Core Operating Limits Rept for Cycle 4 Operation, Addressing Both Three & Four Loop Operation

ML20070Q177
Person / Time
Site:	Millstone
Issue date:	03/21/1991
From:	Scace S NORTHEAST NUCLEAR ENERGY CO., NORTHEAST UTILITIES
To:
References
MP-91-259, NUDOCS 9103280229
Download: ML20070Q177 (13)
v • d • e

Text

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NORTHEAST UTH.lTIES o ~ + c = *

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J:=.' c::,:7, rd vo a m

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HARTFORD. CDNNECTicVT 00414-0 70 c m t N4ci...Ine w c (pogig s $poo V ch 21, 1991 l-259 U.S. Nuclear Re;ulato ,c Commi:s.,:on Document Control Dak Washiiigton, D.C. 20!!$ >

Reference:

Facility Operating License No. NPF-49 Docket No. $0-4 3 oentlemen:

i hlillstone Nuclear Power Station Unit 3 Transmittal of CORE OPERATING !- ?lTS REPORT (COLR) in accordance with hiillstone No. 3 Technica 5: . . 'itation 6.9.1.6.d, the Northeast Nuclear Energy C?mpany hereby submits the CC Jc OPERATING LlhilTS REPORT for Cycle 4 operation. This information addresses both four and three loop operation.

If you have any questions please contact David hicDaniel at (203) 444-4389 directly.

Very truly yours, NORTHEAST NUCLEAR ENERGY COh1PANY

/ f

/ <nce

. . /c in

/ Steph E. ace

' Director, Millstone Station SES/DTht:cle Attachment ec: T. T. Martin, Region 1 Administrator W. J. Raymond, Senior Resiaent Ins 3ector. blillstone Unit Nos.1, 2, and 3 D. H. Jaffe, NRC Project hianager, siillstone Unit No. 3 1

e 8 l;

-. ... - - . . _- . ~. _-. _ - . -__ . - - _. ___ -

Attachment

, Page 1 of 12 hilLLSTONE UNIT NO. 3 CYCLE 4 CORE OPERATING LIMITS REPORT 1.0 Core Oneratine Limits Report This Core Operating Limits Report (COLR) for hiillstone Unit No. 3, Cycle 4, has been prepared in accordance with the requirements of Technical Specification 6.9.1.6.

The Technical Specifications affected by this report are listed below.

3/4.1.1.3 hioderator Temperature Coefficient 3/4.1.3.5 Shutdown Rod Insertion Limit 3/4.1.3.6 Control Rod Insertion Limits (Four Loop and Three Loop) 3/4.2.1.1 Ayial Flux Difference - Four Loop 3/4.2.1.2 Axiai clux Difference - Three Loop 3/4.2.2.1 Heat Flux Hot Channel Factor - Four Loop 3/4.2.2.2 Heat Flux Hot Channel Factor - Three Loop 3/4.2.3.1 Nuclear Enthalpy Rise Hot Channel Factor - Four Loop 3/4.2.3.2 Nuclear Enthalpy Rise Hot Channel Factor - Three Loop 3/4.3.1 Table 4.3-1 Note 19. Shutdown h1argin hionitor Setpoint 2.0 Operatine Limits The cycle-specific parameter limits for the specifications listed in Section 1.0 are presented in the following subsections. These limits have been developed using the NRC-approved methodologies specified in Technical Specifiertion 6.9.1.6.

2.1 hioderator Temnerature Coefficient (Specification 3/4.1.'.3) 2.1.1 The hioderator Temperature Coefficient (h1TC) limits are as follows:

The BOL/ARO/09-70% RTP h1TC shall be less positise than

+ 0.5 X 10-4 Ak/k/*F. Above 709 RTP. the hiTC limit is a linear ramp to 0 Ak/k/'F at 100G RTP, The EOL/ARO/RTP A1TC shall be less necative '

than

-5.65 X 10-' Ak/k!'F.

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

Attachment i l ,

. Pape 2 of 12 2.1.2 The MTC surveillance limit is as follows:

The 300 ppm /ARO/RTP MTC should be less negative than or equal to -4.9 X 10-4 ok/k/*F.

Where: BOL stands for Beginning Of cycle Life ARO stands for All Rods Out HZP stands for Hot Zero Power EOL star,ds for End Of cycle Life 4

RTP stands for Rated Thermal Power 2.2 Shutdown Rod Insertion Limit (Specification 3'4.1.3.5)

The shutdown rods shall be 222 steps withdrawn.

2.3 Control Rod Insertion Limits (Specification 3/4.1.3.6)

The control rod banks shall be limited in physical insertion as shown in ,

Figure 1 for four-loop operation and Figure 2 for three-loop operation.

- 2.4 Axini Flux Difference (Four-Loon Oneration) (Specification 3/4.2.1.1) 2.4.1 The Axial Flux Difference (AFD) limits are provided in Figure 3.

2.4.2 The AFD target band during base load operation is t 57c.

2.4.3 The minimum allowable (nuclear design) power level for base load operation-(APLNI)) is 80% of Rated Thermal Power.

2.5 Axial Flux Difference (Three-Loco Ooeration1 (3pecification 3/4.2.1.2) ,

.2.5.1 The Axial Flux Difference (AFD) simits are provided in Figure 4.

2.5.2 The 'AFD target band during base load operation is 5%.

2.5.3 The minimum allowable (nuclear design) Power level for base load operation (APLND) ir 60% of Rated Thermal Power.

2.6 Heat Flux Hot Channel Factor (Four-Loon Ooerationi - Fo(Z)

(Specification 3/4.2.2.1)

RTP Fo Fo(Z) s . K(Z) for P > 0.5 P

RTP Fo(Z) s 0,5

• K(Z) for P s 0.5

- Where: P = Thermal Power Rated Thermal Power

}

Attachment

, Page 3 of 12 j S

i RTP 2.6.1 Fo = 2.60 2.6.2 K(Z) is provided in Figure !.

2.6.3 W(Z) values are provided in Table 1. j 2.6.4 W(Z)nt values for base load operation are provided in Table 2.

2.7 Heat Flux Hot Channel Factor (Three Loon Operation) _ p (g) i (Specification 3/4.2.2.2)

RTP 0

Fo(Z)s . K(Z) for P > 0.375 P

RTP 0

K(Z) for P c 0.375 Fo(Z) c [0.375 Where: Thermal Power P = Eated Thermal Power 2.7.1 RTP

= , . ., .q  ;

-Fo 2.7.2_ K(Z)_is provided in Figure 5. .

2.7.3 W(Z) values are provided in Table 3, 2.7.4 W(Z)at values for base load operation are provided in Table 2. -

2.8 Nuclear Enthalpy ' Rise Hot Channel Factor (4-Loop Operatio'1)

N Tdpecification 3/4.2.3.1) pH A

N RTP pp

.phH " phH

() . [)_pj)

Where: P . Thermal Power Rated Thermal Power

-- 81 RTP >

F AH = 1,64 2.8.2 ' PF AH = - 0.3

- Attachment

. Pape 4 of 12 1

i 2.9 N Noctent F 3thniny Rice Hot Ihnnnel Factor (1-Loon Oneration) pH (Specification 3/4.2.3.1)  !

F [g F ]P . (1, ppAH*Il-Pl)

Where: Thermal Power P = kated Tnerinal Power 2.9.1 F g = 1.64 2.9.2 PFAH

• 0.3 2.10 Shutdown hiargin Monitor Alarm Setnoint (Specification 3/4.3.1 Table 4.3-1 Note 19)

The Shutdown Margin Monitor Alarm Setpoint shall be set to less than or equal to, two (2) times the reference countrate.

1 i

i

Attachment

. Page 5 of 12 Figure 1 Control Rod Bank lasertion Limits Versus Thermal Power f0VI LOOP Operolion 225

/ 0.25u22 ohi.222 as

/

/ f i.0,16 (

E g _

o.a.in / /

b BM C ct,

/ /

/ *M l - - . - - -

i

= 75 / / me BANK D 50 0.0.50 25 0.28,0

.00 .20 .40 .60 .80 1.00 fraction of Roted Therrno! Power

Attachment I

, Page 6 of 12 1

l Figure 2 Control Rod Bank !csertion 1.imits Versus Thermol' Power l Three Loop Operation 225 ,

/ [Eh.m 0.m.m aw Bl /

0.n,16r 7

150 125 vs

/ /

. 6 1100 w /

/ l 1s m 75 / MED 50 0.0,50 25 0.2 f,0

.00 .15 .30 .45 .60 .75 froclion of Roted Thermat Power l

Attachment

. Pape 7 of 12 l

figure 3 Axial flux Difference tirnits as a function of Roled Thermol Power for four Loop Operation 120 - - - - - --

-n,1m] T2Ti IN unectPtat ort u on ,/ usecmat oriwas

_ 80 --/ -- - - ----

ti (

j ecmat e j %M%N  !

60 -- -

-- i 2

3 -E.50 35.50 1

40 --

20 --

0 1 40 20 -10 0 10 20 30 40 - 50 nux Dillerence,1 Ocita-l

I Attachment

, l' ace 8 of 10 figure 4 Axial Flux Difference Limits as o function of Rated Therma! Power ior Three t. cop Operation 120 100 ~

ow:cawn acawu num UUm

' ' 75 ' 0'

80 ti j

$ f j 60 e

j/ ) =

T 4:cown N ,

0%* \

40 fj i l-MJul nju 20 -

0 40 20 -10 0 10 20 30 40 50 ihx Dilferente,1 Delto-l l

Attachment

. Page 9 of 12 e

fi K(2) - Normalized Fq(z)gura 5as a function of Co for four and Three Loop Operation 1.20 0.0.1.0 6.0,1.0 1.00 12.0.0 925

%~

9 80 0 4

Y T

st2 j 0.60 7

m 0.40 0.20 4

0.00 0 2 4 6 8 10 12 Core Height (feet) i 4

--r, - e,--o,.w,,,w-,,rn,,, -

,--,r yw-y --w.--c

Attadunant Page 10 of 12 TABLE t

. WILL570NE UNIT 3 CYCLE 4 FOUR LOOP RAOC w(2) FUNCTION BURNUD RANGE 5 (We'0/W7U)

WISH AxlAL 0 90 1000 2600 4000 6000 8000 10000 12000 14000 17:C0 NO. HilGHT 150 1000 2000 4000 6000 8000 10000 12000 14000 17000 t o;,

1 0.0000 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 1.0000 t 0000 1.0000 1.0000 t.00 0 2 0.1667 1.0000 1.0000 1 0000 1.0000 1.0000 1.0000 1.0000 1.0000 1 0000 1 OOch t.0000 3 0.3333 1.0000 1.0000 1.0000 1.0000 t.CC00 1.0000 1.0000 1.0000 1 0000 t.0000 t 0000 4 0.5000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0C00 5 0.6667 1.0000 1.0000 1.0000 1.0000 1.0000 1.Co00 1.0000 t.0000 1.0000 1.0000 t WC 6 0.8333 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1 0000 1.0000 1 0000 1,0n00 ' 00C0 7

8 1.0000 1.0000 t.0000 t.0000 t.0000 t.0000 1 0000 t.0000 t.0000 t.0000 1.0000 . oc00 1.1667 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1 0000 1.0000

.9 1.3333 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1,C @ 1.0000 to 11 1.5000 t.0000 1.0000 1.0000 1.6667 1.0000 t.0000 t,0000 t.0000 1.0000 t.0000 1.0000 1.0000 1.0000 1.0000 t.0000 1 0000 t.0000 1.8333 1.4159 t.0000 1 0000 1.0000 1 0000 1 0000 1 0000 12 t.JtS9 1.3966 1.3756 1.3388 1.3088 1.28J5 1.2674 1 257J 1.2621 1.2621 13 2,CCOO 1.3896 1.3896 1.37t6 1.3520 1.3176 1.2893 t.2672 1.2513 1.2J23 1 2J77 ' 24'?

14 2.1667 1.3626 1.3626 1.3458 1.3276 1.2956 1 2698 1.2d90 1.2345 1.2264 1.2329 1 2328 15 2.2333 1,3353 1.3353 1.3198 1.3028 1.2733 1.2491 1.2304 1.2173 1.2102 1 2t?J t 2'*J 16 2.5000 1.3082 1.3082 1.29J1 1.2789 1 2522 1.2304 1.2t35 1.2017 1.t953 1 2018 1 20 tr t7 2.6667 1.2810 1.2810 1.2688 1.2555 1.2322 1.2131 1.1981 1.1875 1.1815 , 1858 1.1708 18 2.8333 1.25Jd 1.254J 1.24J1 1.2329 1 2131 1.1968 1.1838 1.1743 t 1686 1.1 0*  ! *698 19 3.0000 1.2316 1.2316 1.2230 1.2136 t.1968 1.1828 1.1714 1.1629 1.1573 1.1558 1.1588 20 3.1667 1.2141- 1. 214 t 1 2066 1.1984 1.1838 1.1714 1.1614 1.1537 1.1485 1.1461 1.146i 24 3.3333 1.2013 1.2013 1.19JJ 1.1868 1.1735 1.t423 1.1533 1.1467 t t424 t.1420 t,1420 22 3.5000 1.1902 1.1902 t.1838 1.1768 1.9646 1.15J7 1.1470 1. tat 6 1 1387 1.1J18 1.14'8

! 23 3,6667 1.1799 f.1799 1.1739 1.1675 1.1564 1.1477 1.1373 1 1389 1.14t3 1.tJ29 1.1429 2J 3.8333 1 1702 1.1702 1.1645 1.1585 1.148J 1,tJ07 1.1354 1.1326 1.1350 t.tJ34 t.tJ34 25 J 0000 1.1606 1.1606 1 1553 !.1497 1.1J04 1.1337 1.1294 1.1290 1.1329 1>tJ36 1.1J36 26 4.1667 1.1506 1.1506 1.1J56 1.1404 1.1321 1.126J 1.1233 1,1254 1 1306

• tJ35 t.6435 27 J.3333 1.1405 1.tJ05 1.1359 1.1311 1.1238 9.1191 1.1177 1.121J 1.12?9 t.1J28 1.1428 28 4 5000 1.1331 1 1331 1.1284 t.1237 1.1166 1.1123 1.1123 1.1170 1.1246 t tJt? 1.tJi*

29 4,6667 1.1270 1.1270 1.1222 1.1173 1.1100 1.1057 1 1066 1.1120 1.1207 1.1397 9 1397 30 4.8333 1.1199 titt99 1.9.50 1.1101 1.1027 1.0987 1,1005 1.1066 1 1162 1.1370 t 1370 3t 5.0000 f.t122 1.1122 1.1073 1.1024 1.0953 1.0916 1.09J6 t 1017 1 tt2d 1.1352 1 1352 32 5.1667 1.1044 1.1048 1.0996 1.09J8 t 0881 1.0852 1.0892 1.0970 1.1086 1.1324 1.1328

~3 5 3333 1.0968 t'.0968 1.0921 1.0875 1.0011 1.0791 1.0836 1.0920 1.1042 1.129J t.129J 3J 5.5000 1 M95 1.0895 t.0846 1.0798 1.0732 1.0720 1 0775 1.0874 1.10tJ 1.1302 1.1322 35 5,6667 1.0825 1.0825 1.0775 1.0726 1.0664 1.0673 1.0746 1 0867 1.1035 1.1374 1 137J 36 5.8333 1.0772 1.07/2 t.0729 1 0691 1 0651 1.0698 1.079* 1.0933 1.1123 9 tJ95 1.tJ95 37 6.0000 1.0794 1.079J t,0763 1.0738 1.0741 1.0802 1.09.' t.1053 1.1244 1 1607 t.16*7 38 6.1667 1.0857 1.0857 1.0840 1.0831 1.0869 1.0940 1.10J5 1.1989 1.1368 1.1702 t.t?02 39 6.3333 1.0903 1.0903 1.0900 1.0926 1.0979 1.1060 1.1170 1.1316 1.1482 1 1791 1.1791 Jo 6.5000 1.0941 1.0951 1.0968 1.101W 1.1091 1.1183 1.1198 f.1435 1.169J 1.1872 t 88?2 41 6.6667 1.0976 1.100t 1.1035 1.1112 1.1203 1.1307 1.1425 f.'559 1.1706 1 1954 t.195J J2 6.8333 1.1011 1.1049 1.1095 1.1195 1.1302 1.1418 1.1541 f.tG7J 1;1814 1,2041 1.2041 43 7.0000 t.1046 1.1094 1.1153 1.1272 1.1393 1.1517 1 1645 1.1775 1 1908 1.21t3 1.2t13 JJ 7.1667 1.1081 1.1140 1.1208 1.1343 1.t476 1.1606 1.1735 1.1861 1.1985 1.2167 1.2'67 45 7.3333 1.1119 1.1185 1.1261 1.1408 1.1548 1.1683 1.1810 1.7931 1.20J5 t.2204 1.220J 46 7.5000 t.1962 1.1233 1,1313 1.t468 1.1612 1.1747 1.1872 1.1986 1.2009 i.2226 1.2226 J7 7.6667 1.1209 1.1282 1.1366 1.1524 1.1669 171801 1.2118 1.1920 1.2026 1.2232 1.2232 48 7.8333 1.1258 1.1333 1.1418 1.1575 1.1717 1.1845 1.1957 1.2053 1.i134 1.2225 1.2225 J9 8.0000 1.1307 1.1381 1.1464 1.1617 1.1754 1.1875 1.1979 1.2066 1.2136 1.2210 1.2210

'50 8.1667 1.1347 1.6421 1.1504 1.1654 1.1786 1.1900 1.1995 1.2070 1.2126 1.2175 t 2175 St 8.3333 1.1381 1.1458 1.1542 1.1693 1.1822 1.1929 1.2013 1.2074 1.2111 1.2124 1 2t24 52 8.5000 1.1440 1.1511 1.1588 1.1728 1.1846 1.1944 1.2020 1.2074 1.2105 1.211t 1.21t1 53 8.6667 1.1535 1.1590 1.1652 1.1764 1.1862 1.1946 1.2015 1.2069

• 2108 .

1.2IJO t.2tJO

$4 8 2333 1.1669 1.1706 1.1748 1.1826 1.1898 1.1964 1.2023 1.2075 1.2120 t.2176 1.2t76 55 9.0000 1.1847 1.1876 1.1909 1.1968 1.2021 1.2067 1.2106 1.2138 1.216J t.2189 t.2989 56 9,t667 1.2045 1.2083 '.2125 1.2194 1.2246 1.2282 1.2301 1.2301 1.2301 1.2284 1.2226 57 9.3333 1.2229 1.2292 1.2357 1.2463 1.2538 1.2582 1.2594 1.2594 1.2571 1.25'S 1.23't 58 9.5000 1.2404 1.2483 1.2566 1.2704 1.2803 1.2865 1.2889 1.2889 1.2870 1.2812 1.2652 59 9.6667 1.2632 1.2711 1.2795 1.2937 1.3045 1.3119 1.3158 1.3160 1,3160 1.3125 1.3007 60 9.8333 1.2959 1.3024 1.3093 1.3212 1.3305 1.3373 1,3415 1.3429 1.3429 1.3J17 1.33J9 61 10.0000 1.3291 1.3338 1.3389 1.3479 1.3553 1.3611 1.3653 1.3678 t.3685 1.3685 1.3666 62 10.1667 1.3592 1.3624 1.3660 1.3725 1.3782 1.3831 1.3872 1.3904 1.3927 1.39J6 1,39J6 63 10.3333 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 1.0000 1.0000 1.0000 t.0000 1.0000 64 10.5000 t.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 65 10.6667 1.0000 t.0000 1.0000 t.0000 1.0000 1.0000 t.0000 t.0000 t,0000 1.0000 t.0000 66 10.4333 1.0000 t.0000 t.0000 t.0000 1.0000 1.0000 1.0000 1.0000 t.0000 t.0000 t.0000 67 11.0000 1.0000 1.0000 t.0000 t.0000 1.0000 1.0000 1.0000 t.0000 1.0000 1.0000 1.0000 68 11.t667 1.0000 t.0000 t.0000 t.0000 1.0000 t.0000 1.0000 1.0000 t.0000 t.0000 t.0000 69 11.3333 1.0000 1.0000 1.0000 t.0000 t.0000 t.0000 t.0000 t.0000 t.0000 t.0000 t.00C0 70 11.5000 1.0000 t.00001.0000 t.0000t 1.0000 1.0000 t.0000 1.0000 t.0000 1.0000 1.0000

, OC so t.0000 1.0000 t.0000 71 11.6667 t.0000 1.0000 t.0000 t.0000 t.0000 t.0000 1.0000 72 11.8333 I.0000 t.0000 1.0000 t.0000 1.0000 t.0000 1.0000 1.0000 t.0000 t.0000 t.0000 73 12.0000 1.0000 t.0000 t.0000 t,0000 t.0000 1.0000 t.0000 1.0000 1.0000 1.0000 t.0000 700 and cottom 15% of core are enciveed per Technical Spectfiestions.

1, l

i

- . - -eb,.m-.--- w- -- -

r -

-m.~ , , . - , -- , - _ . - . -r . .m - , -..

_ ~_ _ _ _ _ _ _ _ _ _

Attachmnt Page 11 of 12 7ABLE 2 WILL570NE UN!? 3 CYLLE =

FOUR AND 7MRit LOOP Ba51 LO A0 wt !) FUN 710N WISH ARIAL 0 150 BV9NVP RANSI5 iWWD/M7V)

NO. 1000 2000 4000 6000 8000 Ht10H7 150 10>0 200 4000 10000 1000 1J000 1

.... 0. ...... 60

... 00 8000 1C000

.. ...... ...... ...... ......, .. 000 12000 1J000 17

1. 7000 th ,

2 0.0000 t.0000 t.0000 t.0000 t.0000 t.0000 t.0000 1,0000 t 0000 t.0000 t occo 0.1667 1.0000 t.0000 1.0000 t.0000 t.0000 t.0000 t.0000 1.Co00 t.0000 t.0000 + t0000 3

J 000C 5

0.3333t .t.C000 0,5000 0 COO t1.0000 . 0MOt.0000 1.0000 t.0000 1.0000 1.CCCC1.0000 1.0000t.0000 t.OC00 1.0000 t.0000 t.0000 1.0000 t 00:0 6 0,6667 1.C000 14C00 t.0000 t . OMO t . 0M0 t.0000 t.0000 i.C000 t.0000 1.0?.00 t.0000 t.0000 t.0000 7 0.8333 i . OMO t.Co00 t.0000 1.0000 t.0000 t.C000 1.0'00 t.C000 t.0000 1.0000 1 0000

• Occ0 .

1.t667 a

0000 S

8 1.0000 t.0C00 t.00C0 t.0000 t.0000 1.0000 t . OMO 1.0000 t.0000 t.0000 t.0000t Co00 i i

10 t.3333 1.0000 I.00001.0:00 1.0000 t.0000 t.0000 t.0000 1.

1.CCOO t.0000 Co001.0000 i 00:0 t.0000 1.0000 t.Co00 t.0000 t.Co00 1.0000 t.0000 t.0000 11 t.f000 1 6667 t 1. . C000 Co00i.Co00 1.0000t 1.0000

. 0 coo t,00001.C000t.0000t,00001.0000t.0000 1.0C00 t.Co00 t 0000 1 t.0000 0000 t 0000 t.0000 12 1.8333 1.0722 1.0735 1.075t t.0782 1.08to 1 0847 t.0000 1.0000 1.0880 t.0914 1 09a8 i.100t t.0000 t,0000 '.00C0 13 2.0000 t.072J t.0736 1.0750 t.0778 t.0807 1.0836 i.10c*

14 2.1667 1.0724 1.0735 1.0747 1.0865 1.0895 1.0925 1.0970 15 2.3333 1.0772 1.0797 1.0822 1.0847 1.0873 t 0970 8.0723 1.0732 1407J3 1.0764 1.0785 1.0898 t.0936 t.0036 l 14 2.5000 9.0721 1.0729 1.0806 1.0827 1.08J8 1.0868 1.0898 1.0737 1 0755 t.0772 1.0788 1.0804 1 0898 17 2.6667 1.0717 1.0723 1.0730 1.0743 1.0755 1.0767 1.0820 t.0835 1.0857 5 0857 18 2.8333 1.0712 1.0716 1.0721 1.0779 1.0789 1.0799 1 0812 t.C812

'8 1.0729 1.0737 1.0744 1.0751 1.0756 3.0000 1.0705 t.0707 1.07to t.0714 1.07i7 1.0719 1.0760 1.0765 1 0765 20 3.1667 1.0696 1.0697 1.0697 1.0697 1.0687 1.0695 1 0720 t.0720 1.0720 1 07t9 1 07+5 3.3333 1.0682 1.0676 1.0669 1.0692 1.0688 29 1.0686 1.0682 1.0686 1 068J 1.0675 t C662 22 3.5000 1.067J t.0674 1.0668 1.0662 1.0653 1.0643 1.0632 ' 06tJ 23 3.6667 1.0662 9.0649 t.0638 i.0528 1.0618 1.0661 1.0661 1.0652 1.0642 i.0625 1,06t1 1.06to 1.0603 5 053J 2 3.8333 1.06J7 t.0647 t.0638 1.0628 t.0600 1.059 1.0587 25 4.0000 1.0632 1.0632 t.0623 1 0614 i1.0597 =0610 1.0596 1.0686 1.0578 1.0575 1 0590 t *590 26 J.1667 1.0617 1.0617 1.0608 t.0583 1.0573 1.0566 1 0563 1 0580 t Ott0 1.0569 1 Of69 27 1.0598 1.058I 1.0568 1.0558 1.0552 l 23 4.3333 1.0600 t . 06 00 f.0591 1.0582 1.0565 1.0552 1 05J2 1.0537 1 0550 1.0558 1.0558 J.5000 1.0583 1.0%83 1.057J 1.0565 1.0548 t.0535 1.0526 i 0521 1.0536 t.0546 t 0546 29 J.6667 1.0567 1 05f7 1.0557 1.0547 1.053t 1.0522 1.0533 1.0533 30 4,8333 t.0551 1.055t 1.054 1.0518 1.0509 1,0504 1.0$0?

1.0530 1.05t3 1.0499 1.0490 1.0486 1.0490 t,0519 i 05t9 31 5.0000 1.053J 1.0534 1.0524 1.0513 1.0505 9.0505 32 5.1667 t.05tl 1.0515 1.0504 1.0492 1.0495 1.0481 1.0472 1.0467 1.047t 33 5.3333 1.0495 1.0495 1.0482 1.0J68 1,0446 1.0473 1.0459 1.0450 1.0448 1.0J55 1.0467 1 0487 1.0J31 1.0424 1.0432 1 04J7 1,048J 9 OJ76 t CJ76 34 5.5000 1.0475 1.0475 1.0461 1.0447 1.0425 1.0411 1.0J10 1.0422 1.0443 t 048J 35 5.6667 1.0J55 1.0455 1.0442 1.0428 1.0409 36 5.8333 1.0435 1.0435 1.0422 1.0J10 t.0392 1.0398 1.0401 1.0416 1.04J1 1,0433 1 OJ93 1 0491

• DJ99 37 6 0000 1.0413 1.0413 1.040t t.0390 t,0374 1.0383 1.0391 1.0409 1.0J36 1.049J t.0J94 38 6.1667 1.0389 1.0389 1.0379 t.0369 1.0380 1.0400 1 0429 1 OJ90

'.0490 39 6.3333- 1.0366 1.0366 1.0355 1.0368 1.0355 1.0354 1.0367 1.0390 1.0423 1.0345 1.0333 1.0337 1.0354 1.0383 1.0421 1.0488 1.0J88 JO 41 6.5000 1.0339 1.0339 t.0328 1.0318 1.0308 1.0320 1.0344 1.0381 1.0J31 1.0498 t OJ98 6 6667 t,03t5 1.0315 1.0306 1.C299 t.0527 9 0527 42 6.8333 1.0309 1.0309 f.0306 1.0311 1.0326 1.0352 1.0387 1.0301 1.0320 1,0352 1.0397 1 0455 1.0565

• 0565 43 7.0000 t.0135 1.0335 1.043J t.0491 1 0596 i C596 44 7.tG47 1.0377 1.0379 1.0338 1.0349 t.0369 1.0396 1.0431 i.0475 f.0383 1.0396 1.0415 t.044t 1.0474 1.0514 t 0528 1,0622

• 0622 45 7.3333 t.0411 1.0415 1.0421 1.0437 1.0561 46 7.5000 t.0443 1.0449 1.0457 1.0476 1.0498 1.0458 1.0483 1.05t4 1,05JW 1.0590 1.064J 1.06JJ 47 1.Ob23 1.0551 1.0661 1.0669 7.6667 1.0475 1.0483 1.0493 1.0515 1.0537 1.0561 1.0586 1.0612 1.0582 1.0616 1.0674 1,0674 48 7,8333 1.0508 1.0518 1.0530 1,0553 1.0640 1.0684 1.0684 1,0576 1.0599 1.0621 1.0643 1.0665 49 8.0000 t.0541 1.0!$2 1.0565 t.0589 1.0613 1.0697 1,0697 50 8.1667 1,0574 1.0585 1.0598 S.0623 1.0647 I.0635 1,0656 1.0676 1.0695 1.0722 1.0722 51 8.3333 1.0605 1.06t7 1.0630 1.0655 1.0679 1.0669 1.0690 1.0709 1.0727 t,075! t.0751

$2 8.5000 t.0634 1.0646 1.0660 1.0701 1.0720 1.0738 1.075J 53 8.6667 1.0662 1.0674 1.0688 t.0685 1,0708 t.0729 1.0747 1.0763 1.0776 t1. t,7 S77J 91 t 077J 1.079i 54 8.8333 1.0690 1.0702 1.0715 t.0713 1.0735 1.075J 1.0771 1.0785 55 9.0000 t.0718 1.0729 1.0743 1.0740 1.0761 1.0779 1.0793 1.0805 11.0795 #' '

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'.0835 61 10.0000 t.0821 1.0837 1.0854 1.0881 1,0900 t.09*0 1.0892 1.0895 1.0895 1.0891 1.0878 62 t.0912 1.0912 1 0905 1.0890 1.0858 1.08J6 10.1667 1.0832 1.08J9 1 0867 1.0895 1.0914 1.0925 1.0926 1.0926 1.0917 63 10.3333 1.0899 t 085J 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 t.0000 1.0000 1.0000 1.0000 '.0000 64 10.5000 65 10.6667 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 66 10.8333 1.0000 1.0000 1.0000 1.0000 t.0000 1.0000 1.0 COO 1.0000 1.0000 t.0000 t.0000 67 11.0000 1.0000 1.0000 1,0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 68 11.1667 5.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 69 11.3333 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 1.0000 1.0000 1.0000 1.0000 1,0000 10 11,5000 1.0000 t.0000 t.0000 t.0000 1.0000 1.0000 t.0000 1.0000 1.0000 t.0000 1.0000 1.0000 71 11.6847 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 1.0000 72 11.8333 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 t.0000 1.0000 t,0000 t.000C t,0000 t.0000 t,0000 t.0000 t,0000 t.0000 t.0000 1.0000 t.0000 t.0000 t 0000 73 12.0000 t.0000 1.0000 1.0000 t.0000 t.0000 t.0000 t 0000 t.0000 t.0000 t.0000 t 0000 Too anc bottom 15% of core are encIvoea as oer 7ecnntcal Soe:tftcations.

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Page 12 of 12

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