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Proposed Tech Specs Implementing Core Operating Limits Rept Per Generic Ltr 88-16
	ML17328A669
Person / Time
Site:	Cook
Issue date:	04/16/1990
From:	; INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG
To:	;
Shared Package
ML17328A668	List: ML17328A667; ML17328A669;
References
	GL-88-16, NUDOCS 9004230355
	Download: ML17328A669 (69)
	v • d • e

ATTACHMENT 2 TO AEP:NRC:1077B PROPOSED TECHNICAL SPECIFICATION CHANGES 9OO4j p-"~ p5ppp315 9pp42$PDQCK

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gl INDEX DEFINITIONS SECTION PAGE 1.0 DEFINITIONS Solidification 1-6 Offsite Dose Calculation Manual (ODCM) 1-6 Gaseous Radwaste Treatment System 1-6 Ventilation Exhaust Treatment System 1-6 Purge-Purging 1-6 Venting 1-6 Member(s) of the Public 1-7 Site Boundary ~ 1-7 Unrestricted Area ~ 1 7 Allowable Power Level 1-7 Core Operating Limits Report (COLR) 1-7 Operational Modes (Table 1.1) 1-8 Frequency Notation (Table 1.2) 1-9 COOK NUCLEAR PLANT - UNIT 1 AMENDMENT NO.

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DEFINITIONS MEMBER S OF THE PUBLIC 1.35 MEMBER(S) OF THE PUBLIC shall include all persons who are not occupationally associated with the plant. This category does not include employees of the utility, its contractors or its vendors. Also excluded from this category are persons who enter the site to service equipment or to make deliveries. This category does include persons who use portions of the site for recreational, occupational or other purposes not associated with the plant.

SITE BOUNDARY 1.36 The SITE BOUNDARY shall be that line beyond which the land is,not owned, leased or otherwise controlled by the licensee.

UNRESTRICTED AREA 1.37 An UNRESTRICTED AREA shall be any area at or beyond the SITE BOUNDARY to which access is not controlled by the licensee for purposes of protection of individuals from exposure to radiation and radioactive materials or any area within the site boundary used for residential quarters or industrial, commercial, institutional and/or recreational purposes.

ALLOWABLE POWER LEVEL APL 1.38 APL means "allowable power level" which is that power level, less than or equal to 100% RATED THERMAL POWER, at which the plant may be operated to ensure that power distribution limits are satisfied.

CORE OPERATING LIMITS REPORT COLR 1.39 The COLR is the unit-specific document that provides core operating limits for the current operating reload cycle. These cycle-specifc core operating limits shall be determined for each reload cycle in accordance with Specification 6.9.1.11. Unit operation within these operating limits is addressed in individual specifications.

COOK NUCLEAR PLANT - UNIT 1 1-7 AMENDMENT NO.

REACTIVITY CONTROL SYSTEMS MODERATOR TEMPERATURE COEFFICIENT LIMITING CONDITION FOR OPERATION 3.1.1.4 The moderator temperature coefficient (MTC) shall be within the limits specified in the COLR. The maximum upper limit shall be less than or equal to the limit shown in Figure 3.1-2.

APPLICABILITY: BOL Limit - MODES 1 and 2* only¹ EOL Limit - MODES 1, 2 and 3 only¹ ACTION

a. With the MTC more positive than the BOL limit specified in the COLR:

1. Establish and maintain control rod withdrawal limits sufficient to restore the MTC to within its limit within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months or be in HOT STANDBY within the next 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . These withdrawal limits shall be in addition to the insertion limits of Specification 3.1.3.5.

2. Maintain the control rods within the withdrawal limits established above until subsequent measurement verifies that the MTC has been restored to within its limit for the all rods withdrawn condition.

3. Prepare and submit a Special Report to the Commission pursuant to Specification 6.9.2 within 10 days describing the value of the measured MTC, the interim control rod withdrawal limits and the predicted average core burnup necessary for restoring the positive MTC to within its limit for the all rods withdrawn condition.

With the MTC more negative than the EOL limit specified in the COLR, be in HOT SHUTDOWN within 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

With Keff f greater than or equal to 1.0

¹ See Special Test Exception 3.10.4 COOK NUCLEAR PLANT - UNIT 1 3/4 1-5 AMENDMENT NO.

REACTIVITY CONTROL SYSTEMS SURVEILLANCE RE UIREMENTS 4.1.1.4 The MTC shall be determined to be within its limits during each fuel cycle as follows:

a) The MTC shall be measured and compared to the BOL limit specified in the COLR prior to initial operation above 5% of RATED THERMAL POWER, after each fuel loading.

b) The MTC shall be measured at any THERMAL POWER within 7 EFPD after. reaching an equilibrium boron concentration of 300 ppm.

The measured value shall be compared to the 300 ppm surveillance limit specified in the COLR. In the event this comparison indicates that the MTC will be more negative than the EOL limit, the MTC shall be remeasured at least once per 14 EFPD during the remainder of the fuel cycle and the MTC value compared to the EOL limit.

COOK NUCLEAR PLANT - UNIT 1 3/4 1-5a AMENDMENT NO.

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FIGURE 3.1 2 Moderator Temperature Coefficient (MTC)

MTC x 10+ Ak/k/deg.F'.00 Unac eptabl Oper tion 0.50 0.00

-0.50

-1.00 Acc ptable Opera on

-1.50

-2.00

-2.50

-3.00 0 10 20 30 40 50 60 70 80 90 100 PERCENT RATED THERMAL POSER

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REACTIVITY CONTROL SYSTEMS LIMITING CONDITION FOR OPERATION Continued c) A power distribution map is obtained from the movable incore detectors and F (Z) and F" are verified to be within their limits wi9hin 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months , and d) Either the THERMAL POWER level is reduced to less than or equal to 75% of RATED THERMAL POWER within one hour and within the next 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months the high neutron flux trip setpoint is reduced to less than or equal to 85% of RATED THERMAL POWER, or e) The remainder of the rods in the group with the inoperable rod are aligned to within + 12 steps of the inoperable rod within one hour while maintaining the rod sequence and insertion limits as specified in the COLR; the THERMAL POWER level shall be restricted pursuant to Specification 3.1.3.5 during subsequent operation.

SURVEILLANCE RE UIREMENTS 4.1.3.1.1 The position of each full length rod shall be determined to be within the group demand limit by verifying the individual rod positions at least once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months except during time intervals when the Rod Position Deviation Monitor is inoperable, then verify the group positions at least once per 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months .

4.1.3.1.2 Each full length rod not fully inserted shall be determined to be OPERABLE by movement of at least 8 steps in any one direction at least once per 31 days.

COOK NUCLEAR PLANT - UNIT 1 3/4 1-19 AMENDMENT NO.

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REACTIVITY CONTROL SYSTEMS ROD DROP TIME LIMITING CONDITION FOR OPERATION 3.1.3.3 The individual full length (shutdown and control) rod drop time from the fully withdrawn position (specified in the COLR) shall be less than or equal to 2.4 seconds from beginning of decay of stationary gripper coil voltage to dashpot entry with:

a. T greater than or equal to 541 0 F, and avg

b. All reactor coolant pumps operating.

APPLICABILITY: MODES 1 AND 2 ACTION:

Pith the drop time of any full length rod determined to exceed the above limit, restore the rod drop time to within the above limit prior to proceeding to MODE 1 or 2.

SURVEILLANCE RE UIREMENTS 4.1.3.3 The rod drop time of full length rods shall be demonstrated through measurement prior to entering MODE 2:

a. For all rods following each removal of the reactor vessel head,

b. For specifically affected individual rods following any maintenance on or modification to the control rod drive system which could affect the drop time of those specific rods, and

c. At least once per 18 months.

COOK NUCLEAR PLANT - UNIT 1 3/4 1-21 AMENDMENT NO ~

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REACTIVITY CONTROL SYSTEMS SHUTDOWN ROD INSERTION LIMIT LIMITING CONDITION FOR OPERATION 3.1.3.4 All shutdown rods shall be limited in physical insertion as specified in the COLR.

APPLICABILITY: MODES 1* and 2*¹ ACTION:

With a maximum of one shutdown rod inserted beyond the insertion limit specified in the COLR, except for surveillance testing pursuant to Specification 4.1.3.1.2, within one hour either:

a. Restore the rod to within the insertion limit specified in the COLR, or r

b. Declare the rod to be inoperable and apply Specification 3.1.3.1.

SURVEILLANCE RE UIREMENTS 4.1.3.4 Each shutdown rod shall be determined to be within the insertion limit specified in the COLR:

a. Within 15 minutes prior to withdrawal of any rods in control banks A, B, C or D during an approach to reactor criticality, and

b. At least once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months thereafter.

See Special Test Exceptions 3.10.2 and 3.10.4.

¹ With K eff greater than or equal to 1.0 COOK NUCLEAR SLANT - UNIT 1 3/4 1-22 AMENDMENT NO.

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REACTIVITY CONTROL SYSTEMS CONTROL ROD INSERTION LIMITS LIMITING CONDITION FOR OPERATION 3.1.3.5 The control banks shall be limited in physical insertion as specified in the COLR.

APPLICABILITY: MODES 1* and 2*4.

ACTION:

With the control banks inserted beyond the insertion limits, except for surveillance testing pursuant to Specification 4.1.3.1.2; either:

a. Restore the control banks to within the limits within two hours, or

b. Reduce THERMAL POWER within two hours to less than or equal to that fraction of RATED THERMAL POWER which is allowed by the group position using the insertion limits specified in the COLR, or c,. Be in HOT STANDBY within 6 hours.

SURVEILLANCE RE UIREMENTS 4.1.3.5 The position of each control bank shall be determined to be within the insertion limits at least once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months except during time intervals when the Rod Insertion Limit Monitor is inoperable, then verify the individual rod positions at least once per 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months .

See Special Test Exceptions 3.10.2 and 3.10.4 4 With K ff greater eff than or equal to 1.0.

COOK NUCLEAR PLANT - UNIT 1 3/4 1-23 AMENDMENT NO.

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COOK NUCLEAR PLANT - UNIT 1 3/4 1-24 AMENDMENT NO.

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3 4.2 POWER DISTRIBUTION LIMITS AXIAL FLUX DIFFERENCE AFD LIMITING CONDITION FOR OPERATION 3.2.1 The indicated AXIAL FLUX DIFFERENCE (AFD) shall be maintained within the target band about a target flux difference. The target band is specified in the COLR.

APPLICABILITY: MODE 1 above 50% RATED THERMAL POWER*

ACTION:

With the indicated AXIAL FLUX DIFFERENCE outside of the target band about the target flux difference and with THERMAL POWER:

1. Above 90% or 0:9 x APL (whichever is less) of RATED THERMAL POWER, within 15 minutes'.

a) Either restore the indicated AFD to within the target band limits, or b) Reduce THERMAL POWER to less than 90% or 0.9 x APL (whichever is less) of RATED THERMAL POWER.

2. Between 50% and 90% or 0.9 x APL (whichever is less) of RATED THERMAL POWER:

a) POWER OPERATION may continue provided:

1) The indicated AFD has not been outside of the target band for more than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months penalty deviation cumulative during the previous 24 hours, and

2) The indicated AFD is within the limits specified in the COLR. Otherwise, reduce THERMAL POWER to less than 50$ of RATED THERMAL POWER within 30 minutes and reduce the Power Range Neutron Flux-High Trip Setpoints to less than or equal to 55% of RATED THERMAL POWER within the next 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months .

b) Surveillance testing of the Power Range Neutron Flux Channels may be performed pursuant to Specification 4.3.1.1.1 provided the indicated AFD is maintained within the limits specified in the COLR. A total of 16 hours1.851852e-4 days 0.00444 hours 2.645503e-5 weeks 6.088e-6 months operation may be accumulated with the AFD outside of the target band during this testing without penalty deviation.

See Special Test Exception 3.10.2 COOK NUCLEAR PLANT - UNIT 1 3/4 2-1 AMENDMENT NO.

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POWER DISTRIBUTION LIMITS SURVEILLANCE RE UIREMENTS (Continued) 4.2.1.'2 The indicated AFD shall be considered outside of its target band when at least 2 of 4 or 2 of 3 OPERABLE excore channels are indicating the AFD to be outside the target band. Penalty deviation outside of the target band shall be accumulated on a time basis of:

a. A penalty deviation of one minute for each one minute of POWER OPERATION outside of the target band at THERMAL POWER levels equal to or above 50% of RATED THERMAL POWER, and

b. A penalty deviation of one-half minute 'for each one minute of POWER OPERATION outside of the target band at THERMAL POWER levels between 15% and 50% of RATED THERMAL POWER.

4.2.1.3 The target axial flux difference of each OPERABLE excore channel shall be determined in conjunction with the measurement of APL as defined in Specification 4.2.6.2. The provisions of Specification 4.0.4 are not applicable.

4.2.1.4 The axial flux difference target band about the target axial flux difference shall be determined in conjunction with the measurement of APL as defined in Specification 4.2.6.2. The allowable values of the target band are specified in the COLR. The provisions of Specification 4.0.4 are not applicable.

COOK NUCLEAR PLANT - UNIT 1 3/4 2-3 AMENDMENT NO.

Figure 3.2-1 intentionally deleted.

COOK NUCLEAR 'PLANT - UNIT 1 3/4 2-4 AMENDMENT NO ~

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POWER DISTRIBUTION LIMITS HEAT FLUX HOT CHANNEL FACTOR-F Z LIMITING CONDITION FOR OPERATION 3.2.2 F (Z) shall be limited by the following relationships:

F (Z) < CFQ/P [K(Z) ] P ) 0.5 F (Z) < CFQ/0.5 [K(Z)] P < 0.5 CFQ is the F limit at RATED THERMAL POWER specified in the COLR P THERMAL POWER RATED THERMAL POWER F (Z) is the measured hot channel factor including a 3% manufacturing t lerance uncertainty and a 5% measurement uncertainty.

K(Z) is the normalized F (Z) as a function of core height specified in the COLR.

APPLICABILITY: MODE 1 ACTION'ith F (Z) exceeding its limit:

Reduce THERMAL POWER at least 1% for each lS F (Z) exceeds the limit within 15 minutes and similarly reduce the Pow9r Range Neutron Flux-High Trip Setpoints within the next 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months ; POWER OPERATION may proceed for up to a total of 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months ; subsequent POWER OPERATION may proceed provided the Overpower 5T Trip Setpoints have been reduced at least 1% for each 1% F (Z) exceeds the limit.

b. Identify and correct the cause of the out of limit condition prior to increasing THERMAL POWER above the reduced limit required by a, above; THERMAL POWER may then be increased provided F (Z) is demonstrated through incore mapping to be within its limit.

COOK NUCLEAR PLANT - UNIT 1 3/4 2-5 AMENDMENT NO.

Figure 3.2-3 intentionally deleted.

COOK NUCLEAR PLANT - UNIT 1 3/4 2-8 AMENDMENT NO.

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POWER DISTRIBUTION LIMITS

- N NUCLEAR ENTHALPY HOT CHANNEL FACTOR F~

LIMITING CONDITION FOR OPERATION N

3.2.3 F shall be limited by the following relationship:

N FA < CFDH (1 + PFDH (1-P)]

where: P is the fraction of RATED THERMAL POWER CFDH is the N F< limit at RATED THERMAL POWER specified in the COLR N

PFDH is the power factor multiplier for F> specified in the COLR APPLICABILITY: MODE 1 ACTION:

With F N

exceeding its limit:

Reduce THERMAL POWER to less than 50t of RATED THERMAL POWER within 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months and reduce the Power Range Neutron Flux-High Trip Setpoints to less than or equal to 55'4 of RATED THERMAL POWER within the next 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months ,

b. Demonstrate through in-core mapping that F N is within its limit within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after exceeding the limit or reduce THERMAL POWER to less than 5% of RATED THERMAL POWER within the next 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months , and Identify and correct the cause of the out-of-limit condition prior to increasing THERMAL .POWER; subsequent POWER OPERATION may proceed, provided that F< is demonstrated through in-core mapping to be within its limit at a nominal 50't of RATED THERMAL POWER prior to exceeding this THERMAL POWER, at a nominal 75t of RATED THERMAL POWER prior to exceeding this THERMAL POWER and within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months after attaining 95t or greater RATED THERMAL POWER.

COOK NUCLEAR PLANT - UNIT 1 3/4 2-9 AMENDMENT NO.

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POWER DISTRIBUTION LIMITS ALLOWABLE POWER LEVEL - APL LIMITING CONDITION FOR OPERATION 3.2.6 THERMAL POWER shall be less than or equal to ALLOWABLE POWER LEVEL (APL), given by the following relationship:

F (Z)xV(Z)xF P

o ,CFQ is the F limit at RATED THERMAL POWER specified in the COLR for Westingh3use or Exxon fuel.

o F (Z) is the measured hot channel factor including a 3%

m9nufacturing tolerance uncertainty and a 5% measurement uncertainty.

o V(Z) is the function specified in the COLR.

o F - 1.00 except when successive steady-state power distribution mRps indicate an increase in max over Z of F Z with exposure.

K Z)

Then either of the penalties, F,P shall be taken:

F - 1.02 or, P

F - 1.00 provided that Surveillance Requirement 4.2.6.2 is sRtisfied once per 7 Effective Full Power Days until two successive maps indicate that the max over Z of F Z is not increasing. KgZ) o The above limit is not applicable in the following core regions.

1) Lower core region 0% to 10% inclusive.

2) Upper core region 90% to 100% inclusive.

APPLICABILITY: MODE 1 COOK NUCLEAR PLANT - UNIT 1 3/4 2-15 AMENDMENT NO.

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ADMINISTRATIVE CONTROLS CORE OPERATING LIMITS REPORT 6.9.1.11.1 Core operating limits shall be established and documented in the CORE OPERATING LIMITS REPORT before each reload cycle or any remaining part of a reload cycle for the following:

a. Moderator Temperature Coefficient Limits for Specification 3/4.1.1.4,

b. Rod Drop Time Limits for Specification 3/4.1.3.3,

c. Shutdown Rod Insertion Limits for Specification 3/4.1.3.4,

d. Control Rod Insertion Limits for Specification 3/4.1.3.5,

e. Axial Flux Difference for Specification 3/4.2.1,

f. Heat Flux Hot Channel Factor for Specification 3/4.2.2,

g. Nuclear Enthalpy Rise Hot Channel Factor for Specification 3/4.2.3, and

h. Allowable Power Level for Specification 3/4.2.6 6.9.1.11.2 The analytical methods used to determine the core operating limits shall be those previously reviewed and approved by the NRC in:

a. WCAP-9272-P-A, "Westinghouse Reload Safety Evaluation Methodology," July 1985 (Westinghouse Proprietary),

b. WCAP-8385, "Power Distribution Control and Load Following Procedures - Topical Report," September 1974 (Westinghouse Proprietary),

c. WCAP-10216-P-A, Part B, "Relaxation of Constant Axial Offset Control/F Surveillance Technical Specification," June 1983 (Westingh3use Proprietary),

COOK NUCLEAR PLANT - UNIT 1 6-19 AMENDMENT NO.

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ADMINISTRATIVE CONTROLS CORE OPERATING LIMITS REPORT (Continued)

d. WCAP-10266-P-A Rev. 2, "The 1981 Version of Westinghouse Evaluation Mode Using BASH Code," March 1987 (Westinghouse Proprietary).

6.9 '.11.3 The core operating limits shall be determined so that all applicable limits (e.g., fuel thermal-mechanical limits, core thermal-hydraulic limits, ECCS limits, nuclear limits such as shutdown margin, and transient and accident analysis limits) of the safety analysis are met.

6.9.1.11.4 The CORE OPERATING LIMITS REPORT, including any mid-cycle revisions or supplements thereto, shall be provided upon issuance, for each reload cycle, to the NRC document control desk with copies to the Regional Administrator and Resident Inspector.

SPECIAL REPORTS 6.9.2 Special reports shall be submitted to the Regional Administrator within the time period specified for each report. These reports shall be submitted covering the activities identified below pursuant to the requirements of the applicable reference specification:

a. Inservice Inspection Program Review, Specification 4.4.10

b. ECCS Actuation, Specifications 3.5.2 and 3.5.3

c. Inoperable Seismic Monitoring Instrumentation, Specification 3.3.3.3

d. Inoperable Meteorological Monitoring Instrumentation, Specification 3' '.4

e. Seismic Event Analysis, Specification 4.3.3.3.2

f. Sealed Source Leakage in Excess of Limits, Specification 4.7.7.1.3

g. Moderator Temperature Coefficient, Specificat'ion 3.1.1.4 COOK NUCLEAR PLANT - UNIT 1 6-19a AMENDMENT NO ~

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SAFETY LIMITS BASES The curves are based on a nuclear enthalpy rise hot channel factor, FN defined in the COLR and a reference cosine with a peak of 1.55 for axial power shape. An allowance is included for an increase in F~ at redu'ced power based on the expression:

F CFDH [1 + PFDH (1-P)]

where: CFDH is the P>H limit at RTP specified in the COLR PFDH is the power factor multiplier for F>H provided in the COLR P is the fraction of RATED THERMAL POWER These limiting heat flux conditions are higher than those calculated for the range of all control rods fully withdrawn to the maximum allowable control rod insertion, assuming the axial power imbalance is within the limits of the fl (AI) function of the Overtemperature trip. When the axial power imbalance is not within the tolerance, the axial power imbalance effect on the Overtemperature AT trips will reduce the setpoints to provide protection consistent with core safety limits. l 2.1.2 REACTOR COOLANT SYSTEM PRESSURE The restriction of this Safety Limit protects the integrity of the Reactor Coolant System from overpressurization and thereby prevents the release of radionuclides contained in the reactor coolant from reaching the containment atmosphere.

The reactor pressure vessel and pressurizer are designed to Section III of the ASME Code for Nuclear Power Plant, which permits a maximum transient pressure of 110% (2735 psig) of design pressure. The Reactor Coolant System piping, valves and fittings, are designed to ANSI B 31.1 1967 Edition, which permits a maximum transient pressure of 120% (2985 psig) of component design pressure. The Safety Limit of 2735 psig is therefore consistent with the design criteria and associated code requirements.

The entire Reactor Coolant System is hydrotested at 3107 psig, 125% of design pressure, to demonstrate integrity prior to initial operation.

COOK NUCLEAR PLANT - UNIT 1 B 2-2 AMENDMENT NO.

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COOK NUCLEAR PLANT - UNIT l B 2-2a AMENDMENT NO.

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3 4.2 POWER DISTRIBUTION LIMITS BASES The specifications of this section provide assurance of fuel integrity during Condition I (Normal Operation) and II (Incidents of Moderate Frequency) events by: (a) maintaining the minimum DNBR in the core greater than or equal to the safety limit DNBR during normal operation and in short term transients, and (b) limiting the fission gas release, fuel pellet temperature and cladding mechanical properties to within assumed design criteria. In addition, limiting the peak linear power density during Condition I events provides assurance that the initial conditions assumed for the LOCA analyses are met and the ECCS acceptance criteria limit of 2200 F is not exceeded.

The definitions of certain hot channel and peaking factors as used in these specifications are as follows:

F (Z) Heat Flux Hot Channel Factor, is defined as the maximum local heat flux on the surface of a fuel rod at core elevation Z divided by the average fuel rod heat flux, allowing for man-ufacturing tolerances on fuel pellets and rods.

F>H Nuclear Enthalpy Rise Hot Channel Factor, is defined as the ratio of the integral of linear power along the rod with the highest integrated power to the average rod power.

The limits on F (Z) and F<N are specified in the COLR.

3 4.2.1 AXIAL FLUX DIFFERENCE AFD The limits on AXIAL FLUX DIFFERENCE ensure that the F (Z) upper bound envelope is not exceeded during either normal operation oP in the event of xenon redistribution following power changes. The F (Z) upper bound envelope is specified in the COLR.

Target. flux difference is determined at equilibrium xenon conditions.

The full length rods may be positioned within the core in accordance with their respective insertion limits and should be inserted near their normal position for steady state operation at high power levels. The value of the target flux difference obtained under these conditions divided by the fraction of RATED THERMAL POWER is the target flux difference at RATED THERMAL POWER for the associated core burnup conditions. Target flux ~

differences for other THERMAL POWER levels are obtained by multiplying the RATED THERMAL POWER value by the appropriate fractional THERMAL POWER level.

The periodic updating of the target flux difference value is necessary to reflect core burnup considerations.

COOK NUCLEAR PLANT - UNIT 1 B 3/4 2-1 AMENDMENT NO.

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POWER DISTRIBUTION LIMITS BASES Although it is intended that the plant will be operated with the AXIAL FLUX DIFFERENCE within the target band about the target flux difference, during rapid plant THERMAL POWER reductions, control rod motion will cause the AFD to deviate outside of the target band at reduced THERMAL POWER levels. This deviation will not affect the xenon redistribution sufficiently to change the envelope of peaking factors which may be reached on a subsequent return to RATED THERMAL POWER (with the AFD within the target band) provided the time duration of, the deviation is limited. Accordingly, a 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months penalty deviation limit cumulative during the previous 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months is provided for operation outside of the target band but within the limits as specified in the COLR while at THERMAL POWER levels above 50% of RATED THERMAL POWER. For THERMAL POWER levels between 15% and 50% of RATED THERMAL POWER, deviations of the AFD outside of the target band are less significant.

The penalty of 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months actual time reflects this reduced significance.

Provisions for monitoring the AFD on an automatic basis are derived from the plant process computer through the AFD Monitor Alarm. The computer determines the one minute average of each of the OPERABLE excore detector outputs and provides an alarm message if the AFD for at least 2 of 4 or 2 of 3 OPERABLE excore channels are outside the target band and the THERMAL POWER is greater than 90% or 0.9 x APL of RATED THERMAL POWER (whichever is less). During operation at THERMAL POWER levels between 50% and 90% or 0.9 x APL of RATED THERMAL POWER (whichever is less) and between 15% and 50%

RATED THERMAL POWER, the computer outputs an alarm message when the penalty deviation accumulates beyond the limits of 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months and 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months , respectively.

The upper bound limit (90% or 0.9 x APL of RATED THERMAL POWER (whichever is less)) on AXIAL FLUX DIFFERENCE assures that the F (Z) envelope is not exceeded during either normal operatiort or in the eve9t of xenon redistribution following'ower changes. The lower bound limit (50% of RATED THERMAL POWER) is based on the fact that at THERMAL POWER levels below 50%

of RATED THERMAL POWER, the average linear. heat generation rate is half of its nominal oper'ating value and below that value, perturbations in localized flux distributions cannot affect the results of ECCS or DNBR analyses in a manner which would adversely affect the health and safety of the public.

The bases and methodology for establishing these limits is presented in topical report WCAP-8385, "Power Distribution Control and Load Following Procedures."

COOK NUCLEAR PLANT - UNIT 1 B 3/4 2-2 AMENDMENT NO.

Figure B 3/4 2-1 intentionally deleted.

COOK NUCLEAR PLANT - UNIT 1 B 3/4 2-3 AMENDMENT NO.

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POWER DISTRIBUTION LIMITS BASES 3 4.2.2 and 3 4.2.3 HEAT FLUX HOT CHANNEL FACTOR AND NUCLEAR ENTHALPY RISE HOT CHANNEL FACTOR The limits on heat flux hot channel factor, and nuclear enthalpy rise hot channel factors ensure that 1) the design limits on peak local power density and minimum DNBR are not exceeded and 2) in0 the event of a LOCA the peak fuel clad temperature will not exceed the 2200 F ECCS acceptance criteria limit.

Each of these is measurable, but will normally only be determined periodically, as specified in Specifications 4.2.2 and 4.2.6.2.

', 4.2.2.2, 4.2.3, 4.2.6.1 This periodic surveillance is sufficient to ensure that the hot channel factor limits are maintained provided:

a. Control rods in a single group move together with no individual rod insertion differing by more than + 12 steps from the group demand position.

b. Control rod groups are sequenced with overlapping groups as described in Specification 3.1.3.5.

c. The control rod insertion limits of Specifications 3.1.3.4 and 3.1.3.5 are maintained.

d. The axial power distribution, expressed in terms of AXIAL FLUX DIFFERENCE, is maintained within the limits.

The relaxation in F N as a function of THERMAL POWER allows ch nges in the radial power shape for all permissible rod insertion limits. will be maintained within its limits as specified in the COLR, provided cond).tions H (a) through (d) above are maintained.

When an F measurement is taken, both experimental error and manufacturing tolerance must be allowed for. 5% is the appropriate allowance for a full core map taken with the incore detector flux mapping system, and 3% is the appropriate allowance for manufacturing tolerance.

When F is measured, experimental error must be allowed for, and 4% is the appropriateH allowance for a full core map taken with the incore detection system. This 4% measurement uncertainty has been included in the design DNBR limit value. The specified limit for F also contains an additional 4%

allowance for uncertainties. The total allowance is based on the following considerations:

COOK NUCLEAR PLANT - UNIT 1 B 3/4 2-4 AMENDMENT NO.

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REACTIVITY CONTROL SYSTEMS SURVEILLANCE RE UIREMENTS 4.1.1 ~ 4 The MTC shall be determined to be within its limits during each fuel cycle as follows:

a) The MTC shall be measured and compared to. the BOL limit specified in the COLR prior to initial operation above 5't of RATED THERMAL POWER, after each fuel loading.

b) The MTC shall be measured at any THERMAL POWER within 7 EFPD after reaching an equilibrium boron concentration of 300 ppm.

The measured value shall be compared to the 300 ppm surveillance limit specified in the COLR. In the event this comparison indicates that the MTC will be more negative than the EOL limit, the MTC shall be remeasured at least once per 14 EFPD during the remainder of the fuel cycle and the MTC value compared to the EOL limit.

COOK NUCLEAR PLANT - UNIT 2 3/4 1-6 AMENDMENT NO ~

ATTACHMENT 3 TO AEP:NRC:1077B CORE OPERATING LIMITS REPORT

1'

'I

DONALD C. COOK NCULEAR PLANT UNIT 1 CYCLE 11 CORE OPERATING LIMITS REPORT Revision 0 April 2,'990

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COLR for DONALD C. COOK NUCLEAR PLANT UNIT 1 CYCLE ll 1.0 CORE OPERATING LIMITS REPORT This Core Operating Limits Report for Donald C. Cook Nuclear Plant Unit 1 Cycle 11 has been prepared in accordance with the requirements of Technical Specification 6.9.1.11.

The Technical Specifications affected by this report are listed below:

3/4.1.1.4 Moderator Temperature Coefficient 3/4.1.3.1 Movable Control Assemblies Group Height 3/4.1.3.3 Rod Drop Time 3/4.1.3.4 Shutdown Rod Insertion Limits 3/4.1.3.5 Control Rod Insertion Limits 3/4.2.1 Axial Flux Difference 3/4.2.2 Heat Flux Hot Channel Factor 3/4.2.3 Nuclear Enthalpy Hot Channel Factor 3/4.2.6 Allowable Power Level Page 1 of 10

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COLR for Donald C. Cook Nuclear Plant Unit 1 Cycle 11 2.0 OPERATING LIMITS The cyle-specific parameter limits for the specifications listed in Section 1.0 are presented in the following subsections. These limits have been developed using the NRC-approved methodologies specified in Technical Specification 6.9.1.11.

2.1 Moderator Tem erat ure Coefficient (Specification 3/4.1.1.4) 2.1.1 The Moderator Temperature Coefficient MTC Limits are:

The BOL/ARO -MTC shall be less positive than the value given in Figure l.

The EOL/ARO/RTP-MTC shall be less negative than

-3.35E-4 Ak/k/ F.

This limit is based on a T avg program with HFP T

avg of 550 F where: ARO stands for All Rods Out BOL stands for Beginning of Cycle Life EOL stands for End of Cycle Life RTP stands for Rated Thermal Power HZP stands for Hot Zero Thermal Power HFP stands for Hot Full Thermal Power 2.1.2 The MTC Surveillance limit is:

The 300 ppm/ARO/RTP-MTC should be less negative than or equal to -2.75E-4 Ak/k/'F at a vessel average temperature of 550 0 F.

Page 2 of 10

COLR for Donald C. Cook Nuclear Plant Unit 1 Cycle 11 2.2 Rod Dro Time Dro Hei ht (Specification 3/4.1.3.3) 2.2.1 All rods shall be dropped from 228 steps.

2.3 Shutdown Rod Insertion Limit (Specification 3/4.1.3.4) 2.3.1 The shutdown rods shall be withdrawn to 228 steps.

2.4 Control Rod Insertion Limits (Specification 3/4.1.3.5, and 3/4.1.3.1) 2.4.1 The control banks shall be limited in physical insertion as shown in Figure 2.

2.4.2 Successive Control Banks shall overlap by 100 steps. The sequence for Control Bank withdrawal shall be Control Bank A, Control Bank B, Control Bank C, and Control Bank D.

2.5 Axial Flux Difference (Specification 3/4.2.1) 2.5.1 The Allowable Operation Limits are provided in Figure 3.

2.5.2 The AXIAL FLUX DIFFERENCE (AFD) target band during base load operations is +3%, -3% for core average burnup < 0.0 MWD/MTU.

2.5.3 The AFD target band is +5%, -5% for core average accumulated burnup ) 0.0 MWD/MTU Page 3 of 10

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COLR for Donald C. Cook Nuclear Plant Unit 1 Cycle ll 2.5 Heat Flux Hot Channel Factor - F (Z) (Specifications 3.2.2 and 3.2.6)

CFQ F (Z)< ---

K(Z) for P > 0.5 Q

P F (Z)< 2

CFQ

K(Z) for P < 0.5 THERMAL POWER where: P RATED THERMAL POWER 2.5.1 CFQ- 2.15 2.5.2 K(Z) is provided in Figure 4 F (Z)*V(Z)*Fp Q

where APL is allowable power level Fp is provided in Technical Specification 3.2.6 2.5.3 V(Z) is provided in Table 1 Page 4 of 10

COLR for Donald C. Cook Nuclear Plant Unit 1 Cycle ll 2.6 Nuclear Enthal Hot Channel Factor - F (Specification 3/4.2.3)

F < CFDH * (1 + PFDH * (1-P))

THERMAL POWER where: P RATED THERMAL POWER 2.6.1 CFDH 1.49 2.6.2 PFDH 0.3 Page 5 of 10

Moderator Temperature Coefficient (MTC)

MTC x 10 hk/k/deg.F 1.00 Unac eptabl Oper tion 0.50 0.00 P H A

0 I

-0.50 1.00 Acc ptable Opera on

-1.50

-2.QQ

-2.50 3.00 0 10 20 30 40 50 60 70 80 90 100 PERCENT RATED THERMAL POSER

~ ~ ~

(FULLY WITHOAAWH)

(0-66 228) 228 ~ ~

~ ~ ~ o

~ ~

200 ~ ~

I

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BANK C'. 1.0 1 82):-.

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~ ~ ~

0 160 ~ ~ at ~

0

~ ~ ~

L (0,128) 100,

~ ~ ~

BANK D Q

0 60 .

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0.0 0.2 0.4 o.e 0.8 1.0 (FULLY INSERTKO) FRACTlON 'OF RATED THERMAL POWER FIGURE 2 ROD INSERTION LIMITS VERSUS TEKRHAL POWER 4 LOOP OPERATION Page 7 of 10

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100 90

-ll 98 II 98 80 UNACCEPTABLE UNACCEPTABLE

. OPERATION . OPERATION 70 CL ACC EPTABLE OPE.. QT ION 60 Q

50 Ki 58 40 CL 30 CO M

20 10 0

-50 -40 -30 -20 -10 0 10 20 30 40 50 FLUX DIFFERENCE (hl),

FlGURE 3 AXIAL FLUX DIFFERENCE LIMITS AS A FUNCTION OF RATED THERMAL POWER Page 8 of 10

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(12 ~ Ot 0 ~ 925) 10 12 am vaen (vr)

FXGURE 4 K(Z) - NORMALIZED Fg(Z) AS A FUNCTION OF CORE HEIGHT POR WESTINGHOUSE FUEL Page 9 of 10

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TABLE 1 O. C. COOING UNIT 1 CYCLE 1 1 y( Z ) FUNCT?ON SURNUP RANGES (MVO/MTU)

MESM AXIAL 0 150 1000 2000 4000 6000 $ 000 10000 12000 NO. HEIGHT 150 1000 2000 4000 6000 $ 000 10000 12000 EOL a && 'R &&

1. 0 00 F 1 0000 1. 0000 1.0000 1 . 0000 F 0000 1.0000 1.0000 1.0000 1.0000 2 0.20 1 ~ 0000 1. 0000 1.0000 1.0000 1 ~ 0000 1.0000 1 0000 1.0000 1.0000 3

~

~ 0 40

~ 1 .0000 1. 0000 1.0000 1.0000 1.0000 1 . 0000 1 . 0000 1.0000 t.0000 0.$ 0 1. 0000 1. 0000 1.0000 1; 0000 1.0000 1 . 0000 1.0000 1.0000 1.0000 5 ~ 0 80

~ 1.0000 1.0000 F 0000 1.0000 F 0000 1 F 0000 1.0000 1.0000 1.0000

6. 1.00 1.0000 1 . 0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1. 0000

7. 1.20 1.0798 1. 0798 1.0TQB 1.08 13 1. 0845 1 '892 1.0957 1. 1039 1. 1137

8. 1.40 1.0774 1. 0776 1.0780 1. 0800 1.0833 1 F 0880 '942 1 1.1O18 1 1 107~

9. 1.60 1.0750 1. 0754 1.0762 1.0785 1. 0819 1 '865 1.0922 1.0991 1. 1070

10. 1.80 1. 0724 1. 0730 1.0741 1.0767 1. 0802 1.0845 1.0897 1.01Sd 1 1028 ~

11. 2.00 1.0711 1. 0718 1.072$ 1.0752 i.0784 1,0822 1.0867 1.0120 1. 0971

12. 2.20 1.0707 1. 0712 1.0720 1.0739 . 0764 1 1.0795 1.0833 1.0876 1.092S

13. 2.40 1. 0700 1. 0703 1 . 070$ 1. 0723 1 . 0741 1 '785 1.0794 1.0827 t.odee

14. 2.60 1.0691 1. 0693 1.0695 1.0704 1. 0716 1 ~ 0731 1.0751 1.0775 1.0803 15 ~ 2.80 1.0681 1. 0681 1.0680 1 . 0682 1.0687 1.0695 1.0706 1.0720 1.0737

16. 3.00 1.0667 1. 0667 1 ~ 0665 1 . 0665 1.0659 1.0656 1.0655 1.0$ 5T 1.0661

17. 3.20 1.0655 1 . 0655 1.0650 1.0648 1.0634 1,062$ 1.0620 1.0817 1 ~ 0817

18. 3.40 1.0651 1.0651 1.0639 1.0630 'i . 0611 1 ~ 0602 1 ~ 06 10 1.0$ 2$ 1.0652

19. 3.60 1'. 0653 1.0653 1 . 0635 1.0620 1. 0602 1. 0804 1.0632 1. 0877 1. 0739 20 3.80 1.0652 1.0652 1 0634 1.0618 1 06 14

~ ~ 1.0628 1.0674 1.0740 1. 0827 4.00 1. 0649 1. 064Q 1.0633 1.0619 1.0635 1.0657 1.0717 1.0802 1.0910

'0

'1.

22. 4 t.0645 1. 0645 1.0621 1.0617 1. 0656 1 ~ 0681 1.0757 1.0$ $ 1 1. 0990

23. 4.40 1. 0640 1. 0640 1.0625 1.0617 1.0675 1.070S 1.0795 1.091$ 1. 1065

24. 4.60 1 ~ 0633 1. 0633 1.0621 1.0620 1.0693 1 '726 1.0830 t.oQee 1. 1 t33.

25. 4.80 1.0623 1. 0623 1.0622 1.0622 1. 0708 1.0745 1.0860 1. 1010 1. 1194

26. 5.00 1.0612 1. 0621 1.0621, 1.0622 1.0720 1.0760 1.0886 1. 104$ 1. 1246

27. 5.20 1.0603 1 . 06 8. '1 1 . 0618 1.0618 1. 0729 1 ~ 0771 1 ~ 0906 1. 1079 1. 1281

28. 5.40 1. 0597 1. 0612 1.0612 1.0613 1. 0733 1.0777 1.0920 1. 1101 1.

5.60 1320'.

29. 1. 0588 1.0604 1.0604 1.0617 1.0733 1.0779 1.0926 1. 1114 1341

30. 5.80 1. 0576 1. 0593 1.0593 1.0619 1.0729 1.0775 1.0926 1. 1117 1, 1349

31. 6.00 1. 0561 1. 0581 1.0581 1.0616 1.0719 1.0765 1.0918 1. 1 111 1. 1344

32. 6.20 1.0543 1. 0565 1.0565 1.0608 1 ~ 0703 1 . 0749 1. 0902 1. 1094 1. 1327

33. 6.40 1. 0521 1.0544 1.0544 1.0596 1.0681 1.0727 1.0877 1. 106$ 1 1215

1. 0495 t. O519

~

34. 6.60 1 . 0519 1.0579 .0653 1 1.0697 1.0843 1. 1027 1 1248

~

35. 6.80 1.0465 1. 0491 1.0491 1.0552 1.0614 1.0657 1.0800 1.0982 1. 1202

36. 7.00 1. 0430 1. 0450 1. 0460 1.0537 1. 0590 '1.0626 1.0768 1.0947 1. 1164

37. 7.20 1.0395 1. 0425 1.0462 1.0535 1 ~ 0578 1.0605 1.0743 1.0915 1. 1121

38. 7.40 1. 0377 1.0441 1.0468 1.0526 1.0555 1.0575 1.0706 1.086Q 1. 1064

39. 7.60 1. 0392 1. 0460 1.0469 1.0511 1.0525 1.0537 1.0656 1.0doQ '1

. 0994

40. 7.80 1. 0402 1 . 0475 1.'0475 1.0491 1. 0491 1.0508 1.0612 1.0746 1. 091 1 41, 8.00 1 . 0421 1. 0487 1.0487 1.0463 1.0463 1.0512 1.0592 1.0695 1.0821 42.

43, 8.20 8.40

1. 0460 1 . 0493 1.0509 1. 0512 1.0493 1.0474 1. 0497 1.0532 1.0579 1.0638 1 '708 1 . OS15 1.0525 1 . 0536 1.0549 1.0564 1 . 0581 1. 0600

44. 8.60 1.0556 1.0563 1.0570 1.0583 1.0593 1.0600 1.0604 '.. 0606 1.0606

45. 8.80 1.0602 1. 0610 1 . 0619 1.0634 1.0646 1.0654 1.0658 1.0659 1. 0659

46. 9.00 1. 0648 1. 0656 1.0665 1.0680 1.0693 1.0702 1.0709 1 . 0712 1 . 0712

47. 9.20 1. 0692 1. 0701 1 .0710 1.0726 1.0739 1.0750 1.0757 1 . 0761 1 . 0763

48. 1.40 1. 0735 1. 0744 1 . 0753 1 . 0770 1. 0784 1.0795 1.0804 1 . 0810 1 . 0813 49 9.60 1. 0777 1. 0784 1 ~ 0793 1.0809 1.0824 1. 0838 1. 085 1 1.0862 1. 0873

'0.

S.BO 1 ~ 0816 1.0822 1.0829 1.0844 1.0859 1.0876 1.0893 1 . 0911 1. 0929

51. 10 0 ~ 1 0853

~ 1. 0858 1.0864 1.0879 1.0895 1.0914 1.0934 1.0956 1.0979

52. 10.2 1. 0886 1. 0892 1.089Q 1.0915 1 ~ 0933 1.0953 1.0975 1.0999 1. 1025

53. 10.4 1. 09 17 1.0923 1. 0931 1.0948 1 ~ 0967 1.0988 1. 1012 1. 1037 1 1064 ~

54. 10.6 1 .0943 1.OSSO 1.0959 t.0977 1.0997 1. 1019 1. 1043 1 . 1068 1, 1096

55. 10.8 1. 0965 1. 0972 1. 0981 1 . 1000 1 ~ 1021 1. 1044 1. 1069 1 . 1096 1. 1125

56. 11.0 1.0000 1. 0000 1.0000 1. 0000 1.0000 F 0000 1 0000 1.0000 1. 0000 F

57. 11.2 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000

58. 11.4 1.0000 1. 0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000

59. 11.6 1 ~ 0000 1.0000 1.0000 1.0000 . 0000 1.0000 1.0000 1 1.0000 F 0000

60. 11.8 1. 0000 1.0000 1.0000 1. 0000 F 0000 1.0000 1.0000 1 . 0000 1.0000

61. 12.0 1 . 0000 1. OOOO 1.0000 1.0000 . 0000 1.0000 1.0000 1 1.0000 1.0000 Top and bottom 10 . of cor ~ are excluded a! per Technical Specif icatione.

Page 10 Oc 10

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