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| number = ML20066F400 | | number = ML20066F400 | ||
| issue date = 01/21/1991 | | issue date = 01/21/1991 | ||
| title = Core Operating Limits Rept for Quad-Cities Unit 1 Cycle 12 | | title = Core Operating Limits Rept for Quad-Cities Unit 1 Cycle 12 | ||
| author name = | | author name = | ||
| author affiliation = COMMONWEALTH EDISON CO. | | author affiliation = COMMONWEALTH EDISON CO. | ||
Line 17: | Line 17: | ||
=Text= | =Text= | ||
{{#Wiki_filter:}} | {{#Wiki_filter:_ _ _ . .. .. - | ||
.t". | |||
p . | |||
1 1 | |||
as | |||
-l t | |||
' ATTACHMENT - _ | |||
l CORE OPERATI$G LIMIiS REPORT FOR: | |||
QUAD CITIES UNIT 1 CYCLE 12; ei is t | |||
19101230298 910121 % | |||
PDR ADOCK 05000254 h' P PDR | |||
~ | |||
wwss2tsa . . | |||
1 CorG Operatirq Limits Report for Quad Cities IAlclear Power Station | |||
. Unit 1, Reload 11 (Cycle 12) l I | |||
l I | |||
l | |||
l :... ** Core Operating Limits' Report-- | |||
- .t i | |||
ISSUANT OF QiANGES..SuttBRY , | |||
Affected Affected ' | |||
Section Paoes ~ Simvv of Charnes D!1te ' ; | |||
t All All Oriainal Imm_= (Cvels 11)- '06/89s , | |||
i All All Orialnal Tn= = (Cvele'12) -10/90' -i | |||
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Quad Cities - Unit-1 i Cycle:12 a | |||
s r- 1,-yv , | |||
* w-, , | |||
.... core operating Limits ' Report j i | |||
i TABIE OF COMU7FS i BL99 REIERENCES ...................................................... iii LIST OF FIGURES - . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -'. . . '. . . . iv' 1.0 CINTROL ROD WITHWAl&L BIDCK INS'IRUMDfTATION (3.2/4.2) . . . 1-1 1.1 Technical Specification Reference-................. 1-1 1.2 h iption .... .................................. . f1-1 1 2.0 AVERAGE PINIAR LINEAR HEAT GENERATION RATE (3.5/4.5); . . . . . .2-1 ' | |||
2.1 Technical Specification Reference ................. 2 2.2 Description .................................'......' 2-1 3.0 LINEAR HEAT GENERATION RATE (3.5/4.5) .................. 3-1 3.1 Technical Specification Reference-................. 3 3.2 Description _...................................... 3 . | |||
4.0 MININUM CRITICAL 10WER RATIO (3.5/4.5) . . . . . . . . . . . . . . . . . -. 4-1 4.1 '1%chnical Specification Refelwice . . . . . . . . . . . . . . . . . 1 4.2 Description ................................'.......j 4-1 a | |||
1 J | |||
Quad Cities - Unit 1 ii . Cycle 12 | |||
' Core Operating Limits Report-BEEERENCES | |||
: 1. Ctunonwealth Edison Ccmpany and Iowa-Illinois Gas and Electric Docket No. 50-254, Quad Cities Station, Unit 1 Facility Opera License, License No. IRP-29. | |||
: 2. Istter fIun D. M. Crutchfield to All Power Reactor Licenses an:1 Applicants, Generic letter 88-16; Concerning the Removal of | |||
. Cycle-Specific Parameter Limits- frun 2 Weal Specifications. | |||
3.- Supplemental Reload License Sulnittal for Q.md Cities Nuclear Power Station,: Unit ~1, Reload 11- (Cycle 12), 23A5989,. Ew. 0,- | |||
Class I, August 1990.. | |||
: 4. Quad Cities Nuclear Power Station, Units 1 arxi 2, SAFER /GESTR-IOCA Ioss-of-Coolant-Accident Analysis,- NEDC-31345P, June 1987, (as amended). | |||
: 5. General Electric Standard Application for Reactor Fuel (CESTAR), | |||
NEDE-24011-P-A-9, ' September 1988 (as _ amended) . | |||
: 6. Dctended Operating Dcznain and Equipnent Out-of-Service (EOD/ECOS)- ? | |||
for Quad Cities Nuclear Power Station, ' Units l'and I, H. X. Hoang, NEDC-31449, Class II, July 1987. | |||
-t j- 'i Quad Cities - Unit 1- lii Cycle 12 | |||
l 11 | |||
.i - | |||
' Core Operatify Limits Report y | |||
IIST OF FIGUPES. ! | |||
l PIGURE TITIE/DESCRIPTIN EMiE 2 Marl == Average Plarar Linear Heat Generation Rate - 2 (MAPU1GR) vs. Average Planar ExporJre for Fuel- Types PBIRB265H and-BP8IRB265H. 1 2-2_ Maxinum Average Planar Linear Heat Generation Rate 2-3 1 (MAPUtarl) vs. ' Average Planar Exposure for Fuel Type ; | |||
DFBIRB282. | |||
1 2-3 Mav4= = Average Planar Linear Heat Generation Rate 2-4I < | |||
(MAPUlGR) vs. Average Planar Exposure for Fuel' Type ~.i BPBIRB283H. | |||
2-4 Mi== Average Planar Linear Heat Generation Rate- 2 (MAPU1GR). vs.- Average Planar Exposure for Riel Type BPBIRB299. | |||
2-5 - M4== Average Planar Linear Heat Generation Rate 6-(MAPDER)-' vs. Average Planar Wn for Riel Type BD300A.' | |||
2-6 Maximun-Average Planar Linear Heat: Generation Rate '2 (MAPINGR) vs. Average Planar Exposure for' Fuel Type BD300B.' | |||
2-7 Mav4== Average Planar Linear Heat Generation Rate 2-8i Ji | |||
- (MAPU1GR)' vs. Average Planar Exposure for:Ebel Type BD301H.~ | |||
2-8 M4==. Average Planar Linear Heat Generation Rate 2-9 ' | |||
I (MAPDER) vs. Average Planar E-2re for Ebel Type Barrier LTA. | |||
2-9 Maxinun Average Planar Linear Heat Generation Rate 2-10' (MAPDER) vs. Average Planar Exposure for Fuel: Type GE9B-P8tMB258-9GZ-80M-145-T.- , | |||
2-10' Maxinum Averaoe Planar Linear Heat Generation Rate' 2-11 | |||
_-(MAPUER)' vsC Average Planar Exposure for: Fuel Type GE9B-P8mB258-4G4 ~. 0/3GL 0-80M-145+T. | |||
4-1 Kf Factor vs. Core Flow %. :4-2 Quad Cities - Unit 1 iv Cycle 12; , | |||
---,.s- m- - ---.', -- | |||
, 1 | |||
'' Core Operatirr LimiliReport- | |||
+ | |||
1.0 MOL ROD WI'IfD3 ANAL BIDCK DETRUMENTATICN (3.2/4.2) | |||
: 1. 't ' MCAL dit,unCATION Kt.ru<rriCE: - | |||
-'Ibrianical Specification Table 3.2-3 arrl 3.6.H | |||
-a | |||
===1.2 DESCRIPITON=== | |||
'Ihe Rod Withdrawl Block Monitor Upscale Instrumentation Trip | |||
-i Setpoint for two recirullation loop operation is determined from . ! | |||
the following relationship: ~~ | |||
L (0.65)Wd + 43%** | |||
** Clanped, with an allowable value not to exceed the allowable value . - | |||
for recirculation loop flow (Wd) 'of 100%. ! | |||
3 Wd is the per a nt of drive flow required to produce ~a rated core 4 flew of 98 million-lb/hr. -- Trip level setting is in-percent of rated power -(2511- NWth) .- | |||
' ~ | |||
l-i 4 | |||
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Quad Cities - Unit 1- 1-1 Cycle.12 | |||
_ - . ._ . . _ . . _ _ _ . . _ . _ . _ _. . . . --,___m.___. . . | |||
o | |||
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g i ... , | |||
* Core Operating Limits Report j | |||
:s | |||
,x it 2.0 &ZBgy: PLANAR LTNEAR HEAT GENERATION RATE (APDER)"(3.5/4.5) | |||
'2.1 TEWNICAL SPECIFICATIGi | |||
==REFERENCE:== | |||
.: , ;\ | |||
Technical 4 Specification 3.'5.I: . | |||
===2.2 IESCRIPI'ICH=== | |||
i | |||
,a. | |||
'Ihn Mav4== Average Planar Linear Heat;-Generation' Rates (MAPINGR)- ;, | |||
versus Average Planar rwann for;fueld:ypea P8tRB265H andi a BP8[RB265H are determined frtan Figurai2-1. , | |||
q | |||
, Ihe Mari== Average Planar Linear Heat Generation Rates (MAPIH:iRN N versus Average Planar 5'wann for fuelEtype BP8tRB282.is t 1 determined fr a Figure 2-2i g. | |||
'Ihe Maxizen Average Planar Linear Heat! Generation Rates 1(MAPulGR):. ;; | |||
versus Average Planar Exposure-;for fuel;. type BP8tRB283HLis | |||
~ | |||
determinmi fr m FigureL2-3.' ; | |||
'[he Mav4== Averagi Planar Linear Heat Generatim Rates (MAPDIGR)) d versus Average Planar fwann 'for fuel' type BP8tRB299'.is; determined'fr a-. Figure 2-4. | |||
1 | |||
'Ihe Mav4==l Average Planar Linear Heat' Generation Rates?(MAPIER) i versus Average Planar Exposure for fuelt. type BD300Aris determined .j frtan Figuru 2-5. .. | |||
'Iha May4==: Average Planar Linear Heat:Generatim Rates:(MAPIHGR): | |||
s "i versus Average Planar W M for;fuelttype BD300B;is determined fr m Figure 32-6.: i | |||
'd | |||
'Ibe Maximum Average Planar Linear Heat Generation Ratest(MAPulGR) 1 versus Avera | |||
:. frm Figure .ge 2-7 Planar 5'wann for .fuelutype'BD301H Lis determined | |||
'Ihe Mavi== Average Planar Linear Heat Generation RatesT(MAPIlt:iR) 3 versus' Average : Planar 5'wanmeifor,fuelltype Barrier LTA is- | |||
* l= determinedzfr m Figure 2-8.n ,. | |||
'Ihe Maximum Average' Planar Linear Heat Generation Rates (MAPINGR): | |||
versus Average Planar Exposure forl fuel type GE9B-PBEMB258-9GZ 4 8G4-145-T'is determined fr m Figure 2-9 9 -t | |||
:'Ihe Mavi==: Average Planar Linear Heat Generatlon: Rates =(MAPIHGR); ' | |||
versusl Average Planar 5'wann .fornfuel type GE9B-P8DWB258-4G4.0/3G3.0-80M-145-T :is determined fra Figure ~ 2-10. | |||
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. s. . Core Operating Limits Report-3 . 0 -- LINEAR HEAT GMERATION RATE (UlGR) (3. 5/4. 5) 3.1 TEQWICAL SPECIFICATION Rt.nau21CEt | |||
% chnical Specification;3.5.J. | |||
f 3.2- DES m fPTIONI- ; | |||
: a. Se UiGR limit is 13.4 kw/ft for fuel typest- [ | |||
l'.- . BP8IRB265He 2.. BPBIRB283H | |||
: 3. BP6IRB282 4 1 4. BPRIRB299 l 5. Barrier III'A'- q | |||
: b. .%e IMR limit is '14.4 kw/ft for; fue'l' types:; | |||
: 1. BD300A | |||
* 2.. BD300B , | |||
: 3. BD301H | |||
: 4. GE9B-PBDWB258-9GZ-80M-145-T | |||
: 5. GE9B-P6DNB25814G4.0/3G3.0-80M-145-T- ! | |||
i t | |||
i-7 V | |||
) | |||
.- i i | |||
f Y | |||
Quad cities - Unit 1 3-1 cycle 12 | |||
g | |||
* Core' Operating Limits Report! 4 | |||
-4.0- MINDiN CRITIGL POWER PATIO fMCPR) ~~ (3.5/4,5) ' | |||
i 4.1 TEGNIGL SPECIFIGTION Mr.nktNCE: ~ ! | |||
'Dachnical= Specification'3.5.K ard 3.6.H.' sr | |||
===4.2 DESGIITION=== | |||
-i | |||
:Durirg steady-state operation at rated core flow,' the MCPR limit-(OIMCPR)l shall be greater than or equal:- | |||
.1. 3 0 - for tave $l0.68 sec. | |||
.1.35 for tava 2 0.86'seci (0.278)tave + 1.111 [for 0.68 sec.;< tave <[OiB6=sec. . | |||
'l i where tave = mean 20% scram insertion time for.all surveillance i data fran 'Dsch. Spec. -4.3.C which has been' generated- | |||
-in the current cycle. | |||
~ | |||
Ibr core' flows :other than rated,' these ncminal values of MCPR ' | |||
shall- be incrmaari by aJfactor of Kf where Kf is as shown in y Lj Figure 4-1. | |||
When operating with a Feedwater Heater Out-of-Service l(FMOOS), . r-1 the Operatin " | |||
--information,g-Limit'MCPR;(OIMCPR)',: | |||
shall be'increaari by 0.02.calculated using< the above | |||
'Ihis event,1which-conservatively bounds the recpim.nts detailed within the-EDD/EDOS dm=*nt (Reference 6), goes beyond allloperatingE .. ' | |||
conditions which can be expected during normal eparation as' set . | |||
forth in the SRIS;(Reference 3).. | |||
1 l | |||
l i | |||
1 l + | |||
t L | |||
i Quad Cities - Unit 1' 4 . Cycle 12 | |||
D e | |||
g_ | |||
(1I FMTOR e s2 & | |||
F E A 1.50 K-2 | |||
!? | |||
_== | |||
1.40 5g s | |||
N N | |||
1.30 | |||
\ '\ - | |||
s AUTOMATIC FLOW CONTROL Kf CURVE | |||
\ N l's. | |||
N vx 9 .20 N s s ' | |||
t N ~. .- | |||
N N N 'u 1.10- N 's N N N N N | |||
1.00 HANilAL FLOW CONTROL Kf CURVE 0071 FLOWMAXJ x s 0.90 25 $0 35; 40 45 50 55 -60. ' 65 - 70 75 80 85 90 95 .100 Core Flow % | |||
# Figure 4-1 l,,-- , m- g - y- w 'me-vw m.> ,m-w-o}} |
Latest revision as of 13:20, 21 December 2020
ML20066F400 | |
Person / Time | |
---|---|
Site: | Quad Cities |
Issue date: | 01/21/1991 |
From: | COMMONWEALTH EDISON CO. |
To: | |
Shared Package | |
ML20066F397 | List: |
References | |
NUDOCS 9101230298 | |
Download: ML20066F400 (21) | |
Text
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' ATTACHMENT - _
l CORE OPERATI$G LIMIiS REPORT FOR:
QUAD CITIES UNIT 1 CYCLE 12; ei is t
19101230298 910121 %
~
wwss2tsa . .
1 CorG Operatirq Limits Report for Quad Cities IAlclear Power Station
. Unit 1, Reload 11 (Cycle 12) l I
l I
l
l :... ** Core Operating Limits' Report--
- .t i
ISSUANT OF QiANGES..SuttBRY ,
Affected Affected '
Section Paoes ~ Simvv of Charnes D!1te ' ;
t All All Oriainal Imm_= (Cvels 11)- '06/89s ,
i All All Orialnal Tn= = (Cvele'12) -10/90' -i
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s r- 1,-yv ,
- w-, ,
.... core operating Limits ' Report j i
i TABIE OF COMU7FS i BL99 REIERENCES ...................................................... iii LIST OF FIGURES - . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -'. . . '. . . . iv' 1.0 CINTROL ROD WITHWAl&L BIDCK INS'IRUMDfTATION (3.2/4.2) . . . 1-1 1.1 Technical Specification Reference-................. 1-1 1.2 h iption .... .................................. . f1-1 1 2.0 AVERAGE PINIAR LINEAR HEAT GENERATION RATE (3.5/4.5); . . . . . .2-1 '
2.1 Technical Specification Reference ................. 2 2.2 Description .................................'......' 2-1 3.0 LINEAR HEAT GENERATION RATE (3.5/4.5) .................. 3-1 3.1 Technical Specification Reference-................. 3 3.2 Description _...................................... 3 .
4.0 MININUM CRITICAL 10WER RATIO (3.5/4.5) . . . . . . . . . . . . . . . . . -. 4-1 4.1 '1%chnical Specification Refelwice . . . . . . . . . . . . . . . . . 1 4.2 Description ................................'.......j 4-1 a
1 J
Quad Cities - Unit 1 ii . Cycle 12
' Core Operating Limits Report-BEEERENCES
- 1. Ctunonwealth Edison Ccmpany and Iowa-Illinois Gas and Electric Docket No. 50-254, Quad Cities Station, Unit 1 Facility Opera License, License No. IRP-29.
- 2. Istter fIun D. M. Crutchfield to All Power Reactor Licenses an:1 Applicants, Generic letter 88-16; Concerning the Removal of
. Cycle-Specific Parameter Limits- frun 2 Weal Specifications.
3.- Supplemental Reload License Sulnittal for Q.md Cities Nuclear Power Station,: Unit ~1, Reload 11- (Cycle 12), 23A5989,. Ew. 0,-
Class I, August 1990..
- 4. Quad Cities Nuclear Power Station, Units 1 arxi 2, SAFER /GESTR-IOCA Ioss-of-Coolant-Accident Analysis,- NEDC-31345P, June 1987, (as amended).
- 5. General Electric Standard Application for Reactor Fuel (CESTAR),
NEDE-24011-P-A-9, ' September 1988 (as _ amended) .
- 6. Dctended Operating Dcznain and Equipnent Out-of-Service (EOD/ECOS)- ?
for Quad Cities Nuclear Power Station, ' Units l'and I, H. X. Hoang, NEDC-31449, Class II, July 1987.
-t j- 'i Quad Cities - Unit 1- lii Cycle 12
l 11
.i -
' Core Operatify Limits Report y
IIST OF FIGUPES. !
l PIGURE TITIE/DESCRIPTIN EMiE 2 Marl == Average Plarar Linear Heat Generation Rate - 2 (MAPU1GR) vs. Average Planar ExporJre for Fuel- Types PBIRB265H and-BP8IRB265H. 1 2-2_ Maxinum Average Planar Linear Heat Generation Rate 2-3 1 (MAPUtarl) vs. ' Average Planar Exposure for Fuel Type ;
DFBIRB282.
1 2-3 Mav4= = Average Planar Linear Heat Generation Rate 2-4I <
(MAPUlGR) vs. Average Planar Exposure for Fuel' Type ~.i BPBIRB283H.
2-4 Mi== Average Planar Linear Heat Generation Rate- 2 (MAPU1GR). vs.- Average Planar Exposure for Riel Type BPBIRB299.
2-5 - M4== Average Planar Linear Heat Generation Rate 6-(MAPDER)-' vs. Average Planar Wn for Riel Type BD300A.'
2-6 Maximun-Average Planar Linear Heat: Generation Rate '2 (MAPINGR) vs. Average Planar Exposure for' Fuel Type BD300B.'
2-7 Mav4== Average Planar Linear Heat Generation Rate 2-8i Ji
- (MAPU1GR)' vs. Average Planar Exposure for:Ebel Type BD301H.~
2-8 M4==. Average Planar Linear Heat Generation Rate 2-9 '
I (MAPDER) vs. Average Planar E-2re for Ebel Type Barrier LTA.
2-9 Maxinun Average Planar Linear Heat Generation Rate 2-10' (MAPDER) vs. Average Planar Exposure for Fuel: Type GE9B-P8tMB258-9GZ-80M-145-T.- ,
2-10' Maxinum Averaoe Planar Linear Heat Generation Rate' 2-11
_-(MAPUER)' vsC Average Planar Exposure for: Fuel Type GE9B-P8mB258-4G4 ~. 0/3GL 0-80M-145+T.
4-1 Kf Factor vs. Core Flow %. :4-2 Quad Cities - Unit 1 iv Cycle 12; ,
---,.s- m- - ---.', --
, 1
Core Operatirr LimiliReport-
+
1.0 MOL ROD WI'IfD3 ANAL BIDCK DETRUMENTATICN (3.2/4.2)
- 1. 't ' MCAL dit,unCATION Kt.ru<rriCE: -
-'Ibrianical Specification Table 3.2-3 arrl 3.6.H
-a
1.2 DESCRIPITON
'Ihe Rod Withdrawl Block Monitor Upscale Instrumentation Trip
-i Setpoint for two recirullation loop operation is determined from . !
the following relationship: ~~
L (0.65)Wd + 43%**
- Clanped, with an allowable value not to exceed the allowable value . -
for recirculation loop flow (Wd) 'of 100%. !
3 Wd is the per a nt of drive flow required to produce ~a rated core 4 flew of 98 million-lb/hr. -- Trip level setting is in-percent of rated power -(2511- NWth) .-
' ~
l-i 4
i l
l l
Quad Cities - Unit 1- 1-1 Cycle.12
_ - . ._ . . _ . . _ _ _ . . _ . _ . _ _. . . . --,___m.___. . .
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- Core Operating Limits Report j
- s
,x it 2.0 &ZBgy: PLANAR LTNEAR HEAT GENERATION RATE (APDER)"(3.5/4.5)
'2.1 TEWNICAL SPECIFICATIGi
REFERENCE:
.: , ;\
Technical 4 Specification 3.'5.I: .
2.2 IESCRIPI'ICH
i
,a.
'Ihn Mav4== Average Planar Linear Heat;-Generation' Rates (MAPINGR)- ;,
versus Average Planar rwann for;fueld:ypea P8tRB265H andi a BP8[RB265H are determined frtan Figurai2-1. ,
q
, Ihe Mari== Average Planar Linear Heat Generation Rates (MAPIH:iRN N versus Average Planar 5'wann for fuelEtype BP8tRB282.is t 1 determined fr a Figure 2-2i g.
'Ihe Maxizen Average Planar Linear Heat! Generation Rates 1(MAPulGR):. ;;
versus Average Planar Exposure-;for fuel;. type BP8tRB283HLis
~
determinmi fr m FigureL2-3.' ;
'[he Mav4== Averagi Planar Linear Heat Generatim Rates (MAPDIGR)) d versus Average Planar fwann 'for fuel' type BP8tRB299'.is; determined'fr a-. Figure 2-4.
1
'Ihe Mav4==l Average Planar Linear Heat' Generation Rates?(MAPIER) i versus Average Planar Exposure for fuelt. type BD300Aris determined .j frtan Figuru 2-5. ..
'Iha May4==: Average Planar Linear Heat:Generatim Rates:(MAPIHGR):
s "i versus Average Planar W M for;fuelttype BD300B;is determined fr m Figure 32-6.: i
'd
'Ibe Maximum Average Planar Linear Heat Generation Ratest(MAPulGR) 1 versus Avera
- . frm Figure .ge 2-7 Planar 5'wann for .fuelutype'BD301H Lis determined
'Ihe Mavi== Average Planar Linear Heat Generation RatesT(MAPIlt:iR) 3 versus' Average : Planar 5'wanmeifor,fuelltype Barrier LTA is-
- l= determinedzfr m Figure 2-8.n ,.
'Ihe Maximum Average' Planar Linear Heat Generation Rates (MAPINGR):
versus Average Planar Exposure forl fuel type GE9B-PBEMB258-9GZ 4 8G4-145-T'is determined fr m Figure 2-9 9 -t
- 'Ihe Mavi==: Average Planar Linear Heat Generatlon: Rates =(MAPIHGR); '
versusl Average Planar 5'wann .fornfuel type GE9B-P8DWB258-4G4.0/3G3.0-80M-145-T :is determined fra Figure ~ 2-10.
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. s. . Core Operating Limits Report-3 . 0 -- LINEAR HEAT GMERATION RATE (UlGR) (3. 5/4. 5) 3.1 TEQWICAL SPECIFICATION Rt.nau21CEt
% chnical Specification;3.5.J.
f 3.2- DES m fPTIONI- ;
- a. Se UiGR limit is 13.4 kw/ft for fuel typest- [
l'.- . BP8IRB265He 2.. BPBIRB283H
- 3. BP6IRB282 4 1 4. BPRIRB299 l 5. Barrier III'A'- q
- b. .%e IMR limit is '14.4 kw/ft for; fue'l' types:;
- 1. BD300A
- 2.. BD300B ,
- 3. BD301H
- 4. GE9B-PBDWB258-9GZ-80M-145-T
- 5. GE9B-P6DNB25814G4.0/3G3.0-80M-145-T- !
i t
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)
.- i i
f Y
Quad cities - Unit 1 3-1 cycle 12
g
- Core' Operating Limits Report! 4
-4.0- MINDiN CRITIGL POWER PATIO fMCPR) ~~ (3.5/4,5) '
i 4.1 TEGNIGL SPECIFIGTION Mr.nktNCE: ~ !
'Dachnical= Specification'3.5.K ard 3.6.H.' sr
4.2 DESGIITION
-i
- Durirg steady-state operation at rated core flow,' the MCPR limit-(OIMCPR)l shall be greater than or equal:-
.1. 3 0 - for tave $l0.68 sec.
.1.35 for tava 2 0.86'seci (0.278)tave + 1.111 [for 0.68 sec.;< tave <[OiB6=sec. .
'l i where tave = mean 20% scram insertion time for.all surveillance i data fran 'Dsch. Spec. -4.3.C which has been' generated-
-in the current cycle.
~
Ibr core' flows :other than rated,' these ncminal values of MCPR '
shall- be incrmaari by aJfactor of Kf where Kf is as shown in y Lj Figure 4-1.
When operating with a Feedwater Heater Out-of-Service l(FMOOS), . r-1 the Operatin "
--information,g-Limit'MCPR;(OIMCPR)',:
shall be'increaari by 0.02.calculated using< the above
'Ihis event,1which-conservatively bounds the recpim.nts detailed within the-EDD/EDOS dm=*nt (Reference 6), goes beyond allloperatingE .. '
conditions which can be expected during normal eparation as' set .
forth in the SRIS;(Reference 3)..
1 l
l i
1 l +
t L
i Quad Cities - Unit 1' 4 . Cycle 12
D e
g_
(1I FMTOR e s2 &
F E A 1.50 K-2
!?
_==
1.40 5g s
N N
1.30
\ '\ -
s AUTOMATIC FLOW CONTROL Kf CURVE
\ N l's.
N vx 9 .20 N s s '
t N ~. .-
N N N 'u 1.10- N 's N N N N N
1.00 HANilAL FLOW CONTROL Kf CURVE 0071 FLOWMAXJ x s 0.90 25 $0 35; 40 45 50 55 -60. ' 65 - 70 75 80 85 90 95 .100 Core Flow %
- Figure 4-1 l,,-- , m- g - y- w 'me-vw m.> ,m-w-o