ML18207A555

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Revision OL-23 to Final Safety Analysis Report, Chapter 4.0, Figures 4.2-1 Through 4.4-21
ML18207A555
Person / Time
Site: Callaway Ameren icon.png
Issue date: 06/19/2018
From:
Ameren Missouri, Union Electric Co
To:
Office of Nuclear Reactor Regulation
Shared Package
ML18207A460 List:
References
ULNRC-06442
Download: ML18207A555 (106)
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Text

GUIDE THIMBLE 0 FUEL ASSEMBLY WITH ROD CONTROL CLUSTER 0 0 0 0 0 0 @ 0 e 0 0 _JL.oso TYP IFM GRIDS CONTROL CLUSTER ELEMENT FUEL ROD (264 PER FUEL ASSEMBLY)

OD = .360 CLAD THICKNESS

= .0225 CLAD MATERIAL = ZIRC-4/ZIRLO 0 11.973 FUEL ASSEMBLY AND RCCA PITCH 8.455 TYP INSTRUMENTATION TUBE FUEL ASSEMBLY WITHOUT ROD CLUSTER CONTROL A. GUIDE THIMBLE DIMENSIONS AT TOP NOZZLE .ADAPTOR PLATE CALLAWAY PLANT ARE IN INCHES (NOMINAL)

FIGURE 4.2-1 FUEL ASSEMBLY CROSS SECTION 17 X 17 VANTAGE 5N+ REV. OL-9 5/97 SHEET 1 C()fjTROL

!304 SST) ..xu.Jl..

tl auaeot 8.386 TYP (UPDATED IFM) 8.372 TYP (IFM) -1-+-( INCONEL) .053 (Z.IRC) .0105

("'coNE\) .o*So '"""oE STRAPS !ZIRC) SEE VIEW A 0 0 0 .048

.035(ZIRC) 0 0 0 0 0 0 00 0000000 00000 ooo 00 0 00 0 0 0 0 0 00* .474 ID-.442 8.466 TYP FUEL&CONTROL ROO CROSS SEC'!'ION MA TDIAL* ZIRC-4 OR ZIRLO CALLAWAY PLANT FIGURE 4.2-1 FUEL ASSEMBLY CROSS SECTION 17 X 17 VANTAGE 5N+ REV. OL-9 5/97 SHEET2 CALLAWAY - SP Rev. OL-13 05/03

Figure 4.2-1A has been deleted.

7.162 TYP ll£F 0.!!7S , 'TYP ll£F .578

  • RET BOTTOM VIEW (TYP) I 159.975 , .. 1-lr---1* ---152.25---

A.l'oi1-J) 122.67 LJ, L . .t U50 L L L (GRIDS 2-7) 133.8.3 113.28 92.73 72.16 51.63 31.0!! 6.00 17X17 VANTAGE 5 FUEL ASSEMBLY !-------------------

17X17 VANTAGE 5 UPDATE FUEL ASSEMBLY (a) Gopm!uced&am 1.10incbcstoO.o46Sin<:bco.

DIMENSlONS AAE IN INCHES (NOMINAl..)

!51.27 30.72 CALLAWAY PLANT REV. OL-7 5/94 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

(. 621) TYP (3. 475) cs.404l sa (7. 162) TYP *

  • 875 DIA TYP \

(0 . 580) (159.975)

(152.490)

FUEL ROD LENGTH " "" m ...... 1 ( 6. 750) TYI 875 O!A TYP ------J (5. 835) CALLAWAY PLANT 17Xl7 VANTAGE+ FUEL ASSEMBLY (ZIRLO) FIGURE 4. 2-28 . -

383) REV OL-11 5/00 f----------( L.,2.8 F,EL CALLAWAY PLANT FIGURE 4.2-2C 17X17 PERFORMANCE+

FUEL ASSEMBLY REV. 14 5/12 CALLAWAY PLANT FIGURE 4.2-20 WESTINGHOUSE INTEGRATED NOZZLE PICTURE OF WIN TOP NOZZLE REV. 0 2/09 152.285 FUEL ROD LENGTH 7.525 PLENUM 144.00 -FUEL STACK LENGTH SEAL WELD ZR-4 TOP END PWO (-J...l----1/

GIRTH WELD

  • 3 6 0 NOMINAL (.368 MAX) SPRING STAINLESS STEEL U0 2 PELLET PELLET -CLAD GAP

___ ZIRCALOY CLAD .0225 NOMINAL WALL THICKNESS

(.0207 MINIMUM WALL) 1'------'t----

GIRTH WELD

  • >--1----BOTIOM END PLUG ILLUSTRATES

-'--------------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 4.2-38 AND 4.2-3C) OIIAEHSIONS AAE IN INCHES (N01.41NAL)

CALLAWAY PLANT REV. OL-13 05/03 FUEL ROD SCHEMATIC FIGURE 4.2-3

. 3685 MAX WELD DIA. TOP END PLUG VARIABLE PITCH STAINLESS STEEL SPRING ZIRLO TUGE (. 350) OD (. 0207) MIN WALL URANIUM DIOXIDE PELLETS ZR-4 BOTTOM END PLUG . 3685 MAX WELD DIA. ( 144. 00) FUEL--------'

COLUMN LENGTH REV OL-13 05/03 CALLAWAY PLANT 17Xl7 VANTAGE+ FUEL ROD ZIRLOŽ FIGURE 4. 2-3A REV OL-13 05/03CALLAWAY PLANT 17X17 PERFORMANCE+

FUEL ASSEMBLY FIGURE 4.2-3B GRID STRAP " EXPANSION DIAMETER ZIRCALOY OR ZIRLO SLEEVE ZIRCALOY OR ZIRLO FUEL ROD EXPANSION LOBE IFM AND MID GRID EXPANSION JOINT DESIGN REV. OL-9 5/97 CALLAWAY PLANT PLAN VIEW FIGURE 4.2-4 GUIDE THIMBLE TUBE -----n IFM GRID ---1 EXPANSION LOBE GUIDE THIMBLE TUBE-----+, MID GRID MID GRID SLEEVE ---+N EXPANSION LOBE ---<<t DIMENSIONS ARE IN INCHES (NOMINAL)

WELD WELD MIXING VANE .475 MIXING VANE t 2 .. 250 ! CALLAWAY PLANT REV. OL-5 6/91 GRID TO THIMBLE ATIACHMENT JOINTS FIGURE 4.2-5 LOCK TUBE UNASSEMBLED SECTION E-E (TYPICAL)

I I I I I I D I ' I --+--ASSEMBLED REV. OL-5 6/91 CALLAWAY PLANT THIMBLE/INSERT

/TOP GRID SLEEVE BULGE JOINT GEOMETRY FIGURE 4.2-6 CALLAWAY PLANT GUIDE THIMBLE TO BOTTOM NOZZLE JOINT FIGURE 4.2-7 REV OL-13 05/03 CR04 RCC ASSEMLY INSERTED DRIVE ROO ASSEMLY Fll.L LfHG TH ACC ASSEMLY WIDE TUBE ASSEMB..Y FUEL ASSEMB.. Y CALLAWAY PLANT FIGURE 4.2-8 ROD CLUSTER Rev. OL-0 6/86 CONTROL AND DRIVE ROD ASSEMBLY WITH INTERFACING COMPONENTS 160.949 I_ 1.845 MAX SPIDER BODY -150.574 8 0% SILVER 1 5% INDIUM 5% CADMIUM CALLAWAY PLANT RCCA OUTLINE FULL -LENGTH FIGURE 4.2-9 .J TOP END PLUG TYPE 304 STAINLESS STEEL TUBE WITH CHROME PLATING Ag-ln-Cd BOTTOM END PLUG .381 DIA NOM 142.00 -----------J ABSORBER MATERIAL 151.885 REV. QL.,...5 6/91 CALLAWAY PLANT ABSORBER ROD FIGURE 4.2-10 l[] (() l[] 014-A-20766-163 I f-"(0 LL.z ww a:_j Oz *o N(f) "<!-,__. -o Q_ (f) (0 z ...... a: Q_ (f) (f) (f) Q(f) a:<x: Q_j (]](0 r:n -otl.l NC) as:

N<I:J "<!-....... *0 0 I CALLAWAY PLANT FIGURE 4.2-11 BURNABLE ABSORBER ASSEMBLY 17X17 REV. OL-7 5/94 014-A-20766-164 0 lJl r0 N lJl X < lll:L ffi* 10< ..... 00 C) :) _j D.. 0 z w < L _j ::;: 0 f--0 !Il w ...... u .... _j .... UJUJ OUJ 0::< O_j !I] C) C) :) _j D.. 0 I D.. 0 f--

C) z w _j z 0 Ul .... 0 D.. u... w a: 0 0 N _j lll* I'll.. mw *0:: 0 I (9 z w _j w !Il :) f--u... w a: m 0 0 lJl Ul Ul < _j C) w < u .... _j .... Ul 0 a: 0 !Il _j w w Ul Ul Ul w _j z .... < Ul <1: I <1: z 0 1-u w (f) CALLAWAY PLANT FIGURE 4.2-12 BURNABLE ABSORBER ROD CROSS SECTION 17X17 Rev. OL-1 6/87 150.0 TYPICAL ANNULAR PLENUM

  • 134.0 TYPICAL ABSORBER LENGTH r A Note: See Figure 4.2-15A for new spring design.
  • 132.0 inches in Current feed assemblies 014-A-20766-165 FLOW PATH l 11...---UPPER END PLUG + A FLOW PATH ZIRCALOY TUBES A lz0 3-B 4 C ANNULAR PELLETS SECTION A-A CALLAWAY PLANT ZIRCALOY REV OL-13 05/03 FIGURE 4.2-12a BURNABLE ABSORBER ROD CROSS-SECTION (ALUMINUM OXIDE BORON CARBIDE ABSORBER) 1 \--a I I 1-.-:La: ow zu lf14: 0.. NUl t<) :;i; 1---I I *;:::J I I :;:i;H zo I LOt>.! f-*H (!) r-IH z w u '---..J I I I z I 0 I (f) ...... 0 0.. ('f) LL... Lf) w . a: r-1 Lf) I I I N r-1 <t I -I I I I I -L-I I I I I I I YYY: I -==-' e-c= .r::..

I I I I I I I I (f) w I u z ...... I I I z ...... I w a: 4: (Jl z 0 H (Jl I I I z w I :L ...... 0 ..J ..J <{ .. I I I w f-0 I z I I I I I I I /L) I I (f) (!) z ..... a: 0.. (Jl ,......__

"" (f) (f) w ..J Z..J ...... w 4:W (f)(J) :L :::) H z a: 0 LL... w ..JZ aJO <{(f) z,..... a:o :)D.. (I) REV. OL-7 5/94 NOTE: See Figure 4.2-lSA CALLAVVAYPLANT for new spring 014-A-20766-166 FIGURE4.2-13 PRIMARY SOURCE ASSEMBLY 17X17 NOTE: See Figure 4.2-15A for new spring design 014-A-20766-167 tL W::J u ..... O::_J ::J_j 0>-(flO: 0 w . >-aJ roo: (!)<(>-oz zo OL u-WI-UlZ l<( (f) w I u z z .... w 0::: <( (f) !() z 0 0 !() (f) -z w L .... 0 __) _j <( -w 1-0 z 0 N W I ...Jcn 1-L...J ;:: ::J 0 CALLAWAY PLANT FIGURE 4.2-14 SECONDARY SOURCE ASSEMBLY 17X17 REV. OL-7 5/94 "Y" Corner Orientation I. (0.426 Dia) DOUSLE ENCAPSULATED SE::CONDAAY ROD I THIMBLE PLUG Spring lnconel 718 11-: -----"'-88.00 Antimony-Beryllium l:l 1-----6.345

---t 1-----------151.553-----------1 CALLAWAY PLANT REV OL-11 5/00 FIGURE 4.2-14A ENCAPSULATED SECONDARY SOURCE ASSEMBLY 17X17 0.432 (STD ONLY) 0 . 4 2 4 (OLD DESIGN) 0.426 (NEW DESIGN) NOTE: See Figure 4.2-15A for new spring design 014-A-20766-168

7. 94 (OLD DESIGN) 6.345(NEW DESIGN) CALLAWAY PLANT FIGURE 4.2-15 THIMBLE PLUG ASSEMBLY REV. OL-9 5/97 I I I I I I : I ! I I I' I I i. I :.. w Previous 17 X 17 Pinned & Welded Nuts I I i I I I I ! I I ! I u . ! New Hold down Assembly Updates -17 x 17 REV. OL-5 6/91 CALLAWAY PLANT MODIFIED SPRING DESIGN FIGURE 4.2-15A goo 014-A-20766-169 R P N M L K J G F E 0 C B A FIRST CORE D REGION REGION 2 REGION 3 CALLAWAY PLANT FIGURE 4.3-1 2 3 4 5 --6 --7 --8 270° --9 --10 --II 12 13 14-15 Rev. Ol-1 6/87 FUEL LOADING ARRANGEMENT 9 8 ::> 7 -en ::.::: (I) 6 UJ I:L 0 1-0 5 (I) 0::: UJ ;' :X: / (.!:) :X: / Pu239 u... / 0 z:: 3 0 I 1-u ::> I 0 0 2 0::: I:L I 0 BURN UP 0 en ::.::: -12 (I) UJ I:L 0 ---1-0 -16 (I) ....J UJ ::> -20 u... u... 0 z:: 0 I:L ::> (I) z:: -28 0 u 36 CALLAWAY PLANT FIGURE 4.3-2 Rev. Ol-0 6/86 PRODUCTION AND CONSUMPTION OF HIGHER ISOTOPES 2000 1600 l.._ ................

........ 1200 800 400 NOTE: HOT, FULL POWER, RODS OUT '-, JWITHOUT BURNABLE " ABSORBERS

........ ........ ........ ........ ........ ........ ' ' ' ' ' ' 0 0 014-A-20766-170 4000 8000 12,000 16,000 CORE AVERAGE BURNUP (MWO/MTU)

CALLAWAY PLANT FIGURE 4.3.3A Rev. OL-1 6/87 BORON CONCENTRATION VERSUS FIRST CYCLE BU RNUP WITH AND WITHOUT BURNABLE ABSORBER RODS CALLAWAY -SP Figure 4.3-3B Deleted. Rev. OL-1 6/87

!XI !XI !XI D !XI !XI !XI D !XI !XI DIXI !XI D D !XI !XI D DIXI 014-A-20766-171

!XI !XI !XI !XI !XI D !XI !XI !XI D r;R1 !XI D !XI D !XI !XI !XI D !XI !XI D !XI D !XI !XI D !XI D !XI !XI !XI !XI !XI !XI D !XI !XI 20 BA'S CORE CENTER 16 BA'S D IXID !XI !XI [g1 IXID !XI D !XI !XI D !XI D D !XI D !XI !XI D D !XI D !XI !XI D D D D D IXID Do D Do 12 BA'S CORE CENTER 9 BA'S !XI !XI !XI D !XI D D D Do t !XI !XI !XI !XI D !XI D !XI D D D D oo 10 BA'S CALLAWAY PLANT FIGURE 4.3*4A Rev. Ol*1 6/B7 BURNABLE ABSORBER ROD ARRANGEMENT WITHIN AN ASSEMBLY 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 IS 9 20 16 16 16 20 9 20 20 4S 16 16 20 20 12 20 16 16 16 20 12 --10 16 16 20 20 16 16 10 --20 16 20 20 20 16 20 --10 16 16 20 20 16 16 10 --20 16 20 20 20 16 20 --10 16 16 20 20 16 16 10 --12 20 16 16 16 20 12 --20 20 16 16 4S 20 20 9 20 16 16 16 20 9 9 12 20 19 12 9 IS 10 10 10 NUMBER INDICATES NUMBER OF BURNABLE ABSORBER RODS IS INDICATES PRIMARY SOURCE ROD 4S INDICATES FOUR SECONDARY SOURCE RODS 2 3 4 5 6 7 8 270° 9 10 I I 12 13 14 15 REV OL-13 05/03 014-A-20766-172 CALLAWAY PLANT FIGURE 4.3-5 A TYPICAL BURNABLE ABSORBER LOADING PATTERN (CYCLE 1)

CALLAWAY -SP Figure 4.3-SB Deleted. Rev. OL-1 6/87 ct_l H G F E D C B A ct_ I -I . 06 f--f------f--f--f--f--f--f--f--f-I I 9 I .00 I I 0 I. 12 I I I I I I. 15 I I I 12 I .21 I I I 13 I. 12 I I I 14 I .03 I I 15 0. 72 0 14-A-20766-173 GDDDDDD GBDDDDD BBBDDDD BBBBDD BGGEJBD B 10.99110.991 EJ B BBEJ CALCULATED = I . 35 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER CALLAWAY PLANT FIGURE 4.3-6A REVOL-13 05/03 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR BEGINNING-OF-LIFE, UNRODDED CORE, HOT FULL POWER, NO XENON (CYCLE 1)

CALLAWAY -SP Figure 4.3-6B Deleted. Rev. 01-l 6/87 ct_ I H G F E 0 c B A ct_ I -1.09--8 I ----1--r-I I 9 1.02 I I I 0 I. 15 I I I I I. 16 I 12 I .22 I I 13 I. 12 l 14 I .02 I I 15 0. 71 014-A-20766-174 BDDDDDD GBDDDDD BBBDDDD BBGDDD BGGBBD BBEJEJB EJE]EJ CALCULATED = I . 34 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER CALLAWAY PLANT FIGURE 4.3-7 A REV OL-13 05/03 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR BEGINNING-OF-LIFE, UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1)

CALLAWAY -SP Figure 4.3-7B Deleted. Rev .. OL-l 6/87 ct_ I H G F E 0 c B A ct_ I -l.oo---8 I -r---1--r---1--1----I I 9 1.00 I I I 10 I. 15 I I I J J I. 18 I I I I 2 I .25 I I I I 3 I. 13 I I 14 0.95 I I 15 0.69 014-A-20766-175 GDDDDDD GGDDDDD GBBDDDD BGGGDD BBBBBD BGGEJB BBB CALCULATED I .33 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER CALLAWAY PLANT FIGURE 4.3-8 A REV OL-13 05/03 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR BEGINNING-OF-LIFE, GROUP D AT 28 PERCENT INSERTED, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1)

CALLAWAY -SP Figure 4.3-8B Deleted. Rev. OL-1 6/87 H G F E 0 c B A I -1.15-1--f--r--f--r-------8 I I I 9 I. 18 I I I I 0 I. 15 I I I I I I .21 I I I 12 I. 13 I I I 13 I. 14 I I BDDDDDD BBDDDDD BGBDDDD BBBGDD GBGEJBD 14 0.97 G 10.94110.961 EJ B I I 5 0. 70 I 0. 731 I 0. 651 I 0. 541 CALCULATED = I . 29 014-A-20766-176 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER CALLAWAY PLANT FIGURE 4.3-9A REV OL-13 05/03 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR MIDDLE-OF-LIFE, UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1)

CALLAWA Y -SP Figure 4.3-9B Deleted. Rev. OL-1 6/87 ct_ I H G F E D c B A ct_ I -1.05--8 I -t-------I I 9 I. II I I I 0 I .05 I I I I I. 12 I I 12 I .06 I I 13 I. 13 l 14 I .01 _l l I 15 0.80 014-A-20766-177 BDDDDDD BBDDDDD BBGDDDD BGBBDD BBBGBD BEJGBB EJBB CALCULATED = I . 25 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER CALLAWAY PLANT FIGURE 4.3-10A REV OL-13 05/03 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR END-OF-LIFE, UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1)

CALLAWAY -SP Figure 4.3-lOB Deleted. Rev. OL-1 6/87 ct_ I H G F E 0 c B A ct_ I -

8 I -f--f-f--f----------I I 9 I .08 I I I I 0 I .06 I I I I I I. 15 I I I 12 I .09 I I I 13 I. 17 I I I 14 I .04 I I I 15 0.82 0 14-A-20766-178 BDDDDDD BGDDDDD GBBDDDD BGBBDD BBBBEJD BBBBEJ EJBEJ CALCULATED = I . 25 KEY: VALUE REPRESENTS ASSEMBLY RELATIVE POWER CALLAWAY PLANT FIGURE 4.3-11 A REV OL-13 05/03 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR END-OF-LIFE, GROUP D 28 PERCENT INSERTED, HOT FULL POWER, EQUILIBRIUM XENON (CYCLE 1) -----------

CALLAWAY -SP Figure 4.3-llB Deleted. Rev. OL-1 6/87 r---I. 02 1.02 I. 03 1.02 1.05 1.08 1.02 1.06 I. 12 1.03 I. 08 I. 14-I. 17 I. 16 1.03 I. 10 I. 17 I. 18 X 1.03 1.08 I. 14-I. 14-I. 16 I. 18 I. 17 1.03 1.08 I. 14-1. 14-1. 16 I. 19 I. 17 1.03 I. 10 X I. 16 I. 18 X I. 19 1.03 1.09 I. 14-I. 14-I. 16 I. 19 I. 17 1.03 1.09 I. 15 I. 15 I. 16 I. 19 I. 17 I. 04-I. I I I. 18 I. 18 X I. 19 I. 04-I. 09 I. 15 I. 18 I. 17 I. 19 I. 17 1.04-I. 08 I. 14-X I. 18 I. 18 I. 16 1.04-1.06 I. 10 I. 14-I. 16 I. 16 1.04-I. 05 1.07 1.08 I. 10 I. 12 1. 10 I. 04-I. 04-1.04-I

  • 04-I. 05 I. 05 I. 05 I. 17 I. 20 >< I. 17 I. 20 I. 17 I. 20 I. 19 X I. 17 I. 19 I. 16 I. 18 I. 16 I. 10 I. 12 I. 05 I. 05 I. 18 I. 18 I. 18 I. 20 I. 20 X I. 17 I. 17 I. 20 I. 18 I. 16 I. 16 I. 19 I. 19 I. 16 I. 16 X I. 17 I. 15 I. I I I. I 0 I. I I I. 12 I
  • I I I. 09 I. 08 1.07 I. 05 I. 05 I. 06 I. 06 1.06 1.06 I. 06 CALLAWAY PLANT FIGURE 4.3-12 6274--6 1.06j Rev. OL-0 6/86 RODWISE POWER DISTRIBUTION IN A TYPICAL ASSEMBLY NEAR OF-LIFE, HOT FULL POWER, EQUILIBRIUM XENON; UNRODDED CORE

-0.98 0.98 0.99 0.98 1.00 1.03 0.99 1.02 I. 07 X 1.00 1.03 1.09 I. II 1.09 1.0 I 1.06 C>< I. II I. II 1.00 1.08 1.07 1.08 1.00 1.08 1.07 I. 08 1.0 I 1.06 C>< 1.09 I. 10 1.00 1.08 1.07 1.08 1.00 1.08 1.07 I. 08 1.0 I 1.06 C>< I. II I. II 1.00 1.03 1.09 I. II 1.09 0.99 1.02 1.07 C>< I. II 0.98 1.00 1.03 1.07 1.09 0.98 0.99 1.00 1.02 1.03 0.98 0.98 0.98 0.99 1.00 C>< I. 10 I. 08 1.10 1.08 1.08 X I. 10 I. 10 I. 10 I. 08 1.08 I. 10 I. 10 I. 08 1.08 I. 10 X I. 10 I. 10 C>< I. II I. 08 1.08 I. I 0 I. II I. 07 I .07 I. 09 C>< I. 08 I. 08 C>< I. 06 I. I. 06 I. 0 I 1.00 I. 00 I. 0 I 1.08 1.08 I. 10 I. 08 1.07 1.08 I. Ol+ I. 00 I. 08 I. 10 >< 1.08 I. II I. 09 I. 07 I. II I. II C>< 1.08 C>< 1.09 1.07 1.03 1.06 1.03 1.02 1.00 0.98 I. 00 I. 0 I 1.00 0.99 0.98 0.98 CALLAWAY PLANT FIGURE 4.3-13

0. 981 Rev. OL-0 6/86 RODWISE POWER DISTRIBUTION IN A TYPICAL ASSEMBLY NEAR LIFE, HOT FULL POWER, EQUILIBRIUM XENON;UNRODDEDCORE 0::: w 3:: 0 a... a w N _j <( ::::E 0::: 0 z: 13,557-17 2.Qr--------------------------------------------------, I. 5 1.0 0.5 0.0 0 0.1 p = D = AO = 0.2 r = I .c ,, = ) . I C' AO = -8. t I P = NORMALIZED POWER D = FRACTIONAL INSERTION OF BANK D AO = AXIAL OFFSET (PERCENT) 0.3 0.4 0.5 0.6 0.7 p = 0. 5 D = 0. I ;,() = 5.91 0.8 0.9 1.0 FRACTION OF ACTIVE CORE HEIGHT FROM BOTTOM CALLAWAY PLANT FIGURE 4.3-14 REV OL-13 05/03 TYPICAL AXIAL POWER SHAPES OCCURRING AT BEGINNING-OF-LIFE (CYCLE 1) 0:::: LJ..I 3:: 0 0.. 0 I..L.I N _J <( :::E 0:::: 0 z: 13,557-18 2.0 p :::: 0. 5 D ::: 0. 55 AO = -26.03 p 0. 5 I. 5 o 0.21 AO ::: 8. 20 1.0 P NORMALIZED POWER D FRACTIONAL INSERTION OF BANK D AO AXIAL OFFSET (PERCENT) 0.5 0.0 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 CALLAWAY PLANT FIGURE 4.3-15 REV OL-13 05/03 TYPICAL AXIAL POWER SHAPES OCCURRING AT MIDDLE-OF-LIFE (CYCLE 1) 0:: LLJ Cl.. 0 13.557-19 2.0 I .5 p = 0. 5 D = 0.62 A0=-25.7 0.5 0.61 6.59 1.0 ...J <t :::::E: 0::: 0 z: 0.5 P = NORMALIZED POWER D = FRACTIONAL INSERTION OF BANK D AO = AXIAL OFFSET (PERCENT) 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 CALLAWAY PLANT FIGURE 4.3-16 REV OL-13 05/03 TYPICAL AXIAL POWER SHAPES OCCURRING AT END-OF-LIFE (CYCLE 1)

I. 5 I .0 0::: w 0 0.... w > f-<l: _J w 0::: _J <l: >< <l: 0.5 0.0 CORE BOTTOM CORE AVfRAGE ADJACENI TO D BANK REMOVED FROM D BANK PERIPHEqAL LOW POWER ASSEMBLY CORE HEIGHT CORE TOP CALLAWAY PLANT Rev. OL-0 6/86 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 w s: 0 0.. >< N" 0 u. >< < ::!! 2.6 .--------------------,-----------------------------------------, 2.4 2.2 2 1.8 1.6 1.4 1.2 0.0 Fq Ht. (ft) 2.50 0.0 2.50 6.0 2.31 12.0 2.0 4.0 6.0 CORE HEIGHT (FT) 8.0 10.0 12.0 CALLAWAY PLANT FIGURE 4.3-21 HA X IMUM FoX POWER VERSUS A X IAL HEIGHT DURING NORMAL OPERATION REV. 14 10/09 0::: w 3 20.0 l5. 0 2i: 10.0 0::: ex: w z ....... _J :..! ex: w 0... 5.0 0.0 -50.0 0 c.Pcfj CD o --ooo o 0 -25.0 0.0 8555-74-25.0 50.0 FLUX DIFFERENCE CALLAWAY PLANT FIGURE 4.3-22 Rev. OL-0 6/86 PEAK LINEAR POWER DURING CONTROL ROD MALFUNCTION OVERPOWER TRANSIENTS

........ 1-1..1... -.........

0:: LIJ 3 0 c.. 0:: <( LIJ z: -....J :.::: <( LIJ c.. 20.0 15.0 10.0 5.0 0.0 -50.0 -25.0 8555-75 0.0 25.0 50.0 FLUX DIFFERENCE (61) CALLAWAY PLANT FIGURE 4.3-23 Rev. OL-0 6/86 PEAK LINEAR POWER DURING BORATION/DILUTION OVERPOWER TRANSIENTS 0.759 0.792 4.3 774 I. 255 0.800 I. 249 3.4% -0. 5;:{ I. 229 I. 225 -0, 3'c I. 109 I. 077 I. 107 1.092 -0.2/c* I. 4'1, I. 202 I. 223 I. 170 I. 256 -2.7fc 2. 7'/; 0.523 1. 217 I. 221 o. 548 I. 203 I. 233 4.6% I. I% t.or, '* 229 I. 189 -3. I. 217 I. 224 0. 6' I. 217 I. 211 -0.5;: I. 229 I. 218 -0.9'1 I. 229 I. 220 -0.7% -F z : FN Q I. 217 I. 210 CALCULATED

...___ MEASURED PEAKING FACTORS 1.5 1.357 2.07 REVOL-13 05/03 CALLAWAY PLANT FIGURE 4.3-24 COMPARISON BETWEEN TYPICAL CALCULATED AND MEASURED RELATIVE FUEL ASSEMBLY POWER DISTRIBUTION a:: UJ 3: 0 1.4-1.2 1.0 ::. 0.8 > I-< ....J UJ a:: ....J < >< < 0.6 0.4-0.2 0 BOTTOM 10 20 30 4-0 50 CORE AVERAGE FROM INCORE MAP AO = 2% ------60 70 BOL NO XENON POWER AT 70% BANK D 25% INSERTED 80 90 100 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 0 REACTOR V REACTOR 2

  • REACTOR 5 0 FQ e REACTOR 3 0 0 3.0
  • 0 * * \1 2.5 \1 \7;< o*
  • X 0 \1 0 *
  • X \1 X X * *o*
  • X X
  • ii.
  • xx 0 X *
  • 0 0 \1 'V5l_C>. 0
  • 0 oo *** 8
  • 0 Olo 0 <c. 9 ** X 1.5 ,e I *r 35 25 15 5 0 5 10 15 20 25 30 AXIAL OFFSET (%) Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 4.3-26 MEASURED VALUES OF FQ FOR FULL POWER ROD CONFIGURATIONS u... 0 -::::E <..:> c... <V 1-'1:> -a. '1:> 1-z: UJ <..:> u... u... UJ 0 <..:> UJ 0::: ::::> <( 0::: UJ a.. ::::E UJ I-0::: UJ ....I a.. a.. 0 Cl -I. 6 -I. 8 -2.0 -2.2

-2.6 500 13,557-20 600 700 800 900 I 000 II 00 1200 EFFECTIVE FUEL TEMPERATURE Teff (°F) CALLAWAY PLANT FIGURE 4.3-27 Rev. OL-0 6/86 TYPICAL DOPPLER TEMPERATURE COEFFICIENT AT BOL AND EOL, CYCLE 1 f-z: LJ..J----0::: (..) LJ..J u... 0 u... 0... LJ..J 0 f-(..) z: LJ..J 0::: (..) LJ..J 0:::

0 0... o....-::::E >-(..) --' 0.... z:-0 0. 0::: LJ..J-_J 0. 0.... 't:> 0.... 0 0 12 -16 0 13.557-21 20 60 80 I 00 POWER LEVEL (PERCENT OF FULL POWER) CALLAWAY PLANT FIGURE 4.3-28 Rev. OL-0 6/86 TYPICAL DOPPLER-ONLY POWER COEFFICIENT AT BOL AND EOL, CYCLE 1 0 :::E (..) 0... 0. -500 . I-(..) UJ u.. UJ 0 0::: UJ 3: 0 0... >-....I z: 0 0::: -1000 UJ ....I 0... 0... 0 0 -1500 0 13.557-22 20 40 60 80 I 00 POWER LEVEL (PERCENT OF FULL POWER) CALLAWAY PLANT FIGURE 4.3-29 Rev. OL-0 6/86 TYPICAL DOPPLER-ONLY POWER DEFECT AT BOL AND EOL, CYCLE 1 20 1..1.. 0 -c...> 10 1-'1:> -Q. "' 0 I-z: 1J.J c...> u.. -10 1..1.. 1J.J 0 c...> 1J.J 0::: ::I 1--20 <( 0::: 1J.J 1J.J 1-0::: -30 0 1-<( 0::: 1J.J c 0 -40 0 100 13,557-23 2000 PPM 200 300 400 500 600 MODERATOR TEMPERATURE (OF) CALLAWAY PLANT FIGURE 4.3-30 Rev. OL-0 6/86 TYPICAL MODERATOR TEMPERATURE COEFFICIENT AT BOL, CYCLE l, NO RODS u... 0 -:::E c.> 0.. -:::E f-"'0 -a. "'0 f-z: u..J c.> u... u... u..J 0 c.> u..J c:t:: ::::::> f-c:( c:t:: u..J 0.. % u..J f-c:t:: 0 f-c:( c:t:: u..J 0 0 % 20 10 0 20 40 -50 0 I 00 UNRODDED 200 300 400 500 600 MODERATOR

(°F) CALLAWAY PLANT FIGURE 4.3-31 Rev. OL-0 6/86 TYPICAL MODERATOR TEMPERATURE COEFFICIENT AT EOL, CYCLE 1 1...1.. 0 -:::E <:..:> Q.. :::E 1-a. -5 't:l <:..:> -10 1...1.. 1...1.. I..LJ 0 <:..:> I..LJ -15 1-<( oc I..LJ Q.. :::E I..LJ 1--20 oc 0 1-<( oc I..LJ 0 0 :::E -25 13,557-25 0 500 1000 1500 SOLUBLE BORON CONCENTRATION

{PPM) CALLAWAY PLANT FIGURE 4.3-32 Rev. OL-0 6/86 TYPICAL MODERATOR TEMPERATURE COEFFICIENT AS A FUNCTION OF BORON CONCENTRATION AT BOL, CYCLE 1, NO RODS LJ... 0 -u Q... 1--a. 1-:z: LJ.J u LJ... LJ... LJ.J 0 u LJ.J 0::: :::::1 1-<( 0::: LJ.J Q... LJ.J 1-0::: 0 1-<( 0::: LJ.J 0 0 0 10 20 30 ItO 0 5000 10000 15000 BURNUP (MWD/MTU)

CALLAWAY PLANT FIGURE 4.3-33 13.557-26 20000 REV OL-13 05/03 TYPICAL HOT FULL POWER TEMPERATURE COEFFICIENT DURING CYCLE 1 FOR THE CRITICAL BORON CONCENTRATION II+ I-0::: z:: LLJ (.)c... I.J...I---16 LJ... z:: LLJ LLJ 0 (.) (.) 0::: LLJ 0::: c... LLJ-3:::::e::

0 (.) -18 c... c... -_J <(C... I-l't) o-I-0.. l't) 22 I--1--I--I--0 13,557-27 l, /EOL 1 I J I 20 ItO 60 80 I 00 POWER LEVEL OF FULL POWER) CALLAWAY PLANT FIGURE 4.3-34 Rev. OL-0 6/86 TYPICAL TOTAL POWER COEFFICIENT AT BOL AND EOL, CYCLE 1 0 -500 (..) Q.. -1000 Q. . I-(..) LJ.J LL.. LJ.J 0 a::: u.J 0 Q.. -1500 .....J < 1-0 1--2000 -2500 0 20 13.557-28 ItO 60 80 I 00 POWER LEVEL (PERCENT FULL POWER) CALLAWAY PLANT FIGURE 4.3-35 REV. OL-7 5/94 TOTAL POWER DEFECT AT BOL AND EOL, CYCLE 1 13,557-29 R p N M L K J H G F E D c B A I I I I 180° I I SA B c B SA 2 so SB SB sc 3 SA D SE D SA sc so 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 so sc II SA D SE D SA 12 sc SB sB So 13 SA B c B SA Itt 15 00 CONTROL NUMBER SHUTDOWN NUMBER BANK OF RODS BANK OF RODS A It SA 8 B 8 SB 8 sc It so It c 8 D 5 TOTAL 25 SE It TOTAL 28 Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 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 ,....... 100 Vl w I 90 {) z '-' z 80 0 E 70 Vl 0 a. 60 50 40 30 20 10 0 0 0.4 0.8 1.2 1.6 2 OF TRAVEL (SECONDS)

THIMBLE DASHPOT 2.4 2.8 3.2 REV. OL-5 6/91 CALLAWAY PLANT FIGURE 4.3-38 DESIGN TRIP CURVE 1-0 1-0. -0. 1.0 0.5 0.0 100 50 ROD POSITION (PERCENT INSERTED)

CALLAWAY PLANT FIGURE 4.3-39 13.557-31 0 Rev. OL*O 6/86 TYPICAL NORMALIZED ROD WORTH VERSUS PERCENT INSERTION, ALL RODS OUT BUT ONE 5

0 ........ !it: -5 LLJ (..) or:: LLJ -==--10 1-LLJ (/) LL. -15 LL. 0 _J <C >< -20 <C ;..25 CURVE I CURVE I 2 BURN UP (MWD/MTU) 1550 7700 PERIOD (HOURS) 32.lJ. 27.2 STABILITY INDEX {HOURS-I) -O.OlJ.I -O.OilJ. -30 0 32 36 4-0 TIME (HOURS) CALLAWAY PLANT FIGURE 4.3-40 72 Rev. OL-0 6/86 AXIAL OFFSET VERSUS TIME, PWR CORE WITH A 12 FOOT HEIGHT AND 121 ASSEMBLIES

...--.. :::::1'" 1-z: < a:: 0 < ;::) 0" N 1-z: < a:: 0 < ;::) 0" LJ.J (...) z: LJ.J a:: LJ.J LL.. LL.. 0 1--I 1-1-z: < a:: 0 < ;::) 0" 10 8 6 2 0 -6 10 16 0 STABILITY INDEX= -0.076 (HR.-I) RCC E-ll 8 12 16 20 28 32 36 52 56 60 HOURS AFTER WITHDRAWAL OF RCC E-1 I CALLAWAY PLANT FIGURE 4.3-41 Rev. OL-0 6/86 X-Y XENON TEST THERMOCOUPLE RESPONSE QUADRANT TILT DIFFERENCE VERSUS TIME

-60.0 -50.0 c.. E'

(.) 0. 1-:z: UJ u -30.0 LL. LL. UJ 0 u ffi -20.0 ....J "-0... 0 0 -10.0 0 0 10 0 CONTROL BANK COMPENSATION BORON COMP EN SAT I ON ---EXPERIMENT

---CALCULATION 20 30 40 50 60 PERCENT OF FULL POWER

-2200 -2000 -1800 E' (.) 0. -1600 ::-u UJ -I t!:i 0 -1200 ec:: UJ ....J 0... 0... -1000 0 0 ....J -800 < ec:: <.!) UJ -600 1-:z:

-200 0 70 80 90 100 Rev. OL-0 6/86 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.

5/06 CALLAWAY -SP Figure 4.4-2 Deleted. Rev. OL-1 6/87 N-t:: 1 .2 a: J: 1.1 ' ::I 1-1.0 X ::I it 0.9 1-0.8 ..J (.) 0.7 E a: (.) 0.6 0 w a: 0.5 ::I (fJ w 0.4 :E (fJ 0.3 :E Iii"' 0.2 0 .... ' u. 0.1 E: 0 0 0.1 0 14-A-20766-180 0.2 0.3 0.4 0.5 0.6 0.7 95/95*

  • 95% OF DATA WILL FALL ABOVE THIS LINE WITH 95% CONFIDENCE.

0.8 0.9 1.0 + + 1.1 1.2 (q"CHF/106)

PREDICTED CRITICAL HEAT FLUX (BTU/HR-FT2)

CALLAWAY PLANT FIGURE 4.4-2a Rev. OL-1 6/87 MEASURED VERSUS PREDICTED CRITICAL HEAT FLUX* WRB-1 CORRELATION 1.3 1.10 1.00 -N t: 0.90 I a: X ....... ;:) 0.80 ti -;:) 0.70 -' ..... .... cC w 0.60 X -.1. u -.... 0.50 ..... a: u c 0.40 ""' a: ;:) en cC 0.30 w :E . 0.20

..... * '*951 of data w111--t----t fall above this line with 951 "&... 0.10 confidence.

X zu CT -

..

..

.. 0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 (QCHF/10 6 ,,.'RED, PREPICTED CRITICAL HEAT FLUX (8TU/HR-FT

2) 1.00 1.10 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. OL-1 6/87

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 i-0.08 1--0.06 0.04 t-0.02 i-0 I 0 1.0 0 I I 2.0 3.0 I 4.0 G De Re=}L (lo-5) I 5.0 LEGEND: 0 26" SPACING I -PHASE 0 26" SPACING 2-PHASE 0 0 0 I I 6.0 7.0 8.0 CALLAWAY PLANT FIGURE 4.4-4 Rev. OL-0 6/86 TDC VERSUS REYNOLDS NUMBER FOR 26 INCH GRID SPACING 9 1.029 1.001 l 10 I I I l.l53 1.000 J 1. Iss I .000 J 12 1.223 I .000 I J 13 I. 126 I .001 J I 14 1.025 I 15 0.717 0.999 014-A-20766-181 G F E 0 --------c --:-B A KEY: -r--.6.h/.6.h G/G DDDDDD [;]DDDDD [;][;]DODD

§§ FOR RADIAL POWER DISTRIBUTION NEAR BEGINNING OF LIFE. HOT FULL POWER, EQUILIBRIUM XENON CALCUAL TEO = l . 34 (CYCLE l ONLY) CALLAWAY PLANT Rev. Ol-1 6/87 FIGURE 4.4-5 NORMAliZED RADIAl FLOW AND ENTHALPY DISTRIBUTION AT 4 FOOT ELEVATION H G F E 0 c B A

__ 8 0.996 -f--f--f--f--f-------KEY: --l:.h/b.h G/G 1 9 1.026 1.002 L I I. 155 I O 0.991 I I I I. 169 0.990 1 12 1.228 0.985 1 13 I. 129 0.992 L I 14 1.024 1.900 I o.-715 15 1.022 014-A-20766-182

§DDDDDD §§DDDDD FOR RADIAL POWER DISTRIBUTION NEAR BEGINNING OF LIFE. HOT FULL POWER, EQUILIBRIUM XENON N CALCUAL TED F L'.lH = I . 34 (CYCLE I ONLY) CALLAWAY PLANT Rev. OL-1 6/87 FIGURE 4.4-6 NORMALIZED RADIAL FLOW AND ENTHALPY DISTRIBUTION AT 8 FOOT ELEVATION ct_J H ct_ I _I. 0971--1-B o.T95 I I. l57 10 o.r91 I I I I. ;70 0.990 I I 1.231 12 0.987 I I I. ;30 13 o.r93 I 14 1.023 I 15 0. 711 1.016 014-A-20766-183 G F E 0 ---r-c B -r-r-A KEY: --L'.h/ L'.h G/G DDDDDD §DDDDD

§§§DO

[;][§ FOR RADIAL POWER DISTRIBUTION NEAR BEGINNING OF LIFE. HOT FULL POWER, EQUILIBRIUM XENON CALCUAL TEO = I . 34 (CYCLE I ONLY) CALLAWAY PLANT Rev. OL-1 6/87 FIGURE 4.4-7 NORMALIZED RADIAL FLOW AND ENTHALPY DISTRIBUTION AT 12 FOOT ELEVATION-CORE EXIT CALLAWAY -SP Figure 4.4-8 Deleted REV.

5/06 0.07 () 0 I () "-3: t:. > 1-LEGEND: PERCENT PERCENT 0 u THEORETICAL THEORETICAL 0.06 \* DENSITY DENSITY 0 GYLLANDER 96.4 0 HOWARD & GULVIN 96.0

  • ASAMOTO 95.0
  • LUCKS & DEEM*** 96.5 \o 0 GODFREY 93.4 ()DANIEL ET Al. 96.5 0.05 A STORA 92.2
  • FEITH 97.9 0 0 A.D. BUSH 94.4 0 VOGT ET AL. 97.0 <>,t
  • ASAMOTO 91 .. 0 6. NISHIJIMA 95.0 0 \ 'V KRUGER 93.7 '9' WHEELER & 97.0 > 1-(.) :::> 0 2 0 () ...I -1 <( :r (') -<D a:
t> w :r ..... w "'-:; r-:X: (DOl_ H r GJ :t> <D 0 0 c
J " nroa. tTl :t> Ill () c -.... () ""' -<

<D < , :J ,... ;:;: ""' (1)0-< I r-0.04 g't AINSCHOUGH o't SEE REFERENCES FOR THERMAL-HYDRAULIC SECTION 6. 0.03 0

  • o' o*
  • t
  • 6.

co 0 t 0 0.02 6. ...

  • rl. (.0 0 1.0 :t> $01-Cf<C z 0 -4 0.01 0 400 2800 3200 800 2000 2400 1200 1600 N en ::a ....... (]) TEMPERATURE (T), °C 0 r 6 620 610 600 LL 590 0 w 580 0::: 1-<{ 570 0::: w Cl. 2: w 560 1-550 540 530 0 20 0 14-A-20766-184 TcOLD (556.8) 40 60 80 100 PERCENT POWER CALLAWAY PLANT FIGURE 4.4-10 REV. OL-15 5/06 REACTOR COOLANT SYSTEM TEMPERATURE-PERCENT POWER MAP 0 H f-<( a: rlJ z 0 :L :::.) :L H z H :L I .8 BOL I +5 ... , I. 7 , .. 5 FOL I +5 ,..., I .6 0 0 I .5 0 d>o o 0 o 0 0 0 0 0 I. 4 <co I .3 I . 55 COSINE tl I .2 10 0 10 AXIAL OFFSET (PERCENT)

Rev. OL-1 6/87 CALLAWAY PLANT FIGURE 4.4-11 100% POWER SHAPES EVALUATED AT CONDITIONS REPRESENTATIVE OF LOSS OF FLOW, ALL SHAPES EVALUATED WITH FNAH = 1.55 014-A-20766-185 (CYLE 1 ONLY)

CALLAWAY -SP figure 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. OL.,..l 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 2 3 4-D T T D T T D D T T T D D D D T T D T T TO TD D 13,'i57-32 5 6 7 8 9 10 II 12 13 14-15 I I I I I I I 270° I T T D T D A D D D B D T D TO T T T c D D D D D D T T D T D T T E D D D F D T T D T TD T --G D D D TD -oo-H T D TO TD T TD J D I) --K D T TD TO D T D 1 D --L D TO TO T T D TD D p TD TO T D R T = THERMOCOUPLE (50 LOCATIONS)

D = MOVABLE INCORE DETECTOR (58 LOCATIONS)

CALLAWAY PLANT FIGURE 4.4-21 DISTRIBUTION OF INCORE INSTRUMENTA'riON Rev. OL-0 6/86

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