generating Station 5871 S. Wintersburg Road Tonopah, AZ 85354 102-08096-MDD/MSC April 22, 2020 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washington, DC 20555-0001

Subject:

Palo Verde Nuclear Generating Station (PVNGS) Units 1, 2, and 3 Docket Nos. STN 50-528, 50-529, and 50-530 Unit 1 Core Operating Limits Report Revision 28 Unit 2 Core Operating Limits Report Revision 23 Unit 3 Core Operating Limits Report Revision 27

Dear Sirs:

Pursuant to PVNGS Technical Specifications, Section 5.6.5(d), enclosed are the Units 1, 2, and 3 Core Operating Limits Report (COLR), Revisions 28, 23, and 27, respectively, which were made effective April 15, 2020.

The changes implemented by these revisions are to the table in the Analytical Methods section of each units COLR. Previously, documents referenced in that table lacked certain details in the reference information. No technical changes were necessary. In addition, as a result of License Amendment 212, a new section 4.2.1 was added that details the specific fuel types being used in each reactor for the current operating cycles.

These changes affect several pages in the respective COLRs. Revision bars have been applied to those pages which contain changes.

No commitments are being made to the Nuclear Regulatory Commission (NRC) by this letter. If you have any questions about this submittal please contact Matthew S. Cox, Licensing Section Leader, at (623) 393-5753.

Sincerely, Michael D. DiLorenzo Nuclear Regulatory Affairs Department Leader MDD/MSC/mg : Unit 1 Core Operating Limits Report, Revision 28 : Unit 2 Core Operating Limits Report, Revision 23 : Unit 3 Core Operating Limits Report, Revision 27 cc:

S. A. Morris NRC Region IV Regional Administrator S. P. Lingam NRC NRR Project Manager for PVNGS C. A. Peabody NRC Senior Resident Inspector for PVNGS Dilorenzo, Michael D(Z99838)

Digitally signed by Dilorenzo, Michael D(Z99838)

DN: cn=Dilorenzo, Michael D(Z99838)

Date: 2020.04.22 11:17:35 -07'00'

Unit 1 Core Operating Limits Report Revision 28

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Trimble, Patrick C(Z95337)

Digitally signed by Trimble, Patrick C(Z95337)

DN: cn=Trimble, Patrick C(Z95337)

Reason: I am the Responsible Engineer for this document Date: 2020.04.10 15:07:12

-07'00'

Gill, Shawn P(Z37857)

Digitally signed by Gill, Shawn P(Z37857)

DN: cn=Gill, Shawn P(Z37857)

Reason: I have reviewed this document Date: 2020.04.10 15:21:17

-07'00'

Karlson, Charles F(V55086)

Digitally signed by Karlson, Charles F(V55086)

DN: cn=Karlson, Charles F(V55086)

Reason: I am approving this document Date: 2020.04.10 15:47:14

-07'00'

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1 2

3 4

5 6

7 0

100 200 300 400 500 600 SHUTDOWN MARGIN (% K/K)

COLD LEG TEMPERATURE (F)

FIGURE 3.1.1-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS OPEN REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 1.0)

(500, 5.0)

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COLD LEG TEMPERATURE (F)

FIGURE 3.1.2-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS CLOSED REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 4.0)

(500, 6.5)

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10 20 30 40 50 60 70 80 90 100 MODERATOR TEMPERATURE COEFFICIENT (x 104/°F)

CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.1.4-1 MTC ACCEPTABLE OPERATION, MODES 1 AND 2 MTC AREA OF ACCEPTABLE OPERATION (0%,0.5)

(100%,0)

(50%, 0.0)

(100%,-0.2)

(0%,-4.4)

(100%,-4.4)

Maintain Operation within Boundary TECH SPEC 3.1.4 Maximum Upper Limit

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10 20 30 40 50 60 MINIMUM REQUIRED POWER REDUCTION

(% OF RATED THERMAL POWER)

TIME AFTER DEVIATION, MINUTES FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*

20 100% to

>80% RTP 16 12 8

4 0

15 80% to

>70% RTP 12 9

6 3

10 70% to

>45% RTP 8

6 4

2 5

45% RTP 4

3 2

1

  • WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
  • NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:

- > 95 % RATED THERMAL POWER

- COLSS IN SERVICE AND CEACS IN SERVICE

- AZIMUTHAL POWER TILT IS LESS THAN 3.0 %

- ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION

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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*

30 120 0

90 150*

60 120 30 90 0

60 150*

30 120 0

90 150*

60 120 30 90 0

60 30 0

FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE)

NOTE:

See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.

To meet the Transient Insertion Limit (TIL) all conditions below must be met:

CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.

AND CEA Group 3 must be fully withdrawn* for power levels 20%.

CEA Group 3 must be withdrawn 60" for power 0% and < 20%.

AND CEA Group 4 must be fully withdrawn* for power levels 70.87%.

CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:

TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).

AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equation:

TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).

TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1

CEA POSITION (INCHES WITHDRAWN)

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30 120 0

90 150*

60 120 30 90 0

60 150*

30 120 0

90 150*

60 120 30 90 0

60 30 0

FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE)

NOTE:

See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.

To meet the Transient Insertion Limit (TIL) all conditions below must be met:

CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.

AND CEA Group 3 must be fully withdrawn* for power levels 20%.

CEA Group 3 must be withdrawn 60" for power 0% and < 20%.

AND CEA Group 4 must be fully withdrawn* for power levels 54.97%.

CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:

TIL4 = (250.9" x Fractional Power) + 9.82" (for power 20% and < 54.97%).

AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equations:

TIL5 = (250.9" x Fractional Power) - 80.18" (for power 31.96% and 75.00%).

TIL5 = 108" (for power lever 75.00%).

TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1

CEA POSITION (INCHES WITHDRAWN)

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FRACTION OF RATED THERMAL POWER FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER OPERATION ACCEPTABLE OPERATION UNACCEPTABLE OPERATION RESTRICTED LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES)

TRANSIENT INSERTION LIMIT (75.0 INCHES)

(50% RATED THERMAL POWER)

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CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE)

REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION

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(% OF RATED THERMAL POWER)

CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL (95, 20)

(80, 5)

(70, 0)

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-0.20

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-0.10

-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE)

(-0.1, 1.99)

(-0.1, 2.28)

(0.06, 2.38)

(0.08, 2.07)

(0.1, 2.38)

(0.1, 2.07)

ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL ACCEPTABLE OPERATION POWER AT OR ABOVE 90%

AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION

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-0.10

-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL)

(-0.1, 3.27)

(0.0, 3.41)

(0.1, 3.41)

ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION

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Unit 2 Core Operating Limits Report Revision 23

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3$/29(5'(18&/($5*(1(5$7,1*67$7,21 391*6

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'DWH

Trimble, Patrick C(Z95337)

Digitally signed by Trimble, Patrick C(Z95337)

DN: cn=Trimble, Patrick C(Z95337)

Reason: I am the Responsible Engineer for this document Date: 2020.04.10 15:10:54

-07'00'

Gill, Shawn P(Z37857)

Digitally signed by Gill, Shawn P(Z37857)

DN: cn=Gill, Shawn P(Z37857)

Reason: I have reviewed this document Date: 2020.04.10 15:23:04

-07'00'

Karlson, Charles F(V55086)

Digitally signed by Karlson, Charles F(V55086)

DN: cn=Karlson, Charles F(V55086)

Reason: I am approving this document Date: 2020.04.10 15:45:50

-07'00'

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-1.5

-1.0

-0.5 0.0 0.5 0

10 20 30 40 50 60 70 80 90 100 MODERATOR TEMPERATURE COEFFICIENT (x 104/°F)

CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.1.4-1 MTC ACCEPTABLE OPERATION, MODES 1 AND 2 MTC AREA OF ACCEPTABLE OPERATION (0%,0.5)

(100%,0)

(50%, 0.0)

(100%,-0.2)

(0%,-4.4)

(100%,-4.4)

Maintain Operation within Boundary TECH SPEC 3.1.4 Maximum Upper Limit

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10 20 30 40 50 60 MINIMUM REQUIRED POWER REDUCTION

(% OF RATED THERMAL POWER)

TIME AFTER DEVIATION, MINUTES FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*

20 100% to

>80% RTP 16 12 8

4 0

15 80% to

>70% RTP 12 9

6 3

10 70% to

>45% RTP 8

6 4

2 5

45% RTP 4

3 2

1

  • WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
  • NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:

- > 95 % RATED THERMAL POWER

- COLSS IN SERVICE AND CEACS IN SERVICE

- AZIMUTHAL POWER TILT IS LESS THAN 3.0 %

- ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION

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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*

30 120 0

90 150*

60 120 30 90 0

60 150*

30 120 0

90 150*

60 120 30 90 0

60 30 0

FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE)

NOTE:

See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.

To meet the Transient Insertion Limit (TIL) all conditions below must be met:

CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.

AND CEA Group 3 must be fully withdrawn* for power levels 20%.

CEA Group 3 must be withdrawn 60" for power 0% and < 20%.

AND CEA Group 4 must be fully withdrawn* for power levels 70.87%.

CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:

TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).

AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equation:

TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).

TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1

CEA POSITION (INCHES WITHDRAWN)

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30 120 0

90 150*

60 120 30 90 0

60 150*

30 120 0

90 150*

60 120 30 90 0

60 30 0

FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE)

NOTE:

See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.

To meet the Transient Insertion Limit (TIL) all conditions below must be met:

CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.

AND CEA Group 3 must be fully withdrawn* for power levels 20%.

CEA Group 3 must be withdrawn 60" for power 0% and < 20%.

AND CEA Group 4 must be fully withdrawn* for power levels 54.97%.

CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:

TIL4 = (250.9" x Fractional Power) + 9.82" (for power 20% and < 54.97%).

AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equations:

TIL5 = (250.9" x Fractional Power) - 80.18" (for power 31.96% and 75.00%).

TIL5 = 108" (for power lever 75.00%).

TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1

CEA POSITION (INCHES WITHDRAWN)

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FRACTION OF RATED THERMAL POWER FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER OPERATION ACCEPTABLE OPERATION UNACCEPTABLE OPERATION RESTRICTED LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES)

TRANSIENT INSERTION LIMIT (75.0 INCHES)

(50% RATED THERMAL POWER)

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CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE)

REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION

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5 10 15 20 25 50 60 70 80 90 100 COLSS DNBR POWER OPERATION LIMIT REDUCTION

(% OF RATED THERMAL POWER)

CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL (95, 20)

(80, 5)

(70, 0)

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-0.20

-0.15

-0.10

-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE)

(-0.1, 1.99)

(-0.1, 2.28)

(0.06, 2.38)

(0.08, 2.07)

(0.1, 2.38)

(0.1, 2.07)

ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL ACCEPTABLE OPERATION POWER AT OR ABOVE 90%

AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION

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-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL)

(-0.1, 3.27)

(0.0, 3.41)

(0.1, 3.41)

ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION

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Unit 3 Core Operating Limits Report Revision 27

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3$/29(5'(18&/($5*(1(5$7,1*67$7,21 391*6

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Trimble, Patrick C(Z95337)

Digitally signed by Trimble, Patrick C(Z95337)

DN: cn=Trimble, Patrick C(Z95337)

Reason: I am the Responsible Engineer for this document Date: 2020.04.10 15:16:13 -07'00' Gill, Shawn P(Z37857)

Digitally signed by Gill, Shawn P(Z37857)

DN: cn=Gill, Shawn P(Z37857)

Reason: I have reviewed this document Date: 2020.04.10 15:26:05

-07'00'

Karlson, Charles F(V55086)

Digitally signed by Karlson, Charles F(V55086)

DN: cn=Karlson, Charles F(V55086)

Reason: I am approving this document Date: 2020.04.10 15:44:13

-07'00'

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COLD LEG TEMPERATURE (F)

FIGURE 3.1.1-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS OPEN REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 1.0)

(500, 5.0)

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COLD LEG TEMPERATURE (F)

FIGURE 3.1.2-1 SHUTDOWN MARGIN VERSUS COLD LEG TEMPERATURE REACTOR TRIP BREAKERS CLOSED REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION (350, 4.0)

(500, 6.5)

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10 20 30 40 50 60 70 80 90 100 MODERATOR TEMPERATURE COEFFICIENT (x 104/°F)

CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.1.4-1 MTC ACCEPTABLE OPERATION, MODES 1 AND 2 MTC AREA OF ACCEPTABLE OPERATION (0%,0.5)

(100%,0)

(50%, 0.0)

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10 20 30 40 50 60 MINIMUM REQUIRED POWER REDUCTION

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TIME AFTER DEVIATION, MINUTES FIGURE 3.1.5-1 CORE POWER REDUCTION AFTER CEA DEVIATION*

20 100% to

>80% RTP 16 12 8

4 0

15 80% to

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6 3

10 70% to

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6 4

2 5

45% RTP 4

3 2

1

  • WHEN CORE POWER IS REDUCED TO 35% OF RATED THERMAL POWER PER THIS LIMIT CURVE, FURTHER REDUCTION IS NOT REQUIRED.
  • NO POWER REDUCTION IS REQUIRED FOR A SINGLE CEA MISALIGNMENT IF THE FOLLOWING CONDITIONS ARE CONTINUOUSLY MET FROM THE TIME OF DEVIATION:

- > 95 % RATED THERMAL POWER

- COLSS IN SERVICE AND CEACS IN SERVICE

- AZIMUTHAL POWER TILT IS LESS THAN 3.0 %

- ALL CEAS REMAIN ABOVE 142.5" WITHDRAWN BY PULSE COUNTER AND ABOVE 140.1" WITHDRAWN BY RSPT INDICATION

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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*

30 120 0

90 150*

60 120 30 90 0

60 150*

30 120 0

90 150*

60 120 30 90 0

60 30 0

FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-1 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS IN SERVICE)

NOTE:

See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.

To meet the Transient Insertion Limit (TIL) all conditions below must be met:

CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.

AND CEA Group 3 must be fully withdrawn* for power levels 20%.

CEA Group 3 must be withdrawn 60" for power 0% and < 20%.

AND CEA Group 4 must be fully withdrawn* for power levels 70.87%.

CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:

TIL4 = (172.5" x Fractional Power) + 25.5" (for power 20% and < 70.87%).

AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equation:

TIL5 = (172.5" x Fractional Power) - 64.5" (for power 37.39% and 100%).

TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1

CEA POSITION (INCHES WITHDRAWN)

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0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 150* 120 90 60 150*

30 120 0

90 150*

60 120 30 90 0

60 150*

30 120 0

90 150*

60 120 30 90 0

60 30 0

FRACTION OF RATED THERMAL POWER FIGURE 3.1.7-2 CEA INSERTION LIMITS VERSUS THERMAL POWER (COLSS OUT OF SERVICE)

NOTE:

See Footnote in Section 3.1.7 for applicability following a Reactor Power Cutback.

To meet the Transient Insertion Limit (TIL) all conditions below must be met:

CEA Groups 1 and 2 must be fully withdrawn* (see definition below) in MODE 1 and MODE 2.

AND CEA Group 3 must be fully withdrawn* for power levels 20%.

CEA Group 3 must be withdrawn 60" for power 0% and < 20%.

AND CEA Group 4 must be fully withdrawn* for power levels 54.97%.

CEA Group 4 must be withdrawn the group 4 TIL (TIL4) as indicated on the graph or by the equation:

TIL4 = (250.9" x Fractional Power) + 9.82" (for power 20% and < 54.97%).

AND CEA Group 5 must be withdrawn the group 5 TIL (TIL5) as indicated on the graph or by the equations:

TIL5 = (250.9" x Fractional Power) - 80.18" (for power 31.96% and 75.00%).

TIL5 = 108" (for power lever 75.00%).

TRANSIENT INSERTION LIMIT GROUP 5 60 INCHES SHORT TERM STEADY STATE INSERTION LIMIT GROUP 5 108 INCHES LONG TERM STEADY STATE INSERTION LIMIT GROUP 3 60 INCHES GROUP 5 GROUP 4 GROUP 3 GROUP 2 GROUP 1

CEA POSITION (INCHES WITHDRAWN)

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FRACTION OF RATED THERMAL POWER FIGURE 3.1.8-1 PART STRENGTH CEA INSERTION LIMITS VERSUS THERMAL POWER OPERATION ACCEPTABLE OPERATION UNACCEPTABLE OPERATION RESTRICTED LONG TERM STEADY STATE INSERTION LIMITS (112.5 INCHES)

TRANSIENT INSERTION LIMIT (75.0 INCHES)

(50% RATED THERMAL POWER)

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391*681,7&25(23(5$7,1*/,0,765(3257 0.0 5.0 10.0 15.0 20.0 20.0 30.0 40.0 50.0 60.0 70.0 80.0 90.0 100.0 AZIMUTHAL POWER TILT (%)

CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.2.3-1 AZIMUTHAL POWER TILT VERSUS THERMAL POWER (COLSS IN SERVICE)

REGION OF ACCEPTABLE OPERATION REGION OF UNACCEPTABLE OPERATION

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5 10 15 20 25 50 60 70 80 90 100 COLSS DNBR POWER OPERATION LIMIT REDUCTION

(% OF RATED THERMAL POWER)

CORE POWER LEVEL

(% OF RATED THERMAL POWER)

FIGURE 3.2.4-1 COLSS DNBR OPERATING LIMIT ALLOWANCE FOR BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL (95, 20)

(80, 5)

(70, 0)

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391*681,7&25(23(5$7,1*/,0,765(3257 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5

-0.20

-0.15

-0.10

-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-2 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, CEAC(s) OPERABLE)

(-0.1, 1.99)

(-0.1, 2.28)

(0.06, 2.38)

(0.08, 2.07)

(0.1, 2.38)

(0.1, 2.07)

ACCEPTABLE OPERATION ANY POWER LEVEL AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL ACCEPTABLE OPERATION POWER AT OR ABOVE 90%

AT LEAST 1 CEAC OPERABLE IN EACH OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION

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391*681,7&25(23(5$7,1*/,0,765(3257 3.0 3.1 3.2 3.3 3.4 3.5 3.6

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-0.05 0.00 0.05 0.10 0.15 0.20 CPC MINIMUM DNBR CORE AVERAGE ASI FIGURE 3.2.4-3 DNBR MARGIN OPERATING LIMIT BASED ON THE CORE PROTECTION CALCULATORS (COLSS OUT OF SERVICE, BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL)

(-0.1, 3.27)

(0.0, 3.41)

(0.1, 3.41)

ACCEPTABLE OPERATION ANY POWER LEVEL BOTH CEACs INOPERABLE IN ANY OPERABLE CPC CHANNEL UNACCEPTABLE OPERATION

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