ML020080075
| ML020080075 | |
| Person / Time | |
|---|---|
| Site: | Calvert Cliffs  |
| Issue date: | 01/03/2002 |
| From: | Cruse C Constellation Nuclear |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| Download: ML020080075 (51) | |
Text
Charles H. Cruse Vice President Nuclear Energy 1650 Calvert Cliffs Parkway Lusby, Maryland 20657 410 495-4455 0Constellation Nuclear Calvert Cliffs Nuclear Power Plant A Member of the Constellation Energy Group January 3, 2002 U. S. Nuclear Regulatory Commission Washington, DC 20555 ATTENTION:
Document Control Desk Calvert Cliffs Nuclear Power Plant Unit Nos. 1 & 2; Docket Nos. 50-317 & 50-318 Core Operating Limits Reports for Unit 1, Cycle Cycle 14, Revision 2 15, Revision 5 and Unit 2, Pursuant to Calvert Cliffs Nuclear Power Plant Technical Specification 5.6.5, the attached Core Operating Limits Reports for Unit 1, Cycle 15, Revision 5 (Attachment 1) and Unit 2, Cycle 14, Revision 2 (Attachment 2) are provided for your records.
Please replace the Unit 1 Core Operating Limits Report in its entirety, with the attached Revision 5 and the Unit 2 Core Operating Limits Report in its entirety, with the attached Revision 2.
Should you have questions regarding this matter, we will be pleased to discuss them with you.
Very truly yours, CHC/DJM/bjd Attachments:
(1) Core Operating Limits Report for Unit 1, Cycle 15, Revision 5 (2) Core Operating Limits Report for Unit 2, Cycle 14, Revision 2 cc:
(Without Attachments)
R. S. Fleishman, Esquire J. E. Silberg, Esquire Director, Project Directorate I-1, NRC D. M. Skay, NRC H. J. Miller, NRC Resident Inspector, NRC R. I. McLean, DNR
SUBJECT:
ATTACHMENT (1)
CORE OPERATING LIMITS REPORT UNIT 1, CYCLE 15, REVISION 5 Calvert Cliffs Nuclear Power Plant, Inc.
January 3, 2002
CALVERT CLIFFS NUCLEAR POWER PLANT CORE OPERATING LIMITS REPORT for UNIT 1, CYCLE 15 REVISION 5 IWESPONSIBLE ENGINEER / DATE 7*-iqCII*AL E14G-INEAR - NEU//*T Calvert Cliffs 1, Cycle 15 COLR Page 1 of 24 Rev. 5 Page I of 24 Rev. 5 Calvert Cliffs 1, Cycle 15 COLR
CORE OPERATING LIMITS REPORT CALVERT CLIFFS UNIT 1, CYCLE 15 The following limits are included in this Core Operating Limits Report:
Specification Title Page Introduction.......................................................................................................
4 Definitions...................................................................................................................
5 Shutdown M argin (SDM ).......................................................................................
6 M oderator Temperature Coeffi cient (M TC).........................................................
6 Control Elem ent Assembly (CEA) Alignment.......................................................
6 Regulating Control Element Assembly (CEA) Insertion Limits.............................
6 Linear Heat Rate (LHR).........................................................................................
6 Total Planar Radial Peaking Factor (FxyT)...........................................................
7 Total Integrated Radial Peaking Factor (FrT).......................................................
7 Axial Shape Index (ASI).........................................................................................
7 Reactor Protective System (RPS) Instrumentation - Operating.............................
7 Boron Concentration.............................................................................................
8 List of Approved M ethodologies........................................................................
21 The following figures are included in this Core Operating Limits Report:
Title Page Figure 3.1.1 Figure 3.1.4 Figure 3.1.6 Figure 3.2.1-1 Figure 3.2.1-2 Figure 3.2.1-3 Figure 3.2.2 Figure 3.2.3 Figure 3.2.5 Figure 3.3.1-1 Figure 3.3.1-2 Figure 3.3.1-3 Shutdown Margin vs. Time in Cycle.....................................................................
9 Allowable Time To Realign CEA Versus T
Initial Total Integrated Radial Peaking Factor (FrT).................................. 10 CEA Group Insertion Limits vs. Fraction of Rated Thermal Power.........................
11 Allowable Peak Linear Heat Rate vs. Time in Cycle..........................................
12 Linear Heat Rate Axial Flux Offset Control Limits............................................
13 Total Planar Radial Peaking Factor (FxyT) vs.
Scaling Factor (N -Factor)....................................................................................
14 Total Planar Radial Peaking Factor (FxyT) vs. Allowable Fraction of Rated Therm al Pow er....................................................................................................
15 Total Integrated Radial Peaking Factor (Fr T) vs.
Allowable Fraction of Rated Thermal Power.......................................................
16 DNB Axial Flux Offset Control Limits................................................................
17 Axial Power Distribution - High Trip Setpoint Peripheral Axial Shape Index vs. Fraction of Rated Thermal Power...................
18 Thermal Margin/Low Pressure Trip Setpoint - Part 1..........................................
19 Thermal Margin/Low Pressure Trip Setpoint - Part 2..........................................
20 Calvert Cliffs 1, Cycle 15 COLR Page 2 of 24 Rev. 4 3.1.1 3.1.3 3.1.4 3.1.6 3.2.1 3.2.2 3.2.3 3.2.5 3.3.1 3.9.1 Number Rev. 4 Page 2 of 24 Calvert Cliffs 1, Cycle 15 COLR
UNIT 1 CORE OPERATING LIMITS REPORT LIST OF EFFECTIVE PAGES Page No.
Rev. No.
1 5
2 4
3 5
4 5
5 4
6 4
7 5
8 4
9 4
10 4
11 4
12 4
13 4
14 4
15 4
16 5
17 4
18 4
19 4
20 4
21 4
22 4
23 4
24 4
Calvert Cliffs 1, Cycle 15 COLR Page 3 of 24 Rev. 5 Rev. 5 Calvert Cliffs 1, Cycle 15 COLR Page 3 of 24
INTRODUCTION This report provides the cycle-specific core operating limits for operation of Calvert Cliffs Unit 1, Cycle 15. It contains the limits for:
Moderator Temperature Coefficient (MTC)
Control Element Assembly (CEA) Alignment Regulating Control Element Assembly (CEA) Insertion Limits Linear Heat Rate (LHR)
Total Planar Radial Peaking Factor (F yT)
Total Integrated Radial Peaking Factor (FT)
Axial Shape Index (ASI)
Reactor Protective System (RPS) Instrumentation - Operating Boron Concentration In addition, this report contains a number of figures which provides limits on the parameters listed above. If any of the limits contained in this report are exceeded, corrective action will be taken as defined in the Technical Specifications.
This report has been prepared in accordance with the requirements of the Technical Specifications. The cycle specific limits have been developed using the NRC-approved methodologies given in the "List of Approved Methodologies" section of this report and the Technical Specifications.
COLR Revision 0 COLR Revision 0 was issued to support the Unit 1 Cycle 15 core onload and operation of Unit 1 Cycle 15 in Modes 5 and 6. Safety Evaluation SE00424 Rev. 0000 provided justification for this revision.
COLR Revision 1 COLR Revision 1 was issued to incorporate those limits required for operation of Unit 1 Cycle 15 in Modes 1 through 4. No revision bars are included due to the significant number of changes required to incorporate the Modes I through 4 COLR limits. Safety Evaluation SE00407 Rev. 0000 provided justification for this revision.
COLR Revision 2 3.9.1 Boron Concentration was revised to include a Mode 6 temperature restriction of 140 'F. Safety Evaluation SE0043 1 Rev. 0000 provided justification for this revision.
COLR Revision 3 COLR Figures 3.2.1-2 & 3.2.5 are revised to reflect a 20% LCO monitoring floor for LHR and DNB ASI limits (SE00433, Rev. 0000).
Figures 3.2.1-2, 3.2.1-3, & 3.2.5 are revised to provide clarification in reference to NEOP-13. Section 3.2.1 &
Figure 3.2.1-3 were also revised to provide clarity. Finally, Figures 3.2.2 & 3.2.3 were revised to correct an inaccuracy in the peaking factor Tech Specs (SE0045 1, Rev. 0000).
COLR Revision 4 Figures 3.2.1-1 and 3.2.1-3 are revised to lower the allowable PLHR from 14.3 kw/ft to 13.9 kw/ft. Figures 3.2.1 3, 3.2.2, & 3.2.3 are revised to expand the tradeoff curves below 80% power. Finally, Figure 3.2.5 and the list of references are revised to implement the ABB-NV setpoints. (SE0045 1, Rev. 0000).
COLR Revision 5 Figure 3.2.3 is revised to implement a more restrictive Fr' due to ROPM issues discovered mid-cycle (SE00472, Rev. 0).
Page 4 of 24 Rev. 5 Calvert Cliffs 1, Cycle 15 COLR
DEFINITIONS Axial Shape Index (ASI)
ASI shall be the power generated in the lower half of the core less the power generated in the upper half of the core, divided by the sum of the power generated in the lower and upper halves of the core.
ASI = lower -upper
= YE lower + upper The Axial Shape Index (Y,) used for the trip and pretrip signals in the Reactor Protection System (RPS) is the above value (YE) modified by an appropriate multiplier (A) and a constant (B) to determine the true core axial power distribution for that channel.
YI=AYE + B Total Integrated Radial Peaking Factor - Fr T The Total Integrated Radial Peaking Factor is the ratio of the peak pin power to the average pin power in an unrodded core.
Total Planar Radial Peaking Factor - FxyT The Total Planar Radial Peaking Factor is the maximum ratio of the peak to average power density of the individual fuel rods in any of the unrodded horizontal planes.
Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 5 of 24
CYCLE SPECIFIC LIMITS FOR UNIT 1, CYCLE 15 3.1.1 Shutdown Margin (SDM) (SR 3.1.1.1)
Tavg > 200 OF - Modes 3 and 4:
The shutdown margin shall be equal to or greater than the limit line of COLR Figure 3.1.1.
Tavg *200 OF - Mode 5:
The shutdown margin shall be > 3.0% Ap.
3.1.3 Moderator Temperature Coefficient (MTC) (SR 3.1.3.2)
The Moderator Temperature Coefficient (MTC) shall be less negative than -3.0 x 10-4 Ap/°F at rated thermal power.
3.1.4 Control Element Assembly (CEA) Alignment (Action 3.1.4.B.1)
The allowable time to realign a CEA may be provided by the full core power distribution monitoring system (Better Axial Shape Selection System - BASSS) or COLR Figure 3.1.4, "Allowable Time to Realign CEA Versus Initial Total Integrated Radial Peaking Factor (FrT)." If COLR Figure 3.1.4 is used, the pre-misaligned FrT value used to determine the allowable time to realign the CEA shall be the latest measurement taken within 5 days prior to the CEA misalignment. If no measurements have been taken within 5 days prior to the misalignment and the full core power distribution monitoring system is unavailable then the time to realign is zero (0) minutes.
3.1.6 Regulating Control Element Assembly (CEA) Insertion Limits (SR 3.1.6.1 and SR 3.1.6.2)
The regulating CEA groups insertion limits are shown on COLR Figure 3.1.6.
3.2.1 Linear Heat Rate (LHR) (SR 3.2.1.2 and SR 3.2.1.4)
The linear heat rate shall not exceed the limits shown on COLR Figure 3.2.1-1.
The axial shape index power dependent control limits are given in COLR Figure 3.2.1-2.
When using the excore detector monitoring system (SR 3.2.1.2):
The alarm setpoints are equal to the ASI limits, therefore when the alarms are adjusted, they provide indication to the operator when ASI is not within the limits.
The axial shape index alarm setpoints are shown as a function of fraction of thermal power on COLR Figure 3.2.1-2. A scaling factor (N-Factor) vs. FxyT is shown in COLR Figure 3.2.1-3. The fraction of thermal power shown in COLR Figure 3.2.1-2 must be scaled by the N-Factor to determine the axial shape index alarm setpoints as a function of fraction of rated thermal power.
Calvert Cliffs 1, Cycle 15 COLR Page 6 of 24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 6 of 24
CYCLE SPECIFIC LIMITS FOR UNIT 1, CYCLE 15 When using the incore detector monitoring system (SR 3.2.1.4):
The alarm setpoints are adjusted to protect the Linear Heat Rate limits shown on COLR Figure 3.2.1-1 and uncertainty factors are appropriately included in the setting of these alarms.
The uncertainty factors for the incore detector monitoring system are:
- 1.
A measurement-calculational uncertainty factor of 1.062,
- 2.
An engineering uncertainty factor of 1.03,
- 3.
A linear heat rate uncertainty factor of 1.002 due to axial fuel densification and thermal expansion, and 4.a For measured thermal power less than or equal to 50 percent but greater than 20 percent of rated full core power a thermal power measurement uncertainty factor of 1.035.
4.b For measured thermal power greater than 50 percent of rated full core power a thermal power measurement uncertainty factor of 1.020.
3.2.2 Total Planar Radial Peaking Factor (FxyT) (SR 3.2.1.1 and SR 3.2.2.1)
The calculated value of FxyT shall be limited to< 1.65.
The allowable combination of thermal power and FxyT are shown on COLR Figure 3.2.2.
3.2.3 Total Integrated Radial Peaking Factor (F T) (SR 3.2.3.1)
The calculated value of FrT shall be limited to < 1.57.
The allowable combinations of thermal power and FrT are shown on COLR Figure 3.2.3.
3.2.5 Axial Shape Index (ASI) (SR 3.2.5.1)
The axial shape index and thermal power shall be maintained within the limits established by the Better Axial Shape Selection System (BASSS) for CEA insertions of the lead bank of<
55% when BASSS is operable, or within the limits of COLR Figure 3.2.5 for CEA insertions specified by COLR Figure 3.1.6.
3.3.1 Reactor Protective System (RIPS) Instrumentation - Operating (Reactor Trip Setpoints) (TS Table 3.3.1-1)
The Axial Power Distribution - High trip setpoint and allowable values are given in COLR Figure 3.3.1-1.
The Thermal Margin/Low Pressure (TM/LP) trip setpoint is given in COLR Figures 3.3.1-2 and 3.3.1-3. The allowable values are to be not less than the larger of(1) 1875 psia or (2) the value calculated from COLR Figures 3.3.1-2 and 3.3.1-3.
Calvert Cliffs 1, Cycle 15 COLR Page 7 of 24 Rev. 5 Rev. 5 Calvert Cliffs 1, Cycle 15 COLR Page 7 of 24
3.9.1 Boron Concentration (SR 3.9.1.1)
The refueling boron concentration will maintain the Keff at 0.95 or less (including a 1%
AK/K conservative allowance for uncertainties). The refueling boron concentration shall be maintained uniform. For Mode 6 operation the RCS temperature must be maintained
< 140 OF.
Refueling Boron Concentration Limits 56 Credited CEAs Calvert Cliffs 1, Cycle 15 COLR Page 8 of 24 Rev. 4 COLR/Tech Spec Limit 2272 ppm Chemistry Sampling 23 ppm Boron-10 Depletion 48 ppm Refueling Boron Concentration Limit including Chemistry Sampling
> 2343 ppm uncertainty and Boron-10 Depletion Dilution of the Refueling Pool between Low and High Level Alarms with Refueling Pool 72 ppm Flooded Additional Contingencies for Batch I RT 20 ppm LFAs Temporary Rotations of Fuel Assemblies 20 ppm Refueling Boron Concentration Administrative Limit
> 2455 ppm Rev. 4 Page 8 of 24 Calvert Cliffs 1, Cycle 15 COLR
6 5
z I
k z
0 4
3 2
I 0
BOC EOC TIME IN CYCLE Figure 3.1.1 Shutdown Margin vs. Time in Cycle Calvert Cliffs 1, Cycle 15 COLR Page 9 of 24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 9 of 24
70 60 (1.53, 60) 50 w
I z,*40 4978 - 600 Frm LU 1C.1 U
z 30 20 Lu 10 ALLOWED REGION 0
(1.63, o) 1.50 1.55 1.60 1.65 1.70 MEASURED PRE-MISALIGNED TOTAL INTEGRATED RADIAL PEAKING FACTOR Figure 3.1.4 Allowable Time to Realign CEA Versus Initial Total Integrated Radial Peaking Factor (FrT)
Calved Cliffs 1, Cycle 15 COLR Page 10 of24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 10 of 24
1.000 0.900 0.800 i
(.
o
.75, Groulp 5 @ 5 0.700 (0.7 Group 5 Ca 0.600 0.65, 0.500 Long Term Steady
, IState tInsertion Limit,I 0.400 -
Group 5 g 25%
0.300 I
i 0.200
- , i Short Ter 0.1O00 E
I State Insi S_
, IGroup 4 0.000 Allowable BASSSI 1 -
(Group 5 @ 55%)
Operating Region I
I I I I I
0 20 40 60 80 100 136.0 108.8 81.6 54.4 27.2 0.0 1 4
I I 0
20 36.0 108.8 I I J I
0 20 40 60 136.0 108.8 81.6 54.4 3
1 1 1 _
40 60 80 100 81.6 54.4 27.2 0.0 I-I 80 100 27.2 0.0 L
0 136.0 I
I I I I I 0
20 40 60 80 100 136.0 108.8 81.6 54.4 27.2 0.0 2
20 40 60 108.8 81.6 54.4 L1 80 100 27.2 0.0
%CEA INSERTION INCHES CEA WITHDRAWN (Note that 0% insertion is defined in NEOP-13 as ARO)
Figure 3.1.6 CEA Group Insertion Limits vs. Fraction of Rated Thermal Power Calvert Cliffs 1, Cycle 15 COLR Page 11 of24 Rev. 4 W
=,
I w
-J
-J LL z
U--
Calvert Cliffs 1, Cycle 15 COLR Page I I of 24 Rev. 4
17.0 U.
LU LU
_z (L
- 0.
,-I 0
-j
_j 16.5
£16.0 0
LU15.5
+ 15.0 a
o 14.5 ILl 14.0 13.9 13.5 13.0 BOC*
EOC TIME IN CYCLE Figure 3.2.1-1 Allowable Peak Linear Heat Rate vs. Time in Cycle
- Allowable PLHR was changed from 14.3 kw/ft to 13.9 kw/ft mid-cycle Calvert Cliffs 1, Cycle 15 COLR Page 12 of24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 12 of 24
1.100 1.050 1.000 0.950 0.900 0.850 0.800 0.750 0.700 0.650 0.600 0.550 0.500 0.450 0.400 0.350 0.300 0.250 0.200o
-0.60 Figure 3.2.1-2 Linear Heat Rate Axial Flux Offset Control Limits (LCO Limits are not needed below 20% thermal power)
(See NEOP-13 for Administrative Limits)
Calvert Cliffs 1, Cycle 15 COLR Page 13 of24 Rev. 4 uJ W
LU 0
U.=
LU
_1 0
LL 0
z 0 U.
-0.40
-0.20 0.00 0.20 0.40 PERIPHERAL AXIAL SHAPE INDEX, Yi 0.60 Page 13 of 24 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR
1.00 0.90 (1.7325, 0.80)
I 0.80 0
4 0.70 z
0ý
.I 0.4 U 0.60 aD ACCEPTABLE VALUE z S0.50 0.40 0.30 (1.819, 0.20) 0.20I 1.40 1.45 1.50 1.55 1.60 1.65 1.70 1.75 1.80 1.85 FxyT Figure 3.2.1-3 Total Planar Radial Peaking Factor (FxyT) vs.
Scaling Factor (N-Factor)
(See NEOP-13 for Administrative Limits)
Calvert Cliffs 1, Cycle 15 COLR Page 14 of24 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 14 of 24 Rev. 4
1.05 S
0.9 5 -
O P E R A T I O N LU REGION 0
(L 0.85
~ 075(1.7325, 0.80)
F~~ LIMIT CURVE LU
,I I11 o 0.65 "ACCEPTABLE 0.55 OPERATION 0
OREGION S0.45
" 0.35 LU
-j m 0.25
-j S0.15 0.05.
1.60 1.65 1.70 1.75 1.80 1.85 T
Fxy Figure 3.2.2 Total Planar Radial Peaking Factor (FxyT) vs.
Allowable Fraction of Rated Thermal Power While operating with FxyT greater than 1.65, withdraw CEAs to or above the Long Term Steady State Insertion Limits (Figure 3.1.6)
Calvert Cliffs 1, Cycle 15 COLR Page 15 of24 Rev. 4 Page 15 of 24 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR
1.05 0.95 0.85 0.75 0.65 0.55 0.45 0.35 0.25 0.15 0.05 1 1.55 1.80 1.60 1.65 1.70 1.75 T
Fr Figure 3.2.3 Total Integrated Radial Peaking Factor (FrT) VS.
Allowable Fraction of Rated Thermal Power While operating with FrT greater than 1.57, withdraw CEAs to or above the Long Term Steady State Insertion Limits (Figure 3.1.6)
Calvert Cliffs 1, Cycle 15 COLR Page 16 of24 Rev. 5 Calvert Cliffs 1, Cycle 15 COLR Page 16 of 24 Rev. 5
-j 0
ILl
.I
-j 0
-j
-j U.
0 z
0 U.
1.100 1.050 1.000 0.950 UNACCEPTABLE OPERATION 0.900 REGION 0.850 0.800 0.750 0.700
(-0.3, 0.70) 0.650 0.600 0.550 0.500
(-0.3, 0.50) 0.450 0.400 0.350 0.300 0.250
(-O.,
0.200
-0.60
-0.40 P
REGION 12, 0.20)
I I
-0.20 0.00 0.20 ERIPHERAL AXIAL SHAPE INDEX, Yi Figure 3.2.5 DNB Axial Flux Offset Control Limits (See NEOP-13 for Administrative Limits)
Calvert Cliffs 1, Cycle 15 COLR Page 17 of24 Rev. 4
(-0.08,1.00)(.15,1.
)
UNACCEPTABLE OPERATION REGION ACCEPTABLE OPERATION S(0.3, 0.20)
I 0.40 0.60 Page 17 of 24 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR
W 0
0 I-z 0
C.)
1.300 1.250 1.200 1.150 1.100 1.050 1.000 0.950 0.900 0.850 0.800 0.750 0.700 0.650 0.600 0.550 0.500 0.450 0.400 0.350 0.300 0.250 0.200 0.150
-0.80
-0.60
-0.40
-0.20 0.00 0.20 0.40 0.60 0.80 PERIPHERAL AXIAL SHAPE INDEX, Yi Figure 3.3.1-1 Axial Power Distribution - High Trip Setpoint Peripheral Axial Shape Index vs. Fraction of Rated Thermal Power Calvert Cliffs 1, Cycle 15 COLR Page 18 of24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 18 of 24
1.60 1.50-Q Al x QR1 1.40 1.30
(-.,
.3 1.20 i
A1
+0.1667 xASI+ 1.0
- 1. 10 Al-40.
x ASI + to 1.00 i
(0. 0, 1:.0) 0.90i I
III
-0.60 -0.50 -0.40 -0.30 -0.20 -0.10 0.00 0.10 0.20 0.30 0.40 ASI Figure 3.3.1-2 Thermal Margin/Low Pressure Trip Setpoint - Part I (ASI vs. A1 )
0.50 0.60 Calvert Cliffs 1, Cycle 15 COLR Page 19 of24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 19 of 24
1.2 -
(1.2,1.2) 1.1 1.0 0.9 0.8 (0.6,1 0.85) 0.7 S0.6 a
0.5 0.4 trip P-var = 2869.5 x (Al) x (QRi) + 17.98 x Tin - 10820 0.2 - -
02QDNB=
A1 x QR1 0.0 I
I 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 FRACTION OF RATED THERMAL POWER Figure 3.3.1-3 Thermal MarginlLow Pressure Trip Setpoint - Part 2 (Fraction of Rated Thermal Power vs. QR1 )
Calvert Cliffs 1, Cycle 15 COLR Page 20 of 24 Rev. 4 Rev. 4 Page 20 of 24 Calvert Cliffs 1, Cycle 15 COLR
LIST OF APPROVED METHODOLOGIES (1)
CENPD-199-P, Rev 1-P-A, "C-E Setpoint Methodology: C-E Local Power Density and DNB LSSS and LCO Setpoint Methodology for Analog Protection Systems," January 1986 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(2)
CEN-124(B)-P, "Statistical Combination of Uncertainties Methodology Part 1: C-E Calculated Local Power Density and Thermal Margin/Low Pressure LSSS for Calvert Cliffs Units I and II,"
December 1979 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.2, 3.2.3)
(3)
CEN-124(B)-P, "Statistical Combination of Uncertainties Methodology Part 2: Combination of System Parameter Uncertainties in Thermal Margin Analyses for Calvert Cliffs Units 1 and 2,"
January 1980 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(4)
CEN-124(B)-P, "Statistical Combination of Uncertainties Methodology Part 3: C-E Calculated Departure from Nucleate Boiling and Linear Heat Rate Limiting Conditions for Operation for Calvert Cliffs Units 1 and 2," March 1980 (Methodology for Specifications 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(5)
CEN-191(B)-P, "CETOP-D Code Structure and Modeling Methods for Calvert Cliffs Units 1 and 2," December 1981 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(6)
Letter from Mr. D. H. Jaffe (NRC) to Mr. A. E. Lundvall, Jr. (BG&E), dated June 24, 1982, Unit 1 Cycle 6 License Approval (Amendment No. 71 to DPR-53 and SER) [Approval to CEN 124(B)-P (three parts) and CEN-191 (B)-P)]
(7)
CEN-348(B)-P, "Extended Statistical Combination of Uncertainties," January 1987 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(8)
Letter from Mr. S. A. McNeil, Jr. (NRC) to Mr. J. A. Tiernan (BG&E), dated October 21, 1987, Docket Nos. 50-317 and 50-318, "Safety Evaluation of Topical Report CEN-348(B)-P, Extended Statistical Combination of Uncertainties" (9)
CENPD-161-P-A, "TORC Code, A Computer Code for Determining the Thermal Margin of a Reactor Core," April 1986 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(10)
CENPD-162-P-A, "Critical Heat Flux Correlation of C-E Fuel Assemblies with Standard Spacer Grids Part 1, Uniform Axial Power Distribution," April 1975 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(11)
CENPD-207-P-A, "Critical Heat Flux Correlation for C-E Fuel Assemblies with Standard Spacer Grids Part 2, Non-Uniform Axial Power Distribution," December 1984 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(12)
CENPD-206-P-A, "TORC Code, Verification and Simplified Modeling Methods," June 1981 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(13)
CENPD-225-P-A, "Fuel and Poison Rod Bowing," June 1983 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
Calvert Cliffs 1, Cycle 15 COLR Page 21 of24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 21 of 24
(14)
CENPD-266-P-A, "The ROCS and DIT Computer Code for Nuclear Design," April 1983 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(15)
CENPD-275-P-A, "C-E Methodology for Core Designs Containing Gadolinia - Urania Burnable Absorbers," May 1988 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(16)
CENPD-382-P-A, "Methodology for Core Designs Containing Erbium Burnable Absorbers," August 1993 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(17)
CENPD-139-P-A, "C-E Fuel Evaluation Model Topical Report," July 1974 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(18)
CEN-161-(B)-P-A, "Improvements to Fuel Evaluation Model," August 1989 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(19)
CEN-161-(B)-P, Supplement 1-P, "Improvements to Fuel Evaluation Model," April 1986 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(20)
Letter from Mr. S. A. McNeil, Jr. (NRC) to Mr. J. A. Tiernan (BG&E), dated February 4, 1987, Docket Nos. 50-317 and 50-318, "Safety Evaluation of Topical Report CEN-161 (B)-P, Supplement 1-P, Improvements to Fuel Evaluation Model" (Approval of CEN 161 (B), Supplement 1 -P)
(21)
CEN-372-P-A, "Fuel Rod Maximum Allowable Gas Pressure," May 1990 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(22)
Letter from Mr. A. E. Scherer (CE) to Mr. J. R. Miller (NRC) dated December 15, 1981, LD-81-095, Enclosure 1-P, "C-E ECCS Evaluation Model Flow Blockage Analysis" (Methodology for Specifications 3.2.1, 3.2.2)
(23)
CENPD-132, Supplement 3-P-A, "Calculative Methods for the C-E Large Break LOCA Evaluation Model for the Analysis of C-E and W Designed NSSS," June 1985 (Methodology for Specifications 3.2.1, 3.2.2 and approval of Letter LD-81-095, dated December 15, 1981)
(24)
CENPD-133, Supplement 5, "CEFLASH-4A, a FORTRAN77 Digital Computer Program for Reactor Blowdown Analysis," June 1985 (Methodology for Specifications 3.2.1, 3.2.2)
(25)
CENPD-134, Supplement 2, "COMPERC-II, a Program for Emergency Refill-Reflood of the Core," June 1985 (Methodology for Specifications 3.2.1, 3.2.2)
(26)
Letter from Mr. D. M. Crutchfield (NRC) to Mr. A. E. Scherer (CE), dated July 31, 1986, "Safety Evaluation of Combustion Engineering ECCS Large Break Evaluation Model and Acceptance for Referencing of Related Licensing Topical Reports (Approval of CENPD 133, Supplement 5 and CENPD-134, Supplement 2)
(27)
CENPD-135, Supplement 5-P, "STRIKIN-II, A Cylindrical Geometry Fuel Rod Heat Transfer Program," April 1977 (Methodology for Specifications 3.2.1, 3.2.2)
Calvert Cliffs I, Cycle 15 COLR Page 22 of 24 Rev. 4 Page 22 of 24 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR
(28)
Letter from Mr. R. L. Baer (NRC) to Mr. A. E. Scherer (CE) dated September 6, 1978, "Evaluation of Topical Report CENPD-135, Supplement 5" (29)
CENPD-137, Supplement 1-P, "Calculative Methods for the C-E Small Break LOCA Evaluation Model," January 1977 (Methodology for Specifications 3.2.1, 3.2.2)
(30)
CENPD-133, Supplement 3-P, "CEFLASH-4AS, "A Computer Program for the Reactor Blowdown Analysis of the Small Break Loss of Coolant Accident," January 1977 (Methodology for Specifications 3.2.1, 3.2.2)
(31)
Letter from Mr. K. Kniel (NRC) to Mr. A. E. Scherer (CE), dated September 27, 1977, "Evaluation of Topical Reports CENPD-133, Supplement 3-P and CENPD-137, Supplement 1-P" (32)
CENPD-138, Supplement 2-P, "PARCH, A FORTRAN-IV Digital Program to Evaluate Pool Boiling, Axial Rod and Coolant Heatup," January 1977 (Methodology for Specifications 3.2.1, 3.2.2)
(33)
Letter from Mr. C. Aniel (NRC) to Mr. A. E. Scherer, dated April 10, 1978. "Evaluation of Topical Report CENPD-138, Supplement 2-P" (34)
Letter from Mr. A. E. Lundvall, Jr. (BG&E) to Mr. J. R. Miller (NRC) dated February 22, 1985, "Calvert Cliffs Nuclear Power Plant Unit 1; Docket No. 50-317, Amendment to Operating License DPR-53, Eighth Cycle License Application" (Section 7.3.2 contains Methodology for Specifications 3.1.1 and 3.1.3 and 3.1.6)
(35)
Letter from Mr. D. H. Jaffe (NRC) to Mr. A. E. Lundvall, Jr. (BG&E), dated May 20, 1985, "Safety Evaluation Report Approving Unit 1 Cycle 8 License Application" (36)
Letter from Mr. A. E. Lundvall, Jr. (BG&E) to Mr. R. A. Clark (NRC), dated September 22, 1980, "Amendment to Operating License No. 50-317, Fifth Cycle License Application" (Section 7.1.2 contains Methodology for Specifications 3.1.1, 3.9.1)
(37)
Letter from Mr. R. A. Clark (NRC) to Mr. A. E. Lundvall, Jr. (BG&E), dated December 12, 1980, "Safety Evaluation Report Approving Unit 1, Cycle 5 License Application" (38)
Letter from Mr. J. A. Tiernan (BG&E) to Mr. A. C. Thadani (NRC), dated October 1, 1986, "Calvert Cliffs Nuclear Power Plant Unit Nos. 1 & 2, Docket Nos. 50-317 &
50-318, Request for Amendment" (Methodology for Specifications 3.1.4)
(39)
Letter from S. A. McNeil, Jr. (NRC) to Mr. J. A. Tiernan (BG&E), dated July 7, 1987, Docket Nos. 50-317 and 50-318, Approval of Amendments 127 (Unit 1) and 109 (Unit 2)
(Support for Specification 3.1.4)
(40)
CENPD-1 88-A, "HERMITE: A Multi-Dimensional Space-Time Kinetics Code for PWR Transients," July 1976 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
Calvert Cliffs 1, Cycle 15 COLR Rev. 4 Page 23 of 24
(41)
The power distribution monitoring system referenced in various specifications and the BASES, is described in the following documents:
- i.
CENPD-153-P, Revision 1-P-A, "Evaluation of Uncertainty in the Nuclear Power Peaking Measured by the Self-Powered, Fixed Incore Detector System," May 1980 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5) ii.
CEN-1 19(B)-P, "BASSS, Use of the Incore Detector System to Monitor the DNB-LCO on Calvert Cliffs Unit 1 and Unit 2," November 1979 (Referenced in Appendix B of Unit 2 Cycle 9 License Application) iii.
Letter from Mr. G. C. Creel (BG&E) to NRC Document Control Desk, dated February 7, 1989, "Calvert Cliffs Nuclear Power Plant Unit No. 2; Docket No. 50 318, Request for Amendment, Unit 2 Ninth Cycle License Application" (Appendix B contains Methodologies for Specifications 3.1.4, 3.2.2, 3.2.3, 3.2.5) iv.
Letter from Mr. S. A. McNeil, Jr. (NRC) to Mr. G. C. Creel (BG&E), dated January 10, 1990, "Safety Evaluation Report Approving Unit 2 Cycle 9 License Application" (42)
Letter from Mr. D. G. McDonald, Jr. (NRC) to Mr. R. E. Denton (BGE), dated May 11, 1995, "Approval to Use Convolution Technique in Main Steam Line Break Analysis Calvert Cliffs Nuclear Power Plant, Unit Nos. 1 and 2 (TAC Nos. M90897 and M90898)"
(Methodology for Specification 3.2.3).
(43)
CENPD-387-P-A, Latest Approved Revision, "ABB Critical Heat Flux Correlations for PWR Fuel".
(44)
CENPD-1 99-P, Supplement 2-P-A, Appendix A, Latest Approved Revision, "CE Setpoint Methodology, "June 1998.
Calvert Cliffs 1, Cycle 15 COLR Page 24 of 24 Rev. 4 Rev. 4 Calvert Cliffs 1, Cycle 15 COLR Page 24 of 24
ATTACHMENT (2)
CORE OPERATING LIMITS REPORT UNIT 2, CYCLE 14, REVISION 2 Calvert Cliffs Nuclear Power Plant, Inc.
January 3, 2002
CALVERT CLIFFS NUCLEAR POWER PLANT CORE OPERATING LIMITS REPORT for UNIT 2, CYCLE 14 REVISION 2 ESPONSIBLE ENGINEER / DATE Calvert Cliffs 2, Cycle 14 COLR Page 1 of 24
'D,-,,,)
CORE OPERATING LIMITS REPORT CALVERT CLIFFS UNIT 2, CYCLE 14 The following limits are included in this Core Operating Limits Report:
Specification Title Page Introduction.......................................................................................................
4 Definitions.........................................................................................................
5 Shutdown M argin (SDM ).......................................................................................
6 M oderator Temperature Coefficient (M TC).........................................................
6 Control Elem ent Assem bly (CEA) Alignm ent.......................................................
6 Regulating Control Element Assembly (CEA) Insertion Limits............................
6 Linear Heat Rate (LHR).........................................................................................
6 Total Planar Radial Peaking Factor (FxyT).........................................................
7 Total Integrated Radial Peaking Factor (FrT).......................................................
7 Axial Shape Index (ASI).........................................................................................
7 Reactor Protective System (RPS) Instrumentation - Operating............................
7 Boron Concentration.............................................................................................
8 List of Approved M ethodologies.........................................................................
21 The following figures are included in this Core Operating Limits Report:
Title Page Figure 3.1.1 Figure 3.1.4 Figure 3.1.6 Figure 3.2.1-1 Figure 3.2.1-2 Figure 3.2.1-3 Figure 3.2.2 Figure 3.2.3 Figure 3.2.5 Figure 3.3.1-1 Figure 3.3.1-2 Figure 3.3.1-3 Shutdown Margin vs. Time in Cycle.....................................................................
9 Allowable Time To Realign CEA Versus T
Initial Total Integrated Radial Peaking Factor (FrT...........................................
10 CEA Group Insertion Limits vs. Fraction of Rated Thermal Power......................... 11 Allowable Peak Linear Heat Rate vs. Time in Cycle..........................................
12 Linear Heat Rate Axial Flux Offset Control Limits............................................
13 Total Planar Radial Peaking Factor (FxyT) vs.
Scaling Factor (N -Factor)....................................................................................
14 Total Planar Radial Peaking Factor (FxyT) vs. Allowable Fraction of Rated Therm al Pow er....................................................................................................
15 Total Integrated Radial Peaking Factor (FrT) vs.
Allowable Fraction of Rated Thermal Power.......................................................
16 DNB Axial Flux Offset Control Limits................................................................
17 Axial Power Distribution - High Trip Setpoint Peripheral Axial Shape Index vs. Fraction of Rated Thermal Power.................. 18 Thermal Margin/Low Pressure Trip Setpoint - Part I..........................................
19 Thermal Margin/Low Pressure Trip Setpoint - Part 2..........................................
20 Calvert Cliffs 2, Cycle 14 COLR Page 2 of 24 Rev. 0 3.1.1 3.1.3 3.1.4 3.1.6 3.2.1 3.2.2 3.2.3 3.2.5 3.3.1 3.9.1 Number Page 2 of 24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR
UNIT 2 CORE OPERATING LIMITS REPORT LIST OF EFFECTIVE PAGES Page No.
Rev. No.
1 2
2 0
3 2
4 2
5 0
6 0
7 2
8 1
9 0
10 0
11 0
12 0
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15 0
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21 0
22 0
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Calvert Cliffs 2, Cycle 14 COLR Page 3 of 24 Rev. 2 Page 3 of 24 Rev. 2 Calvert Cliffs 2, Cycle 14 COLR
INTRODUCTION This report provides the cycle-specific limits for operation of Calvert Cliffs Unit 2, Cycle 14. It contains the limits for:
- Shutdown Margin (SDM)
Moderator Temperature Coefficient (MTC)
Control Element Assembly (CEA) Alignment Regulating Control Element Assembly (CEA) Insertion Limits Linear Heat Rate (LHR)
Total Planar Radial Peaking Factor (Fxy)
Total Integrated Radial Peaking Factor (FrT)
Axial Shape Index (ASI)
Reactor Protective System (RPS) Instrumentation - Operating Boron Concentration In addition, this report contains a number of figures which give limits on the parameters listed above. If any of the limits contained in this report are exceeded, corrective action will be taken as defined in the Technical Specifications.
This report has been prepared in accordance with the requirements of Technical Specifications.
The cycle specific limits have been developed using the NRC-approved methodologies given in the "List of Approved Methodologies" section of this report and in the Technical Specifications.
COLR Revision 0 Initial Release of Unit 2 Cycle 14 COLR (Safety Evaluations SE00451 and SE00452).
COLR Revision 1 3.9.1 Boron Concentration was revised to include a Refueling Boron Concentration Limit crediting no CEAs for a Post-Refueling Upper Guide Structure (UGS) lift or Reactor Vessel Head Lift. Safety Evaluation SE00452 provided justification for this revision.
COLR Revision 2 Figure 3.2.3 is revised to implement a more restrictive FrT due to ROPM issues discovered mid-cycle (SE00472, Rev. 0).
Calvert Cliffs 2, Cycle 14 COLR Page 4 of 24 Rev. 2 Page 4 of 24 Rev. 2 Calvert Cliffs 2, Cycle 14 COLR
DEFINITIONS Axial Shape Index (ASI)
ASI shall be the power generated in the lower half of the core less the power generated in the upper half of the core, divided by the sum of the power generated in the lower and upper halves of the core.
ASI = lower - upper = YE lower + upper The Axial Shape Index (Y1) used for the trip and pretrip signals in the Reactor Protection System (RPS) is the above value (YE) modified by an appropriate multiplier (A) and a constant (B) to determine the true core axial power distribution for that channel.
Y, = AYE + B Total Integrated Radial Peaking Factor - FrT The Total Integrated Radial Peaking Factor is the ratio of the peak pin power to the average pin power in an unrodded core.
Total Planar Radial Peaking Factor - FXYT The Total Planar Radial Peaking Factor is the maximum ratio of the peak to average power density of the individual fuel rods in any of the unrodded horizontal planes.
Calvert Cliffs 2, Cycle 14 COLR Page 5 of 24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR Page 5 of 24 Rev. 0
CYCLE SPECIFIC LIMITS FOR UNIT 2, CYCLE 14 3.1.1 Shutdown Margin (SDM) (SR 3.1.1.1)
Tavg > 200 OF - Modes 3 and 4:
The shutdown margin shall be equal to or greater than the limit line of COLR Figure 3.1.1.
Tavg _<200 OF - Mode 5:
The shutdown margin shall be > 3.0% Ap.
3.1.3 Moderator Temperature Coefficient (MTC) (SR 3.1.3.2)
The Moderator Temperature Coefficient (MTC) shall be less negative than -3.0 x 10-4 Ap/OF at rated thermal power.
3.1.4 Control Element Assembly (CEA) Alignment (Action 3.1.4.B.1)
The allowable time to realign a CEA may be provided by the full core power distribution monitoring system (Better Axial Shape Selection System - BASSS) or COLR Figure 3.1.4, "Allowable Time to Realign CEA Versus Initial Total Integrated Radial Peaking Factor (FrT).y If COLR Figure 3.1.4 is used, the pre-misaligned FrT value used to determine the allowable time to realign the CEA shall be the latest measurement taken within 5 days prior to the CEA misalignment. If no measurements have been taken within 5 days prior to the misalignment and the full core power distribution monitoring system is unavailable then the time to realign is zero (0) minutes.
3.1.6 Regulating Control Element Assembly (CEA) Insertion Limits (SR 3.1.6.1 and SR 3.1.6.2)
The regulating CEA groups insertion limits are shown on COLR Figure 3.1.6.
3.2.1 Linear Heat Rate (LHR) (SR 3.2.1.2 and SR 3.2.1.4)
The linear heat rate shall not exceed the limits shown on COLR Figure 3.2.1-1.
The axial shape index power dependent control limits are given in COLR Figure 3.2.1-2.
When using the excore detector monitoring system (SR 3.2.1.2):
The alarm setpoints are equal to the ASI limits, therefore when the alarms are adjusted, they provide indication to the operator that ASI is not within the limits.
The axial shape index alarm setpoints are shown as a function of fraction of thermal power on COLR Figure 3.2.1-2. A scaling factor (N-Factor) vs. FxyT is shown in COLR Figure 3.2.1-3. The fraction of thermal power shown in COLR Figure 3.2.1-2 must be scaled by the N-Factor to determine the axial shape index alarm setpoints as a function of fraction of rated thermal power.
Calvert Cliffs 2, Cycle 14 COLR Page 6 of 24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR Page 6 of 24 Rev. 0
CYCLE SPECIFIC LIMITS FOR UNIT 2, CYCLE 14 When using the incore detector monitoring system (SR 3.2.1.4):
The alarm setpoints are adjusted to protect the Linear Heat Rate limits shown on COLR Figure 3.2.1-1 and uncertainty factors are appropriately included in the setting of these alarms.
The uncertainty factors for the incore detector monitoring system are:
- 1.
A measurement-calculational uncertainty factor of 1.062,
- 2.
An engineering uncertainty factor of 1.03,
- 3.
A linear heat rate uncertainty factor of 1.002 due to axial fuel densification and thermal expansion, and 4.a For measured thermal power less than or equal to 50 percent but greater than 20 percent of rated full core power a thermal power measurement uncertainty factor of 1.035.
4.b For measured thermal power greater than 50 percent of rated full core power a thermal power measurement uncertainty factor of 1.020.
3.2.2 Total Planar Radial Peaking Factor (FxyT) (SR 3.2.1.1 and SR 3.2.2.1)
The calculated value of FxyT shall be limited to < 1.65.
The allowable combination of thermal power, CEA position, and FxyT are shown on COLR Figure 3.2.2.
3.2.3 Total Integrated Radial Peaking Factor (FT) (SR 3.2.3.1)
The calculated value of FrT shall be limited to < 1.57.
The allowable combinations of thermal power, CEA position, and FrT are shown on COLR Figure 3.2.3.
3.2.5 Axial Shape Index (ASI) (SR 3.2.5.1)
The axial shape index and thermal power shall be maintained within the limits established by the Better Axial Shape Selection System (BASSS) for CEA insertions of the lead bank of
< 55% when BASSS is operable, or within the limits of COLR Figure 3.2.5 for CEA insertions specified by COLR Figure 3.1.6.
3.3.1 Reactor Protective System (RPS) Instrumentation - Operating (Reactor Trip Setpoints) (TS Table 3.3.1-1)
The Axial Power Distribution - High trip setpoint and allowable values are given in COLR Figure 3.3.1-1.
The Thermal Margin/Low Pressure (TM/LP) trip setpoint is given in COLR Figures 3.3.1-2 and 3.3.1-3. The allowable values are to be not less than the larger of(1) 1875 psia or (2) the value calculated from COLR Figures 3.3.1-2 and 3.3.1-3.
Calvert Cliffs 2, Cycle 14 COLR Page 7 of 24 Rev. 2 Rev. 2 Calvert Cliffs 2, Cycle 14 COLR Page 7 of 24
3.9.1 Boron Concentration (SR 3.9.1.1)
The refueling boron concentration will maintain the keff at 0.95 or less (including a 1% Ak/k conservative allowance for uncertainties). The refueling boron concentration shall be maintained uniform. For Mode 6 operation the RCS temperature must be maintained
< 140 'F. The 0 Credited CEA requirements shall apply for a Post-Refueling Upper Guide Structure or Reactor Vessel Head Lift.
Refueling Boron Concentration Limits Calvert Cliffs 2, Cycle 14 COLR Page 8 of 24 Rev. 1 0 Credited CEA 60 Credited CEA COLR/Tech Spec Limit 2150 ppm 2537 ppm 1% Chemistry Sampling Uncertainty 22 ppm 25 ppm Boron-10 Depletion to 19.40 a/o 44 ppm 52 ppm Refueling Boron Concentration Limit including Chemistry Sampling
> 2216 ppm
> 2614 ppm uncertainty and Boron-10 Depletion Dilution of the Refueling Pool between Low and High Level Alarms 73 ppm 80 ppm with Refueling Pool Flooded Temporary Rotations of Fuel 20 ppm 0 ppm Assemblies Refueling Boron Concentration Administrative Limit
> 2309 ppm
> 2694 ppm Calvert Cliffs 2, Cycle 14 COLR Page 8 of 24 Rev. I
ACCEPTABLE OPERATION REGION (EOC, 4.5)
(BOC, 3.5)
MINIMUM SHUTDOWN MARGIN UNACCEPTABLE OPERATION REGION BOC TIME IN CYCLE Figure 3.1.1 Shutdown Margin vs. Time in Cycle Calvert Cliffs 2, Cycle 14 COLR Page 9 of 24 Rev. 0 6
5+
4 I
I I
"0 z
z 0
34 24 1
0 EOC I
Rev. 0 Calvert Cliffs 2, Cycle 14 COLR Page 9 of 24
70 60 (11.53, 60)
_, 50 LU S40 so z
30 w
W1 20 0 I z
S10 ALLOWED REGION 0
(1.63, O) 1.50 1.55 1.60 1.65 1.70 MEASURED PRE-MISALIGNED TOTAL INTEGRATED RADIAL PEAKING FACTOR Figure 331.4 Allowable Time to Realign CEA Versus Initial Total Integrated Radial Peaking Factor (Fr T Calvert Cliffs 2, Cycle 14 COLR Page 10 of24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR Page 10 of 24 Rev. 0
0.80o 0~
(0.75, Goup 5 @50.,)
i "07
,(0.70, Grou 5 0%)
S0.700 m'm-*"*,*
0(
(0.65, Group 5 85%)i x
0.600 w--ri 4@ 50%)
LI I'-
' WI
,I
!I (0.56, Goup 4 @50%)
0.500m Long Term Steadyidy State Insertion Limit, 0
S0.400 Group5@25%
J U0 0.300
.1 i z
0 Sm
(
m I
(0.20,Group 3@ 130%)m 0.200 LL m
Short Term Steady 0.100 m State Insertion Limit, 0.100-Group 4 @ 20%
[.000 (Gru (0.00, Grou 3 @ 60%) 1 Allowable BASSS I
- om -
(Group 5 @ 55%)
Operating Region 5
3 1
i I I
I I
I 0
20 40 60 80 100 0
20 40 60 80 100 0
20 40 6(
136.0 108.8 81.6 54.4 27.2 0.0 136.0 108.8 81.6 54.4 27.2 0.0 136.0 108.8 81.6 54 4
2 I I I i I I I I I I I I 0
20 40 60 80 100 0
20 40 60 80 100 136.0 108.8 81.6 54.4 27.2 0.0 136.0 108.8 81.6 54.4 27.2 0.0
%CEA INSERTION INCHES CEA WITHDRAWN (ARO is defined in NEOP-23)
Figure 3.1.6 CEA Group Insertion Limits vs. Fraction of Rated Thermal Power 1 1KI 0
80 100
.4 27.2 0.0 Calvert Cliffs 2, Cycle 14 COLR Page 11 of 24 Rev. 0 Page I11 of 24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR
17.0 i,
LL I
z uJ LU
,J 0
-J 16.5
£" 16.0 0
L 15.5 a
0
+ 15.0 14.5
+
-J LU 1D
,, 14.0 13.9 13.5 13.0 BOC EOC TIME IN CYCLE Figure 3.2.1-1 Allowable Peak Linear Heat Rate vs. Time in Cycle Calvert Cliffs 2, Cycle 14 COLR Rev. 0 Page 12 of 24
1.100 1.050 1.000 0.950 0.900 0.850 0.800 0.750 0.700 0.650 0.600 0.550 0.500 0.450 0.400 0.350 0.300 0.250 0.200
-0.60 0.60
-0.40
-0.20 0.00 0.20 0.40 PERIPHERAL AXIAL SHAPE INDEX, Yi Figure 3.2.1-2 Linear Heat Rate Axial Flux Offset Control Limits (LCO Limits are not needed below 20% thermal power)
(See NEOP-23 for Administrative Limits)
Calved Cliffs 2, Cycle 14 COLR Page 13 of24 Rev. 0 W
3.1I 0
0
-LJ w
I I-.
LL 0
z 0
I-Rev. 0 Calvert Cliffs 2, Cycle 14 COLR Page 13 of 24
0 L
i LL 0
z, z
U=
1.00 0.90 0.80 0.70 0.60 0.50 0.40 0.30 1 0.20 1.40 1.45 1.50 1.55 1.60 1.65 1.70 1.75 1.80 1.85 FxyT Figure 3.2.1-3 Total Planar Radial Peaking Factor (FJT) vs.
Scaling Factor (N-Factor)
(See NEOP-23 for Administrative Limits)
Calvert Cliffs 2, Cycle 14 COLR Page 14 of24 Rev. 0 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR Page 14 of 24
1.05 0.95 OPEPATION REGION O*0.85 00 0(1.7325, 0.80)
S0.751 SF T UMIT CURVE
=
S0.65 ACCEPTABLE u- 0.55 OPERATION 0
REGION z
0 -0.45 "u 0.35 0.25-0.25 (1.819,0.2
" 0.15-0.05 1 I
I I
1.60 1.65 1.70 1.75 1.80 1.85 T
Fxy Figure 3.2.2 Total Planar Radial Peaking Factor (FxyT) vs.
Allowable Fraction of Rated Thermal Power While operating with F T greater than 1.65, withdraw CEAs to or above the Long Term Steady State Insertion Limits (Figure 3.1.6)
Calvert Cliffs 2, Cycle 14 COLR Page 15 of24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR Page 15 of 24 Rev. 0
1.05 W 0.95 OPERATION
- 1.
REGION 0
I. 0.85 1.65, 0.80)
IX 0.75 T
LU F
LIMIT CURVE I
S0.65 0.55 0
z ACCEPTABLE 0
p 0.45 OPERATION
(
REGION
" 0.35
-J 0.25 (1.7324, 0.20)
< 0.15 0.05 1.55 1.60 1.65 1.70 1.75 1.80 T
Fr Figure 3.2.3 Total Integrated Radial Peaking Factor (FrT) VS.
Allowable Fraction of Rated Thermal Power While operating with FrT greater than 1.57, withdraw CEAs to or above the Long Term Steady State Insertion Limits (Figure 3.1.6)
Calvert Cliffs 2, Cycle 14 COLR Page 16 of24 Rev. 2 Calvert Cliffs 2, Cycle 14 COLR Page 16 of 24 Rev. 2
1.100 1.050 1.000 0.950 UNACCEPTABLE OPERATION 0.900 REGION 0.850 0.800 0.750 0.700
(-0.3, 0.70) 0.650 0.600 0.550 0.500
(-0.3, 0.50) 0.450 0.400 0.350 0.300 0.250-,
0.200 I
-0.60
-0.40
(-0.08,1.00)(0.15,1.00)
UNACCEPTABLE OPERATION REGION (0.3, 0.80)
ACCEPTABLE OPERATION REGION 0.42, 0.20)
I (0.3, 0.20)
I I
I
-0.20 0.00 0.20 PERIPHERAL AXIAL SHAPE INDEX, Yi 0.40 Figure 3.2.5 DNB Axial Flux Offset Control Limits (See NEOP-23 for Administrative Limits)
Calvert Cliffs 2, Cycle 14 COLR 0.60 E
Page 17 of 24 Rev. 0
1.300 1.250 1.200 1.150 1.100 1.050 1.000 0.950 0.900 0.850 0.800 0.750 0.700 0.650 0.600 0.550 0.500 0.450 0.400 0.350 0.300 0.250 0.200 0.150
-0.80 0.60 0.80 Figure 3.3.1-1 Axial Power Distribution - High Trip Setpoint Peripheral Axial Shape Index vs. Fraction of Rated Thermal Power Calvert Cliffs 2, Cycle 14 COLR Page 18 of24 Rev. 0 0~
I I
0 LL 0 z 0
C.,
-0.60
-0.40
-0.20 0.00 0.20 0.40 PERIPHERAL AXIAL SHAPE INDEX, Yi Calvert Cliffs 2, Cycle 14 COLR Page 18 of 24 Rev. 0
1.60 1.50 Q
=AixQR1 1.40 0.0I I
I
(-0.6,0 1.3) 0 0
0
'ASI Fiur.330 1.20 (ASl 0.1v7xAs.+
1 S*
'(+0.6, i1.1) 1.10 Al Mxs to 1.00
ý(o.o, I1.o) 0.90 I
I I
I
-0.60 -0.50 -0.40 -0.30 -0.20 -0.10 0.00 0.10 0.20 0.30 0.40 0.50 0.60 ASl Figure 3.3.1-2 Thermal Margin/Low Pressure Trip Setpoint - Part 1 (ASI vs. A1)
Calvert Cliffs 2, Cycle 14 COLR Page 19 of24 Rev. 0 Page 19 of 24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR
0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 FRACTION OF RATED THERMAL POWER Figure 3.3.1-3 Thermal Margin/Low Pressure Trip Setpoint - Part 2 (Fraction of Rated Thermal Power vs. QR1 )
Calvert Cliffs 2, Cycle 14 COLR 1.2 1.1 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 a
(06 0.8 Pvar =2869.5 x (Al) x (QRi) +17.98 x Tin - 10820 QDNET Al x QRi 0.0 0.1 1.3 Rev. 0 2' 1.2)
Page 20 of 24
LIST OF APPROVED METHODOLOGIES (1)
CENPD-199-P, Rev 1-P-A, "C-E Setpoint Methodology: C-E Local Power Density and DNB LSSS and LCO Setpoint Methodology for Analog Protection Systems," January 1986 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(2)
CEN-124(B)-P, "Statistical Combination of Uncertainties Methodology Part 1: C-E Calculated Local Power Density and Thermal Margin/Low Pressure LSSS for Calvert Cliffs Units I and II,"
December 1979 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.2, 3.2.3)
(3)
CEN-124(B)-P, "Statistical Combination of Uncertainties Methodology Part 2: Combination of System Parameter Uncertainties in Thermal Margin Analyses for Calvert Cliffs Units 1 and 2,"
January 1980 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(4)
CEN-124(B)-P, "Statistical Combination of Uncertainties Methodology Part 3: C-E Calculated Departure from Nucleate Boiling and Linear Heat Rate Limiting Conditions for Operation for Calvert Cliffs Units 1 and 2," March 1980 (Methodology for Specifications 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(5)
CEN-191(B)-P, "CETOP-D Code Structure and Modeling Methods for Calvert Cliffs Units 1 and 2," December 1981 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(6)
Letter from Mr. D. H. Jaffe (NRC) to Mr. A. E. Lundvall, Jr. (BG&E), dated June 24, 1982, Unit 1 Cycle 6 License Approval (Amendment No. 71 to DPR-53 and SER) [Approval to CEN 124(B)-P (three parts) and CEN-191 (B)-P)]
(7)
CEN-348(B)-P, "Extended Statistical Combination of Uncertainties," January 1987 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(8)
Letter from Mr. S. A. McNeil, Jr. (NRC) to Mr. J. A. Tiernan (BG&E), dated October 21, 1987, Docket Nos. 50-317 and 50-318, "Safety Evaluation of Topical Report CEN-348(B)-P, Extended Statistical Combination of Uncertainties" (9)
CENPD-161-P-A, "TORC Code, A Computer Code for Determining the Thermal Margin of a Reactor Core," April 1986 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(10)
CENPD-162-P-A, "Critical Heat Flux Correlation of C-E Fuel Assemblies with Standard Spacer Grids Part 1, Uniform Axial Power Distribution," April 1975 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(11)
CENPD-207-P-A, "Critical Heat Flux Correlation for C-E Fuel Assemblies with Standard Spacer Grids Part 2, Non-Uniform Axial Power Distribution," December 1984 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(12)
CENPD-206-P-A, "TORC Code, Verification and Simplified Modeling Methods," June 1981 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
(13)
CENPD-225-P-A, "Fuel and Poison Rod Bowing," June 1983 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.3, 3.2.5)
Calvert Cliffs 2, Cycle 14 COLR Page 21 of 24 Rev. 0
(14)
CENPD-266-P-A, "The ROCS and DIT Computer Code for Nuclear Design," April 1983 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(15)
CENPD-275-P-A, "C-E Methodology for Core Designs Containing Gadolinia - Urania Burnable Absorbers," May 1988 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(16)
CENPD-382-P-A, "Methodology for Core Designs Containing Erbium Burnable Absorbers," August 1993 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
(17)
CENPD-139-P-A, "C-E Fuel Evaluation Model Topical Report," July 1974 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(18)
CEN-161-(B)-P-A, "Improvements to Fuel Evaluation Model," August 1989 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(19)
CEN-161-(B)-P, Supplement 1-P, "Improvements to Fuel Evaluation Model," April 1986 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(20)
Letter from Mr. S. A. McNeil, Jr. (NRC) to Mr. J. A. Tiernan (BG&E), dated February 4, 1987, Docket Nos. 50-317 and 50-318, "Safety Evaluation of Topical Report CEN-161 (B)-P, Supplement 1 -P, Improvements to Fuel Evaluation Model" (Approval of CEN 161(B), Supplement 1 -P)
(21)
CEN-372-P-A, "Fuel Rod Maximum Allowable Gas Pressure," May 1990 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2)
(22)
Letter from Mr. A. E. Scherer (CE) to Mr. J. R. Miller (NRC) dated December 15, 1981, LD-81-095, Enclosure 1-P, "C-E ECCS Evaluation Model Flow Blockage Analysis" (Methodology for Specifications 3.2.1, 3.2.2)
(23)
CENPD-132, Supplement 3-P-A, "Calculative Methods for the C-E Large Break LOCA Evaluation Model for the Analysis of C-E and W Designed NSSS," June 1985 (Methodology for Specifications 3.2.1, 3.2.2 and approval of Letter LD-81-095, dated December 15, 1981)
(24)
CENPD-133, Supplement 5, "CEFLASH-4A, a FORTRAN77 Digital Computer Program for Reactor Blowdown Analysis," June 1985 (Methodology for Specifications 3.2.1, 3.2.2)
(25)
CENPD-134, Supplement 2, "COMPERC-II, a Program for Emergency Refill-Reflood of the Core," June 1985 (Methodology for Specifications 3.2.1, 3.2.2)
(26)
Letter from Mr. D. M. Crutchfield (NRC) to Mr. A. E. Scherer (CE), dated July 31, 1986, "Safety Evaluation of Combustion Engineering ECCS Large Break Evaluation Model and Acceptance for Referencing of Related Licensing Topical Reports (Approval of CENPD 133, Supplement 5 and CENPD-134, Supplement 2)
(27)
CENPD-135, Supplement 5-P, "STRIKIN-II, A Cylindrical Geometry Fuel Rod Heat Transfer Program," April 1977 (Methodology for Specifications 3.2.1, 3.2.2)
Calvert Cliffs 2, Cycle 14 COLR Page 22 of 24 Rev. 0
(28)
Letter from Mr. R. L. Baer (NRC) to Mr. A. E. Scherer (CE) dated September 6, 1978, "Evaluation of Topical Report CENPD-135, Supplement 5" (29)
CENPD-137, Supplement l-P, "Calculative Methods for the C-E Small Break LOCA Evaluation Model," January 1977 (Methodology for Specifications 3.2.1, 3.2.2)
(30)
CENPD-133, Supplement 3-P, "CEFLASH-4AS, "A Computer Program for the Reactor Blowdown Analysis of the Small Break Loss of Coolant Accident," January 1977 (Methodology for Specifications 3.2.1, 3.2.2)
(31)
Letter from Mr. K. Kniel (NRC) to Mr. A. E. Scherer (CE), dated September 27, 1977, "Evaluation of Topical Reports CENPD-133, Supplement 3-P and CENPD-137, Supplement 1-P" (32)
CENPD-138, Supplement 2-P, "PARCH, A FORTRAN-IV Digital Program to Evaluate Pool Boiling, Axial Rod and Coolant Heatup," January 1977 (Methodology for Specifications 3.2.1, 3.2.2)
(33)
Letter from Mr. C. Aniel (NRC) to Mr. A. E. Scherer, dated April 10, 1978. "Evaluation of Topical Report CENPD-138, Supplement 2-P" (34)
Letter from Mr. A. E. Lundvall, Jr. (BG&E) to Mr. J. R. Miller (NRC) dated February 22, 1985, "Calvert Cliffs Nuclear Power Plant Unit 1; Docket No. 50-317, Amendment to Operating License DPR-53, Eighth Cycle License Application" (Section 7.3.2 contains Methodology for Specifications 3.1.1 and 3.1.3 and 3.1.6)
(35)
Letter from Mr. D. H. Jaffe (NRC) to Mr. A. E. Lundvall, Jr. (BG&E), dated May 20, 1985, "Safety Evaluation Report Approving Unit 1 Cycle 8 License Application" (36)
Letter from Mr. A. E. Lundvall, Jr. (BG&E) to Mr. R. A. Clark (NRC), dated September 22, 1980, "Amendment to Operating License No. 50-317, Fifth Cycle License Application" (Section 7.1.2 contains Methodology for Specifications 3.1.1, 3.9.1)
(37)
Letter from Mr. R. A. Clark (NRC) to Mr. A. E. Lundvall, Jr. (BG&E), dated December 12, 1980, "Safety Evaluation Report Approving Unit 1, Cycle 5 License Application" (38)
Letter from Mr. J. A. Tiernan (BG&E) to Mr. A. C. Thadani (NRC), dated October 1, 1986, "Calvert Cliffs Nuclear Power Plant Unit Nos. 1 & 2, Docket Nos. 50-317 &
50-318, Request for Amendment" (Methodology for Specifications 3.1.4)
(39)
Letter from S. A. McNeil, Jr. (NRC) to Mr. J. A. Tiernan (BG&E), dated July 7, 1987, Docket Nos. 50-317 and 50-318, Approval of Amendments 127 (Unit 1) and 109 (Unit 2)
(Support for Specification 3.1.4)
(40)
CENPD-188-A, "HERMITE: A Multi-Dimensional Space-Time Kinetics Code for PWR Transients," July 1976 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5)
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(41)
The power distribution monitoring system referenced in various specifications and the BASES, is described in the following documents:
- 1.
CENPD-153-P, Revision 1-P-A, "Evaluation of Uncertainty in the Nuclear Power Peaking Measured by the Self-Powered, Fixed Incore Detector System," May 1980 (Methodology for Specifications 3.3.1, 3.1.6, 3.2.1, 3.2.2, 3.2.3, 3.2.5) ii.
CEN-1 19(B)-P, "BASSS, Use of the Incore Detector System to Monitor the DNB-LCO on Calvert Cliffs Unit 1 and Unit 2," November 1979 (Referenced in Appendix B of Unit 2 Cycle 9 License Application) iii.
Letter from Mr. G. C. Creel (BG&E) to NRC Document Control Desk, dated February 7, 1989, "Calvert Cliffs Nuclear Power Plant Unit No. 2; Docket No. 50 318, Request for Amendment, Unit 2 Ninth Cycle License Application" (Appendix B contains Methodologies for Specifications 3.1.4, 3.2.2, 3.2.3, 3.2.5) iv.
Letter from Mr. S. A. McNeil, Jr. (NRC) to Mr. G. C. Creel (BG&E), dated January 10, 1990, "Safety Evaluation Report Approving Unit 2 Cycle 9 License Application" (42)
Letter from Mr. D. G. McDonald, Jr. (NRC) to Mr. R. E. Denton (BGE), dated May 11, 1995, "Approval to Use Convolution Technique in Main Steam Line Break Analysis Calvert Cliffs Nuclear Power Plant, Unit Nos. 1 and 2 (TAC Nos. M90897 and M90898)"
(Methodology for Specification 3.2.3).
(43)
CENPD-387-P-A, Latest Approved Revision, "ABB Critical Heat Flux Correlations for PWR Fuel" (44)
CENPD-199-P, Supplement 2-P-A, Appendix A, Latest Approved Revision, "CE Setpoint Methodology," June 1998.
Calvert Cliffs 2, Cycle 14 COLR Page 24 of 24 Rev. 0 Page 24 of 24 Rev. 0 Calvert Cliffs 2, Cycle 14 COLR