ML23062A620
| ML23062A620 | |
| Person / Time | |
|---|---|
| Site: | Callaway  |
| Issue date: | 12/29/2022 |
| From: | Ameren Missouri, Union Electric Co |
| To: | Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML23067A139 | List:
|
| References | |
| ULNRC-06782 | |
| Download: ML23062A620 (1) | |
Text
FUEL ASSEMBLY WITH ROD CONTROL CLUSTER 11.973 FUEL ASSEMBLY AND RCCA PITCH o Jt,,.o
.49 8 .084 0
97 GUIDE 0 0 0 0 THIMBLE 0 @
0 0 0 @ @ @
.04 8.466 TYP TYP TOP AND BOTTOM GRIDS INSTRUMENTATION TUBE FUEL ASSEMBLY
_JL.oso TYP IFM GRIDS WITHOUT ROD CLUSTER CONTROL CONTROL CLUSTER ELEMENT FUEL ROD (264 PER FUEL ASSEMBLY) .It,. GUIDE THIMBLE DIMENSIONS OD = .360 AT TOP NOZZLE ADAPTOR PLATE CLAD THICKNESS = .0225 CLAD MATERIAL = ZIRC-4/ZIRLO CALLAWAY PLANT DIMENSIONS ARE IN INCHES (NOMINAL) FIGURE 4.2-1 FUEL ASSEMBLY CROSS SECTION 17 X 17 VANTAGE SN+
REV. OL-9 SHEET 1 5/97
CUICE ~
ZIRC-4 OR ZIRLO C()fjTROL ROD 8.386 TYP (UPDATED !FM)
!304 SST)
.016 8.372 TYP (IFM)
~
u..xu.Jl..
au,ear 6191[ AUftt
.245(tNCONEL)
.241 lZI RC.)
.228(tNCONEL)
.2.15 (ZIRC)
(Xlljl'IO. R:D 0...-0 & Q.ICE: ~ E C)l,£NSl()l6 - i i - - ! - + - .O~g (tNCONEL)
.017 oursa: STRAP (INCONEL)
.026 OUTSIDE STRAP (ZIRC) .053 (ZIRC)
.0105 l>l'SIOE STll.v>'S l"'coWE\)
.a,so 1w'i>loE STRAPS IZ_IRC)
SEE VIEW A 0 0 0
.048 (tNCc~eiP
.03S(ZIRC) .530 8.466 TYP 0000000 0 00000 0 ooo 00 0 0 0 00 0
0 0 0 0 00 0 0 00* .474 10- ... 2 MA TDIAL- ZIRC-4 OR ZIRLO FUEL&CONTROL ROD CROSS SEC'!'ION CALLAWAY PLANT FIGURE 4.2*1 FUEL ASSEMBLY CROSS SECTION 17 X 17 VANTAGE 5N+
REV. OL-9 SHEET2 5/97
CALLAWAY - SP Figure 4.2-1A has been deleted.
Rev. OL-13 05/03
0.!!7S , 'TYP REF 7.162 TYP REF 8.404 lYP Rtr 6.750 1YP RO' 7 8.424 l'IP REl' TOP VIEW BOTTOM VIEW
_J
{1YP) .578
- REl' (TYP)
- - - - - - - - - - - - - - - - - 159.975 -----------------l 3.47S---l----i !--------------- 1S:Z.25 - - - - - - - - - - - - - - -
- 2.383 1-...~s l *t*J) 122.67 LJ,, LJ, 1.32
{CRIDS 1.!c:8}
15-5.QS (GRIDS 2-7) 133.8.3 USO L L L 113.28 9:Z.73 72.18 51.63 31.01:l 6.00 17X17 VANTAGE 5 FUEL ASSEMBLY
- - - - - - - - - - - - - - - - - 15~.97S - - - - - - - - - - - - - - - ~ -
3.47:!i--1----1--------------152.285--------------- -',** - ....
a,o,.,,,.,,
1.522 (GRIDS 1"'8) l 153.60
~,\,
(GRIDS 2-7) 133.47 IA,(**, ,-J) 122.31
- L L.,,, L,,., 112..92 LJ.,6 LaJ 51.27 30.72 !l.83!)
17X17 VANTAGE 5 UPDATE F'\JEL ASSEMBLY REV. OL-7 5/94 (a) Oopnduced Jiam 1.10 inches to 0.<465 incbco. CALLAWAY PL.ANT lllMENSlONS .a.RE IN INCHES (NOMINAi.) FUEL ASSEMBLY OUTLINE 17x17 VANTAGE 5 FIGURE 4.2-2
CALLAWAY PLANT FIGURE 4.2-2A STANDARDIZED BOTTOM NOZZLE PICTURE OF 17 X 17 SDFBN REV. 6 5/12
(8.404) SQ
(. 621 l
- TYP (7. 162) TYP- --i
- 875 DIA TYP \
( 6. 750)
(7. 504) TYP T p
(. 900) TYP l
- ----*- (0 . 580)
. 875 O!A TYP ------ /
(159.975)
(3. 475) * * - ---*(2. 383)
(152.490) FUEL ROD LENGTH l-(153.40)l*(l33.47ll(l22.31J (lt2.92)l(IOl.76J *(92.37l l(81,2l)l*C71.82) l-(Sl.27) l . (30.72) I*****-- -(S. 835) ***
REV OL-11 5/00 CALLA~AY PLANT 17X17 VANTAGE+
FUEL ASSEMBLY (ZIRLO)
FIGURE 4. 2-28
---+---------"< ~ - - - - - - - ( L,;'.:.8 F,EL LENC~TH) - - - - - - - - - - - - - + - - - - - - - - - + - -
CALLAWAY PLANT FIGURE 4.2-2C 17X17 PERFORMANCE+
FUEL ASSEMBLY REV. 14 5/12
CALLAWAY PLANT FIGURE 4.2-2D WESTINGHOUSE INTEGRATED NOZZLE PICTURE OF WIN TOP NOZZLE REV. 0 2/09
(-J....l--\/
GIRTH WELD
- 3 6 O NOMINAL (.368 MAX) 7.525 PLENUM SPRING STAINLESS STEEL 152.285 FUEL ROD LENGTH U02 PELLET 144.00
- FUEL STACK LENGTH PELLET-CLAD GAP nr-:-1f,_ _ _ ZIRCALOY CLAD
.0225 NOMINAL WALL THICKNESS
(.0207 MINIMUM WALL)
- - - - - - GIRTH WELD
~="".....,__ _ _ BOTTOM
- END PLUG ILLUSTRATES
_.____ _ _ _ _ _ _ _ _ _ _ _ i;::~ INTERNAL GRIP CONNECTION 17x17 VANTAGE 5 UPDATE FUEL ROD ASSEMBLY SPECIFIC DIMENSIONS DEPEND ON DESIGN VARIABLE SUCH AS PREPRESSURIZATION, POWER HISTORY, AND DISCHARGE BURN UP (SEE ALSO FIGURES 4.2-3B AND 4.2-3C)
DIMENSIONS AAC IN INCH!:$ (NOMINAL) REV. OL-13 05/03 CALLAWAY PLANT FUEL ROD SCHEMATIC FIGURE 4.2-3
TOP END PLUG ZIRLO TUGE ZR-4 BOTTOM END PLUG VARIABLE PITCH (. 350) OD STAINLESS STEEL SPRING (. 0207) MIN WALL GIRTH WELD
. 3685 MAX URANIUM DIOXIDE PELLETS WELD DIA.
. 3685 MAX WELD DIA.
,-------(7.730) - - - - - - - i - - - - - - - - - - (!44. 00) FUEL--------1 COLUMN LENGTH (152.490)--------------------1 REV OL-13 05/03 CALLAWAY PLANT 17Xl7 VANTAGE+
FUEL ROD ZIRLO' FIGURE 4. 2-3A
V8RI8BLE PITC H - - - - ZIRLO TUBE ( . 360) OD, ST8 INLESS STEE L SP RI NG (. 0207) MIN W8LL
.3685 MAX ZR - 4 TOP ZR-4 BOTTO M ~
WELD DIA END PL UG END PLUG t
I -I I I t'II Il l -~
I I t
(.330) UR8NIUM DIOXIDE PE LLE T (152.870) - - - - - - - - -~
REV OL-13 05/03 CALLAWAY PLANT 17X17 PERFORMANCE+
FUEL ASSEMBLY FIGURE 4.2-3B
GRID STRAP ZIRCALOY OR ZIRLO SLEEVE ZIRCALOY OR ZIRLO THI~1BLE FUEL ROD EXPANSION LOBE EXPANSION DIAMETER IFM AND MID GRID EXPANSION JOINT DESIGN REV. OL-9 5/97 CALLAWAY PLANT PLAN VIEW FIGURE 4.2-4
GUIDE THIMBLE TUBE -----;'
MIXING VANE t
IFM GRID ------i
.475 i
EXPANSION LOBE - - - 1 GUIDE THIMBLE TUBE - - - - -
MIXING VANE MID GRID n 2.250 MID GRID SLEEVE _ __,,
~J WELD EXPANSION LOBE ---<<(
DIMENSIONS ARE IN INCHES (NOMIN"-L)
REV. OL-5 6/91 CALLAWAY PLANT GRID TO THIMBLE ATTACHMENT JOINTS FIGURE 4.2-5
LOCK TUBE GROOVE E E NOZZLE INSERT DSECTION E-E (TYPICAL)
BULGE JOINTS (4 LOBES EACH)
THIMBLE TUBE I I I I I
I I
I I
_J __
I I
I l
D I
--+--
UNASSEMBLED ASSEMBLED REV. OL-5 6/91 CALLAWAY PLANT THIMBLE/INSERT /TOP GRID SLEEVE BULGE JOINT GEOMETRY FIGURE 4.2-6
ZIRLO TH I MBLEl BOTTOM GRID SPOT WElLDS BOTTOM GRID THIMBLEl SCRElW SS INSElRT Z
TI RC GUIDEl TH IMBLEl TH IMBLE] TO ElN D HRElADElD ElND PLUG PLUG WElLD PROTElC TI VEl GRID INSElRT TO ElND PLUG WElLD sos BOT TOM NOZZLE]
T P PLATEl REV OL-13 05/03 CALLAWAY PLANT GUIDE THIMBLE TO BOTTOM NOZZLE JOINT FIGURE 4.2-7
IICC ASSE)R. Y INSERTED i:::d DRIVE R(I) Fll.L LENGTH WIDE TUBE FUEL ._SSEMfl. Y ASSEla.Y RCC ASSDB.Y ASSEMfl.Y Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.2-8 ROD CLUSTER CONTROL AND DRIVE ROD ASSEMBLY WITH INTERFACING COMPONENTS
160.949 150.574 - -
SPRINGS ( 2 )
j_
SPRING RETAINER 1.845 MAX SPIDER BODY
-142.00 TH ABSORBER LENG BO% SILVER 15% INDIUM S% CADMIUM REV. OL-5 6/91 I CALLAWAY PLANT I FULL-LEN GTH RCCA OUTLINE FIGURE 4 9
_J
.381 DIA NOM TOP TYPE 304 STAINLESS STEEL BOTTOM END PLUG TUBE WITH CHROME PLATING Ag-In-Cd END PLUG
- - - - - - - - - - 142.00 - - - - - - - - - - -
ABSORBER MATERIAL 151.885 REV. OL..-5 6/91 CALLAWAY PLANT ABSORBER ROD FIGURE 4.2-10
(f)
(f) w
_J Z_J
-w
<t: w f-f-(f) (f)
I f-
- (0 LL. z Ww a: _J Oz
- o N (f)
-o Q_
lD (0
lD lD w
f-
<t: w Ua::J
....... ::J
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Q_J
()) (0 0
_J a:
(l]
<t:Z zo a: (f)
- J .......
())0 Q_
(f)
(0 z
I-<
a:
Q_
(f)
REV. OL-7 5 /94 CALLAWAY PLANT FIGURE 4.2-11 BURNABLE ABSORBER ASSEMBLY 17X17 014-A-20766-163
0
- i>
0
°'
°'_.,,
t------------------------152.350 -----------------------
~ TOP END PLUG f STAI:LESS STEEL f BOTTOM END PLUG \
~e~£~,L~C:TE r A r 0.385
~ 1 j ,- - - ~
I I 1/41
- v~~~~
7 LA I I ~
I DIA.MAX.
L - 7 . 4 7 REF. - - - ~ r - - - - - - - - 1 4 2 . 0 0 REF.POISON LENGT~ _'_ ____j gg 1.457 R E F . - + ~ - - - - - - - - - - - - - - - 150.018 REF.TUBE LENGTH 0.875f---
C: REF.
- a n z )>
n l>,, r
- a
~
gg - BOROSILICATE GLASS 0 ,... "
"' m C:
.... "' )> ::a XV'Dllffl )>
..., m"'-,::,,
...,.no, -<
- ! ::a ':-' ""01 00:ll ....
z zmN STAINLESS STEEL
- a
- a 0 -I 0 SECTION A-A a, ::a
-... ID 00 0
I
FLOW PATH l
ANNULAR PLENUM Z IRCALOY TUBES 150.0 TYPICAL 111---HOLDDOWN DEVICE r
A 7A A lz03-B4C 134.0
- ANNULAR PELLETS TYPICAL ABSORBER LENGTH ZIRCALOY FLOW SECTION A-A PATH REV OL-13 05/03 Note: See Figure 4.2-15A for new spring design.
CALLAWAY PLANT
- 132.0 inches in Current FIGURE 4.2-12a feed assemblies BURNABLE ABSORBER ROD CROSS-SECTION (ALUMINUM OXIDE BORON CARBIDE ABSORBER) 014-A-20766-165
La:
Ow Zu lf1 <( w I-NU)0..
t')
<W UaJ
..... ::i U) _JI-
- i;
- i; H
([)
w
_J (f) U)
OUl 0~ (f) Z_J (l:<(
zo w ..... w O_J I <(W (l] 0 LO i:,_, I- I I-I-
- H 0 u r-lH z z U)U)
,::i: w w u _J z _JZ
..... aJO z <( U) z,.....
0 (J) w a:o
...... a: ::i 0..
0 < (l]
0.. (fl
('f) LL. z w 0 U")
..--1 0: H (fl I,{)
N z
.-I s:j- w
- i::
0
_J
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a:
0 LL...
_J
<(
u
>-w a:u
<( a::
- i:: ::i HQ a:U)
(L (f) 0 z
H a::
0..
(J)
REV. OL-7 5/94 NOTE: See Figure 4.2-15A CALLAWAY PLANT for new spring d e s i g n l - - - - - - - - - - - - - - - - - - - - - 1 FIGURE4.2-13 PRIMARY SOURCE ASSEMBLY 17X17 014-A-20766-166
tL w:::i u-0:::-1
- J_J 0>- (fl (fl a: w 0 w I
- >-llJ u (D a: z....
Cil<C>-
oz zo DL ....z u ....
WI- w UJZ 0:::
<( <(
(fl I() z 0
0 I()
- (fl z
w
....L 0
_J
_J
<(
w-I-
0 z
_J w
w 1-U)
U)
U) w
_J z
<(
t-U)
REV. OL-7 5/94 NOTE: See Figure 4.2-lSA CALLAWAY PLANT for new spring design FIGURE 4.2-14 SECONDARY SOURCE ASSEMBLY 17X17 014-A-20766-167
Spring lnconel 718 Ii-:_ _ _ _ ___,._ 8a.oo Antimony-Beryllium t ::,
"Y" Corner Orientation ----6.345 ---1 i----------151.553-----------I (0.381 Diameter Nominal) REV OL-11 (0.385 Max at End Plug Weld) 5/00 CALLAWAY PLANT I
(0.426 Dia)
I FIGURE 4.2-14A ENCAPSULATED SECONDARY OOUSLE ENCAPSU-ATED THIMBLE PUIG SOURCE ASSEMBLY 17X17 SECONDAAY SD~CE ROD
- 7. 94 (OLD DESIGN) 6.345(NEW DESIGN) 0.432 (STD ONLY) 0 . 4 2 4 (OLD DESIGN) 0.426 (NEW DESIGN)
REV. OL-9 NOTE: See Figure 4.2-15A 5/97 for new spring design CALLAWAY PLANT FIGURE 4.2-15 THIMBLE PLUG ASSEMBLY 014-A-20766-168
17 X 17 Ne'1ed Spring
- ii:~I ~ Pinned &
Welded Nuts I I I I I I I! :I II II II I iI I I !I 11
!. I!
I
- i. I
- .. w u Previous New Hold down Assembly Updates - 17 x , 7 REV. OL-5 6/91 CALLAWAY PLANT MODIFIED SPRING DESIGN FIGURE 4.2-15A
180° R P N M L K J H G F E D C B A I I I I I I I 2
3 4
5
--6
--7 goo - - 8 270°
--9
--10
--II 12 13 14 15 FIRST CORE REGION ii REGION 2
~ REGION 3 Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.3*1 FUEL LOADING ARRANGEMENT 014-A-20766-169
9 0 8 -4
-8 ~*
~
Cl) 6 -12 UJ (',/)
UJ
~ ~
0 0 I- I-0
~ 5 -16 (',/)
0:: ...J UJ ;' LIJ
- c ::)
(.!>
- c 4 / -20 LI..
LI..
Pu239 / 0 LI..
0
/I -24 z:
0 I-
~
~
- )
(',/)
I z:
0
-28 u I -32 0 a....--.=;;,..._......Ji----'----..1.--.1..--....L.--..J--...L.---L----J -36 0 8 12 16 20 24 28 32 36 40 BURNUP. {GWD/MTU)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-2 PRODUCTION AND CONSUMPTION OF HIGHER ISOTOPES
2000 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - .
NOTE: HOT, FULL POWER, RODS OUT l.._
1600 .._"'
WITHOUT ABSORBERS BURNABLE 1200 ' ......
800 ' ......
400 0 L---..1.---~--...J...--..... --....L..----1.--........1.-~__,1-~----I 0 4000 8000 12,000 16,000 CORE AVERAGE BURNUP (MWD/MTU)
CALLAWAY PLANT FIGURE 4.3.3A BORON CONCENTRATION VERSUS FIRST CYCLE BU RNUP WITH AND WITHOUT BURNABLE ABSORBER RODS 014-A-20766-170
CALLAWAY - SP Figure 4.3-3B Deleted.
Rev. OL-1 6/87
!XI !XI !XI !XI !XI !XI !XI !XI !XI
!XI !XI ~ !XI !XI !XI
!XI !XI !XI !XI !XI !XI
!XI !XI !XI !XI !XI !XI
!XI !XI !XI !XI !XI !XI !XI !XI !XI 20 BA'S 16 BA'S CORE CENTER
!XI !XI !XI !XI [g1
!XI
!XI !XI !XI !XI !XI
!XI !XI !XI !XI
!XI !XI !XI !XI
!XI !XI o o 12 BA'S 9 BA'S CORE CENTER t
!XI !XI !XI !XI !XI
!XI !XI !XI
!XI !XI o o 10 BA'S Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.3-4A BURNABLE ABSORBER ROD ARRANGEMENT WITHIN AN ASSEMBLY 014-A-20766-171
CALLAWAY - SP Figure 4.3-4B Deleted.
Rev. OL-1 6/87
180° R P N M L K J H G F E D C B A I I I I I I I 10 10 10 9 12 20 19 12 9 2 IS 9 20 16 16 16 20 9 3 20 20 4S 16 16 20 20 4 12 20 16 16 16 20 12 -- 5 10 16 16 20 20 16 16 10 -- 6 20 16 20 20 20 16 20 -- 7 goo 10 16 16 20 20 16 16 10 -- 8 270° 20 16 20 20 20 16 20 -- 9 10 16 16 20 20 16 16 10 -- 10 12 20 16 16 16 20 12 -- II 20 20 16 16 4S 20 20 12 9 20 16 16 16 20 9 13 9 12 20 19 12 9 14 IS 10 10 10 15 NUMBER INDICATES NUMBER OF BURNABLE ABSORBER RODS IS INDICATES PRIMARY SOURCE ROD 4S INDICATES FOUR SECONDARY SOURCE RODS REVOL-13 05/03 CALLAWAY PLANT FIGURE 4.3-5 A TYPICAL BURNABLE ABSORBER LOADING PATTERN (CYCLE 1) 014-A-20766-172
CALLAWAY - SP Figure 4.3-SB Deleted.
Rev. 01-1 6/87
G F E D C B A ct_
I .06 8"""--!~
9 I.DO G 101.12 GB 111.15 BB GD 121.21 BBBB 131.12 BGGBEJ 14 1.03 B 10.991 10.991 EJ B 15 o. 72 lo. 791 lo, 661 lo. 561 CALCULATED FfH = I . 35 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-6A TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR BEGINNING-OF-LIFE, UNRODDED CORE, HOT FULL POWER, NO XENON (CYCLE 1) 014-A-20766-173
CALLAWAY - SP Figure 4.3-6B Deleted.
Rev. 01-1 6/87
G F E D C B A Ct_
I .09 8 __+-_.
91.0Z 101.15 GB II 1.16 BBB 121.22 BBB 13 1.12 B G G EJ 1°- 1 96 14 I.OZ B 10.991 10.971 E] B 15 o. 71 lo. 771 jo. 66110. 551 CALCULATED FtH = I . 34 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-7 A TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR BEGINNING-OF-LIFE, UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1) 014-A-20766-174
CALLAWAY - SP Figure 4.3-7B Deleted.
Rev .. OL-l 6/87
G F E D C B A Cf_
I .00 a __
91.00 GD 101.15 GB II 1.18 GB B 121.25 BBB 131.13 BBBBB 14 0.95 B G G EJ B 15 o. 59 lo. 781 lo, 681 lo, 581 CALCULATED F~H I . 33 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER REVOL-13 05/03 CALLAWAY PLANT FIGURE 4.3-8 A TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR BEGINNING-OF-LIFE, GROUP DAT 28 PERCENT INSERTED, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1) 014-A-20766-175
CALLAWAY - SP Figure 4.3-8B Deleted.
Rev. OL-1 6/87
G F E D C B A I. 15 8.___....
91.18 GD IOI.IS BB 111.21 BG 121.13 BB G 13 1.14 G B G EJ B 14 0.97 G 10.941 10.961 EJ B 15 o. 70 lo. 73 I lo. 651 lo. 541 CALCULATED F~H = I . 29 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-9A TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR MIDDLE-OF-LIFE, UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1) 014-A-20766-176
CALLAWAY - SP Figure 4.3-9B Deleted.
Rev. 01-1 6/87
G F E D C B A I .05 8 .__-+-....
91.11 GD 10 1.05 BB 111.12 BBB 12 1.06 El B B 131.13 BBBGB 14 1.01 B 10.981 GB EJ 15 0.80 E] I0.7 5 1 E]
CALCULATED F~H = I . 25 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER REVOL-13 05/03 CALLAWAY PLANT FIGURE 4.3-10A TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR END-OF-LIFE, UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1) 014-A-20766-1 77
CALLAWAY - SP Figure 4.3-lOB Deleted.
Rev. OL-1 6/87
G F E D C B A 4-_
0.92 a ___.
9 I.OB G 10 1.06 BG 111.15 BBB 12 1.09 BGBB 13 1.17 B B B B EJ 14 1.04 BBB B EJ I5 0 . 82 I 831 I 761 O. O* IO .621 CALCULATED F~H = I . 25 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER REVOL-13 05/03 CALLAWAY PLANT FIGURE 4.3-11 A TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR END-OF-LIFE, GROUP D 28 PERCENT INSERTED, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1) 014-A-20766-178
CALLAWAY - SP Figure 4.3-llB Deleted.
Rev. 01-1 6/87
6274--6 I. 02 1.02 I. 03 1.02 1.05 1.08 1.02 1.06 I. 12
~
1.03 ,
- 08 I. 14- I. 17 I. 16 1.03 I. 10 X I. 17 I. 18 X
1.03 1.08 I. 14- I. 14- I. 16 I. 18 I. 17 1.03 1.08 I. 14- I. I 4- I. 16 I. 19 I. 17 I. 17 1.03 I. 10 X I. 16 I. 18 X I. 19 I. 20 X
1.03 1.09 I. 14- I. 14- I. 16 I. 19 I. 17 I. 17 I. 20 I. 18 1.03 1.09 I. 15 I. 15 I. 16 I. 19 I. 17 I. 17 I. 20 I. 18 I. 18 I. 04- I. I I X I. 18 I. 18 X I. 19 I. 19 X I. 20 I. 20 X
I. 04- I. 09 I. 15 I. 18 I. 17 I, 19 I. 17 I. 17 I, 19 I, 17 I, 17 I. 20 I. 18 1.04- I. 08 I. 14-X I. 18 I. 18 I. 16 I. 16 I, I 8 I. 16 I. 16 I. 19 I. 19 X
1.04- 1.06 I. 10 I. 14- I. 16 X I. 16 I. 16 X I. I 6 I. 16 X I. 17 I. 15 I. I I 1.04- I. 05 1.07 1.08 I. 10 I. 12 I. 10 I. 10 I. 12 I. I 0 I. I I I. 12 I
- I I I. 09 I. 08 1.07 I. 04- I. 04- 1.04- I
- 04- I. 05 I. 05 I, 05 I, 05 I. 05 I. 05 I. 05 I. 06 I. 06 1.06 1.06 I. 06 I. 061 Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-12 RODWISE POWER DISTRIBUTION IN A TYPICAL ASSEMBLY NEAR BEGINNING-OF-LIFE, HOT FULL POWER, EQUILIBRIUM XENON; UNRODDED CORE
6274-7 0.98 0.98 0.99 0.98 1.00 1.03 0.99 1.02 1.07 X
1.00 1.03 1.09 I. 11 1.09 1.0 I 1.06 C>< I. 11 I. II X
1.00 1.04 1.08 1.07 1.08 I. 10 1.08 1.00 1.04 1.08 1.07 1.08 1.10 1.08 1.08 1.0 I 1.06 C>< 1.09 I. 10 1.00 1.04 1.08 1.07 1.08 X I. 10 I. 10 C><
I. 10 I. 08 1.08 I. 10 1.08 1.00 1.04 1.08 1.07 I. 08 I. 10 1.08 1.08 I. 10 1.08 1.08 1.01 1.06 C>< I. II I. 11 X I. 10 I. 10 C>< I. 10 I. 10 C><
1.00 1.03 1.09 I. 11 1.09 I. 11 I. 08 1.08 I. I 0 I. 08 1.08 I. 11 I. 09 0.99 1.02 1.07 C>< I. 11 I. II I. 07 I .07 I. 09 1.07 I. 07 I. 11 I. II C><
0.98 1.00 1.03 1.07 1.09 C>< I. 08 1.08 C>< 1.08 I .08 C>< I .09 1.07 1.03 0.98 0.99 1.00 1.02 1.03 1.06 1.04 I. 04 1.06 I.Cl+ 1.04 1.06 1.03 1.02 1.00 0.98 0.98 0.98 0.98 0.99 1.00 I. 0 I 1.00 I. 00 I. 0 I I. 00 I. 00 I. 0 I 1.00 0.99 0.98 0.98 0. 981 Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-13 RODWISE POWER DISTRIBUTION IN A TYPICAL ASSEMBLY NEAR END-OF-LIFE, HOT FULL POWER, EQUILIBRIUM XENON;UNRODDEDCORE
13,557-17 2.0 . - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ,
p =
D=
I. 5 P = 0. 5 AO=
D = 0. I
- ,a= 5.91 a::
w 3::
0 a..
a w 1.0 N
_J
<(
r
= I .c
= ) .I
- E a:: C' 0
z: AO = -8. t I P = NORMALIZED POWER D = FRACTIONAL INSERTION OF BANK D AO = AX I AL OFFSET ( PERCENT) 0.5 0.0 0 0. I 0. 2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 FRACTION OF ACTIVE CORE HEIGHT FROM BOTTOM REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-14 TYPICAL AXIAL POWER SHAPES OCCURRING AT BEGINNING-OF-LIFE (CYCLE 1)
13,557-18 2.0 , - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
P = o. 5 D ::: 0. 55 AO = -26. 03 P 0. 5 I. 5 o 0.21 AO ::: 8. 20 a:::
LJ..I 3:
0 0..
0 LJ..I N 1.0
_J
<(
- E a::: P NORMALIZED POWER 0
z:
D FRACTIONAL INSERTION OF BANK D AO AXIAL OFFSET (PERCENT) 0.5 o.o ________._____.____.___......___..__ ___..___.____.__ __.
0.0 0.1 0.2 0.3 0.5 0.6 0.7 0.8 0.9 I. 0 FRACTION OF ACTIVE CORE HEIGHT FROM BOTTOM REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-15 TYPICAL AXIAL POWER SHAPES OCCURRING AT MIDDLE-OF-LIFE (CYCLE 1)
13.557-19 2.0 P= o. 5 D = 0.62 A0=-25.7 0.5 I .5 0.61 6.59 0:::
LLI
~
Cl..
0
~ 1.0
...J
<t
- E:
0:::
0 z:
P = NORMALIZED POWER D = FRACTIONAL INSERTION OF BANK D AO= AXIAL OFFSET (PERCENT) 0.5 0.0 _ _ _..__ __,_____________________________
0 0. I 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 I. 0 FRACTION OF ACTIVE CORE HEIGHT FROM BOTTOM REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-16 TYPICAL AXIAL POWER SHAPES OCCURRING AT END-OF-LIFE (CYCLE 1)
I. 5 1.0 0:::
w
~
0 CL w
f-
<I:
_J w
0::: l\
_J CORE AVfRAGE \
<I: ~l\\
X
<I:
0.5 ADJACENI TOD BANK ,t, REMOVED FROM D BANK PERIPHEqAL LOW POWER ASSEMBLY ~
~\~\
1 0.0 CORE CORE Rev. OL-0 CORE HEIGHT TOP BOTTOM 6/86 CALLAWAY PLANT FIGURE 4.3-17 COMPARISON OF A TYPICAL ASSEMBLY AXIAL POWER DISTRIBUTION WITH CORE AVERAGE AXIAL DISTRIBUTION BANK D SLIGHTLY INSERTED
CALLAWAY - SP FIGURE 4.3-18 HAS BEEN DELETED Rev. OL-9 5/97
CALLAWAY - SP Figure 4.3-19 has been deleted.
Rev. OL-4 6/90
CALLAWAY - SP FIGURE 4.3-20 HAS BEEN DELETED Rev. OL-9 5/97
2.6 ~ - - - - - - - - - ~ - - - - - - - - - - - - - - - - - - - ~
2.4
+
Fq Ht. (ft) 2.50 0.0 2.50 6.0 2.2 2.31 12.0
~
w 2
- i]:
0
+
a.
X N
0 LL.
1.6 1.4 1.2 ~ - - - - - - ~ - - ~ - - - - - - - - - - - - - - ~ - - - - ~
0.0 2.0 4.0 6.0 8.0 10.0 12.0 CORE HEIGHT (FT)
CALLAWAY PLANT FIGURE 4.3-21 MAXIMUM Fox POWER VERSUS AXIAL HEIGHT DURING NORMAL OPERATION REV. 14 10/09
8555 20.0
-I-LL.
l5.0
- 3:
0:::
LL.I
- 3:
2i: 10.0 0:::
cc LL.I z
-I cc LL.I a..
5.0 0.0
-50.0 -25.0 o.o 25.0 50.0 FLUX DIFFERENCE {~I)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-22 PEAK LINEAR POWER DURING CONTROL ROD MALFUNCTION OVERPOWER TRANSIENTS
8555-75 20.0
- 15.0 I-LI..
~
~
a:
LIJ 3
0 a.
a: 10.0
<(
LIJ z:
....J
<(
LIJ a.
5.0 0.0
-50.0 -25.0 0.0 25.0 50.0 FLUX DIFFERENCE (61)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-23 PEAK LINEAR POWER DURING BORATION/DILUTION OVERPOWER TRANSIENTS
0.759 0.792 4.3
I. 217 I. 224
- o. 6' 0~ 774 I. 255 0.800 I. 249 3.4% -0.5;:'
- 1. 229 I. 229 I. 225 I. 2 I8
-0.31/2 -0.9%
I. 109 1.077 I. 107 1.092
-0.2% I. 4'\
I. 202 ,
- 223 I. 170 t. 256
-2.7% 2. 7{
0.523 I. 217 I. 221 I.217 O" 548 I. 203 I. 233 I.210 4.6% I. I% , .or, -0.6;1c I. 229 I. 229 I. 189 I. 220
-3. 3% -0.7{
I. 217 ~ CALCULATE D I. 211 ..__ MEASURED
-0.5;:
~ DIFFERENC E PEAKING FACTORS
- 1.5 Fz
= 1.357
~H FN 2.07 Q
REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-24 COMPARISON BETWEEN TYPICAL CALCULATED AND MEASURED RELATIVE FUEL ASSEMBLY POWER DISTRIBUTION
I. 4-BOL NO XENON POWER AT 70%
1.2 BANK D 25% INSERTED 1.0 CORE AVERAGE FROM INCORE MAP A0=2%----
I-
.....J w
a:::
.....J 0.6 X
- o. 4-0.2 0 '------'----..L-----'-----'-----.Ji-------'----.1....------'----.&.-----1 0 10 20 30 4-0 50 60 70 80 90 100 BOTTOM PERCENT OF CORE HEIGHT TOP Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-25 COMPARISON OF TYPICAL CALCULATED AND MEASURED AXIAL SHAPES
x REACTOR I O REACTOR ~
"v REACTOR 2 REACTOR 5 0 e REACTOR 3 FQ 0
0 3.0 0
V *
- 2.5 V
~ o
- X V 0 0
X V X
- X
- ii
- 1 ~
X ~x X o* 0 X XX
- o OV ~ @°' 2.0
- 0 oo 8
- **8 0
~f .... X xO 0
- q
- 0 "~
(51 0
'o. 0
~
0~
'.. 1.5 I *t. I
~5 -LW 30 20 10 -5 0 5 10 15 20 25 30 INCO~E AXIAL OFFSET(%)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-26 MEASURED VALUES OF FQ FOR FULL POWER ROD CONFIGURATIONS
13,557-20 0
- E u
CL.
-1.4
'+-
'+-
Q)
I-t,:, -1. 6 a.
~
1-z -1 .8 L&J
(.)
LL LL L&J 0 -2.0
(.)
L&J 0:::
1-
<C 0:::
-2.2 L&J CL.
- E L&J l-o::
-2.4 L&J
...J CL.
CL.
0 C
-2.6 500 600 700 800 900 I 000 1100 1200 EFFECTIVE FUEL TEMPERATURE Teff (°F)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-27 TYPICAL DOPPLER TEMPERATURE COEFFICIENT AT BOLAND EOL, CYCLE 1
13.557-21
-8 f-z: EOL LJ.J ---
- 0:::
(..) LJ.J
-3 -10 u... 0 u... 0...
UJ 0 f-c..> z:
UJ 0::: c..>
I.LI 0:::
3W -12 0 0...
o....-
- E
>-- (..)
....I 0....
z:-
0 0.
0::: ~
-1~
w-
_J 0.
0.... ct:,
0....
0 Cl
-16 ' - - - - - l - . . . - - - - - J - - - - - l - - - - L - - - . . . 1 0 20 60 80 I 00 POWER LEVEL (PERCENT OF FULL POWER)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-28 TYPICAL DOPPLER-ONLY POWER COEFFICIENT AT BOLAND EOL, CYCLE 1
13.557-22 0
-::E
(.)
0...
0.
-500 I-(.)
UJ LI..
UJ 0
0:::
UJ 3
0 0...
...J z:
0 0:::
UJ -1000
...J 0...
0...
0 0
-1500 0 20 40 60 80 I 00 POWER LEVEL (PERCENT OF FULL POWER)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-29 TYPICAL DOPPLER-ONLY POWER DEFECT AT BOLAND EOL, CYCLE l
13,557-23 20 u.. 2000 PPM 0
~
c...>
10 CL.
~
-I-
/1:)
Q.
/1:)
~
0 I-z:
LLJ c...>
u..
u..
LL.I
- 10 0
c...>
LL.I 0:::
I-
<(
0:::
- 20 LL.I CL.
~
LL.I I-0:::
0 I-
- 30
<(
0:::
LL.I C
0
~
- 40 0 100 200 300 400 500 600 MODERATOR TEMPERATURE (OF)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-30 TYPICAL MODERATOR TEMPERATURE COEFFICIENT AT BOL, CYCLE 1, NO RODS
13,557-2~
20 0
u...
- ,r 10
-u 0..
- ,r
-I-
"'C a.
"'C
~
0 I- UNRODDED z:
u..J u - 10 u...
u...
u..J 0
u u..J 0,,:: - 20 f-c:(
0,,::
u..J 0..
LU I- - 30 0,,::
0 I-c:(
0,,::
u..J 0
0
- 40
- 50 0 I 00 200 300 400 500 600 MODERATOR TEMPERATUR~ (°F)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-31 TYPICAL MODERATOR TEMPERATURE COEFFICIENT AT EOL, CYCLE 1
13,557-25 I.I..
0
- E uQ..
- E I-
~
- a. - 5
<t:,
~
1-z:
LU u -10 I.I..
I.I..
LU 0
u LU
~ -15 I-
<(
QC LU Q..
- E LU 1- -20 QC 0
I-
<(
QC I..U 0
0
- s: - 25 0 500 1000 SOLUBLE BORON CONCENTRATION {PPM)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-32 TYPICAL MODERATOR TEMPERATURE COEFFICIENT AS A FUNCTION OF BORON CONCENTRATION AT BOL, CYCLE 1, NO RODS
13.557-26 0
0 LL.
~
u Q..
-5
~ -10 I-
-~
~
I-a.
-15
- z:
UJ u
LL.
LL. -20 UJ 0
u UJ a:::
I-
-25
<(
a:::
UJ Q..
~
UJ I- -30 a:::
0 I-
<(
a:::
UJ Cl
-35 0
~
-1+0 0 5000 10000 15000 20000 BURNUP (MWD/MTU)
REV OL-13 05/03 CALLAWAY PLANT FIGURE 4.3-33 TYPICAL HOT FULL POWER TEMPERATURE COEFFICIENT DURING CYCLE 1 FOR THE CRITICAL BORON CONCENTRATION
13,557-27
-11+
~-
I- 0:::
z:: UJ
~~
u c...
LJ... I-LJ... z::
-16 UJ UJ 0 (.)
u 0:::
UJ 0::: c...
LL.I-3: ::::e::
0 (.)
c... c... -18
_J
<( Q..
EOL I- l't) o-I- 0.
l't)
-20
-22 ..__ _ _........._ _ __.__ _ __.__ _ ___._ _ ___,
0 20 60 80 I 00 POWER LEVEL {PERCE~T OF FULL POWER)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-34 TYPICAL TOTAL POWER COEFFICIENT AT BOLAND EOL, CYCLE 1
13,557-28 0
-500
-:::E
(.)
Q..
-1000 Q.
~
I-(.)
UJ u..
UJ Q
ei:::
UJ
~
Q..
-1500
...J c:[
I-0 I-
-2000
-2500 0 20 iio 60 80 100 POWER LEVEL (PERCENT FULL POWER)
REV. OL-7 5/94 CALLAWAY PLANT FIGURE 4.3-35 TOTAL POWER DEFECT AT BOLAND EOL, CYCLE 1
13,557-29 R p N M L K J H G F E D C B A I I 180° I I I SA B C B SA 2 SD SB SB Sc 3 SA D SE D SA Sc SD 5 B C A C B 6 SB SB 7 C SE A D A SE C - 270°- 8 SB SB 9 B C A C B 10 SD Sc 11 SA D SE D SA 12 Sc SB SB So 13 SA B C B SA 14 15 00 CONTROL NUMBER SHUTDOWN NUMBER BANK OF RODS BANK OF RODS A 4 SA 8 B 8 SB 8 C 8 Sc 4 D 5 SD 4 TOTAL 25 SE ij TOTAL 28 Rev. OL-0 6/86 CALLAWAY PLANT PIGURE 4.3-36 ROD CLUSTER CONTROL ASSEMBLY PATTERN
CALLAWAY SP FIGURE 4.3-37 HAS BEEN DELETED REV. OL-5 6/91
160 150 140 130 120 110 Vl 100 w
I
() 90 z
z 80 0
E
(/)
70 THIMBLE DASHPOT 0
- a. 60 50 40 30 20 10 0
0 0.4 0.8 1.2 1.6 2 2.4 2.8 3.2 TIME OF TRAVEL {SECONDS)
REV. OL-5 6/91 CALLAWAY PLANT FIGURE 4.3-38 DESIGN TRIP CURVE
13,557-31 1.0 l-o 1-0.
0.
- 0. 5 o.o 100 50 0 ROD POSITION (PERCENT INSERTED)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-39 TYPICAL NORMALIZED ROD WORTH VERSUS PERCENT INSERTION, ALL RODS OUT BUT ONE
5,--------------------------------------------,
0
!it: -5 LLJ
(..)
or::
LLJ
.:=.. -10 I-LLJ
(/)
LL LL -15 CURVE I 0
__J
<C BURNUP PER I OD STABILITY INDEX
>< -20 CURVE (MWD/MTU) (HOURS) {HOURS- I)
<C I 1550 32.lJ. -0.0lJ.I 2 7700 27.2 -0.01 lJ.
-30 .___......_____......__ _,___......_________,___ _.__ _.__ ___._ _,___....__........_ ___._ _..___...__ _.
0 8 12 16 20 28 32 36 4-0 4 4-8 52 56 60 64- 68 72 TIME (HOURS) Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-40 AXIAL OFFSET VERSUS TIME, PWR CORE WITH A 12 FOOT HEIGHT AND 121 ASSEMBLIES
10 8
- t-i- 6 z:
<a:::
0
=>
O' 2
N
- STABILITY INDEX= -0.076 (HR.- I) lz a:::
0 0
~
-O'
~ - ij
- 2 z:
UJ a:::
LLJ
- N~2 LL..
LL..
0 1-
- 6
- 8
- 0
_J I-
- 2 RCC E-11 I-z:
<a:::
-10 0
<(
=>
O'
-12
-lij
-16 0 ij 8 12 16 20 2ij 28 32 36 ijQ ijij ij8 52 56 60 6ij Rev. OL-0 HOURS AFTER WITHDRAWAL OF RCC E-1 I 6/86 CALLAWAY PLANT FIGURE 4.3-41 X-Y XENON TEST THERMOCOUPLE RESPONSE QUADRANT TILT DIFFERENCE VERSUS TIME
-60.0 , - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -2400
-2200
-50.0 0 CONTROL BANK COMPENSATION -2000 6 BO RON COMP EN SAT I ON c.. EXPERIMENT -1800 E(.)
0.
-- - CALCULATION
-1600 ::-
- *--:::..---, u
-1400 t!:i UJ 1- 0 z:
UJ u -30.0 -1200 ffi
...J LL.
a..
LL. a..
UJ 0
-IOOO g u ...J ffi -20. 0 -800 ~(.!)
...J UJ a..
Q.. 1-0 0
-600 z
-10.0
-200 0 0 0 10 20 30 40 50 60 70 80 90 100 Rev. OL-0 6/86 PERCENT OF FULL POWER CALLAWAY PLANT FIGURE 4.3-42 CALCULATED AND MEASURED DOPPLER DEFECT AND COEFFICIENTS AT BOL, 2-LOOP PLANT, 121 ASSEMBLIES, 12 FOOT CORE
CALLAWAY SP FIGURE 4.3-43 HAS BEEN DELETED REV OL-13 05/03
CALLAWAY SP FIGURE 4.3-44 HAS BEEN DELETED REV OL-13 05/03
CALLAWAY SP FIGURE 4.3-45 HAS BEEN DELETED REV OL-13 05/03
CALLAWAY - SP Figure 4.4-1 Deleted.
Rev. OL-1 6/87
CALLAWAY - SP Figure 4.4-1 a Deleted REV. OL-~15 5/06
CALLAWAY - SP Figure 4.4-2 Deleted.
Rev. OL-1 6/87
N- +
Ii: 1 .2 +
a:J:
1.1 I-
+
~ 1.0 X
it 0.9 I-
~
~ 0.8
..J
~
(.)
0.7 E
a:
(.)
0.6 0
w 95/95*
a:
- , 0.5 (fJ
~
w 0.4
- E (fJ
~ 0.3
- E ii,
- 95% OF DATA WILL FALL 0 0.2 ABOVE THIS LINE WITH
'~LL 0.1 95% CONFIDENCE.
E: 0 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 (q"CHF/10 6 ) PREDICTED CRITICAL HEAT FLUX (BTU/HR-FT2)
Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.4-2a MEASURED VERSUS PREDICTED CRITICAL HEAT FLUX* WRB-1 CORRELATION 014-A-20766-180
1.10 N-t: I 1.00 0.90 a:
- c
-ti 0.80
-' 0.70 I&.
cC w
- c 0.60
-.J.
u a:
0.50 u
Cl w 0.40 a:
V, cC w 0.30
- E
!2
'°-
w 0.20
- E *951 of data will fall above this 0
0.10 11 ne with 951 I&. confidence.
X
- o.ooo.oo...................
su CT
~
0.10
.&.1.............. . -..........~................""""'...........................i..a..i......................................
0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 (QCHF/106,,-'RED, PREPICTED CRITICAL HEAT FLUX (8TU/HR-FT2)
REV. 16 10/06 CALLAWAY PLANT FIGURE 4.4-2b MEASURED VERSUS PREDICTED CRITICAL HEAT FLUX WRB-2 CORRELATION
CALLAWAY - SP Figure 4.4-3 Deleted.
Rev. 01-1 6/87
14 I2
- Data in WCAP- 14565-P-A, Addendum 1-A
[ Qualification Test Data with V_I_P_RE_ _~
~ ,,,
,e
==
~
08
~
G
~
. 06 One-Sided 95195 DNBR 1:11 OS u
Tolerance Lumt for DNBR,,,. 9' of I 13
- iE 0
02 0 ""-.....__,__.__._.___....._____________,__ _.._______.......___._.__.......______~_ ........~ _ . _ _ J 0 02 04 06 08 I:? 14 Predicted CIIF, 1\1Btu/hr-ft2 Rev. OL-21d 4/16 CALLAWAY PLANT FIGURE 4.4-3a MEASURED VERSUS PREDICTED CRITICAL HEAT FLUX - ABB-NV CORRELATION 014-A-20766-180
14 12 ~
1/
, I
. ,I",,,
~ / / .* , ,.
<!::
- 41 r .,,
=
- I
- ., t-****
- i:
08
., *f:.*.
~
0 ** ~:~ -,,. ,
E 06
- I
~
,,.- ,,- " One-Sided 95/95 Tolerance Limit for
~ DNBR9S of 1. 18 02 0¥--------,-------------------------,--------,-------!
0 02 0 -1 06 08 12 14 WLOP l'redicled CH F, I\IBtu/hr-11~
Rev. OL-21b 4/16 CALLAWAY PLANT FIGURE 4.4-3b MEASURED VERSUS PREDICTED CRITICAL HEAT FLUX - WLOP CORRELATION 014-A-20766-180
0.12 0.10 ._
0.08 - LEGEND:
0 26" SPACING I -PHASE 0 26" SPACING 2-PHASE
~ 0.06 -
0 0.04 ,_
0 O 0
0.02 -
I I I I I I I Rev. OL-0 0 6/86 0 I. 0 2.0 3,0 lLO 5.0 6.0 7.0 8.0 G De CALLAWAY PLANT Re=µ (10- 5 )
FIGURE 4.4-4 TDC VERSUS REYNOLDS NUMBER FOR 26 INCH GRID SPACING
Cf_ H G F E 0 C B A Cf_ 1.096 KEY:
.6.h/.6.h B 1.001 G/G g 1.029 1.001
[;]
IO I. 153 1.000
[;][;]
I. 166 I I I .000
~~~
12 1.223 I .000 13 I. 126 I .001
~~~[;]
14 1.025 I .002 [;] ~ [;] § 15 0.717 0.999 §§ FOR RADIAL POWER DISTRIBUTION NEAR BEGINNING OF LIFE. HOT FULL POWER, EQUILIBRIUM XENON CALCUAL TEO F~H = l . 34 (CYCLE I ONLY)
Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.4-5 NORMALIZED RADIAL FLOW AND ENTHALPY DISTRIBUTION AT 4 FOOT ELEVATION 014-A-20766-181
~ H G F E D C B A
~ 1.096 KEY:
l:.h/b.h B 0.996 G/G g 1.026 1.002
§ IO I. 155 0.991
~§ I I I. 169 0.990
[;][;]~
12 1.228 0.985 13 I. 129 0.992
[;]~mm 14 1.024 1.000
[;] ~ ~ ~
~~
15 o. 715 I .022 FOR RADIAL POWER DISTRIBUTION NEAR BEGINNING OF LIFE. HOT FULL POWER, EQUILIBRIUM XENON CALCUAL TED F~H = I . 34 (CYCLE I ONLY)
Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.4-6 NORMALIZED RADIAL FLOW AND ENTHALPY DISTRIBUTION AT 8 FOOT ELEVATION 014-A-20766-182
ct_ H G F E 0 C B A ct_ I . 097 KEY:
L'.h/L'.h B 0.995 G/G g 1.026 0.999
§ IO I. 157 0.991
~§ I I I. 170 0.990
§§§ 12 1.231 0.987 13 I. 130 0.993
§§[§~
14 1.023 1.000 [;] [§ Ll] ~
15 0. 711 1.016 [;] [§ FOR RADIAL POWER DISTRIBUTION NEAR BEGINNING OF LIFE. HOT FULL POWER, EQUILIBRIUM XENON CALCUAL TEO FtH = I . 34 (CYCLE I ONLY)
Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.4-7 NORMALIZED RADIAL FLOW AND ENTHALPY DISTRIBUTION AT 12 FOOT ELEVATION-CORE EXIT 014-A-20766-183
CALLAWAY - SP Figure 4.4-8 Deleted REV. OL-~15 5/06
0.07 LEGEND:
PERCENT PERCENT 0
u THEORETICAL THEORETICAL 0.06 DENSITY DENSITY u
0
~
u I
\*
0~
0 GYLLANDER ASAMOTO 96.4 95.0 0 HOWARD & GULVIN
- LUCKS & DEEM***
96.0 96.5 3: 0.05 \o 0 Q GODFREY A STORA A.O. BUSH 93.4 92.2 94.4 DANIEL ET AL.
96.5 97.9 97.0 t:.
~
o,t
- ASAMOTO
'v KRUGER 91 .. 0 93.7 6 NISHIJIMA T WHEELER &
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o'ti SEE REFERENCES FOR THERMAL-HYDRAULIC SECTION 6
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I-557F 550 540 530 0 20 40 60 80 100 PERCENT POWER REV. OL-15 5/06 CALLAWAY PLANT FIGURE 4.4-10 REACTOR COOLANT SYSTEM TEMPERA TU RE-PERCENT POWER MAP 014-A-20766-184
I. 8 - - - - - - - - - - - - - - - - - - - - - - - - - -
l -5 BOL I +5 I. 7 I I +5 I 5 FOL I
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Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.4-11 100% POWER SHAPES EVALUATED AT CONDITIONS REPRESENTATIVE OF LOSS OF FLOW, ALL SHAPES EV ALU A TED WITH FNAH = 1.55 014-A-20766-185 (CYLE 1 ONLY)
CALLAWAY - SP figure 4.4~12 Deleted.
Rev. 01-1 6/87
CALLAWAY - SP Figure 4.4-13 Deleted.
Rev. OL-1 6/87
CALLAWAY - SP Figure 4.4-14 Deleted.
Rev. 01-1 6/87
CALLAWAY - SP Figure 4.4-15 Deleted.
Rev. OL-1 6/87
CALLAWAY - SP Figure 4.4-16 Deleted.
Rev. 01.,..1 6/87
CALLAWAY - SP Figure 4.4-17 Deleted.
Rev. OL-0 6/86
CALLAWAY - SP Figure 4.4-18 Deleted.
Rev. OL-0 6/86
CALLAWAY - SP Figure 4.4-19 Deleted.
Rev. OL-0 6/86
CALLAWAY - SP Figure 4.4-20 Deleted.
Rev. OL-0 6/86
13,'i57-32 2 3 II, 5 6 7 8 9 10 11 12 13 IIJ. 15 I
I I I 270° I I I I T T D T D A D D D D B T T D T D TD T T T C D D D D D D T T D T T D T D T T E D D D D D F T T D T T D T TD T G T D D D D D D TD -oo- H D T T T D TD TD T TD . J D D I) -- K T T D T TD TD D T D T D -- L D M TD TD TD TD T T D TD t,I D D p TD TD T D R T = THERMOCOUPLE (50 LOCATIONS)
D = MOVABLE INCORE DETECTOR (58 LOCATIONS)
Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4. 4-21 ,
DISTRIBUTION OF INCORE INSTRUMENTA'rION