Core Operating Limits Rept for Quad Cities Nuclear Power Station Unit 1,Reload 10 (Cycle 11).

ML19325C908
Person / Time
Site:	Quad Cities
Issue date:	10/11/1989
From:	COMMONWEALTH EDISON CO.
To:
Shared Package
ML19325C898	List: ML19325C897 ML19325C908
References
NUDOCS 8910180083
Download: ML19325C908 (19)
v • d • e

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ISSUANCE'OF CHANGES ~SUROUGtY -

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' ,l TABLE OF CONTENTS 1 Page 1 3 ,

. REFERENCES ......................................................

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' LIST OF FIGURES .................................................

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, 1. 0 ' CONTROL ROD WITHDRAWAL BLOCK INSTRUMENTATION (3.2/4.2) .... 1-1 -

1.1 Technical. Specification Reforence ................. 1-1 q 1.2- Description ....................................... ._1-1 ,

2.0 AVERAGE PLANAR LINEAR HEAT GENERATION RATE (3.5/4.5) ..... 2-1 ,

9 2 -1.

2.1 L -Technical Specification Reference .................

2.2 -Description ....................................... 2-1

.3.0  : LINEAR HEAT. GENERATION RATE -(3.5/4.5) .................. 3-1 3 '.1 -  : Technical Specification Reference .................c 3 - 1..

L 3.2: ' Description- ...................................... '3 o 4.0 MINIMUM CRITICAL POWER RATIO (3.5/4.5) ................. 4-1 4.1 Technical Specification Reference ................. 4-1=

4.2' Description ..............................~......... 4 l4 i ..

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n Quad Cities - Unit 1 11 Cycle 1 ,

3, a Core l:Oper; ting l Limits; Report--

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REFERENCES

1. Commonwealth 1 Edison Company and, Iowa-Illinois Gas and Electric ~

m Company. Docket No.-l50-254, Quad Cities Station, Unit 1= Facility. '

Operating License, License No. DRP-29. .j

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2. Letter from D. M. Crutchfield to All Power Reactor-Licenses and l Applicants, Generic. Letter 88-16; Concerning the Removal:of i Cycle-Specific Parameter-Limits from Technical Specifications.- <

g .3. Supplemental Reload License Submittal.for Quad Cities Nuclear Power Station, Unit 1, Reload 10 (Cycle 11) , 23A5970, ~ Rev. 0, May 1989.  ;

'4. Quad Cities Nuclear Power Station,. Units 1 and 2, SAFER /GESTR >

LOCA Loss-of-Coolant-Accident Analysis, NEDC-31345P, June 1987

-(as amended). i 1

5._ General, Electric Standard Application for Reactor Fuel (GESTAR)'~,- 1 NEDE-24011-P-A-9, September 1988 (as amended). i J

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FIGURE' TITLE / DESCRIPTION .PAGE' _j 1

2-1. '

Maximum Average Planar Linear Heat Generation Rate' 2-2;:1 1

(MhPLEGR)- vs. Average Planar- Exposure = for Fuel Type i

P8DRB265L.

i 2-2 Maximum Average Planar Linear Heat Generation-Rate 2-3

.(MhPLEGR) vs. Average Planar Exposure for Fuel Types P8DRB265H.and BP8DRB265H.-  :

Maximum Average Planar Linear Heat Generation Rate 2-4

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2-3 [

(MhPLHGR): vs. Average Planar Exposure for Fuel Type BP8DRB282.

l . I 2-4 Maximum Average Planar Linear. Heat Generation Rate 2-5 'L (MhPLHGR) vs. Average Planar Exposure for Fuel Type BP8DRB283H.

2-5 Maximum-Average Planar Linear Heat Generation Rate 2-6 [

(MkPLHGR) vs.' Avorage Planar Exposure for Fuel . Type BP8DRB299.  ;

.2-6 Maximum Average Planar Linear Heat Generation Rate 2-7 3 (MhPLHGR) vs. Average Planar. Exposure for Fuel Type ,

BD300A. t t

2-7 Maximum Average Planar Linear Heat Generation Rate 2-8 (MhPLNGR)' vs. Average Planar Exposure for Fuel Type ,

BD3008. -l 2 Maximum Average Planar Linear Heat Generation Rate 2-9~

(MAPLHGR) vs. Average Planar-Exposure for Fuel Type-BD30lH.

2-9 Maximum Average Planar Linear Heat Generation Rate 2-10 (MhPLEGR) vs. Average Planar Exposure for Fuel Type l Barrier LTA.

4-1 Kf Factor vs. Core Flow %. 4-2 1: .

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N 1.0 CONTROL ROD WITEDRANAL' BLOCK INSTSUMENTATION - (3;2/4.2) j.'  :

. 1.1- TECHN! CAL-SPECIFICATION:

REFERENCE:

-l Technical Specification Table 3.2-3'and=3.6.H: ,

1.2 DESCRIPTION

The-Rod Withdraw 11 Block Monitor Upscale Instrumentation Trip-  !

Setpoint=for two_ recirculation.' loop-operation is determined from p the following relationships

< (0. 65)Md + 434** l

'**: Clamped, with an allowable value not to exceed the allowable'value?.;3

- for recirculation loop flow -(Wd) of 1004..

Md'ik the percent of drive flow required to-produce a rate'd core:

flow.of 98 million-lb/hr. Trip. level setting'is in percent of: ,

rated: power (2511: MNth) . . '!'

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g, _s 72.0L ' AVERAGE' PIANAR LINEAR HEAT ' GENERATION RATE

- (APLNGR) (3.5/4.5)- .;

1 2 i 15 Tm suuICAL' SPECIFICATION

REFERENCE:

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J M '(> Technical 1 Specification-3.5.I J l

7 , - 2 .' 2 - -DESCRIPTION:  ;

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. The; Maximum Average Planar Linear Heat Generation Rates' .(MhPLHGF jI y ,

, <versus Average Planar-Exposure for fuel type PBDRB265L is 1 g determined;from Figure 2-1. ,

The, Maximum Average Planar- Linear Heat Generation Rates. (MAPLHGF '

, iversus? Average Planar Exposure)for fuel-types:P8DRB265H and 1 BP8DRB265H are determined from Figure 2-2. '!

y The. Maximum Average Planar, Linear Heat Generation Rates (MhPLEGT c l f

versus Average Planar Exposure for fuel type BP8DRB282 is j determined from Figure 2-3.  ;

1 S -The: Maximum; Average Planar Linear Heat Generation Rates (MAPLHGT 7l '

versus Average Planar' Exposure.for fuel type BP8DRB283H is-

u. determined.from Figure 2-4.

i L' The' Maximum Average. Planar Linear Heat Generation Rates (MhPLHGI .:

versus Average Planar Exposure for fuelotype.BP8DRB299 is 1 0 ~

determined from Figure 2-5. j i

The Maximum Average Planar Linear. Heat Generation 1 Rates (MAPLHG1]

versus Average, Planar ExposureJfor fuel type BD300A'is determint =

L from: Figure 2-6. ,

The Maximum Average Planar Linear Heat Generation-Rates (MkPLHGI l -

versus Average. Planar Exposure'for fuel' type BD3008 is' determine ' '

'from' Figure 2-7.

m .The Maximum Average Planar Linear Heat Generation Rates (MAPLHG1-versus Average Planar Exposure for fuel type BD301H is'determint i from Figure 2-8. ]

The Maxista Average Planar Linear-Heat Generation Rates (MAPLHG1. t, versus. Average Planar Exposure for fuel type Barrier LTA is determined ~from Figure 2-9.

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L Maximus Avsage Plans Lines Heat Gewation Rate (MAPLHGR) g if I? vs:Aveage PinarExposwe fa Fuel Type P80RB265L g n E Jr ._

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>g Marinum Average Plaar lhear Heat Geeration Rate (MAPulGR) g La vs Average Planar Exposse for Fuel Types P80RB26511 ad BP8DB265 g- n-

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0 5000 10000 15000 Average Planar Exposure {Wd/ST;I 1 Figue 2-2

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vs Average Planar Exposure for Fuel Type BP8DRB283H j ~

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Average Planar Exposure (WWd/ST' o  ;

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Average Planar Exposure (Nd/ST e i

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I Haximum Average Planar Linear Heat Generation Rate (MAPLHGR) g .

'E vs Average Planar Exposure for Fuel Type BD300A if i

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Average Planar Exposure {Nd/ST

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lr llaximum Average Planar Linear Heat Generation Rate (ilAPLHGR) g '

j vs Average Planar Exposure for Fuel Type BD301H {

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Average ?lanar Exposure iWd/ST) '

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Maximum Average Planar Linear Heat Generation Rate (MAPLHG g .

I vs Average Planar Exposure for Fuel Type Barrier LTA y

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Average Plancr Exposure {Nd/ST[

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' g;lCoge Oper; ting Limits Report q.o.;- v. , _ , t-  ;

i 3.0- LI"_*" MEh? GENEPATION RATE (LnGR) (3.5/4.5) ,

j 3.1 TBCENICAL #FSCIFICATION

REFERENCE:

i g Technical Specification 3.5.J

3.2 DESCRIPTION

i I

a. The LEGR limit is 13.4 kw/ft for fuel types: ]

1.: PSDRB265L ];

• 2. PSDRB2655

3. BF80RB265R )

4. SFSDRB283R  :

5.- BFSDRB282- -!

-> 6.- BFSDRB299 l

7. Barrier LTA  !

I b '. The LEGR limit-is 14.4 kw/ft for fuel ~typest i

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1. BD300A  ;

2. BD3003 '

i 3.- BD301H  !

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Quad Cities - Unit 1 3-1 Cycle 12-

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c, Cere Oper; ting Limits Report

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!" 4.0- 'kiW1WUli CRITICAL POWER RATIO (MCPR)- (3.5/4.5) l 4.1 TBCNNICAL SPECIFICATION

REFERENCE:

l

.l Technical _ Specification 3.5.K and 3.6.H  ;

i

4.2 DESCRIPTION

During steady-state operation at rated core flow, NCFR shall be !

greater.than or equals l 1.30- for tave < 0.68 sec. ,

1.35 for tave > 0.86 sec. ,

(0.278)tave + 1.111 for 0.58 sec. < tave-< 0.86 see.. l ,

where tave = mean 20% scram insertion time for all surveillance I' data from Tech. Spec. 4.3.C which has been generatt in the current cycle. j For core flows other than rated, these nominal values of HCFR shall be increased by a factor of Kf where Kf is as shown in t Figure 4-1.  ;

When operating with a Feedwater Heater Out-of-Service, the  !

Operating MCPR Limit shall be increased by 0.02.  ;

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