ML20081L579
ML20081L579 | |
Person / Time | |
---|---|
Site: | Prairie Island ![]() |
Issue date: | 06/25/1991 |
From: | Breene T, Eckholt E, Parker T NORTHERN STATES POWER CO. |
To: | |
Shared Package | |
ML20081L578 | List: |
References | |
NUDOCS 9107050174 | |
Download: ML20081L579 (31) | |
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s; g_ l . PRAIRIE ISLAND NUCLEAR GENERATING PLANT CORE OPERATING LIMITS REPORT Unit 1 - Cycle 15 i Revision 0 L
~
f Note: This report is not part of the Technical Specifications.
.This report is referenced in Technical-Specifications.
9107050174 910625
-PDR ADOCK 0500G.82 P -: - PDR -. .- .. . . . . . . , . .;,. a 1
K .. PRAIRIE IS1AND NUCLEAR GENERATING PLANT CORE OPERATING LIMITS REPORT Unit 1 - Cycle 15 Revision 0 This report provides the values of the limito for Unit 1 Cycle 15 as required. by Technical Specification Section 6.7 A.6. These values have been established using NRC approved methodology and ars established such that all applicable limits of the plant safety analysis are met. Heat Flux Hot Channel Factor Limits RTP Fq - 2.45 R(Z) values are.provided in Figure 1.
'V(2) values are provided in Figures 2a through 2v.
Reference Technical Specification Sections: 3.10.B.1 and 3.10.B.2 Nuclear Enthalov Rise-Hot Channel Factor Limits RTP F an - 1. 70 PFDH'- 0.3 If the nuclear enthalpy rise hot channel factor exceeds its limit in Technical Specification 3.10.B.1, reduce the high neutron flux trip setpoint by 3.33%
~fer.each percent that the measured nuclear enthalpy rise hot channel factor-exceeds the 3.10 B.1 limit.
Reference Technical Specification Sections: 3.10 B.1, 3.10.B.2 and 3.10 B.3 /
Core Operat.iras timits Report Unit. 1, cycle 1$
*: Rev&ston 0 Fase 2 of 30
_ Linear llent Generation Rate The 95% probability _ level ECCS analysis calculation utilized a peak linear heat generation rate of 14.2 kw/f t. The Appendix K ECCS _ analysis calculation utilized a peak linear heat generation rats c.f 15.5 kw/ft for the Fg limit of 2.45. Reference Technical Specification Section: 3.10.B
' Axial Flux Dif ference Limits The axial' flux difference limits are provided in Figure 3.
The_ Axial Flux Difference target band is 15%. Reference Technical Specification Sections: 3.10.B.4 through 3.10.B.9
-Shutdown Rod Insertion Limits The shutdown rods shall be fully withdrawn.
Reference Technical Specification Section: 3.10.D Control Rod Insertion Limits The control rod banks shall be limited in physical insertion as shown in Figures 4, 5-and 6. Reference Technical Specification Sections: 3.10.D and 3.10.G Reactor Coolant Flow limit The reactor coolant system flow shall be-2 178,000 gpm. Reference' Technical Specification Section: 3.10.J l l'
' Core Operating 1,1mits Report Unit 1. Cycle 15 s Revision 0 rege 3 of 30 Prepared By: 3. 'f S Q ,&b. ~
b/2 F/<f / Eugene E6kholt Date Reviewed By: /n.~/ Mr #"- ['I'M Thomas Breene Date Superintendent of Nuclear Engineering Prairie Island Reviewed By: / ag [. [ /kg/ / fp>L [ //S-M/
'Da te '
llofjpf An(Ierson Manager Nuclear An 1 Als
/
Approved By: //48 - ( w [7 <M T/ Thomas M l'arker 'DMc Manager Nuclear Support Services l
P-
- g. '
Core Operating Limits Rrport Unit 1, Cycle 15 Revision 0 Page 4 of 30 l l l l 1.2 l 1 l (6.0.1.0) 1.0 * (12.0.0.92 I
~~ ,
1 0.8 K(Z) 0.6 0.4 0.2 0.0 0 2 4 6 8 10 -12 Core Height (ft) Figure 1 ' HOT CHANNEL FACTOR NORMALIZED OPERATING ENVELOPE
, . . , . . . . _ ~ . ~ . , . _ _ _ . - - .. - -. - . _ ~.. ...- . . . .s.. . ;, _ 1 Core Operating Umits Report Urut L Cycle 15 Revision O Page 5 of 30 FIGURE 2a -
V(z) as a Function of Core Height Unit 1 Cycle 15 (100 rnwd/mtu) 1 20 , , , , , , , , 9 1.19 , , l f f ' l j I ! ' 1.18 ! ! . !
! j ! i i' l l ! ! j ' '
1.17 l- ! I i i i j
! i i !
1.16 , , ;_ ; ; l l l l'
' I I I ' I 1 15- ,' !
- i : l i i I i' '
l 1 1.1 ~4 - l 1 Jl l l 1 1 l 1' l l l 1.13 : l . : . 1.12 ' 1.11-1.10 5 I: \ ! I I i I/ j i j' 1 N M i ! A I
-f -1.07 ! ~
1 06 1.05 1. 1.04- { j i
' l- l ' ] lV i' { -- l -
l
- j. j L .1.03 l :[ i
' ' -] l j l l I. !- l- l -l l' -l .' l ' .} !'
1.02 l' E -1.01 - l l i l' l i l l l I l _l : -l , . I
- 1.00 - f .f f f !
f f 0.99 ., I l l
.f I
f l I f I f f i I Oi98 0 1 2- 3 4 5 6 7 8 9 10- 11- 12 l , Axial Height (feet) L Linear interpolate be. tween height and exposure steps
? . * -r Core Operating Umst. Report Urut 1 Cycle 15 Revision O Page 6 of 30 4 ' FIGURE 2b V(z) as a Function of Core Height ._ Unit 1 Cycle 15_ (150 mwd /mtu) . ' .1. 2 0 ' .
9 ,_ , 3 , , , , , 1.19 .
- 1.18
- -1.17 ._ ! ' ' i 1 1.16 L i t , i I
1 15 .! , i
-1 , t , ' 4 i 1.14 l i
l , 1 1 ! t - [ 1,13--
, , 1 i '
1,12 s .
.! l l -
l_ 2 1.11 l i i j l l ! 4 i
/ '
5 3,.10 '- '- ' jE - I .11.0 9 k ,08 .07 1.06 i N j i
! i -} - l F \ ' '
l'05 u . i- t l l !V ! i* i '.' 1.04 .I ;
~
l- ; : i ,
'l: .;
t' r- 2 i 1.03- ; L ; .
! : i. 1 i ; t i ! , 1 '1.02 ; j ,
4 i ' ~
= i' i
i' i 1,01_ ' , ; i i 1 ! 'l ~ i E 1.00 , l; _l l j_ .
, 1 ,
1 i0 99 ' ? , I :
! 1 ' ' I ' ' ' ' ' '
J0.9 8 - 10- 1 2. 3 -4 5 6 7 8 9 10 11 12 , Axial Height (feet) L,inear interpole te. between height and exposure steps
, a y . . . .. - - . - ~ . . . - - - ~ - ~ ~ - , ~ . - . - ~ . . . ~ . ~ ~ . . . . . , ~ . . - . . ~ . _ _ . . - .
_3 -
. .4
- Core Operstirig Limits Floport Urut 1. Cycle 15
'* Mousion O Page 7 el 30 FIGURE 2c N(z) as a Function of Core Height Unit.1 Cycle _15 (500 mwd /mtu)
I
,1,20 , 'y g ., j , , , ! ; ,
1,19 l [ ! , L L '
!- 1 ; i !
i l l-i -t ! j_ 1 ! i {
' ' ' ~ '1.17 :
i '. l-l i ! l j i 1.16 ! f (s {i _li l { I
! 1- .} } i '1,15 ; ; ; , . _H , ; i ,
I l i. } ! I -i 3- i i 11 .1 4 - , p , , _ 1 l 1 -l l .l- i ! ! ! t i
,1,13 i F
i -1
-t- 1 i l
t ; 1.12-
.l ' ' . ! l ~ .)'))' -h !. { !- -! l' I i ! I --l / I b N -j '
l- l l } [ l L' ' ' 1A -i i l i ! If i N,o[ T %l L__.L I; L lM l
-Y 11'0 7 q 06 1 05 .
I
-I l l l l ! ! 'l l- ' l: ' ' = '1.04 l-
[
. i -j i l J-i I 1.03- 1 l J .; !- L ; lL 1.02 = ] ! . h .-1.01 -
L i 1 . 1-
-1 i
1 !- 1 l i 1.00' ,
.i 'j- . J:
l'_ l- '
=L -1.- F ' 4 1: 1 /0.99 l- ] t- ! 1 1 i 4 ! l_ ' '
- _ '.0.98. ' i ' l ' '
0- ;1 2 3 4 5- GL .7 6- 9- 10 11 12 ll Axial Height (feet) l- ~ 1 Linear interpolate lbetween height and -. exposure steps l;
- * -
- Core Operating Limits Repon
, Unit 1. Cycle 15 Revision 0 Page 8 of 30 .
7IGURE 2d V(z) as a Function of Core Height Unit 1 Cycle 15 (1000 mwd /mtu) 1.20 , , , , , i , , , , ,
- -1' .19 ' ! L '
I L! I i -i i j !
-1118 ; ; -- ', p-I ~i i l -- , i 1.17 .
I
; l-- , ! l l'
i t { '
- 1.16
- -+ -
l j i ! i- j i ! j l IJ5 .; j j l
] ; j_
1.1'4 l } .l 3 ! l { i 1.13 1'12 I l_
' I L
l' , [' f' _
~
l
^- .' N! ! ! ! I i- !~ I-/! ^
1.10
~~~% T j L L j / l i g- l IN _M L ! /f T .h '07 1'06-l l l ' l 1 ' pf!- ' -l l [
1.05 - .
.e j. l ]- l } l p j- :l - l-1.04 'l-' l' l l l l' !- _i ' } l-1.03- .-
l- !
' l l l t-l ; -l !
4-
'1,02 '_ -, , , l ,
- l. l
]
51 . 0 1-- f l f l [ l _l 1.00 ! li ; I : l , J }- [ , ! ! l- -p !- . j
- 0.99 - ; ; j , , j ,
I I I I ! ' I I ' i 0.98 0-- 1 2 3 4' '5 6 7 8 :9 10- ' 1-1 12 Axial Height (feet) LLinear interpolate between height and exposure steps .
.~ v . - , , . ,
- Core Operating Llm.ts Report Umt1,Cycte 16 Revision 0 Page 9 of 30 TGURE 2e V(z) as a Function of Core Height Unit 1 Cycle 15 (2000 mwd /mtu) 1.20 i ; i i i i i i i i i j,jg . _ _ _ . _
- - - ~ - -
1.18 -- - - - 1.17 --- - 1.16 -- -- 1.15 - 1.14 1, j 3 -_ 1.12 r-- ry
#o 1.10 \ , ! i l /
5 : N '
! i i , '/
8 y 1 1.07 i M [N ;
/.
1.06 i \/ ' --- i i - - - - - 1.05
; > ! t 1.04 ,
1.03 1.02 1.01 1.00 - 0.99
' ' i ' ' ' ' ' ' '
0.98 O 1 2 3 4 5 6 7 8 9 10 11 12 Axial Height (feet) Linear interpolate between height and exposure steps
-. - _ . _ _ _ _ . . - . . _ . . . . . . _ _ . ._~m . _ . _ . _ _ _ _ . _ . . . _ _ .
Core Operating Limits Asport Unit 1. Cycle 15 1 Revissn O Page 10 of 30 FIGURE 2f V(z) as a Function of Core Height Unit 1: Cycle 15.(3000 mwd /mtu) 1.20 , , , , ,_ , , , , , 1 i ; i 4 i i 1.19 ;
! ! -l l ! -l ;
1.18 . i i !_ : , t ; i 1.17 : I l 1 i e i l' '
,=
1.16 ' 4 4 . j i ! i
! ! ! i .
1.15 - I i i
' l l i' I 'l' l' !
1.14 .' . j ' I l i t i l ' 1 ! j ' ' 1.13 : ,
- , l i !. :l ! ! i 1 l i i :
1.12 1 11 ' 1.10 - 5 3 gg !X l 'l -- l L i I !/l I 1 08 h 1.07 ~ 1.06 f f f ' 1 ' L
=
f i ; I : 1.05 i }- l- l- l I l l l l l 1.04 . , . l l l ! I' t' i l } I l 1.03 : 1,n2 [
.! l l ' l l ! !' !' l' i i i l l l : i l ! ! l 1.01 , , , ! I ' I 1.00 '
i' i l I i
} !
0.99 . i :
! i i 1 1 L i ' ' ' ' ' ' ' ' '
0.98 O 1 2 3- 4 5 6 7 8 9 10 11 12 Axial Height (feet) Linear interpolate between height and exposure steps
, . . . . _ . _ _ . - . . . - . _ ._ ~~_m.. . . . . . . . _ . . _ _ =.~_ ,
j Core Operoth0 Limits Report und 1,Cyck 15 Rossen 0 Page 11 of 30 FIGURE 96 . < e V(z) as a Function of Core Height Unit 1 Cycle 15 (4000 mwd /mtu)- 1.20- , , 4 i
> 1.19 [' l l l , l l 1.18 .! ! l i ! ! i l 1,17 ' i ! ! I j ! ! !- 4 ' - '
1,16
~ ! t ! !- I t 4 i ! l 1.15 ; j' l l
l ,
; l , .1.14 , l ! f !
t i l 1 13 ,
- '.' i, s =;
t l , l- l- i ' 1.1 ?
-1'11 $ % l -l ! ! i l I [!
1 i N i ! -i i l/l i I
.I ' .'08 i - )1.07 l l lY l !YI l l !
j l l [ l I-
' l l -l- l l 1,06 : -} I l !' ! ! ! l l 1 ' l 1.05 : <
l- .! ! ! l l i 'l- ! ! 1.04 ,
' I 1,03- 1 l I !
i i ! l l ' l ' { ' 1.02 '
! i i i- : j- l ! !
1.01
, 1 , ! '
1
- i 4 '
- 1.00 '
j t > o - . ! l ' ' 0.99 ;- , ! ; r e 0.98 10 11 '12 O 1. -2 3 4- 5 6 7 8 9 Axial Height (feet) r L l Linear interpolate between height and exposure steps - 1 - . - . --.. _
- Core Operating Umats Report Una 1. Cycle 15 Revision 0 i Page 12 of 30 I
FT.GURE 2h V(z) as a Function of Core Height Unit 1 Cycle 15 (5000 mwd /mtu) 1.20 i , , i i , , , , , , 1.19 - - - - - - - -- 1.18 - - - - - - - - - - - 1.17 - 1.16 -- - 1.15 , 1.14 --- 1.13 1.12 . 1 11 O' 1 10 0 '
^
N 1 I 00
~
l i [; l\ ifi i s 1. 07 v; ' i i 1.06 i i i i 1.0b , 1.04 1.03 1.02 1.01 -- 1.00 0.99 0.98 C 1 2 3 4 5 6 7 8 9 10 11 12 Axial Height (feet) Linear interpolate between neight and exposure steps
. . . - .- - . _ - ~ ~ ~ - - ~ ~ - . - . . . . . . . _ . . . . ~ . - . . - . -
Core Operating Limits Report UNt 1. Cycle 15 Revision 0 Page 13 of 30 FIGURE 2i V(z) as a Function of Core Height - Unit 1 Cycle 15 (6000 mwd /mtu) 1.20 9 ; , ,_ g , ; , 9 ! ' 1.19 L ! . , 4 l 4 t t' , + l-
' l l -1,18 t l- l 1 ;- : t !
1,17 l , ; 1.16 ; , , , ,
, ,_ j -1.'15 ; l l l !
- j. l f ;
I i i
! ; ; 4 ,
1.14 l . l ! ! ! i l l 1 ! ! !
. 1 13- . ; ; i j , 4 I l e 1 -F i , I !
1.12: , , 1 I l- i l i i ! I i A 3 )'37 A! ! ! l l 1 i Vi
! Ki l- As l- l/ I
[ l N iV[ N i 6
? 1.08 [~ - ' ' ' ' ' '
K 1.07 - 1,06 l- l l' -l l. I l I l l ! l j- ~l' ! l- l l l l' l- l 1.05 1.04
;1.03 , _
f I !' I I ' I I 1.02 ! '
.I' l ! ! ! i- ! I i 1.01 ; ,- . . , , , .
I ! !
-1.00 f \ . . .f ., .,
0.99 ;
;. l , l ,
b I i ' ' ' i i i ' 0.98 O 1 2 3 4 5 6 7 8 9~ 10 11 12 Axial Height (feet) N Linearcinterpolate between height and exposure steps
, . - . - - . _ .. _.~ . .. . , _ _ , _ . _ . .-. .. .. -. , ~ ~ . . . . - . - ~ -
Core Operating Umste Report
- Unit 1, Cycle 15 Sevision O Per,e 14 of 30 FIGURE 2j
;V(z) .as a Function of Core Height Unit 1 Cycle 15 (7000 mwd /mtu) 1.20 , , -i- 3 , .
1.19 ; ; , 1.18 l , , l l i r . 1.17 l l , ,
! j l t !
i 1.16 ' . : . . . l-
=
i ! l i i ! l ! 1.15 , 3 ; 1 '
! # ! ! i , t 1.14- , , .
i , ,
; J l 1 ! i i 1.13 _;
i : >
' ' -l '
1.12 ' i -i I ! ! I i i -l A Y [ mi , I lM-
- I l ;
[ * ! i N -! ! fi !\ W l/i i:U8 .i 1 N y i 1 i t 'T' I : iN/ i y -1.07 i 1 l i i l i i ! i l l l- l l i l i- t .
-1.06 -
i t t t : i : 4- t i : 1.05- , , , , , , , ,
! ! i i i i i ' l- 1 1.04 -
I, ; 1 -l 1 l t i l ! 1.03- -
, y ,
1 f i ! ( 1 I ! I
- 1.02 - .
e ! 1
! t ;
1.01 ; f-l- i ! l l l 1.00 ., 1 l_- ' i ;
~
i ! '
;~ .
0.99 ,
.i t i ; i , 4 , .
0.98
-0 1 2- -3 4 5 6 7- 8 9 10 11 12 Axial Height (feet) ,
l-
-Linear interpolate between height and exposure steps
-, . _ .,_.m. _ . . _ . _ . . _ _ = . -_ .._.._._-m
_ ._ . _ _ ,_ . . . = _ , ~ . . . . . Coro Operating Limas Repert .. Una 1, Cveie 15 Revision 0 Page 15 of 30
?IGURE 22
- V(z) .as a Function of Core Height Unit 1 Cycle 15 (8000 mwd /mtu)
.1.20 9 ~;
i' 1,19 < r 1.18 ; p . 1.17 , l, , i i ( i 1.16 ; ,
-i. . t 1.15' --
j ; l' ,
' ' ' ' J .1 14 . - ; i i i . i i ! >
1.13 l l l 7 l - 1 12 . I i
-1 11 l / '
Ni 'ls; i FN 1 !/ i ! Y h /1 !
- n. -
R 1.08 - i g i l i j v . j' y :j l V l. - l ! ! ! ! }- 1.07- - 1 I
! -{ l ! I ! l -.1 J 6 - f ,
( i s _! ; i -
..05 - . , , . ,
1 i i !
.l { ' -l- , ' l-i L 1' .04 : . .
t j ! ! ! ! ! I i i 1-.03 , j ;
] ' 4 ' -_.1.02 l i- -; i ; ~ ' 1'.01 : ;
8 i 1,00-0.99- ! , 3 - 4 ! . 1 0.98 0 1 2 3 4 5 6- 7 8 9 10 11 12 Axial Height (feet) i l: E
; Linear interpolate between height and exposure steps l-l -.
Care Opevetmg timate Repe,g Unet 1. C,cie it i Rom.on 0
,e.e,.e . ;
TGURE 2: V(z) as a Function of Core Height Unit 1 Cycle 15 (9000 mwd /rntu) t
-1.20 3 t - .i i ! ! i 3
1.19 i ! i i - 1.18 = - - -
- 1. , !
~
1.17 , ,
~
1.16 1 , . i ;- > i
; i i ,
1.15 , o i
, 1 1.14 ; l l -H -
l, ,
; i .i ,
i , 1.13 ; , i : i' i 'i i 1 12 j } l i I/N ! i i[5 3! i N i I fi !M ;
/ 1 US i iNi V1 i i IX!/t 1 "I N 'fi ' i ! i j T j ! ^
5 108
> 1.07 i ' lV :
i l l ' l i j i
! ! I :
- 1 L- ! ! ! ! 3 1.06 i , .
i { c F 1 L i , 3 1,05 i l i- ! i i 1 ; ! ! l 1,04 1.03 l' ]I j j
! .i ' ~1 .! i ! I- I ! .1.02 . . . 'l I ! i ! !
1 i I 1.0.1 , i ,.
' i e
1,00 _ -
) ,l : . 0.99 - - -
i , , + . i 0.98-O 1 2 3- 4 5 6 7 8 9 1C 11 12 : Axiol Height (feet) ; Linear interpolate between height and exposure steps
.~. - .- - - ._- - .- - ,.
._.,m ..________..__...~.._m_~_-_.--..~-.__m_.,._.... .--m --- ._ _
l Core Opeesting temste R. port Umt 1. cme 16
- ....,,,,,o TGUII2m V(z) as a Function of Core Height Unit 1 Cycle 15 (10000 mwd /mtu) 1.20 , , .,, ,
1.19 q 1.18 - - -- - i 1.17 --
-L-------- -
1.16 - [ ' 1.15 l l- -, 4- ! 1.14 , ,
= , i t '
j,j3 ._ -_ 4 4 i i ; ! : , 1,12 __.__ l ;
-- 3 A '
_r-[--:--.ol l ! i i L p ', 'I'o' l l y, 4 fp ! 3 r
~
g
- c. 1, 09-i Txj- f j i i i Nf v
/-
m 1 os
} i N- i l l 1 i i i a ; i 1 i 1.07 ! .
l l l ! ! ! l -l l l 1.06 , ,
, r ;
1 > i !
'i l 1.05 l- . . . .
i j ! : ! ! l i ! i i 1,04- : : .
' j ! : I , j 1.03 .
j 1. !
- 1. -j. -l ! ! t 1.02 : .
e i j t-i i ' 1.01 i c 1.00 -
-; -i .
{ l 0.99 !
; i l = ' ' ' i ' ' ' + -0.98 0- 1- 2 3 4 5 6' 7- 8 9 10 11 12 l.
Axiol Height (feet) T Linear interpolate between height and exposure. steps
' Coes Opevoting Umit, Poport Unit t. Cvcie il TGURE 2n V(z) as a Function of Core Height Unit 1 Cycle 15 (11000 mwd /mtu) 1.20 , i i , , i i i i i i 1 19 -. . . _ . _
- 1. ' 8 -~ - - - -
1.17 - - - - 1,16 -- 1.15 ---- - 3 , j .; - 1'13 - 1.12 [N - - - - -
/-
s -- ---/ -
- s
/, Q /
1.11 -
- 1. , ,
(! O 1.08 , , y 1.07
- ! > i l
' I 1.06 1.05 5- - - - - -
1.04 1.03 ' , i 1.02 , , 1.01 - 1.00 .
-d -~
I 0.99 0.98 O 1 2 3 4 5 6 7 8 9 10 11 12 Axict Height (feet) Linear interpolate between height and exposure steps
4 l
.. t I r 4
Coro Oporotag Omns Report l
. Una 1. Cyte 16 I 1 .....n.
I TGUII 20 1 V(z) as a Function of Core Height ; Unit- 1 Cycle 15 (12000 mwd /mtu) l P P 1.20 , i , , , , , , , , ,
, . 4 '
1,19- - - - - -
! i 1.18 -=
p 3,17 ,- , 7 -_____._q__ 1.16 --h ', .
,' =, +
1.15 - l , , l- , "- --- i F ! 1 14 4 j 1.13 ! i , 1 19 e\ i 4
------;-- i
1 11
/t R 1 Ni y i ! ! A: 4 o: 1. 10 --
i 1409
! \i - /; i l- ! \t/
1;- - = i: ; a, : m ! l
-_ -l l l l I l- l- ! ,
m-
~ 1.08 ;
Jy # i _ . I . l
>- 1.07 !;
i I
-I.
I r , 4 1.06 . l l 1,05 [ ] i
> l l
i i
; =
l l l t - l i i i { }
' ~
1.04 : - -
,! l v -j ! i l i i ! * ~ 1.03 - - ., ; ^ ' ' a 1.02 ; 'l ' ' =
1.01 i i- l 1 , '
, 1,00 , , i > ;
0.99-1 i ; ." ' O.98 0 '1 2 3 4 5 6 7 8 9 10 11 12 Axial Height (feet) i
-Linear . interpolate between height and exposure steps
. _ . _ _ . _ . _ . . _ - _ . _ ~ _ _ ~ . _ . _ . . . _ - . _ _ _ _ _ _ _._._._.-,--...m.___.._____._..m._
e
- Core 0peestes (mute Merort VM 1. Cyck it '
. Revisen 0 ...e 0, . ?IGURE 2a i !
V(z) as a Function of Core Height ! Unit 1 Cycle 15 (13000 mwd /mtu) ; f 1.20 , , i , . 4 i i i i i 1, j 9 -- _l _ _.__ L _ _ _ . _ . _ _ . a. . .. .._ 4 ,
, , 7 "--4 ---- - - - - - !
1.18 - L--- - - -- l 1.17 - i F-1 ' 1.16 1 , l:. i < I ---- 1.15 ! --
, -- - 7 ! ) . (
1l 1.14 -, 1 3
, 1 4 i
1 3.13 m. > : ' - 1_ _s
/.
j i : : 1 l i ~I
! i/ _! l IN i / 1 #o 1.10 i !\ i / L - - - + -
i ! i\i /! l
.1.09 ,
Ni / o 4 i i i 1 - l i j 1 1.08 _; y j ; l ;. l
> 1.07 ', ! l ; . ~ -
- i. I i
; i i 1.06 F --
4 L < ; t j i ! ,
+i 1.05 ; j : ! ! { ! , .
1.04 -- : ! t i i ! ! i ! t , ' '
.l ' '
l 1.03 ' l , l r 1.02 : .
. l .
3 ! ! l~ i '
^
1.01. ;- . ' l I i i~ 1.00 i i 4
.) ! , 'i i .i' 0.99 ; li L ; F- ;
o
, . i .
i ' 0.98 12
-0 1 2 3 4 5 6 7 -8 9 10 11 Axial Height (feet)-
i Linear interpolate between height and . exposure ~ steps
= .-.. - .. -. .- - . _ ,. - -.-.-. =.- . -- - _ -
- coes op...ime tim,i, n...,, '
u o . c .. , .
- kevision 0
'i'::GUE 2q V(z) as a Function of Core Height . Unit 1 Cycle 15 (14000 mwd /mtu) I 1
1.20 ., , , cj , , , i- , r
^ ! ! i 1.19 ----i---------- i - - ~ - - ; ! i i 1.18 -
4- - - - - - --- 1.17 ; i-i + 4 i
- - - i 1.16 t ; i < ~ ~ - - -
1.15 -= i I i 1.14 W ' L 4 "--~~ " 4-------
- 3. i 3 . - - IN i !
/: ! ._ _ _, C_ . ' i 1.12 -
4
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i
-- -- ~ 4 l; -
n -- l 1 i 1------', I N
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> 1,o7 '-
I { ! l : I ! l ! l 4 1.06 1 i .
)- i !' -'
I l 1 ! ' i 1.05 :
--i - -
1.04 - . j ; i ! 1 l- l- t i i l
- 1,03 L : : 4 i'
- ! j i j ! j ! i' -1 .02 ' i i l -'
l i ! ! ; i 1,01- , ,
---t 1.00- .
. , t 1 - t_ ! <
-0,99 -- L" ----
i I ' i ' i ' i I ' 0,98
.0 1- 2 3 -4 5 6 7 8- 9 10 11 12 Axio!' Height (feet)
Linear interpolate between height and exposure steps L A y. .' -~ ---+y.- ,,,e-,,..-.. ,.r.-..,-,..s,,.,- ,..-..-.c,.m.._m.-,v-,,-,_,..,,,vo.,,.. ,,,,y r-,,.vm.m -
-e .,,.e.,,,w...,,.,--%.,,.,ywr
- l
- c.,. o,...im, uma. a. .,i UnN 1. Cecta 18 e....,,..,,,
TGUII 2r V(z) as a Function of Core Height Unit 1 Cycle 15 (15000 rnwd/mtu) i
- 1.20 , ,
l ' l.19 ! , 1.18 ; -- 1 ' ' 1.17 l ;. - l ,
^ -1.16 L - + - -
1.15 -t
-l l l }
[ - l
~
i i= i
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Y : _/
.',3 .,
i V ! J' N / ! l^ t\ I ~/ i ! ! l\ l
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I 1 I l I ; 1 I - w 3 -= 1.08 , , ,
> 1.07 ! ' I ' I i j 1
l ! .:
-{ l .l i' ,
i' 1.06 , ! 1 l i l- 1 i ! ! 1 l: 1.05- : : : i
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, l ;. l 3 ' i l l } ' l I '
i-f ' I ' i 1.03 : .
! ; I I ! .; ! } ! l ' -- 1.0 2 l I ! j j i l 1.01 ,
i
.L i : ,
1.00 .. . 4
.6 0.99 ! ! ! l l , ,
I I ' I ' I I i ' ' ' L 0.98
- 0
- 1 2 3 4 5 6 7 8 9 10 11 12 Axial Height (feet)
Linean interpolate between height and exposure steps
a f
+ +
Cors Operating Orrute Report Urut 1. Cycle il
. Revision 0 Psee 23 of 30 i
TGURI 2s V(z) as a Function of Core Height Unit 1 Cycle 15 (16000 mwd /ratu) 1.20 , , y , i i j i , i i
'1 19 -
1,13 .- _ _ .-
--. _ u.___ ___.7 . _ _ _ .
1 ! I i i , l i 4
- - --- - i 1.17 -
, 4 4 'N>\! -L '
3,16' - i- -- I i i ; ! 1.f5
! ! \l i e- ^
1.14 i
/ , - - - \i -- = - - - - -
i i \! ! h-- i ! 1'13 ~~ - 1 X 1 ; ;
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I >
! 1 l\ i /! ;
i \ i -/ i l ) I \l / i i j \ [/ I I I 7 .1.08 m I i \/ w I i
.j_
I t l [I i-t i
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I '
! l ! - !' t l ! l I i i 1.06 ; . , 3 . 4 , i ; i l 1 1.05 : ! ! ,'
i , i i : i t
' j ' ' ' ' ' I 1.04 - d -
1,03 ' p
-1 p l- ' i-j- !- ! ' '
1.02 - i i , , i 1' ' I f } 'I l l h 1.01 ; i ' 'i
.1.00 i ) .
l l i
;~
0.99 4
. . , i i l ' ' ' ' i ' ' r i 0.98 0 1 2 3 4 5 6 7 8 9 10 11 12 Axial Height (feet) s Linear interpolate- between height and exposure steps
=
Coes Operetmg Umns fieport Und 1. Cype 15 Peesion 0 1 9000 24 of 50 TGUIE 2t V(z) as a- Function of Core Height Unit 1 Cycle 15 (16937 mwd /mtu) 1.20 , , , i , ,
, , , i , , i 1.19- ; __ _. _ _w_ m _ ; e i '
1.18 - - - L- - - - - --- 1.17 -+ -
=
i ; i j 1.16 t 1.1'5 l ! --
.\! /
l[. i
\! i -
A: : J/ . ! i 1 ! I
'N / l /f ~ /2 T ~
j -!\ l _j r }'), i !\il! i i i ! l l\ iAr/i i [l:$ [ j \il i i i I l l' l' S 1.08 - l ! i j i e i
'> '- l '
1,07 L . , . i ! l 1 i i ! .1
~~ ' ~
1.06 , i
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i ;' 1.05 - - - l l !
- l l- i j i'
1 1 ; , '
=
i , ! 1.04 ; ; q
, , ,- l. , .1.03 'l !
l E : l 4
! i 1- !
1.02 j i , ; j ! I i i m -
-1 ,01 _--
i i"
-4 1.00 ~ '.
0.99 - i ' ' ' ' ' I ' ' ' ' 0.98 L O' 1 2 3 4 5 6 7 8 9 10 11 12 Axiol Haight (feet) Linear interpolate between height .and exposure steps l u ll . ;,.:.,.;-,-......._-.-.-._-._,_....._.,_-_..__-__.._..._.._.______,_-..---._.-
- . _ . . . .-______________._..__---~-....._.m.m_._ _ . . . . . _ . _ _ . _ _ _ _ - _ _ _ . , . . _ . . _ _ _ _ _ . _
s Core Operstm0 Limits Report Unit 1. Cycle 15 Asesion 0
...e,....
TGURE 2u V(z) as a Function of Core Height ! Unit 1 Cycle 15 (17000 mwd /rntu) I 1.20 , , , , , , , , , i 1.19 -- - - - 1.38 1.17 -/m\ - : 1.16 -- --
/; }
i
-1 15- -
f,4 1- 4 i/_ J L< 1
;/ / _
J._ \l l / i N g . t ;
/1 ; ;N fl f,, 1 l\ li i 1 :
i N i
/i ti3a i \, I l ! ; ! i \! / i 1 ) 1.'09.
I
\ \il i ' l. I i C ' 1.08 , l v , l y 1.07 i !
i i I I I i i i-i 1.06 ' i i I j ! i' :'
} ' '
1.05 :
!- !- I l ! l > -1.04 L . , , , -i i i l r i 4 ; l 1.03 ; ; ; l , l ; ,
1.02 ! I l I i ' l' !
!' i i ! ;
i -! ! i ! !
) t - -, i l '
1,00-I p-4' b-0,99 i- , i i ! i ' ' ' ' ' ' ' ' '
-0.98 0 l' 2 '3 -4 '5 6- 7 8 9 10 11 -12 Axiol Height (feet) eLinaar interp.olate betw'een height and exposure steps <vte. -yv e ,--,*r wrw*we-we m-r< E ,e-- e,-fisws-,-g e,,ew mm.*mwm ,-wew rw--e -w w. v mw=w e,w-4
- m-e re --- 4-.- n w ne w t--'
4 Core Operstmg timets Report Urvt 1. Cycle 15 Reesen 0
?IGURE 2v :
V(z) as a Function of Core Height Unit 1 Cycle 15 (17470 mwd /mlu) [ 1.20 , ,
, , , , i ,
3 . I l- l i , t ! i i 1.19 ; . , 1 1 18 - 1 17
" K l ! l/ I \! ! 4 E !\- { l / l \i l l +
ff 5 I l'l[ '
! \i i / i \ i l i/l ! \! l /; i i !( l i 1/ I l'j ! N ! /1 1 ! 1N a / i i l\ ! /i i i 1 !N i /i i i # ' ' ' ' l \l/ } l I i \l / l o.
i 1.09 \ll I i Y l 9 1.08 \ll y I i I j l l' I ! l y- 1.07 . 1' I-l i I l l- ! I l- l l } 1.06 ; , , I' l -1 l .! t i i i i 1.05 -
-l - I l I l- l ! ' l l ! !
1.04 3 , . l l. l -l- 1- i ; l i I '
-1.03 ' . ,
l I l- { l l l l 1
' f i 1.02- ; i .
I I
-l i ! l ! ! i !
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' ] . :
_)
; 1 ;
l i-0.98 4 i F F 3 t
' ] '
0: 1 2 3 4 5 6 7 .- 8 9 10 11 12 Axial Height (feet) l-Linear interpolate between height and exposure steps
.-.. - ~ _ _ _ - - . - - _ . . - . - . -
l I I
- . Core operating 1.1mits Exprt Unit 1, Cycle 15 l Revitten 0 Fase 27 of 30 n: up' "n ne .n :n
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Figure 3 DEVIATION FROM TARGET FLUX DIFFERENCE AS A FUNCTION OF THERMAL POWER
. Cos e Oper atitis Limita keport usitt 1. Cycle 1$
S.vi.i v. o
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100 I I I I I O .20 .40 .60 .80 100 Power Level. % of Rated Power Figure 4 CONTROL BANK INSERTION LIMITS
n -- - _ _ _ - _ _ - _- - _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ __ _ _ _ _ _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ l \ l . Cor e 03 er et t r.6 Limits ke3+ t Unit 1. Cycle IS
= kevision 0 lage 29 of 30 0.0 y .c . /' , . .. bi .j_.'. . ' . .: 4' . . : .t " I
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100 STEP OVERLAP WITH ONE EDTTOMED ROD (Technical Specification 3.10.G.3)
e en Coae O).+ratAs.g LLainta L*)ett Unit 1. cycle 15
# Eevis arm 0 g lage 30 of 30 0.0 ^- .i I , i ! l .i. ; ,, j .. . .. 4 . . . . . . . . . . . . . J . . , . . . !. . . l . . . ., .! ' . . . . ? . :. . . ; . 'tj-l 1 .
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