Rev 11 to Callaway Cycle 9 Colr

ML20203M010
Person / Time
Site:	Callaway
Issue date:	02/25/1998
From:	UNION ELECTRIC CO.
To:
Shared Package
ML20203M008	List: ML20203M010 ULNRC-03752, Forwards Rev 11 to Callaway Cycle 9 COLR, Providing Updated Modified Rod Insertion Limits for Cycle 9.Rept Submitted Per TS 6.9.1.9
References
NUDOCS 9803060353
Download: ML20203M010 (26)
v • d • e

Text

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.o Calbwsy Cycle 9 Ret i1 CALLAWAY CYCLE 9 i

i

- CORE OPERATING LIMITS REPORT February 25,1998 F

9903060353 990302 PDR ADOCK 0$000403 P

PDR 3

e Cat'laway Cycle 9 Ret 11 1.0 CORE OPERATING LIMITS REPORT This Core Operating Limits Repon (COLR) for Callaway Plant Cycle 9 has been prepared in l

accordance with the requirements of Technical Specification 6.9.1.9.

The Core Operating Limits affecting the following Technical Specifications are included in 1

this repon.

3.1.1.3 Mooerator Temperature Coemeient 3.1.3.5 Shutdown Rod insenion Limits 3.1.3.6 Control Rod insenion Limits 3.2.1 Axial Flux Difference

+

3.2.2 Heat Flux Hot Channel Factor 3.2.3 Nuclear Enthalpy Rise Hot Channel Factor 1

4 3.9.1 Refueling Boron Concentration 1

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CaMaway Cycle 9 Ret 11 l

2.0 OPFRATTNG LIMITS The cycle specific parameter limits for the specifications listed in Section 1.0 are presented in the subsections which follow. These limits have been developed using the NRC approsed methodologies specified in Technical Specification 6.9.1.9.

2.1 Moderator Temocrature Coefficient (Specification 3.1.1.3) 2.1.1 The Moderator Temperature Coefficient shall be less positive than the limits shown in Figure 1. These limits shall be referred to as the Beginning of Cycle Life (BOL) Limit.

The Moderator Temperature Coeflicient shall be less negative than 47.9 pcm/'F, This limit shall be referred to as the End of Cycle Life (EOL) Limit.

2.1.2 The MTC 300 ppm surveillance limit is 40.4 pcm/'F lall rods withdrawn, Rated Thennal Power condition).

4

Callaway Cycle 9 Ret 1 l 7

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10 20 30 40 50 60 70 80 90 100 PERCENT OF RATED THERMAL POWER Figure 1 Callaway Cycle 9 Moderator Temperature Coefficient Versus Power Level 5

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0 Calbway Cycle 9 Ret 11 2.2 Shutdown Rod Insertion Limits (Specification 3.1.3.5)

The shutdowri rods shall be withdrawn to at least 225 steps.

2.3 Control Rod insenion Limits (Specification 3.1.3.6)

The Control Bank Insertion Limits are specified by Figttre 2.

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0 Callawmy C)cle e Res 1I 225 ___(33.77,225)j,/

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0 10 20 30 40 50 60 70 80 90 100 PERCENT OF RATED THERMAL POWER Figure 2 Callaway Cycle 9 Rod Bank Insertion Limits Versus Rated Thermal Power - Four Loop Operation 7

.c Callaway Cycle 9 Rn. I1 l

2.4 Axial Flux Difference I

(Specification 3.2.1) 2.4.1 The Axial Flux Difference (AFD) Limits are provided in Figure 3.

f 2.4.2 The target band during Restricted AFD Operation is +3%.

The AFD limits provided in Figure 3 also remain applicable during Restricted AFD Operation.

2A.3 The minimum allowable power level for Restricted AFD Operation. APL'D. is 90% of RATED THERMAL POWER.

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90 OPERATION I OPERATION g 'j \\ s 1 80 7 ACCEPTABLE ( / OPERATION \\ 70 [ t l \\ I 1 60 r t r i I \\ g 1 O 50 u --~i ( 30, 50%) l (+26, 50%) F-- g 40 m 30 20 10 0 I 50 40 30 20 10 0 10 20 30 40 50 AXIAL FLUX DIFFERENCE (% 6I) Figure 3 Callaway Cycle 9 Axial Flux Difference Limits as a Function of Rated Thermal Power for RAOC 9

Callaway Cycle 9 Ret Ii 2.5 liest Flux liot Chanr,el Factor Fo(Z) (Specification 3.2.2) p air F (Z) 5

• K(Z) for P > 0.5 n

P p air F (Z)5

• K(Z) for P 5 0.5 n

0.5 TIIERMAL POWER where: P= RATED Ti{ERMAL POWER 2.5.1 Fn'" = 2.50 2.5.2 K(Z) is provided in Figure 4. 2.5.3 The W(z) functions that are to be used in Technical Specifications 4.2.2.2,4.2.2.3, and 4.2.2.4 for Fn surveillance are shown in Figures 5 through 17. The Normal Operation W(z) values have been determined for several burnups up to 18000 MWDSITU in Cycle 9. This permits determination of W(z) at any cycle bumup up to 18000 MWDS{TU through the use of three point interpolation. For cycle bumups greater than 18000 MWD /MTU, use of 18000 MWD /MRJ W(z) values without interpolation or extrapolation is conservative. The W(z),, values j were determined assuming Cycle 9 operates with RAOC strategy. Also included is a W(z),, function that bounds the W(z),, Curve for all Cycle 9 bumups. Use of the bounding W(z),, curve will be conservative for any Cycle 9 bumup; however, additional margin may be gained by using the bumup dependent W(z),, values. The Normal Operation W(z) values have also been determined for a range of measured axial offset values for Cycle 9. For measured axial offset values within 13% of tle predicted axial offset value, Figures 5 through 9 are applicable. Additional W(z) values are provided in Figures 10 through 13 applicable to measured axial offsets within t3% of a measured predicted axial offset difference of 10.3%. Figures 14 through 17 provide W(z) values appheable to measured axial offsets within 13% of a measured predicted axial offset difference of 14.0%. For purposes of bumup interpolation, a consistent set of W(z) values should be used based on the difference between the measured and predicted axial offset. The W(z) set selected could be either the set closest to the actual measured-predicted axial offset ditTerence or a consistent set derived by linear interpolation on the measured predicted axial offset difference between two of the W(z) sets closest to the actual measured-predicted axial ofTset difference. 10

Caljaway Cycle 9 Ret li Because significant margin exists between the analytically determined maumum F (z)*P,,, values and their limit, Restricted Axial Flux Difference Operation n (RAFDO) is not expected to be required for Cycle 9. For this reason, no W(z) values are supplied for Cycle 9. The W(z) values are provided for 73 axial points within the core height boundaries of 0 and 12 feet at intervals of.167 feet. Table A.1 shows the burnup dependent F penalty factors for Cycle 9. These o values shall be used to increase Fo"(r) when required by Technical Specification Surveillance Requirement 4.2.2.2.e. A 2% penalty factor should be used at all cycle bumups that are outside the range of Table A.I. t I i i1

Callaway Cycle 9 Ret 11 TABLE A.I Fn PENALTY FACTORS AS A FUNCTION OF CYCLE BURNUP Cycle Burnup (MWD /MTU) F "(z) Penalty Factor (%) o 494 2.29 '666 -2.54 838 3.12 1010 3.56 1182 3.19 1354 2.92 1526 2.70 1697 2.51 1869 2.29 2041 2.06 3761 2.15 3933 2.63 _ _ 4105 3.07 4277 3.48 4449 3.88 4620 4.23 4792 4.41 4964 4.30 5136 4.08 5308 3.77 5480 3.40 5652 2.99 5824 2.$2 5996 2.09 Note: All cycle burnups outside the range of the above table shall use a 2% penalty factor for compliance with the 4.2.2.2.e Surveillance Requirement. Linear interpolation should be used for intennediate cycle burnups. j a 12-i

_=._-. .o Cellaway Cycle 9 Res i1 2.6 Nuclear Enthalov Rise flot Channel Factor F n' i (Specification 3.2.3) F n' 5 F a"" [l + PF nd M i 3 3 TIIERMAL PO%TR where: P = RATED TliERMAL POWER 2.6.1 F n"t'= 1.59 3 2.6.2 PF a = 0.3 3 2.7 Refueline floron Concentration (Specification 3.9.1) 2.7.1 The refueling boron concentration to maintain K,,5 0.9$ shall be > 2000 ppm. 13

_ _ _ _ _...~. 0 Callau ay Cycle 9 Rn ii 1.20 1 1 i ii i ,i . 4 ii. i i >i 1 I i i i I I 1.10 il l l l,,, ,i i,, i i 1 i i i (6, 1.00) I L i i, i T l 1 i ! I i i I, <i i . i 1.00 i.' 1 i __ < i i i c i i !. iiii it l N

==C I I ! { '. ' 0.90 (12,.924) l 3- 0.80 E 4 a .70 w0 s I 0.60, g 0.50 -w 0.40 0.30 O 20 0.10 0.00 i i 0 1 2 3 4 5 6 7 8 9 10 11 12 CORE HEIGHT (FEET) Figure 4 Callaway Cycle 9 K(z) Normalized Fo(z) As a Function of Core Height 14

0 Callaw ay Cple 9 Res i 1 e Mt!3NT ll, 1.60 l ll ll lll l ll lll irtttt sti

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1,. . 3 I I 1.833 1.3134 3.000 1.3913 3.147 1.369s 3.333 1.3443 3.$00 1.3310 3.661 1.3093 3.833 1.1999 3.000 1.1903 3.141 1.1943 1.4C 3.333 1.1?? 1,1.,3, 3,300 3.667 1.1636 J.033 1.1614 4.000 1.1500 4.14? 1.1540 4.333 1.1109 4.900 1.1461 4.44? 1.1407 4.833 1.1340 ^ 6 t4 S.000 1.1301 1.3L 9.167 1.1313 l.333 1.1137 l.500 1.1043 a S.667 1.1003 S.433 1.1084 6.000 1.1130 4 A 4.147 1.1191 6.333 1.1360 6.500 1.1339 a <6 6.661 1.3406 6 6 4.833 1.1473 1*2C D ' '. '181 2'.1881 l 6 1 1 1579 ' 'a 7.333 1.1618 a a 1.500 1.1644 "n aa,,AA.. i n ?.661 1.1460 'a i ,8~ " a,E 1.933 1.1644 0 y, 8.000 1.1640 4,, 8.167 1.1634 b, _ a 0.333 1.1638 -A 8.500 1.1637 1.1C 0.6,41

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• 10.333 1.0000
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• 10.66 1.0000 0

1 2 3 4 5 6 7 8 9 10 11 12 8 10.333 1.0000 BOTTOM TOP !!'N' l-lU' CORE HEIGHT (FEET) 11:333 1;c000

• 11.500 1,0000
• 11.647 1.0000
• 11.033 1.0000
• 13.000 1.0000 Figure 5 Callaway Cycle 9 W(z)no at 150 MWD /MTU
• Top and bottom 15% exduded as per Tech Spec 4.2.2.2G 15

Callawmy Cycle 9 R es l1

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• 10.333 1.0000
• 10.50,0 1.0000 1. 0 ( _ _.. _ _

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• 11.00,0 1.0000

, 11,16 1.0000 CORE HEIGHT (FEET)

11. 3 H 1.0000

• 11.600 1.0000
• 11.467 1.0000 4

e 11.033 1.0000

• 13.000 1.0000 Figure 6 4

Callaway Cycle 9 W(z)no at 3000 MWD /MTU

• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G l

16

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1.0 00 I I I ! I I 1.033 1.3143 3.000 1.3404 1 3.167 1.3343 3.333 1.3076 3.500 1.3907 3.467 1.3736 3.433 1.3567 3.000 1.3635 3.147 1.3343 1.4C 3.333 1.3331 3.500 t.3les 3.667 1.2360

3. 0 *,3 1.2319 4.000 1.2170 A

4.167 1.3141 4.333 1.213e 4.900 1.2061 4.647 1.2010 a 4.833 1.1943 a t4 A 5.000 1.1896 1.3C l,.167 1.1033 w ,3n 1,17,e 5.500 1.1701 A S.667 1.1663 A l.g33 1.1700 A 1 6.000 1.1760 i. 6.167 1.1838 6.333 1.1870 A6" 6 --~~ A 4.$00 1.1937 i 6.647 1.1973 A 6.033 1.3000 ra - ^^. 1.2C i 7.000 1.30)1 A a-go 7.167 1.2041 ii. 3 x 7.333 1.3037 a i, A A 7.500 1.3017 O 4 h g a,, A 7.647 1.1984 7.033 1.1934 9.000 1.1064 9.147 1.1794 4.333 1.1753 0.500 1.1701 0.447 1.1643 g,gg

4. 0 H 1.1608 9.000 1.1631 9.167 1.1666 9.333 1.1738 9.500 1.1890 4

9.667 1.2115 9.033 1.2314 10.000 1.3501 10.167 1.3481 e

• 10. 3 H 1.0000 II
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. _ 2 3 4 5 6 7 8 9 10_. . _ _.12 . lo.in 1.0000 . t0 t.0000 O 1 11 CORE HEIGHT (FEET)

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l:'llll BOTTOM TOP 11 n3 1 0000

• 11.500 1.0000
• 11.667 1.0000
• 11.433 1.0000
• 13.000 1.0000 Figure 7 Callaway Cycle 9 W(z)no at 10000 MWD /MTU
• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 17

Callaw ay C)de 9 Ret!! Mt!3NT. 10000. 2.0c"i i i ~*' !i-iii

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1. 3 t n 4.500 t.3565 4.667 1.3887 6.033 1.2549 7.000 1.3570 1.167 1.3l34 o

4 1.3C 1.333 1.3 4n ' i 1.500

1. 403 g

7.667 1.3300 34neoii6 7.033 1.3194 a i g,..* Mra g@ . 4. 9.167 1.1913 4.000 1.3083 6 A6 a-2 ~ .u T e.333 1.t:0s 1.2C ~ q a"0-4.500 1.1734 f. a..i 9.667 1.1731 "A 0.833 1.1793 9.000 1.1016 9.167 1.1836 9.333 1.1954 g*gg 9.500 1.1166 ~~ l 9.667 1.1999 + 9.033 1.2004 10.000 1.3131 10.167 1.3303

• 10.n3 1.0000
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• 10.667 0

1 11

• 11.000 1.0000 BOTTOM TOP
• 11.167 1.0000 CORE HEIGHT (FEET)
• tt.sn 1.0000
• 11.500 1.0000
• 11.667 1.0000
• 11.933 1.0000
• 13.000 1.0000 Figure 8 Callaway Cycle 9 W(z)no at 18000 MWD /MTU
• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 18

_, - _ _.~ _ _ _ _ _ _. _.

e. 4 Callaway Cgle 9 Rev i! s E!!3HT MAX 1.60 i 'rr m witi + l l l l l l l

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• 4.161 1.3000 l

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' O.100 1 0000 l l

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• 1.147 1.0000 l

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1.5C ' 1.100 1.0000 1.44, 1.0000 l 1.033 1.4004 3.000 1.3?ls 3.367 1.3504

l 3.333 1.3353 3.500 1.3990 3.667 1.3751 3.833 1.2546 3.000 1.2478 3.167 1.3309 4

1.4C 3. 3,3,3 1.33,3,1 3,, 3,33 1 3.661 1.2393 j 3.933 1.3304 4.000 1.3333 4.167 1.2347 A 4.333 1.3381 4.500 1.3405 4.647 1.3414 0 4.833 1.3410 U"' 1.3C l.000 1.3397 5.161 1.33tt 6.333 1.3363 I 5.600 1.3343 A l.647 1.3339 0 9.433 1.3371 ~_ u gai""d ia 6.000 1.3434 ,,0 4 4.161 1.3493 ii i 6.333 1.3533 u n-- - - '.na'6 " l Anagi,a A 6.500 1.3565 ] e 6.66? 1.2887 A 6.033 1.2540 1.2C 1 85 A T.167 1.2534 0o

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7.333 1.2478 ^ .06 7.500 1.3403 7.667 1.3308 T.833 1.2194 8.000 1.305) 0.167 1.1913 8.333 1.1800 9.500 1.1734 0.667 1.1131 1.1C s.e33 1.tt:3 1 9.000 1.1916 I 9.161 1.1836 9.333 1.1956 9.800 1.1990 9.667 1.2115 9.833 1.2314 10.000 1.3501 10.167 1.3641

• 10.333 1.0000 1.00.

. _ 2 3 4 5 6 7 8 9 10 _.. _ _. _ _ _ _.12 . lo.e33 1.00,o

• 2,,',",

2 ", ", . go 3,,, 0 1 11 ON CORE HEIGHT (FEET) f e 11.500 1.0000

• 11.647 1.0000 e 11.833 1.0000
• 13.000 1.0000 3

Figure 9 Callaway Cycle 9 Bounding W(z)n,

• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 19

Callaw ay Cycle 9 Res. Ii us!Sn? 153.

• 2,00 irtR7) will I

!I e 0.300 1.;000 I i 1 !t I I I

• 0.14?

1.3300 j } j j i i

• 0.333 1.;000
• 0.l00 t.0000

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• 0.661 1.0000 1.9C 0. 0,3,3 1.2c00

.i 3,, 3.33;, [

• 1.167 1.0000
• 1.333 1.0000
• 1.100 1.0000 f
• 1.667 1.0000 i

i 1.933 1.3011 1.0C 3.000 1.1467 3.167 1.1631 3.333 1.1407 3.$00 1.119e 3.647 1.1043 3.033 1.0950 g*7g 3.000 1.0887 3.167 1.0043 3.333 1.0773 3.500 1.0717

3. 6 4'#

1.0694 3.033 1.0614 6 4.000 1.06,4 186C 4.167 1.0339 4.333 1.0lD3 4.500 1.0540 4.667 1.0533 3 4.933 1.0473 S.000 1.0433 g 1.5C l.147 1.0399 5.333 1.0374 g g 5.500 1.0343 S.647 1.0347 S.033 1.0418 3 i i 6.000 1.0599 6.167 1.0730 1.4C n 6.333 1.0043 ^ 4.800 1.0964 6.667 1.1099 n 6.833 1.1363 e 7.000 1.1459 1.167 1.1713 A g*3g 7.333 1.1984 1.500 1.3193 7.667 1.3333 7.033 1.2513 0 P.000 1.3761 A 8.167 1.3059 1.2C O.333, a 1.3380 e.30 1.3 4.667 1.3039 A i t.033 1.3960 1 9.000 1.4133 I 9.167 1.4363 a 9.333 3,4,6631.4,, "x A 1.1C ,, loo n ^ ^ 9.667 1.5303 O $.$33 1.56)7 046dlA 10.000 1.5907 " HA6' ^ 4 10.167 1.4007 una

• 10.333 1.0000
• 28 H' 1 8888 1.00
• 1.66 e 11.000 1.e000 so m u m

cog,y,1,37 (,,,73

• 11.500 1.0000
• 11.667 1.0000
• 11.633 1.0000
• 13.000 1.0000 Figure 10 Callaway Cycle 9 W(z)no t 150 MWD /MTU a

Measured-Predicted Axial Offset = -10.3%

• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 20

Callaway Cycle 9 Res !I 2 ,e M8t3Mt 3000. 2.0C-i ii i i ..i iranti vi:> ' O.000 1.0000 I j j! j j jji ' O.167 1.0000

0. m 1.0000 li 1 1

• 0.500 1.0000

' O.667 1.0000 i ii i li iii iei i i 1.9C

• 0.e33 1.0000 I

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• 1.000 1.0000 l
• 1.167 1.0000

1. m 1.0000

• 1.500 1.0000

' 1.667 1.0000 i i i i i i

1. m 1.3:e6 1*gc

~~~" e i i i 2.000 1.3463 3.167 1.3374 3.333 1.2110 3.500 1.1856 3.667 1.1647 3.033 1.1506 1.7C 3.000 1.1413 3.167 1.1343 3.333 1.1344 3.600 1.1181 3.667 1.1190 3.833 1.1138 1.6C 4. 0,0,0 1.1106 .,3 i,3es, 4.333 1.0979 4.$00 1.0929 4.667 1.0863 4.933 1.0791 g g a 5.000 1.0735 1.5C 5.157 1.0667 a l.333 1.0610 g i 9.$00 1.0560 u S.667 1.0854 1.033 1 0637 0 6.000 1.0734 6.167 1.0039 1*40 s 4.333 1.0919 4 6.800 1.100$ 6.667 1.1106 6.833 1.1339 7.000 1.1411 g 7.167 1.1641 1.3C ' 823 1 18'? a a 7.500 1.2011 7.667 1.2170 7.033 1.3333 8.000 1.3596 4 0.167 1.3938 a f 6.333 1.3343 1.2C e,500 1.3563 8.447 1.3793 ^ ^ 8.83J 1.3945 a 9.000 1.6103 a 9.167 1.4313 ^ naa 9.333 1.4583 '^ a 1 ? 1*1C N ~ 9.647 1.5140 9.033 1.5399 ii ,, O i i na 10.000 1.5650 10.167 1.5454

• 10.333 1.0000
• 2'

2 "" 1. O C..... __i..._...._,. i

• 10.667 1.0000 0

1 2 3 4 5 6 7 8 9 10 11 12 10.s33 1.0000

• 11.000 1 0000 BOTTOM TOP 11.167 1.0000 CORE HEIGHT (FEET)

11. m 1.0000

• 11.500 1.0000
• 11.667 1.0000
• 11.833 1.0000
• 13.000 1.0000 Figure 11 Callaway Cycle 9 W(z)no at 3000 MWD /MTU Measured Predicted Axial Offset = -10.3%
• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 21

a Callaway Cycle 9 Rev.IL uttsnt 10000. 2.00 Jj! i i i !i CE'

373,

!I i i !I i 0.14, t 0000 !i i i

• 9.333 1.0000 jj j

j

• 0.l00 1.0000
• 0.461 1.0000 i

I 1.9C 3,,,3 3 1.0,,0,00 0.e, g, i

• 1.161 1.0000
• 1.333 1.0000
• 1.500 1.0000
• 1.461 1.0000 i

1.033 1.2400 1.8C 4 3.000 1.33:1 2.167 1.2134 3.333 1.1949 1.500 1.1100 3.647 1.1630 2.833 1.1499 g,7g 3.000 1.1369 3.167 1.1300 3.333 1.1276 3.500 1.1269 3.667 1.1217 0 3.033 1.1341 1.6C 4.000 1.1314 6 4.167 1.11 4 4.333 1.1143 4.500 1.1110 e 4.641 1.1085 4.833 1.1041 N. 9.000 1.1000 . 5C 5 6,.167 1.0,,97,4 ,333 3, 3 3 l.500 1.0919 l.441 1.0909 5.033 1.1090 6.000 1.1309 1.4C 3 6.167 1.1337 3 6.333 1.1429 g 6.500 1.1533 6.667 1.1650 6 4.433 1.1709 t.000 1.1996 7.167 1.3179 g,3g 1.333 1.2416 ?.500 1.1583 3 7.467 1.2666 o 6 1.933 1.2004 i 8.000 1.2999 0.167 1.3339 4 1.2C 8.333 1.3514 a o s.500 1.3143 ~~ o 8.647 1.3904 ^ 0.033 1.4045 a n 9.000 1.4334 i i >33 A 9.161 1.4431 9.333 1.4471 haa a g,gg 9.900 1.5043 9.467 1.5534 9.933 1.1924 10.000 1.4106 10.161 1.6334

• 10.333 1.0000 1.00~ - - - - - - - - - 2 3

4 5 6 7 8 9 10_.. _ _. _ _.. _ _.12

• 2 'o ' ', ",

1 ", o "o, 0 1 11 .g,, t, 10.e33 1.0000 BON

• 11.000 1.0000 CORE HEIGHT (FEET)
• ll:}U 1:00
• 11.500 1.0000
• 11.467 1.0000
• 11.033 1.0000
• 13.000 1.0000 Figure 12 Callaway Cycle 9 W(z)no at ".0000 MWD /MTU Measured-Predicted Axial Offset = 10.3%

' Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 22 +

Callaway Cycle 9 Ro 11 e x 13N7 18000. 2.00 irt 7s witt i ,i ti t I .{

i ji!

4,. 0,0,0 1.0000 ,3 3,ne, ij e 0.333 1.0000 l l l !f

• 9.100 1.0000 e 0.867 1.0000 i

i iii ii iii g,gg

• 0.e33 1.0000
• 1.000 1.0000 1
• 1.161 1.3000
• 1.333 1.0000 i
• 1.500 1.0000 l
• 1.647 1.0000 j

1.933 1.2043 g,gg 3.000 1.1913 3.167 1.1999 3.333 1.1406 3.500 1.1410 3.641 1.1347 2.033 1.1330 1.7C 3.000 1.1180 3.ut

1. u u 3.333 1.1177 3.500 1.1330 3.647 1.1377 3.933 1.1319 4.000 1.1351 1.6C 4.333 1.1396

,A 4.500 1.1430 4.647 1.1441 d

4. e u 1.1453 m

5.000 1.1464 t4 I 1.5C l.167 1.1401 S.3,33 +- 1.1515 ,, 00 1.15i9 i 5.647 1.1436 S.833 1.1130 A 6.000 1.1953 6.147 1.1966 1.4C 6.3n 1.3059 3-6.800 1.3149 6.447 1.2340 a 4.833 1.3350 a 7.000 1.3493 .6,, 7.161 1.2479 1.3C 3"- 7.333 1.241,1 3,3,, 6 7.467 1.3000 1.033 1.3001 n' 8.000 1.330$ ^ 0.147 1.3372 l 0 1.2C 0.33,3 1.3,579 a A o 3,3 n u 0.647 1.3997 a A ^ i 6.933 1.4359 o j 9.000 1.4443 maad'"" 9.147 1.4439 (Dian 9.333 1.4831 1.1C 9.500 1.iO33 9.667 1.l339 9.033 1.1533 10.000 1.1494 10.167 1,1119

• 10.333 1.0000
• l"

1*00.. _ _ . _ _.. _ _.. _ 2 3 4 5 6 7 8 9 10 _,. _ _ ..12 ' '. "0 0 0

• 10.667 10 0

1 11

• 10.en 1.0000
• 11.000 1.0000 BOTTOM TOP
• 11.167 1.0000 CORE HEIGHT (FEET)
• 11. u s 1.0000
• .1.500 1.0000
• 11.661 1.0000
• 11.833 1.0000
• 13.000 1.0000 Figure 13 Callaway Cycle 9 W(z)no at 18000 MWD /MTU Measured-Predicted Axial Offset = -10.3%
• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 23

Callaway Cycle 9 Rev 11 0 Mattut 150. 2,00 ^1 6 i i i l { i i i itttTI ulli j j j j ; ^ ' O.000 1 0000

• 0.tst 1.0cco

}. }

• 9.333 1.0000 l

{ i

• 9.900 1.0000
• O 6J7 1.0000 ig j

j 1.9C

• 88H 1 300 i

i

• 1.000 1.0000 i
• 1.167 1.0000
• 1.333 1.0000
• 1.800 1 2000
• 1.467 1.0000 l !

1.033 1.149 1.14.6 1.8C 3.000 3.167 1.1349 3.333 1.1016 3.900 1.0009 3.667 1.0461

3. 0 H 1.0l??

t 1.7C 8 "' 1HH 4 3.147 1.0479 3.333 1.0410 6 3.500 1.0363 3.667 1.0339 3.033 1.0347 o 4.000 1.0343 1.6C 4.u?

1. 0 3 n 6

4.3H 1.0359 4.500 1.0333 4.467 1.0300 a 4.833 1.0155 ^ l.000 1.0123 0 1.5C 51" 1 818' A l.3H 1.0097 g 3 3.500 1.0007 5.647 1.0136 5.033 1.0369 6.000 1.0410 6.167 1.0f69 1.4C 4,3 H 1.6407 4.800 1.0039 6.667 1.0909 6.8H 1.1106 7.000 1.1433 7.167 1.1740 4, 1.3C 78" 1 8H' 3 7.500 1.2391 7.667 1.2544 a 7.033 1.3031 0.000 1.3164 8.167 1.3976 a 8.333 1.4013 1.2C .500

1. o M 0.667 1.4686 A

a 0.0H 1.4841 i, 9.000 1.5061 9.167 1.$363 ^ a 9.333 1.5731 g,gg i 9.500 1.6134 9.647 1.6834 "3 6 9.033 1.6934 e a 10.000 1.7333 '0 '0"AL.. a 10.167 1.7394

• 10.333 1.0000 1.00 l

'"660'

• l"

l'"" 10.667 1.0000 0 1 2 3 4 5 6 7 8 9 10 _ _ _ - . _ _.12

• 10. 0 H 1,0000 11
• 11.000 1.0000 BON CORE HEIGHT (FEET)
• II:I"

  llll

' 11.500 1.0000

• 11.647 1.0000
• 11.8 H 1.0000
• 13.000 1.0000 Figure 14 Callaway Cycle 9 W(z)no at 150 MWD /MTU Measured Predicted Axial Offset = -14.0%
• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 24

e 'o .a. * \\ Callacay Cecle 9 Ra lI e M 31 L"? 300 o,0 2.00 , i 1 a,,,, I i ~

• 3.000 1.0000
• 0.167 1.0000

( t ).

• 0.333 1.0000 l

l l

• 0.100 s.0000 "t

j e 0.667 .3000 g,9g

• 0.til

. 0000

• 1.000 1.0000
• 1.167 1.0000
• 1.333 1.0000
• 1.500 1.0000
• 1.667 1.0000 1.033 1.3480 g*gg 3.000 1.3330 I

3.167 1.1963 3.333 1.1695 3.$00 1.1443 3.667 1.1345 A 3.833 3,3,11,4 1.1 1.7C 3.co, 3 3.167 1.0963 a 3.333 1.0845 3.900 1.0014 3.667 1.0797 0 3.433 1.0706 4.000 1.0760 g 4.167 1.0707 4.333 1.0634 A 4.800 1.0506 4.647 1.0531 a 4.833 1.0463 a== 24 l.000 1.0400 1*5C 5.167 1.0364 3 l.333 1.0335 5.500 1.0300 I S.667 1.0319 8.033 1.0414 o 4.000 1.0533 6.167 1.0655 1.4C a 4.333 1.0763 6.500 1.0948 6.667 1.0994 A 6.033 1.1163 7.000 1.138% 7.167 1.1689 g 3g 7.333 1.3019 1.500 1.3360 1.667 1.3400 0 7.033 1.3636 1 3. 8.000 1.3995 I a 4.167 1.3450 1.2C 0.3,33 1.3093 o g,,,,, 0.667 1.4407 a 0.833 1.4835 9.000 1.5040 u 9.167 1.1300 A ,9.,3,3,J g,,5 4 4,,4

1.,

4 a 1.1C 9.467 1.6350 A- ^-mi0 a 9.833 1.6667 -m ^ 10.000 1.6944 '6 4' 10.167 1.7143 a a6n6-

• 10.333 1,0000
• 18'.'67 1 '

1.00 - - - 2 3 4 5 6 7 8 9 10- - - - -- - -.12 e 10. 33 t.0000

• 10 6 1.0000 0

1 11

• 11.000 1.0000 CORE HEIGHT (FEET)
• ll:}0 I;UN
• 11.500 1.0000
• 11.647 1.0000
• 11 833 1.0000
• 13.000 1.0000 Figure 15 Callaway Cycle 9 W(z)no at 3000 MWD /MTU Measured-Predicted Axial Offset = -14.0%
• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 25

. _ =

t' Callaway Cycle 9 Rev.11 o usicut 10000. 2.00 i

i. ;i

!i i i ,i, ,rarti .<li j; 3.0c0 6.0000

• 0.147 1.0000 I

i 4 !1

• 0.333 1.0000 l

j ~ jl

• 0.500 1.0000 i

j j

• 0.647 1.0000 i

1.9C

• ' '33 1 88 I
• 1.000 1.0000

[. j

• 1.167 1.0000
• 1.333 1.0000
• 1.500 1.0000
• 1.467 1.0000

}$ i i 1.833 1.2007 1.0L i i j 2.000 1.1924 ^ 2.167 1.1731 A 2.333 1.1540 d' 2.500 1.1370 l 2.667 1.1229 2.833 1.1097 1.7C 2 000 1" 3.147 1.0921 3.333 1.0896 3.500 1.0094 3 447 1.0093 3.833 1.0886 1.6C 4.000 1.0849 4.167 1.0036 6 4.333 1.0793 4.500 1.0174 4.647 1.0747 ^ 4.033 1.0706 6 1.5C I! 5.000 1.0675 46 5.t47 1.0452 I O g 5.333 1.0478 a 5.500 1.0489 5.667 1.0744 5.833 1.0849 I 6.000 1.1010 A 1.4C 6.167 1.1147 6.333 1.1266 rt 6.500 1.1389 a s.d. ).. 6.667 1.1533 1 6.033 1.1709 '?' 1.000 1.1939 s 7.167 1.2229 1.3C 7.333 1.2554 ai 7.500 1.2787 7.647 1.2913 a 7.933 1.3119 8.000 1.3410 4 ' A I.167 1.3763 1.E'["*',' a 0.333 1.4154 9.500 1.4494 -p. 4.447 1.4736 O O 0.833 1.4931 0 0 9.000 1.5169 a ^ 0 9.167 1.5435 3 9.333 1.5740 g,gg ,x'. a 9.500 1.4214 ,atanNo, 9.647 1.6775 " 'Ad iA64 9.833 1.7235 a i 10.000 1.7524 10.167 1.1441 + 10.333 1.0000 g, c..__,._..____ . - - -.12

• 10.e33 t.0000
• 10.500 1.0000
• 10.667 1.0000 0

1 2 3 4 5 6 7 8 9 10 11

• 11.C30 1.0000 BOTTOM TOP
• 11.167 1.0000 CORE HEIGHT (FEET)
• tt. m 1.0000
• 11.500 1.0000
• 11.667 1.0000
• 11.833 1.0000
• 12.000 1.0000 Figure 16 Callaway Cycle 9 W(z)no at 10000 MWD /MTU Measured-Predicted Axial Offset = -14.0%
• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 26

)

I a, .s,* Callaway Cycle 9 Res 11 0 HE!aHT

t000.

2.0c i i k-i i i i i i !. i! ! <rtati ain 0.000 1.0000 4L.~l% ? j- - !

• 0.167 1.0c00

.LM _Mi I l

• 0.333 1.0000 4

i i I } iI l

• 3.500 1.0000 1idh i i j j j
• 0.667 1.0000 i

j j j jj 1.9C

• * '33 1.0000

!I l_ I

• 1.000 1.0000 1

I t I

• 1.167 1.0000 l'
• 1.333 1.0000
• 1.500 1.0000 1
• 1.667 1.0000 I

i 1.833 1.1662 1.8C 2.000 1.1530 2.167 t.tn? I 2.333 1.1400 2.900 1.1072 2.447 1.0955 2.833 1.0047 1.7C .~ 3.147 1.0770 3* 1 O"3 I 3.333 1.0000 3.500 1.0850 ^ 3.647 1.0913 3.833 1.0961 4.000 1.0999 1.6C g 4.167 1.t020 4.333 1.1036 A 4.500 1.1076 4.647 1.1101 4.433 1.1104 Q a 5.000 1.1125 1.5C 5 187 1 1155 w 5.333 1.1200 5.500 1.1275 5.667 1.1347 g 5.833 1.1494 6.000 1.1641 i t 6.167 1.1775 g 1.4C 6.3n 1.t 67 k 6.500 1.1999 3 6.647 1.2125 6.833 1.2275 0 7.000 1.2463 ^ 7.167 1.2730 o 1.3C ' 232 1 201' 7.500 1.3197 6 7.647 1.3262 7.833 1.3403 O.000 1.3624 I a 8.167 1.3902 l A 3.333 1.4222 1.2C s.500 t.4524 0 0.667 1.4924 y A S.833 1.5159 la 9.000 1.5424 46 a a -m 9.167 1.5647 nb#.. ^" 1 9.333 1.5911 I n .A g*gg 9.500 1.6182 a n o I 9.667 1.4457 3 .n d'a= i 9.833 1.6801 10.000 1.4991 10.167 1.6995

• 10.333 1.0000 7

a 10.500 1.0000 g,gp.. _. . _ 2 3 4 5 6 7 8 9 10 11 12

• 10.667 1.0000 0

1

• 10. e n t.0000
• 11.000 1.0000 BOTTOM TOP

- 11.167 1.0000 CORE HEIGHT (FEET)

• 11.333 1.0000 11.500 1.0000
• 11.667 1.0000
• 11.833 1.0000

+ 12.000 1.0000 Figura 17 Callaway Cycle 9 W(z)no at 18000 MWD /MTU Measured-Predicted Axial Offset = -14.0%

• Top and bottom 15% excluded as per Tech Spec 4.2.2.2G 27

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