ML20010F028
| ML20010F028 | |
| Person / Time | |
|---|---|
| Site: | Maine Yankee |
| Issue date: | 09/03/1981 |
| From: | Groce R Maine Yankee |
| To: | Lois L Office of Nuclear Reactor Regulation |
| References | |
| FMY-81-127, NUDOCS 8109090285 | |
| Download: ML20010F028 (27) | |
Text
e e
h 1671 WORCESTER ROAD hy>Pr,)
ENGtNEERING OFFICE FRAMINGHAM. MASSACHUSFTTS 01701 617. s72.s t oo hasO K.3.3.2 FMY 81-127 September 3, 1981 tr>
d D
b(P
)
1 UniteJ. States Nuclear Regulatory Commission p
b f i.,
Washington, D. C.
10555 s
Attention: Office of Nuclear Reactor Regulation Division of Systems Interaction M W,.T ",
Core Perfermance Branch g
s Mr. Lambros Lois
,s
'ti
.LT \\
Reference:
(a) License No. DPR-36 (Docket No. 50-309)
(b) MYAPC Letter to USNRC dated March 30, 1981 (FMY 81-55)
Subject:
thine Yankee Vessel Fluence Calculation
Dear Sir:
This letter is written to provide an updated supplement to information provided in Reference (b). The enclosure includes the following information:
Cycle 5 operating data Cycle 6 results calculated to 12/31/81 Additional peripheral assembly data for Cycles 2-t.
Axial exposure operating data for Oveles 2-5 We trust you find this information satisfactory; however, if you should have additional questions, please do not hesitate to contact us.
Very truly yours, MAINE YANKEE ATOMIC POWER COMPANY
%^
H sw Robert H. Groce n
sure Senior Engineer - Licensing cc:
Mr. Michael Zentner Brookhaven National Laboratory 810909028S 810903 DR ADOCK 05000 gg \\
Maine Yankee Vessel Fluence Calculation Physics Data for Cycles 1, lA, 2-6 Supplement G. M. Solan
.SUMM\\RY Maine Yankee operating data and' calculated results for Cycles 1, lA, 2-6
.are provided for vessel fluence catculation input.
This data supplements that provided in FMY 81-55, dated March u30,1981.
The additional data includes Cycle 5 measured assembly average exposures and calculated pinwise burnups.
Calculated Cycle 6 assembly average exposures to 12/31/81 are also given.
Additional peripheral assembly exposures and calculated pinwise burnups for Cycles 2-4 are 'provided, as well as axial expcaure operating data for Cycles 2-5.
OPERATING CONDITIONS An updated table of core average operating conditions is presented in Table 1.
Cycle 5 and Cycle 6 conditions are added to cover the period to l
l 12/31/81.
PERIPHERAL ASSEMBLY DESCRIPTIONS AND EXPOSURES The peripheral assemblies considered are identified on the full core map, 1
l Figure 1.
Core positions D-4 and E-3 data (locations 9 and 15) have been i
added to provide better detail for azimuthal calculations. The additional i
core central locations identify those assemblies shuffled to peripheral locations in succeeding cycles. Notice the. rotation footnote on the Cycle 4 assembly shuffled. -
l The assembly types and loadings (KGU) in residence by cycle for these loca tiona are given_ in Figure 2 for Cycles 1, lA, 2-5.
The measured assembly, exposures,. from the INCA incore detector system, are provided in Figure 3.
As such, a measured cumulative MWH for each assembly location by cycle may be c d'. cul a ted..Similar cair.ula ted assembly data - for Cycle 6 through 12/31/81 is gi.ven in Figure 4.
rr
l-PINWISE BURNUPS BY. CYCLE The physical placement of. pins within the assembly, for the specific assembly types in Figures 2 and 4, are shown in Figure 5.
The loading differences among assembly types include fuel pin design differences' and the l
different number of shims per assembly.
Calculated pinwise burnups by cycle are given for Cycle 2-5 of the l
peripheral assemblies specified in Figure 1-1.
The Cycle 2-4 data supplements the previously provided data. The assembly data is given for the first.
l l
q ua dr ant locations specified in Figure 1.
The calculated assembly average data does not match the measured assembly average exposures.
This results from differences in power distribution and the total cycle exposure to end-of-cycle between measured and calculated.
Normalization factors are thus defined in Table 2 to apply to each pin burnup l
for each assembly.
Similar factors for Cycles 1 and 1A, based on use of the l
l Cycle 2 pinwise data as the most representative, are given in Table 3.
1 I
I AXIAL EXPOSURE OPERATING DATA I
The INCA incore detector system measured axial exposure by cycle is provided in Figure 2A through SA for Cycles 2 through 5, respective 1;'.
The l
INCA location identification is provided in Figure 1-B.
The 25 INCA axial nodes are equal in size and extend over the 136.7 inches active core length, l
l Normalization factors are provided in Figure 1-A (required for Cycle 3 only) l so as to match the end-of-cycle average exposure.
l i
l l
l i
87,
e '
Table 1 Maine Yankee Cycles 1, I A, 2,3,4,5,6 Cycle Opera ting Conditions to December 31, 1981 Operating Ra ted Operating Primary Primary System Cycle Cycle Power Power System Temperatures Exposure Loa ding Level Level Pressure Inlet Average Cyc le (MWD /MTU)
(KGU)
(MWt)
(I)
(psia)
( F)
( F) 1 0-2800 81540 2440 50 2000 525 537 2800-10367 81540 2440 75 1800 525 542 1A 4500 83110 2440 80 1800 522 54 2 2
17395 80885 2440 100 2100 532 556 3
11075 83065 2440 100 2100 538 562 4
10496 81843 2630 97 2250 547 572 5
10796 83034 2630 97 2250 547 572 6
4500 82248 2630 97 2250 547 572 estimated to 12/13/81
Table 2 Maine Yankee Cycles 2,3.4,5 Normalization Factors for Pinwise Burnup Data Assembly.
Cycle 2 Cycle 3 Cycle 4
' Cycle.5 Loca tion Meas.
Calc.
Factor
- Meas.
Calc.
Factor
- Meas.
Calc.
Factor
- Meas.
Calc.
Factor *
- Quadran t Core MWD /MT MWD /MT MUD /MT MWD /MT MWD /MT MWD /MT MWD /MT MWD /MT.
1 H-l'
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
7554 7686
~ 0.983...
2 K-1
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
9728' 10007 0.972 3
E-2
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
7341 7397 0.992-4 F-2
(-)
(-)
(-)
(-)
(-)
(-)
(-)-
(-).
(-)
9792 10284'-
0.952 5
G-2
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
11928 12495 0.955 6
J-2
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
32134 31324 1.026 7
L-2
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
17784 13942-0.985 8
'D-3
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
(-)
8724 8805 0.991:
9 E-3 17455 17200 1.015 12744 12576
-013 12193 11816 1.032 12081 12109 0.998 43 F-7**
21445 20927 1.025 15
.D-4 18156 17837 1.018 12923 12708 1.017 12493 12320 1.014.
13293 13468 0.987'
- Normalization factor by assembly to match INCA-measured asseni>1y exposure. Accounts for differences in power.
~ distributions and the total cycle exposure to end-of-cycle between calculated and measured.
- Cycle 4 assembly moved to quadrant location 6 in Cycle 5
. (-) Provided in Reference 1 m
i
Taoie ;-
Maine Yankee Cycles 1 and 1A Nornalization Factor For Finwise burnup Datav Cycles 1 6 1A Cycle 2 Normalization Assembly Locations Measured Cel cul a ted Factor for Quadr an t Core
%'D/MTU E'D/MTU Cycles 1 6 1A 1
H-1 8494 10630
^ 799 2
K-1 10407 13489 0.772 3
E-2 8092 10225 0.791 4
F-2 11530 13657 0.844 5
G-2 14884 16524 0.901 6
J-2 16525 19023 0.869 7
L-2 14338 17604 0.814 8
D-3 9291 11807 0.787 9
E-3 14785 17200 0.860 15 D-4 13778 17837 0.772 Normalization factor by assembly to match INCA-measured assembly exposures for Cycles 1 and 1A based on the Cycle 2 calculated pinwise exposure data in Figures 2-1 through 2-8 (Reference 1) and 2-11 through 2-12.
>e
Figure 1 lhine Yankee Core loc tions and Qiadrant Assembly Designations for Piruise Burnup Ihta Provided 21 20 19 18 17 16 15 13 11 9
7 6
5 h
3 2
1 l
l 1
I i
e i
i l
l 1
i l
i lh l i 12i 10 8
i l
l l
i l
-]
i 1
2
- - h - l- - i -
l -
l- - -
j l
l I
I I
~-f--
l 3
4 5
6 7
f-8 9
15 18 r --
l 27**
-- l- -- -
X X
'X-h--
X XK-M P
i l
l l
l l
l l
l f
assenblies near capsule location
- Cycle 2 assembly moved to quadrant location quadrant locations of 6 in Cyr'.c 3 4
sytmutric assembly
- Cycle 2 assmbly moved to quadrant locatim data provided 6 in Cycle 4 (not in-core in Cycle 3)
- Cycle 4 assably rcoved to quadrant location 6 in Cycle 5 with 90 clockwise rotation
O l
l 3
2 I
C-12 367.9 C-0 394.8 C-12 367.9 C-0 394.8 l
F-8 371.0 F-0 388.7 I
G-4 379.9 H-0 388.7 l
I-4 379.9 10 388.7 J-4 372.5 J-0 381.1 C-12 367.9 C-0 394.8 C-12 367.9 C-0 394.8 l
F-0 371.0 F-0 388.7 i
G-0 388.7 H-0 388.7 E
I-4 379.9 I-0 388.7 J-8 363.8 J-0 381.1 l
l l
Cycle 1 C-12 367.9 l
Cycle 1A C-12 367.9, Cycle 2 F-0 388.7 F
Cycle 3 H-0 388.7 l
Cycle 4 I-0 388.7 Cycle 5 J-0 381.1 Assembly Type C-16 358.9 and Loading C-16 358.9 (KGU)
F-12 362.2 c
G-0 388.7 I-0 388".7 C-0 394.8 381 1 J-0 C-0 394.8 Figure 2 F;
388.7 H
Maine Yankee H-388.7 Cycles 1,1 A, 2, 3, 4.5 Assembly Types and C-12 367.9 J-0 381.1 Loading at Peripheral C-12 367.9 Locations F-12 362.2 J
E-16 353.4 C-12 367.9 g-0 388.7 C-12 367.9 i
l F-0 388.7 K
H-0 388.7 I-0 388.7 B-16 358.9 J-0 381.1 i
B-16 358.9 E-16 353.4 L
G-41 379.9 I-4 379.9 J-8 363.8
.l
3 I
'9295 6522 4483 2769 18156 11729 p
12923 9094 12493 8603 13293 8724 10470 5712 4315 2380 17455 10189 l
t 12744 8184 l
12193 7363 12031 7341 Cycle 1 7976 Cycle 1A 3554 Cycle 2
-- 13666 r
Cycle 3 10263 Cycle 4 9671 Cycle 5 9792 Assembly 10359 Exposures 4525 (MWD /MTU) 16767 c
11167 10999 11928 6051 Figure 3 2443 H
Maine Yankee 10837 7527 Cycles 1,1 A, 2, 3, 4, 5 11556 7'
INCA Measured Exposures 4969 7554' Accumulated at Peripheral 19418 J
Assembly Locations 10350 I-7296 1 689 3111 13567.,
K 9721 9I'9I
(
9652 9728 4686 L
17948 13294 13415 13784 I
r-o O
3 I
K-4 372.5 K-0 381.1 D
5032 3253 Assembly Type-K-8 363.8 K-0 381.1 and Loading (KCU)
E Assembly Exposures 4525 2766 (l!WD/MTU) 1-0 38e '
K-0 381.1 l
l F
4229 3962 K-0 381.1 G
l.
K-0 381.1 4751 I-0 388.7 2711 Maine i ikee Cycle 6 Assembly Types and Loadings Projected Cycle Exposure at Peripheral Locations to J
12/31/81 K-0 381.1 (4500 MWD / Mr cycle Exnosure)
K-8 363.8 3458 L
4706 l
Figure 5 Maine Yankee Cycles 1,1A,2,3,4,5,6 Assembly Types D
O O
O Types A-0,C-0,RF-0,D-0,F-0 Types RT-4,G-41,(,-42,1 l.,J-4 i
K-4 G-0,H-0,1- 0, J- 0, K-0 2
1 1
D D
~
U D
D D
l 1
0 7_
Q D
l
~~O Q_
O O
I
-a a
l 1
i Type F-8,J-8,K-8 Types C-12,F-12
[C2[O
_.u D
[ ~~O D
Q_
20 o
[Q[0 o
-_ Q
_a __O.
)
a
~
_ _-g-
-D D
o o
- 9 o
R
_Q_ _ _ _Q D
D
(
=- 0__Q
-.Q__
I L
Types B-16,C-16 Type E-lo (shims or water rods)
- shim locations
h Figure 1-1 Maine Yankee Pinwise Burnup Data List of Figures AsserSly Locations Total Pinwise Burnups in Figure No.
Qua d c an t Core Cycle 2 Cycle 3 Cycle 4 Cycle 5 1
H-1 (2-1)
(3-1)
(4-1) 5-1 2
K-1 (2-2)
(3-2)
(4-2) 5-2 3
E-2 (2-3)
(3-3)
(4-3) 5-3 4
F-2 (2-4)
(3-4)
(4-4) 5-4 5
C-2 (2-5)
(3-5)
(4-5) 5-5 6
J-2 (2-6)
(3-6)
(4-6) 5-6 7
L-2 (2-7)
(3-7)
(4-7) 5-7 8
D-3 (2-8)
(3-8)
(4-8) 5-8 18 C-4*
(2-9) 27 F-5 **
(2-10) 43 F-7***
4-9 9
E-3 2-11 3-9 4-10 5-9 15 D-4 2-12 3-10 4-11 5-10 Cycle 2 assembly moved to quadrant location 6 in Cycle 3 with no rotation Cycle 2 assembly moved to quadrant location 6 in Cycle 4 with ' no rotation (not in-core in Cycle 3) i i-Cycle 4 assembly moved to quadrant location 6 in Cycle 5 with 900 clockwise rotation
( ) Provided in Reference 1
1 aff( CYCLE 2 E00 AT 1?S MWD /MT MYlI0ftS.MYPKSM174K 81/03/21. 16.02.33.FAGE 00052
. !(FORE SHUFFLE SCALED POINTWISE ASSEPSLY CONCENTRATION EDIT (AREA RATIOS APPLIED)
ASSEf9LY ASSYO9 NUCLlDE MWD /MTU NUMERIC ID 800 SCALE FACTOR = 10+e 5 FLAlf 1 62 63 64 65 66 67 68 69 70 71.
72 - 73 74 75 76
-34 34
.!!36.1254.1350.1401.1408.1412.1430.1465.1517.1585.1650.1673.1657.1647 i
- 35 35
.1265.1400.1541.1584.1529.1487.1487.1521.1588.1697.1822.1843.1764.1702
.1373.1552.0000.0000.1661.0000.1539.1572.04)0.1823.0000.0000.1885.1760
.1434.1606.0000.0000.1704.1602.1591.1620.1689.1852.0000.0000.1906.1780
.1453.1562.1683.1716.1644.1644.1673.1697.1718.1790.1897.1911.1826.1760
.146s.15?!.0 M.!624.1655.1740.1057.1877.1803.1762.1779.0000.1764.1742 4}
40 l
.1495.1541.1583.1623.1693.1867.0000.0000.1921.1786.1756.1754.1747.1743 Figure 2-11
.1542.! S.!(28.1664.1728.1898.0000.0000.1946.1809.1780.1778.1769.1763 l
Ll
. !6(5.1666.0M.1745.1760.1833.1941.1955.1877.1834. !851.0000.1828.1801 Normalization
(
.1605.170.1904.1921. lf 44.1802.1814.1828. is42.1912.2018.2027.1932.1858 Factor = 1.015 i
.17c.1.1924.( @ >.0000.1963.1831.1795.1807.1869.2027.0000.0000.2054.1917 45 45
.1793. lM3.0000.0000.1985.0000.1801.1813.0000.2043.0000.0000.2071.1937
.1785.1879.1990.1993.1^05.!?29.1800.1810.1860.1954.2068.2078.1988.1922
.1783.1825.1871.1878.1844.1913.1902.1810.1839.1 2 7.1939.1951.1929.1924 43 43 l
62 63 e4 65 66 67 68 69 70 71 72 73 74 75 76
??
l l
l
="i OY:LE 2 E02 A7 274?0 %:"' MIIE."?. M S":74K C1/0.'.::. :.
i
!E C:I Sv.' CE 5:4'.Ep PCM7,132 A?5EFU cxEA'!M: ION E2:! n:ic F47:33 Art:Ep l
33!E L 4 !y15
..f I2E t'., D/"JJ tir P :" :D (K.
C.1E FA:n
- 4< !
S.:
l
- ?
50 El 5:
5?
54 52 55 57 53 is b) 6:
42 l
45
- ?
l
.!! 2. :220.!423.:454.1407.!SN. ;53?. 572.!:c:2.:N7.!7'?.:0.!7;;.:Y
.!?20. 47.!!!e.16U.!!!5.157?.1553.!624.!6?5.18:'.19 ?.:97:.!M.2i9 l
- c. v' s.
.14~6.!(12 0000.0M0.:7:5.000).163.'.!!D.0%).1933.6000.0W.2003. W 4
.!:?:. :!t6.00E.00'0.:79:.le.?2.1475.!710.!?67.!(59.0000.0000.2AC.lfit
.::;7.!!!5.1745.179:.1733.1717.!750.!779.1006.18f5.00X.2017.193!.!M l
.15:6.1578.0003.1t32. !717.!803.1920.1%5.2854.1E45.1870.0000. !W. !??'
Fioure 2-12
.152C.1533.1630.I675.1750.1930.0000.0000.1997.1862.!S37.163?.1032.183 t5 C. E.
Normalization
.1572. !d24.1670.1710. !77?.1955.0000.000.1.24!5.1977.1851. !?52.1845. lf "
Factor = 1.018
.1632.1693.0(0).1757.!806.1904.1997. 3 15.1930.:597.:49.0N0.19d.!W
.!707.!E:5.193?.1950.!SS5.184.If42.16F.1SC.1971.20?2.2003.!*e3.19 =
.1770.1945.0X0.00M.0000.!870.1?.37.1353.1919.20?!.00X.005. :15.2 3"
.iS')7.1973.0000.0000.20!7.000).1833.1854.0000.20M.0000.0000.i'27.19D 60 40
.2794. 9 4.2009.0022.1931.1559.1S?2.1046.1900.1952.2115.2127.2037.1972
.1787.!S34.1804.1095.1865.1837.1823.18 0.1873.!?25.1977.1993.li72.1969 l
62 62 48-49 ' 50 51 52 53 54 55 56 57 53 59 60 6'
62 n
1
=Mf CYC1.E 3 E00 AT !!000 MWD /MT MYC3PDQ.MY3FtSM11K 81/03/21. 14.28.34.PAGE (6052 i
IEORE SKFFLE SCALED POINTWISE ASSDRY CONCENTRATION EDIT (AREA RATIOS AFFtlED)
ASSEMELY ASSYO9
. MJCLIDE ! tid /MTJ IUERIC ID 000 SCALE FACTOR = 10** 5 PLAPE 1 62 63 64 6'i - 66 67 68 69 70 71 72 73 74 75 76 34.
34
.0829.0921.0994.1032.1038.1030.1051.1075.!!!0.1158.1204.1220.1210.1210
~~
35 35
. 0929.1033.1138.1171.!!29.1056.1095.!!!7.!!61.1242.1334.1350.1295.1267
.1011. !!47.0000.0000.1229.1143.1134.1154.1208.1336.0000.0C00.1386.1314
.1057.1188.0000.0000.1266.!!87.!!77.!!94.1241.1360.0000.0000.1400.1327
.1071.!!54.1246.1274.1237:1222.1240.1255.1266.1315.1387.1391.1334.1307
.1990.1128.I172.1203. 229.1291.i374.1336.1328.1291.1292.1289.1278.1295 49 40
.1101.1136 !!66.1200.1255.1381.0000. 000.1411.1305.1272.1262.1262.1278 Figure 3-9
.!!32.!!65.1193.1226.1278.1401.0000.9000.1426.1318.1284.1272.1272.1286 1176.1218.1257.1281.1297.1350.1426.1432.1370.1331.1329.1322.1307.1310 Normalization
.1233.1309.1396.1411.1355.1321.1326.1332.1337.1382.1451.1450.1384.3350 Factor = *.013
.12f 8.1411.0M.0000.1435.1329.1295.1303.1341.1457.0000.0000.1472.1388 45 45
.1311.1433.0000.0000.1446.1331.1295.1297.1340.1462.0000.0000.1430.1394
.1303.1353.1466.1470.1392.1326.1301.1303.1331.1401.1484.1486.1414.1370
.3318.1351.1398.1'01.1370.1339.1322.1323.!?40.1373.1405.1405.1376.1352 43 48 62 63 64 65 66 67 68 6o 70 71 72 73 74 75 76
??
l 2
=W 2b:.': 2 EO: AT ::X4 Pf/MT Pf23:NJi:M M:lt 5 i::.'2:. :/ :
E w E sv.cr.E s2t t: N!!c.:!E As:taF.Y U/cEGA :Os E2P w E w !ct AU.:ra Ai!!O 4333:5 lJ.20fE MUTU NMIC !?
SX f:'.! c 27u: = 10,.
L;.-
4?
4;
!?
E:
52 53 5:
56
!?
C t:
a 25 si
.0253.P :.:026.!?65.1073.101:.:10:.!!!.!! 3.!2.5.;iO:.!!W.!?:f.:."
.004;.1056.1164.1:99.1:50. 130.!!3:.::51.!212.1301. 433.142:.:57;.;:!
50 to
. !Q. !!d a.0000.00:0. !243. !!70.1:62. !!57.1247.1M3.ONO.0000. :Af ?.I?)!
.!0d.119;.0W.0N0.!265.!!?!.!!?4.1217.1261..!341.0000.0000.1261.:3;f Figure 3-10
.1077. :15).1243.120.0000.1222.1243.1265.1263.0w0.1414.1432.13D.13 A
.1083.!!2).!!70.!!93.1222.1257.!376.1393.1339.1305.1314.1323.:?!?.1333 Normalization
.!!01.1134.1162.!!94.124?.1376.0000.0000.1417.1315.2280.1286.!!S'.!!!?
Factor = 1.017
.v
.1130.!!61.1167.1217.1268.1353.0000.0000.1427.1323.1255.1250.12i7. 3:0
. !!73.! 12.1247.1268.125 3.1338.1417.1327.1366.1330.133.15N. !"23.13"
.1028.1301.1335.1300.0NO,1306.1315. ! 323.1330.M>. 2447. 455.1;N. : 37*
. !!!3.1403.0000.0M. 2414.1314.1288.1295. ! 331. !447.0000.M. :;37.14!!
.1307.1426.0000.0000.1432.1320.1265.1290.!334.1458.0000.0000.1495.1417 60 60
.1305.1377.1457.1441.13!?.1318.1294.!?S7.!?29.1400.1457.1495.1431.1396
.1316.1353.1393.1305.13e 4.1333.1317.1319.1333. !374.1411.1417.1396.135, 62 t2 43 49 50 51 52 53 54 55 56 57 58 5?
60 61 62 v
3 0
7-
=Mt CYCLE 4 EOC AT 10500 MWD /MT MYC4PDQ,MY4RPS105K REDESIGN 81/03/24. 09.29.01.FAM 00066 BEFCSE SHUFFLE SCALED POINTWISE ASSDGLY CONCENTRATION EDIT (AREA RATIOS APFtIED)
ASSEMitY AS$Y43 NUCLIDE MWD /MTV NUMERIC ID 800 SCALE FACTM r.10u 5 PLANE I 104 105 106 107. 108 109 !!0 !!!
112 !!3 !!4
!!5 ' 116 117 118 90 90
+
.1739.1764.1799.1793.1757.1708.1682.1690.1730.1793.1847.1858.1827.1793
.1836.1882.1976.1975, 867.1776.1742.1750.1800.1909.2032.2044.1951.1883
.1928.2032.0000.0000.20!8.1859.1810.1819.1886.2064.0000.0000.2110.1988
.19 3.2079.0000.0000.2075.1927.1888.1898.1956.2125.0000.0000.2163.2044
.1975.2012.2107.2117.2034.1986.1996.2006.2016.2084.2185.2190.2100.2050 95 95
.1963.19".8.1985.2006.2023.2095.2202.2212.2125.2073.2074.2069.2051.2052 Figure 4-9
.1972.1959.1971.2001.2046.2235 R
R.2266.2117.2071.2058.2058.2074
.2013.2000.2013.2043.2107.2275 R
R.2308.2161.2117.2104.2103.2119 Normalization
.2085.2083.2114.2135.2148.2216.2322.2334.2250.2205.2212.2200.2168.2133 Factor = 1.025
.2180.2225.2329.2339.2248.2191.2 F7.2210.2227.2309.2424.2431.2334.2278 100 100
.2263.2380.0000.0003.2'<80.2218.2175.2188.2256.2445.0000.0000.2493.2364
.2297.2415.0000.0000.24&).2238.2185.2197.2276.1474.0000.0000.2520.2399
.2280.2345.2454.2459.234).2252.2216.2226.2264.2406.2541.2555.2455.2391
.2291.2331.2385.2397.2363.2316.2285.2283.2332.2402.2460.2469.2434.2401 104 104 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 l
1
=Mi CYCLE 4 E00 AT 10500 MWD /MT M(C4F00 MY4RPS105K REIESIGN 81/03/24. 0+.29.03.FAGE M052 EEFORE SHUFFLE SCALED POINTW:SE ASSEMPLY CONCENTRATION EDIT (AREA FATIOS APFtIED)
ASSEMELY ASSV09 N' jct![E MWD /MTV N TERIC 10 800 SCALE FACTOR = 10++ 5 FtANE 1
(2 63 64 65 66 67 68 69 70 71 72 73 74 75 76 34 34
.(610.C$93.0961.0994.0996.0995.1($5.1026.1058.1104.1149.1165. !!58.1167 35 35
.0903.0996.1096.1123.1074.1036.1033.1052.1093.!!72.1267.1284.1232.1217
.0981.1107.0000.0000.1163.1076.1061.1078.1128.1255.0000.0000.1317.1257
.1025.1143.0000.0000.1179.!!01.1094.!!09.1147.1259.0000.0000.1325.1265
.1036.!!03.1182.1188.0000.!!26.1151.1163.1164.0000.1281.1302.1252.1240
.1045.1075.1105.1120.1135.1199.1268.1297.1229.1185.!!90.!!95.1191.3206 0
40
.1064.1032.1100.1123.1170.1297.0000.0000.1320.1207.1175.1169.1173.1189 Figure 4-10
.1096.1111. I127. I148. !!92.1317.0000.0000.1334.1221.1188. I100. !!B3.1199
.1139.I163.1188.1198.1204.1238.1338.1343.1271.1225.1228.1230.1223.1236 Norma 1ization
.!!96.12'5.1329.1323.0000.1223.1234.1237.1232.0000.1347.1363.1306.1290 1.aetor = 1.032
.1250.1359.0000.0000.1341.1234.1207.1209.1241.1352.0000.0000.1402.1335 45 45
.1271.1380.0000.0000.1363.1241.1203.1204.1245.1369.0000.0000.1413.1345
-.1260.1318.1394.1390.1302.1231.1203.1204.1232.1305.1395.1405.1342.1322
.1251.1275.1301.1297.1259'.1222.1204.1203.1222.1259.1297.1305.1288.1290 0
48 62 63 64 - 65 66 67 68 69. 70 71 72. 13 74 75 76 a
I'
=M. CtCLE 4 E00 A7 !$D M.G?7 MiC4eP2,M(WS!0c1 EE0;C.!Cv E:/0? '::. 6.2:.m :,
PEF EI EH 5FLE SCA.ED FOI n % E ASSE,t Y m t:ET RAI D; EEIT W EA RA!!?! ant!E0:
A5"E 1 Y A55Yl$
C IOE M.G mTU V. NEE:( 10 50';
SC AE F S ai : :.w 5 P.E!
ge 49 r,
et
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.6 a
a
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4.?
.0!!2.0?c4.DIl.1071.107.!Oi!.1097.!!!4.110.!21!..!2o?.1:T3.1263.22!!
. C. r.
o.! wry.14c,,.!!53..,,e..s..!,,.!!!9..!.,4..!!c.74. l.se.,..,
3.-.lx.
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.!071.119?.(c'<.0000.I!c: !!74.!!70.!:h'.1;:5.!?!?.S0.G.! ::.13:
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. :M7.1:00. !::2. :70.222;.13'i.02.'.0 W.1 N.:2:7.!!u.110.:c.:. :.'..
Norma 1ization Factor = 1.014
. -. l.3..
.....42. 0 vn.
.. 4.,:..I.,,,,....
.,y.,
..33,,....
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1
=MY CYCf.E 5 EOC AT 10800 MWD /MT MYC5PDO.MfC5X1108K 81/08/19. 14.55.46.PAGE Oc044 ijEFORE SHLELE SCALED POINTWISE ASSEMBLY CONCENTRATION EDIT (AREA RATIOS APFtIED)
ASSEMEtY ASSY01 NUCLIDE MWD /MTU IMRIC ID 800 SCALE FACTCP = 10** 5 PLA E 1 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 6
6
.0217.0257.0292.0316.0329.0340.0355.0374.0396.0424.0452.0465.0465.0467
.0267.C053.0421.0453.0448.0486.0460.0483.0518.0574.0638.0656.0628.0577
.0314.0433.0000.0000.0543.0519.0529.0556.0601.06i2.0000.0000.0755.0670
.0350.0479.0000.0000.0602.0552.0597.0625.0670.0761.0000.0000.0825.0737 10 10
.0377.0489.0512.0618.0625.0642.0675.0705.0730.0779.0844.0063.0836.0779 Figure 5-1
.0405.0504.0566.0616.0660.0722.0798.0829.0812.0809.0828.0843.0551 3816
.0438.0533.0597.6652.0715.0820 R
R.0913.0864.0862.0874.0890.0859 Normalization
.0477.0586.0649.0705.0768.0875 R
R.0969.0918.0918.0929.09's.0910 Factor = 0.983
.0524.0651.0727.0781.0821.0882.0961.0992.0973.0973.0998.1014.1017.0969 15 15
.0579.0745.0864.0916.0905.0y04.0933.0962.0994.1061.1148.1168.1122.1037
.0635.0854.0000.0000.1008.0951.0954.0982.1039.1167.0000.0000.1237.1101
.0 0 7.0909.0000.0000.1057.0993.0989.1015.1073.1204.0000.0000.1271.1131
.0713.0911.1035.1082.1052.1027.1029.1051.1095.1174.1265.1281.1227.1128
.0776.0883.0959.1002.1013.1013.1019.1035.1063.1102.1125.1139.1124.1118 20 20 97 9d 99 100 101 102 103 104 105 106 107 108 100 110 111 l
l 1
=Mi CYCLE 5 E0C AT 10800 MWD /MT MYCSPDQ.MYC5XX108K 81/03/19. 14.55.46.PAGE 00045 BEFORE SHUFFLE SCALED POINTWISE ASSEMitY CONCENTRATION EDIT (AREA RT TICS AFftIED)
ASSEMBLY ASS)02 N'CLIDE MWD /MTU NUMERIC 10 800 SCALE FACTOR = 10** 5 FtANE 1 J
111 112 113 114 115 !!6 117 118 119 12c 121 122 123 124 125 l
6 6
.0477.0495 '.0515.0520.0511.0501.0499.0503.0514.0533.0552.0555.0543.0533
.0590.0669.0724.0730.0685.0648.0638.0643.0665.0714.0773.0778.0731.0658
.0685.0803.0000.0000.08?0.0747.0729.0735.0767.0855.0000.0000.0876.0762
.0753.0877.0000.0000.0900.0830.0816.0823.0851.0937.0000.0000.0954.0836 10 10
.0794.0886.0947.0959.0923.0906.0918.0926.0928.0960.1013.1014.0965.0881 Fige 5-2
.0831.0899.0923.0941.0959.1010.1082.1089.1033.0996.0993.0989.0979.0921
.0875.0938.0953.0977.1021.1132.0000.0000.1155.1059.1030.1021.1021.0968 Normalization
.0926.0993.1009.1033.1075.1187.0000.0000.1211. M 16.1089.1081.1079.1023 Factor = 0.972
.0985.1066.1096.!!!4.112e.1172.1244.1253.1199.1170.1175.1173.1159.1087 15 15
.3054.1175.1255.1268.1210.1177.!!83.!!93.1206.1260.1338.1343.1275.!!62
.!!!S.1292.0000.0000.1315.1212.1188.!!99.1244.1371.0n00.0000.1401.1232
.1148.1325.0000.0000.1346.1237.1209.1220.1272.1405.0v00.0000.1438.1266
.1143.1274.1360.1372.1304.1248.1234.1246.1285.1364.1455.1462.1389.1265
.1131.1163.1204.1224.1214.1198.1195.1209.1237.1275.1304.1301.1276.2259 20 20 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 c
1
=MY CYCLE 5 E0C AT 10000 MWD /MT MYC5PDO MYC5XX108K 81/08/19. 14.55.46.PAGE 00046 BEFORE S M FLE SCALED POINTWISE ASSEMBLY CONCENTRATION EDIT (AREA RATIOS AFFLIED)
ASSEMBLY ASSYO3 NX11DE MWD /MTU NUMERIC ID 800 SCALE FACTOR = 10e* 5 Ft#E 1 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 20 20
.0199.0240.0276.0300.0314.0326.0342.0361.0385.0413.0442.0457.0459.0464
.0248.0333.0399.0432.0429.0429.0444.0469.0505.0562.0628.0648.0623.0576
.0292.0408.0000.0000.0520.0499.0512.0540.0586.0678.0000.0000.0749.0669
.0326.0451.0000.0000.0576.0560.0577.0607.0653.0746.0000.0000.($19.0735
.0349.0459.0541.0588.0598.0616.0652.0683.0712.0763.0830.0852.0829.0775 25 25
.0373.0471.0533.0584.0629.0692.0769.0803.0790.0791.0814.0832.0843.0011 Figure 5-3
.0402.0501.0561.0617.0680.0785 R
R.0888.0844.0846.0861.0881. E 4
.0437.0544.0607.0665.0729.0836 R
R.0941.0806.0900.0915.0934.0903 Normalization
.0478.0602.0678.0734.0777.0840.0922.0958.0944.0950.0979.0998.1004.0960 Factor = 0.992
.0526.0687.0803.0858.0853.0859.0893.0927.0964.1035.1126.1149.1108.1027 30 30
.0575.0785.0000.0000.0947.0901.0911.0945.1007.1139.0000.0000.1222.1089
.0612.0833.0000.0000.0989.0936.0940.0974.1039.1175.0000.0000.1258.1121
.0643.0532.0953.1001.0978.0961.0972.1003.1055.1143.1243.1268.1220.1124
.0701.0807.0881.0920.0929.0934.0950.0976.1015.1066.1117.1136.1132.1126 34 34 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 1
=MY CVCLE 5 EOC AT 10000 MWD /MT MYC5PDO.MfC5XX108K S1/08/19. 14.55.46.fAGE W 47 BEFORE SHUFrLE SCALED POINTWISE ASSEMBLY CONCENTRAT10N EDIT (AREA FAT 105 APFtIED)
ASSEMBLY AS$YO4 NUCt![( MWD /MTU NUMERIC ID 800 SCALE FACTOR = 10** 5
' 1 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 20 20
.0477.0498.0522.0532.0526.05?2.0526.01.
'8.0588.0619.0635.0636.0641
.0592.0675.0735.0747.0705.06;4.0671.068' 48.0782.0859.0878.0841.0 U 7
.0688.0811.0000.0000.0843.0775.0763.0779.0823.0929.0000.0000.0995.0887
.0755.0884.0000.0000.0922.08'8.0851.0867.0908.1011.0000.0iXC.1073.0960
.0795.0892.0957.0975.0943.0933.0953.0969.0982.1028.1097.1113.1075.1000 5
3
.0830.0903.0931.0954.0977.1036.1116.1132.1083.1057.1066.1076.1080.1032 Figure 5-4
.0872.0939.0959.0986.1036.1155.0000.0000.1202.1113.1095.1099.1113.1071
.0921.0991.1012.1039.1087.1205.0000.0000.1252.1163.1146.1151.!!63.1118 Normalization
.0979.1062.1095.!!!6.1132 I184.1263.1278.1231.1209.1225.1235.1234.1173 Factor = 0.952
.1046.1168.1250.1264.1210.!!81.1192.1208.1227.1291.1381.1397.1341.1239 30 30
.1108.1282.0000.0000.1307.1207.!!87.1202.1255.1392.0000.0000.1457.1298
.!!38.1314.0000.0000.1330.1222.1196.1210.1268.1411.0000.0000.1482.1321 7
.1138.1264.1345.1351.1277.1219.1204.1218.1261.1351.1456.1478.1419.1308
.1136.1161.1192.1195.1170.1146.1140.1153.1184.1233.1284.1304.1295.1201 34 34 76 77. 78 79 80 81 82 83 84 85 86 87 88 69 90
1
. =MY CYCLE 5 EOC AT 10800 MWD /MT MC5PDQ,MYC5XX100K 81/08/19. 14.55.46.PAGE 00048 flEFORE SHUFFLE SCALED POINTWISE ASSEMBLY CONCENTRATION ED!i (ADEA MTIOS APPLIED)
ASSEMit.Y AS$Y05 NUCLIl6 rkTUMTV NUMERIC ID 800 SCALE FwCTCH = 10** 5 FtANE 1 9) 91 92 93 94 95 96 97 98 99 100 101 102 103 104 20 20
.0659.0689.0723.0738.0736.0745.0790.0863.0939.1007.1061.1081.1075.1071
.0797.0908.0990.1009.0964.0937.0954.1000.1066.!!65.1270.1291.1234.1130
.0909.1068.0000.0000.1121.1042.1038.1071.1139.1282.0000.0000.1344.1186
.ON2.1145.0000.ONO.1197. 3119.1114. !!39.1195.1328.0000.0000.1374.1211
.1020.!!39.1220.1240.!!99.1181.1202.1222.1241.1299.1380.1387.i320.1204 25 25
.1051.!!37.1160.1103.1215.1271.1354.1371.3319.1293.1299.1296.1279.!!95 Figure 5-5
.10P3.1146.1166.3214.1263.1384 R
R.1424.1326.1297.1287.1280.1203
.1134.1214.1234.1240.1307.1426 R
R.1460.1360.1310.1318.1308.1228 Normalization
.1190.1285.1318.1333.1349.1396.1474.1434.1425.1394.1399.1391.1366.1271 Factor = 0.955
.1256.1394.1484.1497.1430.1389.1394.1402.1415.1472.1555.1553.1469.1331 30 30
.1316. L 13.000).0000.1532.1413.1382.1390.1437.1574.0000.0000.1586.1389 -
.1333,1538 0000.(M.1550.1423.1386.1394.1446.1590.0000.0000.1609.1411
.!324.1470.1563.1560.14?4.1415.1391.1399.1436.1521.1620.1625.1541.1308 l
.1 M.13 0.1379.1385.1357.1328.1317.1324.1349.1391.1433.1433.1410.1386 34 34 90 01 92 93 04 95 96 97 93 99 100 101 102 103 104 l
1
=Mi CYCLE 5 EOC AT 10800 MWD /Mi NYC5PCO MYC5XX108K 31/08/19. 14.55.45. U GE 00045 IEFORE SHUFFLE SCALED POINTWISE ASSEM5LY CONCENTRATION EDIT (AREA RA110S AFFl!ED)
AiSEMitY AS$YO6 NUCLIDE N4/MTU N'JMERIC ID 800 SCALE FACTOR = 10**
5 FtANE 1
104 105 106 107 108 105 !!0 !!!
112 113 114 115 116 !!7 118 20 20
.3161.3180.3209.3100.3114.3025.2961.2934.2943.2977.2999.2962.2876.2791
.3235.3272.3369.3343.3182.3032.29E.2922.2946.3038.3142.3112.2956.2844
.3317.3417. m.0000.3316.3081.2977.2947.2991.3164.0000.0000.3085.2901
.3347.3438.0000.0000.3339.3117.3024.2994.3024.3183.0000.0000.3091.2907
.3320.3326.3409.3386.3247.3146.3115.3084.3053.3090.3164.3121.2965.2858 25 25
.3283.3228.3226.3214.3195.3242.3327.3297.3149.3037.2989.2931.2854.280; Figure 5-6
.3270.3200.3176.3175.3216.3378.0000.0000.3284.3055.2945.2874.2817.2780
.3N4.3229.3205.3203.3242.3402.0000.0000.3105.3076.245.2893.2835.2797 Normalization
.3360.3313.3313.3258.3274.3313.3394.3360.3210.3099.3049.2989.2908.2852 Factor = 1.026
.3456.3470.3555.3528.3379.3267.3227.3190.3157.3192.3265.3218.3054.2939 30 30
.3541.3639.0000.0000.3521.3284.3181.3142.3168.3324.0000.0000.3213.3018
.3566.3668.0000.0000.3540.3291.3174.3135.3171.3339.0000.0000.3237.3040
.3530.3569.3656.3618.3441.3276.3184.3144 3157.3241.3339.3300.3132.3009
.3513.3516.3532.3475.3397.3294.3222.3182.3174'.3195.3213.9171.3072.2977 34 34 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118
1 1
W CYCLE 5 EOC AT 10800 !W/MT MYC5PEMYC5XX108K 81/08/19. 14.55.46.PAGE 00050 BEFORE SKFFLE SCALED POINTWISE ASSEMBLY CONCENTRATICN EDIT (AREA RATIOS AFft!ED)
A55Ef9LY AS5YO7 NUCLIDE.4/MTV NUERIC 1D 800 SCALE FACTOR = 10++ 5 PLANE 1 118 119 120 121 122 123 124 125 20 20
.1245.1278.1315.1323.1297.1265.1250
.1286.1430.1518.1517.1417.1334.1311
.1325.1522.0000.0000.1492.0000.1314
.I328.1522.00C0.0000.1510.1378.1348
.1295.1424.1500.1515.1453.1410.1412 25 25
.1264.1346.0000.1389.1416.1468.1544 Figure 5-7
.1256.1330.1336.1368.1426.1552 R
.1266.1341.1347.1378.1435.1561 R
Normalization
.1296.1379.0000.1420.1444.1495.1571 Factor = 0.985
.1349.1470.1556.1568.1500.1454.1453 30 30
.1403.1600.0000.0000.1577.1439.1406
.1420.1619.0000.0000.1574.0000.1384
.1401.1545.1628.1617.1506.1415.1387
.P5 409.1435.1427.1382.1338.1318 34 34
!!8 119 120 121 122 123 124 125 1
=N CYCLE 5 EOC AT 10800 MWD /MT MYC5P E MYC5XX108K 81/08/17. 14.55.46.PAGE 00051 1
PEFORE SHUFFLE SCALED POINTWISE ASSEMBLY C0tKENTRATION EDIT (AREA RATIOS APPLIED)
A55EMPLY A55Y08 NUCLIDE MWD /MTU N' MERIC 1D 800 SCALE FACTOR = 10++ 5 PLANE 1 J
l 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 l
34 34
.0251.0301.0348.0382.0403.0425.0451.0482.0520.0565.0611.0641.0664.0712 35 35
.0303.0407.0489.0533.0535.0542.0568.0607.0662.0745.0841.0881.0868.0829
.0351.04?2.0000.0000.0638.0619.0641.0684.0751.0877.0000.0000.1003.0914
.0388.0538.0000.0000.0699.0685.0712.0756.0821.0945.0000.0000.1062.0964
.0412.0544.0644.0702.0718.0745.07?3.0837.0879.0949.1039.1072.1048.0983
.0437.0554.0630.0692.0749.0827.0923.0968.0959.0967.0999.1025.1039.0998 40 40
.0467.0585.0657.0725.0803.0929 R
R.1062.1015.1021.1040.1063.1025 Figure 5-8
.0504.0630.0706.0776.0853.0981 R
R.1113.1064.1070.1087.1107.1064
.0547.0692.0782.0849.0903.0979.1077.!!21.1108.!!!6.1149.1170.1174.1116 Normalization
.0599.0785.0919.0985.0984.0996.1037.1080.1124.1206.1307.1332.1282.!!83 Factor = 0.991
.0652.0892.0000.0000.1085.1038.1053.1095.!!67.1317.00C0.0C00.1403.1248 45 45
.0690.0941.0000.0000.1129.1074.1083.1124.1199.1353.0000.0000,1440.1280
.0721.0936.1076.1135.1115.1101.!!!8.1156.1216.1315.1426.1451.1394.1281
.0781.0903.0992.1042.1059.1071.1093.1126.1171.1228.1283.1304.1294.1284 48 48 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62
=Mi CYCLE 5 EOC AT 10800 MWD /MT NYC5PDQ.MfC5XX108K 81/08/19. 14.55.46.PA0E 00052 BEFORE SHUFFLE SCALED POINTWISE ASSEMBLY CONCENTRATION EDIT (AREA RATIOS AFFtIED)
' ASSEMBLY ASSYO?
NUCLIIE MWD /MTU MllERIC ID 800 SCALE FACTOR = 10++ 5 ' LANE 1 34 34
.0789.0870.0934.0964.0963.0960.0972.0996.1032.1086.1139.1161.115:.1142 35 25
.0880.1023.1121.1143.1050.1033.1038.1062,1103.1201.1317.1342.1283.!!73
.0956.1133.0000. 0000.1164.0000.1056.1078.0000.1277.0000.00%s.1366.1206
.0997.!!66.0000.0000.1205.!!!2.1109.1128.1169.1305.0000. M 0.1367.1208
.1005.!!!5.1187.1217.1186.1171.!!93.1208.1218.1266.1333.1331.1277.1178
.1013.1078.0000.1136.!!83.1254.1344.1357.1202.1246.1225.0000.1207.1150 40 40
.1037.1096.1103.!!45.1217.1357.0000.0000.1387.1267.1215.1191.1197.1143 Figure 5-9
.1074.1133.1139.!!77.1245.1382.0000.0000.1406.1264.1232.1206.1210.1154
.1123.1189.0000.1234.1269.1330.1413.1419.1349.1299 ~.1276.0000.1248.1183 Normalization
.1190.1303.!?73.138?.1334.1298.1305.1310.1312.1357.1421.1412.1346.1235 Factor = 0.998
.1258.1436.0000.0000.1413.1293.1267.1271.1303.1435.0000.0000.1465.1288 45 45
.1290.1473.0000.0000.1430.0000.1257.1259.0000.1439.0000.0000.1488.1305
.1290.1421.14?8.14?3.1353.1298.1274.1275.1300.1336.1492.1501.1422.1289
.1255.1310.1335.1328.1286.1246.1227.1227.1244.1283.1323.1328.1299.1272 48 48 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 1
=uCnE ECC 47 1:.. : u: w7 ni:5022,u:5n:05-i:109::. c. r :..:< :, n l
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Normaliza tion
,3
.!:57.1: e 1273.13M.13e!.1509.0000.0000.1550.144:.1413.140?.14 P.102 Factor = 0.987
.1200.1303.1330.1353. !367.144r.15G.1559.14S:.1442.1455.144.1450.!?57
.1257.1401.1459.1 *S6.0KO.1363. 2427. !442.1442.0X0.1556.1411.154;.14:-
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. !332.1535.0000.0000. :50.1C3.134. :410. !365.1612.0iN.0M. !e57.14F 60 60
.1310.!468.1562.1568.! 4 5.1410.1399.1410.145!.1541.!! 4.1?*7.1576.!430
.1305.130.137?.1305.1353.133:.132:.1331.!350.14N.144'.!;5S.106.1403 62 62 4
49 50 51 52 53 54 55 56 57 58 P
40 61 62
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r Figure 1-A-Maine Yankee Cycles 2,3,4,5-Measured Axial Exposure Data.
List of Figures l
Figure Cycle Exposure (MWD /MT)
Normalization Cycle No.
End-o f-Cyc le Data Provided Factor
- l ' _.
f.
2 2-A 17395 17395 1.000 l
s 3:
3-A 10962 11075 1.010 4
4-A 10496 10496
-1.000 5
5-A 10796 10796' 1.000
'i Normaliza tion factor - to INCA nodal burnups to match end-of-cycle total-e xpo sur e.
t 4
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Figure 1-B IliCA Octant Position 11umbering 4
8 21 i
s i
15 31 11 25 4
16 33 13 28 7
20 i
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i e
i 32 12 27 6
19 i
l ORIENTAT'ON J
j UCA 29 9
23 2
l ;CB <
p UCC 26 5
18 l
V.
UCD 22 1
N0frE:
(
Positions 1 - 16 are instrument positions Positions 17 - 34 are uninstruacnt positions
,17 T-w
Figure 2-A l
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1 MY Cycle 3
(
INCA Nodal Burnups at 10962 MWD /MT End of Cycle at 11075 MWD /MT l
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