ML19325C908
| ML19325C908 | |
| Person / Time | |
|---|---|
| Site: | Quad Cities  |
| Issue date: | 10/11/1989 |
| From: | COMMONWEALTH EDISON CO. |
| To: | |
| Shared Package | |
| ML19325C898 | List: |
| References | |
| NUDOCS 8910180083 | |
| Download: ML19325C908 (19) | |
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.. s Core Operating: Limits Report a
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A@i.qpiCere.Operdting;Limito Report
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j TABLE OF CONTENTS 1
Page 1
3 iii i
. REFERENCES......................................................
l 1
s iv; : i
' LIST OF FIGURES.................................................
4 f
- 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
-1.
2 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..
'3 L 3.2:
' Description-4.0 MINIMUM CRITICAL POWER RATIO (3.5/4.5) 4-1 o
4.1 Technical Specification Reference.................
4-1=
4.2' Description..............................~.........
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P r
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
~
Company. Docket No.-l50-254, Quad Cities Station, Unit 1= Facility. '
m Operating License, License No. DRP-29.
.j
'l 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 5._
General, Electric Standard Application for Reactor Fuel (GESTAR)'~,- 1 NEDE-24011-P-A-9, September 1988 (as amended).
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- '*(Chro',0perttingl Limits Repcet.
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s FIGURE' TITLE / DESCRIPTION
.PAGE' _j 1
2-1.
Maximum Average Planar Linear Heat Generation Rate' 2-2;:1 (MhPLEGR)- vs. Average Planar-Exposure = for Fuel Type i
1 P8DRB265L.
i 2-2 Maximum Average Planar Linear Heat Generation-Rate 2-3
.(MhPLEGR) vs. Average Planar Exposure for Fuel Types P8DRB265H.and BP8DRB265H.-
2-3 Maximum Average Planar Linear Heat Generation Rate 2-4
[
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(MhPLHGR): vs. Average Planar Exposure for Fuel Type BP8DRB282.
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'L 2-4 Maximum Average Planar Linear. Heat Generation Rate 2-5 (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:
l.
' Quad. Cities - Unit 1 iv Cycle 1
pv LT, " ' Core'. Operating Limito : Report -
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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**
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'**: 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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<n 72.0L ' AVERAGE' PIANAR LINEAR HEAT ' GENERATION RATE
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g, _s (APLNGR) (3.5/4.5)-
1 h-4 2 i 15 T
suuICAL' SPECIFICATION
REFERENCE:
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Technical 1 Specification-3.5.I J
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- 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
determined;from Figure 2-1.
g 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-determined.from Figure 2-4.
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The' Maximum Average. Planar Linear Heat Generation Rates (MhPLHGI.:
versus Average Planar Exposure for fuelotype.BP8DRB299 is 1
0 determined from Figure 2-5.
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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.
.The Maximum Average Planar Linear Heat Generation Rates (MAPLHG1-m 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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' Quad Cities - Unit 1 2-1 Cycle 1:
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Maximus Avsage Plans Lines Heat Gewation Rate (MAPLHGR)g I?
vs:Aveage PinarExposwe fa Fuel Type P80RB265L g
n E
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= 10.50 l
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0 5000 10000 15000 20000 25000 M
M M
Average Planar Exposure {Nd/Sf; j
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m Marinum Average Plaar lhear Heat Geeration Rate (MAPulGR)g A
>g vs Average Planar Exposse for Fuel Types P80RB26511 ad BP8DB265H g
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l 8.50 0
5000 10000 15000 20000 25000 J0000 35000 40000 45000 Average Planar Exposure {Wd/ST;I 1
Figue 2-2 J
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l[f-Maximum Average Planar Linear Heat Generation Rate (MAPLHGR)
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e vs Average Planar Exposure for Fuel Type BP8DRB283Hj
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O 5000 10000 15000 20000 25000 30000 35000 40000 45000 Average Planar Exposure (WWd/ST' i
- o l1 Figre 2-4
- 4 Maximum Average Planar Linear Heat Generation Rate (MAPLHGR) g I
vs Average Planar Exposure for Fuel Type BP80RB299 g
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0 5000 10000 15000 20000 2'iOOD M
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N Average Planar Exposure (Nd/ST i
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Figwe 2-5 1
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Haximum Average Planar Linear Heat Generation Rate (MAPLHGR) g
'E vs Average Planar Exposure for Fuel Type BD300A i
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13 2 13.00-
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Average Planar Exposure '<WWd/Sf; 1
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lg Maximan Average Planar Linear Heat Generation Rate (MAPLHGR) e ls vs Average Planar Exposure for Fuel Type BD3008 i
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13.50 I
13.00
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9.00 as 8.00 0
5000 10000 15000 m
25mo 3aos 3s000 aooo Average Planar Exposure {Nd/ST
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Figwe 2-7 a
lr llaximum Average Planar Linear Heat Generation Rate (ilAPLHGR) g
- j vs Average Planar Exposure for Fuel Type BD301H
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N 13.00
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l 12.50
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d 9.00 5
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i 6.00 0
5000 10000 15000 20000 2500C 30000 35000 40000 45000 50000 Average ?lanar Exposure iWd/ST) g I
Figwe 2-8
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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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9.50 N
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9.00 l
= a50 x
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= 7.00
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6.50
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m a
im m
m m
m a
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Average Plancr Exposure {Nd/ST[
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Figwe 2-9 i
' 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
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
e 1.
BD300A 2.
BD3003 i
3.-
BD301H I
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Quad Cities - Unit 1 3-1 Cycle 12-
... a.a..
Cere Oper; ting Limits Report c,
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4.0-
'kiW1WUli CRITICAL POWER RATIO (MCPR)- (3.5/4.5) l 4
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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.CareOperatira Limits bort-a j
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