ML19327C195
| ML19327C195 | |
| Person / Time | |
|---|---|
| Site: | Palo Verde  |
| Issue date: | 10/31/1989 |
| From: | ABB COMBUSTION ENGINEERING NUCLEAR FUEL (FORMERLY |
| To: | |
| Shared Package | |
| ML17305A394 | List: |
| References | |
| CEN-390(V)-NP, NUDOCS 8911210134 | |
| Download: ML19327C195 (27) | |
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PALO VERDE NUCLEAR GENERATING STATION - UNIT 1
' J. , END-OF-CYCLE 2 FUEL EXAMINATION REPORT J
CEN-390(V)-NP 1 %
Oc+ober, 1989 l A Report to i Arizona Public Services Company l
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l Combustion Engineering, Inc. i f- Nuclear Power Systems t. 'i l l. Windsor, Connecticut .,
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1-y LEGAL NOTICE TlilS REPORT WAS PREPARED AS AN ACCOUNT OF WORK PERFORMED BY COMBUSTION ENGINEERING, INC. NEITHER COMBUSTION ENGINEERING NOR ANY PERSON ACTING ON ITS BEHALF:
A. MAKES ANY WARRANTY OR REPRESENTATION, EXPRESSED OR IMPLIED INCLUDING I THE WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY, ,
l WITH RESPECT TO THE ACCURACY, COMPLETENESS, OR USEFULNESS OF THE l- INFORMATION CONTAINED IN THIS REPORT,-OR THAT THE USE OF ANY INFORMATION, APPARATUS, METHOD, OR PROCESS DISCLOSED IN THIS REPORT l MAY NOT INFRINGE PRIVATELY OWNED RIGHTS; OR 1
B. ASSUMES ANY LIABILITIES WITH RESPECT TO THE USE OF, OR FOR DAMAGES
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i RESULTING FROM THE USE OF, ANY INFORMATION, APPARATUS, METHOD OR L PROCESS DISCLOSED IN THIS REPORT.
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Table of Contents Section ,Etig g
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1.0 INTR 000CTION 11
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2.0. FUEL ASSEMBLY DIMENSIONAL CHANGE EVALUATION 2-1 2.1 Pre-Shutdown Evaluation 2-1 {.
2.2 Dimensional
Change Data 2-2 'f 2.3 Post-Shutdown Evaluation 2-2 c
3.0
SUMMARY
AND CONCLUSIONS 3-1
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4.0 REFERENCES
4-1 i
l APPENDIX A Palo' Verde 1 Cycle 2 Fuel Assembly Dimensional Change Data
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List of Tables.
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IAhlt 11111 Ensut i
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. l' Palo Verde-1 Fuel Assemblies inspected 1-2
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List of Figures 1
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P Fiaure 1111g Eggg 1- Palo ' Verde-1 Shoulder Gap Decrease 2-4 -
2 Palo Verde-l Guide Tube Growth 2-5 e
3 Palo Verde-l. Fuel Rod Growth' 2-6 !
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Appendix A Fuel Assembly Dimensional Change Data A-1 ,
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1.0 INTRODUCTION
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s This report documents fuel examinations conducted during the End-of-Cycle 2 refueling outage at Palo Verde Nuclear Generating [
Station-Unit 1. The inspections were performed to fulfill examination
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requirements for E00-2 that are specified by the Palo Verde-1
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operating license. The inspections performed were dimensiona'i '
measurements' to characterize fuel rod and assembly growth. A total of
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10 fuel assemblies were' inspected. Table 1 lists the assemblies and provides pertinent data for each.
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Table 1 ;
Palo Verde-1 Fuel Assemblies InspectedIII at E0C-2 -
Number of Cycle-2 E00-2 Assembly Assembly + Cycles Discharged Core Avg. Burnup
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Serial Number - Jyradiated f_[Q M Location (GWd/MTU)
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B120*(2) 2 x H13 30.3 P2B233(2) 2 x P7 31.1 C002 2 JS 24,9 C005(2) 2 J8 24.8 3 C017 2 K14 22.3 ,
C025(2) 2 M6 24.2' C039 2 H9 24.8 P2C114 2 x K15 30.2 D001* 1 P15 11.5
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D002* 1 R14 11.5
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+ Serial numbers prefixed by P1 unless otherwise noted.
- Characterized fuel assembly.
II) Peripheral fuel rod shoulder gap and guide tube length measurements.
(2) Assembly previously measured at E0C-1.
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2.0 FUEL ASSEMBLY DIMENSIONAL CHANGE EVALUATION l b
Fuel rod shoulder gap (distance between the top of the fuel rods and the bottom of the upper end fitting) and guide tube length
. measurements were made at Palo Verde-1 during the EOC-2 outage. A total of ten fuel assemblies were measured; two Batch B, six Batch C,
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and two Batch D. The specific fuel assemblies inspected are identified in Table 1. The shoulder gap of peripheral fuel rods on i d,
. the four faces of each fuel assembly was measured optically using a periscope, while each of the four outer guide tubes was measured using the guide-tube length measurement tool.
c '3 2.1 Pre-Shutdown Evaluation .
The shoulder gap evaluation for Palo Verde-1 Cycle 3 fuel is identical L '
to the method used for Palo Verde-1 Cycle 2 (Reference 1), i.e.,
- l. remaining shoulder gap predictions were based on the minimum available ,
shoulder gap at the beginning of life, a conservatively high fuel rod I. growth prediction, and'a conservatively low guide tube growth
- prediction. These parameters are discussed in more detail below:
- a. The minimum available shoulder gap at the beginning of life t L accouated for component dimensional tolerances, elastic l
compression of the guide tubes, and differential thermal expansion between the fuel rods and the guide tubes.
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- b. The conservatively low guide tube growth prediction utilized the
., lower 95% valut calculated using the methods described in ,
Reference 2.
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- c. The conservatively high fuel rod growth prediction was taken from the ANO-2 Batch C data as 0.21 inches of growth per unit of fluence (unyt or nyt x 10-21) (Reference 3). This growth rate represents more growth than the 95/95 upper limit for the 2-1
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distribution of Batch C data from ANO-2. These data represent ;
the fuel whose high fluence rods had the highest observed gruveth
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rate of any fuel examined by C-E.
+ Implementation of this approach for the Palo Verde-1 fuel assemblies ,
showed that all shoulder gaps were predicted to have clearance at the
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end of Cycle 3. Therefore, if shed1 der gap and guida-tube length measurements taken on the ten Palo Verde-1 fuel assemblies support the
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applicability of the design basis, the third cycle fuel would be
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justified for Cycle 3 operation.
2.2 Dimensional Change Data
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' The individual shoulder gap measurements are tabulated in Appendix A.
p Tables A-1 through A-10, along with a table of the length change for -
each measured guide tube, Table A 11. For each shoulder gap measured, the tabulation in Appendix A also contains the initial shoulder gap (measured value if available, otherwise the nominal value from the L desig a drawings), the resulting shoulder gap change (initial gap -
EOC-2 gap), the inferred fuel rod growth (shoulder gap change plus guide tube growth), fuel rod growth strain. (fuel rod growth / nominal BOL rod length), and the fuel rod's axial average fast fluence. Guide tube information (average growth and average fluence) is included at
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the bottom of each fuel assembly's shoulder gap tabulation. The s
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shoulder gap change data, guide tube grcwth data, and fuel rod growth
'A data are plotted relative to the appropriate fast fluence in Figures ,
1, 2, and 3, respectively. Also plotted on these figures are data R. obtained from the measurement of Palo Verde-1 fuel assemblies .
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inspected during the E0C-1 outage (Reference 1).
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l 2.3 Post-Shutdown Evaluation Guide tube length change data are shown in Figure 2 along with the limiting (lower 95% and upper 957.) length change predictions resulting 2-2
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from the method described. in Reference (2). The figure shows that the
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measured data are all above the lower 95% predicted growth so it is conclumed that' it is conservative to use the guide tube length change model' when predicting limiting shoulder gap changes.
1 Fuel rod growth data are shown in Figure 3 along with the growth l
-- prediction taken from the ANO-2 Batch C data (0.21 inches /unvt). The [
figure shows that the higher fluence data are all below the design >
. basis and the trend of the data is for increased margin at higher fluences. Therefore, it.is conservative to use the fuel rod growth model when predicting limiting shoulder gap changes.
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,' 5 The predictive models for guide tube growth and fuel rod growth have 7' been shown to be conservative relative to the Palo Verde-1 data.
Therefore,. the shoulder gao evaluation technique is acceptable for determining the fluence capabilities for Palo Verde fuel. 1he fluence capabilities calculated by the technique for all fuel assembiies in Cycle 3 exceed the peak fuel rod fluence at E00-3. Therefore, the i shoulder gap provided is sufficient and the fuel's operation in
' Cycle 3 will not cause complete closure of any fuel rod shoulder gap.
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PALO' VERDE 1 SHOULDER LGAP DECREASE
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'AT EOC-1 AND EOC-2 -
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+ EOC-1 DATA A EOC-2 DATA
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PALO VERDE 1 GUIDE TUBE GROWTH .. .
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PALO VERDE 1 FUEL ROD GROWTH ~
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y 3.0 SUMr4ARY AND CONCLUSIONS i
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p Dimensional measurements of peripheral fuel rod shoulder gap and guide tube length were performed on 10 Palo Verde-1 fuel assemblies L following Cycle 2. Fuel rod growth data, determined from the measurements, indicates that the growth of high fluence fuel rods is ,
less than the growth predicted by the model used to determine design I
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limits for shoulder gap. In addition, the trend of the data is for increased margin between rod growth and the design basis at higher j
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fluences. Guide tube length measurements indicate that the measured I assembliesgrewfrom[ ]to[ ] inches during two cycles of exposure >
with average guide tube fluences up to 5.49x1021 n/cm2 (E >. 821 MeV) !
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and assembly average burnups up to 31.1 GWd/MTU. The measured guide 3 tube growth is greater than *.he lower 95% predicted growth that was t used to determine design limits for shoulder gap.
Based on the fuel assembly dimensional. measurements performed at EOC-2, the predictive models for guide tube and fuel rod growth have been shown to be conservative for Palo Verde-1 assemblies. As a result, adequate margin for shoulder gap reduction exists in all fuel assemblies designated for operation in Palo Verde-1 Cycle 3.
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4.0 REFERENCES
(1) CE NPSD-428-P, "Palo Verde Nuclear Generating Station-Unit 1, End-of-Cycle 1 Fuel Examination Report, issued December, 1987.
+ (2) CENPD-269-P, Rev.1-P, " Extended Burnup Operation of Combustion.
Engineering PWR Fuel", issued July,1984.
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(3) CEN-309 (A)-P, " Arkansas Nuclear One, Unit 2 Cycle 5 Shoulder Gap Evaluation",' issued July, 1985.
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APPENDIX A
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Palo Verde 1 Cycle 2
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Fuel Assemb1v Dimensional 'Chanae Data ,
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NOTE:' " ERR" on Tables A-1 through A-10 identifies values that could not be determined. The rod shoulder gap could not be measured because z.: the gap was so large it was outside the range of optical .
measurement. Fuel rod growth strains were calculated using nominal
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l Table A-3 ]
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ASSEMBLY SERIAL NO P18120 FACE: 0 FACE: 90 L E0 Cat E0C+2 GAP RQD GROWTN E0Ca2 EOC 2 GAP ROD GROWTN 80L GAP FLUEWCE' SN. GAP Closure GROWTN STRAlk 00L GAP FLUENCE * $N. GAP CLOSURE GROWTN STRAIN ROD (in.) (n/sq.cm) (In.) (in.) (in.) (K) t00 (in.) (n/sq.ca) (In.) (In.) (in.) (3)
.............................................................g .............................g..............................g, 1 2.469 5.780 1 2.500 5.700
. 2 2.453 5.809 2 2.516 5.736 3 2.453 5.928 3 2.500 5.859 4 2.453 5.977 4 2.516 5.914 5 2.437 5.978 5 2.484 5.921
- 2.437 5.972 6 6 2.500 5.924
- 7 2.437 6.012 7 2.469 5.974 8 2.437 6.042 8 2.484 6.018 9 2.453 6.011 9 2.484 6.039
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10 2.437 5.963 10 2.484 6.006 11 2.422 5.908 11 2.469 5.970 i 12 2.422 5.898 12 2.469 5.979
' 13 2.406 5.881 !
l 13 2.453 5.980 14 2.406 5.816 14 2.469 5.932
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15 2.406 5.679 15 2.453 5.813 16 2.422 5.629 , ,
16 2.500 5.750 , ,
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FACE: 180 FACE: 270 EOC 2 EOC+2 GAP ROD GROWTN EOC 2 EOC 2 GAP ROD GROWTN l BOL '.AP FLUENCE' SN. CAP CLOSURE GROWTH STRAIN BOL GAP FLUENCE' SN. GAP CLOSURE GROWTH STRAIN 4 l ROD (in.) (n/sq.cm) (in.) (in.) (In.) (1) RCD (in.) (r/sq.cm) (In.) (in.) (In.) (1) '
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1 2.453 5.644 1 2.422 5.629 2 2.422 5.668 2 2.422 5.633 1 3
- 422
. 5.771 3 2.422 5.723
! 4 2.422 5.80S 4 2.437 5.750 5 2.422 5.804 5 2.453 5.738 6 2.422 5.798 6 2.437 5.72) 7 2.437 5.838 7 2.437 5,760 8 2.437 5 .8 74 8 2.437 5.792 9 2.422 5.900 9 2.437 5.779 10 2.437 5.871 10 2.434 5.751
- 11 2.422 5.837 11 2.500 5.720 -
'12' 2.453 5.848 12 2.437 5.738 l 13 2.453 5.855 13 2,453 5 . 75 5
. 14 2.500 5.822 14 2.453 5.732
- 15 2.453 5.721 15 2.437 5.645 16 2.500 5.700 16 2.433 5.644
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- 1) NOMINAL 80L SHOULDER CAP. CHARACTERIZED
- 2) EOC 2 AVC GUIDE TUBE GROWTN. (5.486)in.
X1E21,n/sq.cm.
- 3) foc 2 AVG GUIDE TL'8E FLUENCE.
- 4) BOL ROD LENGTN. 161.168 in.
- FLUENCE E . 0.821 MeV
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~ ASSEMBLY SERI AL wo P2b233 l l
FACE : 0 FACE: 90 EOC.2 COC 2 GAP RG) GROWTM EOC 2 E0C+2 GAP RCD GROWTH 80L GAP FLUENCE *. GM. GAP CLOSURE GRobfM STRAIN 80L GAP FLUENCE
- SM. GAP CLOSURE GROWTM $1 RAIN RCD (In.) (Wsq.cm) (In.) (in.) (In.) (1) RCD (In.) (Wsq.am) (in.) (in.) (In.) (1) 4 er.................................... ....................... ...............................................................J
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1 1.682 5.853 1 1.682 5.956
. 2 1.682 5.878 2 1.M2 5.986 3 1.682 5.983 3 1.682 6.108 4 1.682 L.02C- 4 1.682 6.159 5 1.682 6.015 5 1.M2 6.158
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6 1.682 6.006 6 1.682 6.149 7 1.682 6.S44 7 1.682 6.188 8 1.682 6.076 8 1.682 6.218 9 1.682 6.056 9 1.682 6.213 10 . 1.682 6.026 10 1.682 6.169 11 1.642 5.992 11 1.682 6.116 0 12 1.682 6.004 12 1.682 6.110
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13 1.682 6.014 : 13 1.682 6.096
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14 1.682 5.982 14 1.682 6.033 15 1.682 5.884 !
15 1.682 5.898 16 1.682 5.869 , _ 16 ,1.682 5.855 ,
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FACE: 180 FACE: 2 70 EOC 2 E0C 2 GAP RCD GROWTM EOC 2 ECC 2 GAP RCD GROWTM SQL GAP FLUENCE' SM. GAP CLOSURE GROWTM $1 RAIN 80L GAP FLUENCE' SM. GAP CLOSURE GROJTM $ TRAIN RCD (in.) (Wsq.cm) (In.) (in.) (in.) (3) RCD (In.) (Wsq.cm) (in.) (In.) (in.) (t)
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1 1.682 5.857 1 1.682 5.869 2 1.682 5.889 2 1.682 5.898 3 1.682 6.005 3 1.682 6.012 4 1.682 6.054 4 1.682 6.059 5 1.682 6.059 5 1.682 6.060 6 1.682 6.058 6 1.682 6.056 7 1.682 6.103 7 1.682 6.096 8 1.682 6.141 8 1.682 6.130 9 1.682 6.168 9 1.682 6.127
- 10 1.682. 6.140 10 1.682 6.094 11 1.682 6.106 11 1.682 6.053 12 1.682 6.116 12 1.682 6.056 13 1.682 6.122 13 1.682 6.053
- 'f4 1.682 6.084 14 1.682 6.005 15 1.682 5.9 77 15 1.682 5.889 16 1.682 5.956 ,
16 1.682 5.857 , ,
- 1) NOMINAL SQL SHOULDER GAP. 1.682 in.
- 2) EDC 2 AVG GUIDE TUsE GRouTM. [ ]In.
- 3) E0C 2 AVG GUIDE TUBE FLUENCE. 5.666 X1E21,Wsq.cm.
- 4) BOL R00 LENGIM. 161.168 in.
- FLUENCE E > 0.821 MeV A-3
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. Al8ENBLT SERIAL NO PIC002 Table A 3 1
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F ACE : ' O FACE: 90 i E0C 2 E0C+2 ' GAP RCD GROWTH E0C 2 EOC 2 GAP RCD GR M N 1
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f:0L fd* FLUENCE SN.' GAP CLOSURE GROWTH STRAIN 80L GAP FLUENCE' SN. GAP CLOSURE GROWTH STRAIN
' RCD ( is . .' (Wsq.es) (in.) (in.) (in.) (E) RCD (in.) (Waq.ce) (in.) (in.) (In.) - (t) es e ns u n.m. u........u..... ...un.n u u s. . .... w.. ..... u .....u .... u ........ u ..... u u n u...u .n u u n u u
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a 1 2.382 5.329 1 2.382 3.403 J 2- 2.382 - 5.385 2 2.382 3.633 i 3 2.382 5.445 3 2.382 3.865 ' l 4 ~2.382 S.472 4 2.382 4.069 5 2.382' 5.485 5 2.182 4.251
'6 2.382 5.491 6 2.382 4.418
, 7 2.382 5.493 7 2.382 4.575 i 8 2.382 5.486 8 2.382 4.723
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'9 2.382 5.486 9 2.382 4.816 l
' 10 2.382 5.493 - . 10 2.382 4.936
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'- 11 .2.382 5.491 11 2.382 5.044 12 2.382 5.485' . 12 2.382 5.143 13 2.382 5.472- 13 2.382 5.226 14 2.382 5.445- 14 2.382 5.288 15 . 2.382 5.385 , 15 2.382 5.312 16 2.382 :5.329 ,,, ,,, 16 2.382 5.329 L ,
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FACE: 180 FACE: 270 EOC 2 EOC.2 GAP RCD Ga0WTH EOC 2 ECC 2 GAP RCD GROWTN
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80L GAP FLUENCE
- SN. SAP CLOSURE GROWTN STRAIN SQL GAP FLUENCE
- SN. GAP CLOSURE GROWTN STRAIN
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RCD (In.) (n/sq.cm) (in.) (In.) (in.) (E) R00 (In.) (n/sq.ce) (In.) - ( I n.". (In.) (t)
...........................................'.................
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l} 1' 2.382 3.403 1 2.382' 5.329 J 2 2.382. 3.450' 2 2.382 5.312
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-3 2.382 ' ' 3.453 . 3 2.382 5.288
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4 2.382 3.455 4 2.382 5.226 l 5 2.382 3.453 5 2.342 5.143 i
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6' 2.382 3.449 6 2.342 5.044 7 2.382. 3.444 - 7 2.382 4.936
- 8 2.342 3.432 8 2.382 4.816 ?
I 9 ;2.382 3.432 9 2.382 4.723 L
10 2.382 3.444 10 2.382 4.575 11 2.382 3.449 11 2.382 4.418 (
12 2.382 3.453 12 2.382 4.251
- i. 13 2.382 3.455 13 2.382 4.069
! 14l 2.382 3.453 14 2.382 3.865
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lL 15 2.382 3.430 15 2.342 3.633
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l 16 2.382 3.403 ,
16 2.382 3.403 ,
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. 1) NOMINAL 80L SHOULDER GAP. 2.382 in. '
- 2) EDC 2 AVG GUIDE TUSE GROWTN. (4.41231n. X1E21,n/sq.ca.
- 3) EOC+2 AVG GUIDE TUBE FLUENCE.
1 4) BOL RCD LENGTN. 161.168 in.
It
- FLUENCE E > 0.821 MeV l ..
l l
l l
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"
A-4 1
- ~ . - -, -.-%. . . ,,,.,,.m-. , , _ . . _ ,, _ _ _ . , , , . . . . _ , , . , , , , , , , - . . , . , . _ _ , . , _ , m.,.., m_ - _ - . . - , . - . , - . . ,
. - . . _ . ..
&
(
o 9
[.
e Table A 4 ASSEMBLY SERIAL bo P1C005 FACE: 0 FACE: 90 l' E0C+2 E0C 2 GAP RCD GROWTH E0C 2 EOC 2 GAP RCD Ga0WTu BOL GAP FLUENCE
- SN. GAP CLOSURE GROWTH STRAIN tot GAP FLUENCE
- SN. GAP CLOSURE GROWTM STRAIN RCD (In.) (n/sq.om) (In.) (In.) (in.) (X) RCD (In.) (W sq.am) (In.) (In.) (in.) (S)
.Stase.ceessemees. as.cossessessessesseseassososenessesse.essene
~ ~
sossees.nessesseossesseess ao..seessasses.seassesse..s.cos...es '
~ ~
1 2.382 3.292 1 2.382 5.356
. 2- 2.342 3.322 2 2.382 5.336 3 2.382 3.348 3 2.382 5.306
'
4 2.342 3.354 4 2.342 5.237 5 2.342 3.356 5 2.382 5.144
- 6 2.382 3.358 6 2.382 5.033 7 2.382 3.360 7 2.382 4.908 8 2.382 3.356 8 2.382 4.767 9 2.382 3.356 9 2.382 4.742 to 2.362 3.360 i 10 2.382 4.566 11 2.382 3.358 ! 11 2.382 4.387 I'
'
12 2.382 3.356 12 2.382 4.203 ,
13 2.382 3.354 13 2.382 4.003 14 2.382 3.348 14 2.382 3.783 15 2.382 3.322 15 2.382 3.537 16 2.382 3.292 , ,
16 2.382 3.1292 , ,
FACE: 180 FACET 270 ECC 2 EOC 2 GAP RCD GROWTN EOCa2 EOC 2 GAP RQD tiROWTH
'
BOL GAP FLUENCE
- SN. GAP CLOSURE GROWTH STRAIN SQL GAP FLUENCE' SN. GAP CLOSURE GROWTH STRAfW RCD (In.) (n/sq.om) (In.) (In.) (In.) (X) RCD (In.) (n/sq.om) (In.) (In.) (In.) (1)
...s................es.......e. .................s ............ ....o....se................................................r,..
"" ""
1 2.382 5.356 1 2.382 3.292 *
- 2 2.382 5.383 2 2.382 3.537 3 2.382 5.417 3 2.382 3.783 4 2.382 5.422 4 2.382 4.003 5 2.382 5.414 5 2.382 4.203 6 2.382 5.403 ; 6 2.382 4.387 7 2.382 5.397 7 2.382 4.566 8 2.382 5.393 8 2.382 4.742 9 2.382 5.393 9 2.382 4.76 7
- to 2.382 5.397 10 2.382 4.908
'
11 2.382 5.403 11 2.382 5.C33 12 2.382 5.414 12 2.382 5.144 13 2.382 5.422 13 2.382 3.237
- 14 2.3G2 5.417 14 2.382 5.306 .
15 2.382 5.383 15 2J82 5.336 16 2.382 5.356 .,,. .,, 16 2.382 5.356
- .a
- 1) NOMINAL BOL SHOULDER CAP. 2.382 In.
- 2) E0Ca2 AVG GUIDE TUBE GROWTH. ( 3 In.
- 3) EOC 2 AVG GUIDE TUBE FLUEN:E. 4.384 x1E21,n/sq.cm.
- 4) Bol ROD LENGTH. 161.168 In.
- 7LUENCE E > 0.821 MeV
-E
_ _ . - . . _ _ . . _ . _ . . . _ . . . _ _ . _ . _ . _ _ _ _ _ _ . . . . _ _ . _ _ _ . _ _ _ . _ . _ _ - _
- -
. - - .. - - . .__
,.<.
.
a.
..;
I Table A-5 l l
l ASSEMBLY SERIAL N0 P1C017 j FACE: 0 FACE: 90 EOC 2 E')C 2 GAP RCD GROWTH EOC 2 EOC 2 GAP RCD GROWTH 80L GAP FLUENCE
- SN. GAP CLOSURE GROWTH STRAIN 80L GAD FLUENCE
- SN. GAP CLOSURE GROWTN STRAIN R@ (in.) (n/sq.ce) (in.) (in.) (In.) (1) RCD (in.) (n/sq.cm) (in.) (In.) (in.) (1) s6............................................................. ...............................................................
~ "' ~ ~
1 2.342 5.247 1 2.382 4.003
- 2 2.342 5.225 2 2.342 4.188 3 2.382 5.197 3 2.382 4.365 i 4 2.382 5.134 4 2.382 4.505
.. 5 2.382 5.052 5 2.382 4.624 6 2.342 4.958 6 2.382 4.750
.7 2.382 4.857 7 2.382 4.829 8 2.382 4.748 8 2.382 4.918 9 2.382 4.667 9 2.382 4.970 -
10 2.382 4.533 10 2.382 5.037 /
11 2.382 4.391 11 2.382 5.097 9
'12 2.382 4.242 12 2.382 5.154 -(
13 2.382 4.079 13 2.382 5.203 14 2.382 3.897 14 2.382 5.237 15 2.382 3.685 '
15 2.382 5.240
.16 2.382 3.482 _ _
16 2.382 5.247 , ,
FACET 180' FACE: 270 E0C=2 E0C=2 GAP ROD GROWTH EOC 2 EDC 2 GAP ROU GROWTN 90L GAP FLUEN*E' SN. GAP CLOSURE GROWTH STRAIN BOL GAP FLUENCE' $N. GAP CLOSURE GROWTH STRAlu ROD (In.) (n/sq.cm) (In.) (in.) (in.) (S) ROD (in.) (n/sq.ca) (In.) (in.) (in.) (S)
............r................................................... ............................r..................................
~ ~ ~ '
1 2.382 2.777 '
1 2.382 3.482 7 2 2.382 2.861 2 2.382 3.4 78 3 2.382 2.948 3 2.382 3.471 4 2.382 3.019 4 2.382 3.441 5 2.382 3.086 5 2.382 3.404 6 2.382 3.154 6 2.382 3.364 7 2.382 3.225 7 2.382 3.321 8 2.382 3.297 8 2.382 3.2 72 9 2.382 3.356 9 2.382 3.236
- 10 2.382 3.435 10 2.382 3.191 11 2.382 3.517 11 2.382 3.138 12 2.382 3.607 12 2.382 3.082 l
l
- 13 2.382 3.707; 1'l 2.382 3.022
'
l 14 2.382 3.813 14 2.382 2.953 15 2.382 3.905 15 2.382 2.866 l
'
16 2.382 4.003 16 1.382 2.777 _
j
'
- 1) NOMINAL BOL SHOULDER CAP. 2.382 in.
l 2) EOC 2 AVG GUIDE TL BE GROWTH. [ ]in.
I 3) EOC+2 AVG Gul0E TU8E FLUENCE. 3.915 x1E21,n/sq.cm.
- 4) SQL ROD LENGTH. 161.168 in.
- FLUENCE E > 0.821 MeV
,
1 I
l 1^
'
hU
_. - - . - , - - -
._ _ _. . ___ _ _
,
I
- o
>
.
I g Table A*b l
'
,e
,
' \
'
'
AlHe't? MalAL to P1C025 n- ,
fact 0 Fact: 90 I
l 10Ca2 50C 2 tsAP top WMN 80C*2 10 Cat GAP kte Gt M k 00L f.AP FLWhCt' BN. GAP CLOSUtt Sm M N $1*dW 80L GAP FLWWF(' $N. GAP CLDBurt GA M N $1RAlt <
B00 (in.) (Wee.se) (In.) (In.) (In.) (t) t0D (in.) W eq.en) (in.) (In.) (in.) (t) ;
e.............................................................. ...............................................................i 1 2.M2 f.916 1 2.M2 4.366 ~
)
. 1 f.M2 3.038 2 2.342 4.291 f.M2
,
3 3.159 2.342 3 4.212 4 2.341 3.261 4 2.342 4.110 ;
- 5 2.342 ).M0 5 2.342 4.006 i
'6 2.342 3.457 6 2.342 3.907 .
T 2.342 3.552 F > *M U.011 '
8 f.M2 3.N3 8 2.M2 3.715 9 2.M2 3.715 9 2.342 3,.642 i 10 2.M2 3 411 10 2.342 3.552 >
11 2.M2 3.907 11 2.M2 3.457 t 12 2. 5" 4.006 12 2.342 , 3.360 13 2.342 4.110 13 2.342 3.762 14 2.342 4.212 14 2.342 3.159 15 2.M2 4.292 15 2.342 3.037 t 16 2.342 4.M7 _ 16 2.342 2.916 -
'
_ ,
FACE: 100 FACR 270 E:k".2 10C*2 tiAP 900 GR M N E0 Cat 80C 2 GAP 900 Gt M N -
DOL GAP FluthCt' $N. fsAP CLOBURE fik M N $fAAlt SOL GAP FLUIPCt* $N. MP CLOSukt Gt M N $1kAIN 800 (In.) Weg.cs) (in.) (in.) (In.) (1) too (In.) Wsq.as) (in.) (In.) (In.) (t) e3............................................................. ...............................................................
~ i
1 2.342 5.575 1 2.342 4.MT
~ ~
!
2 2.342 5.5 72 2 2.22 4.519 3 2.342 5.570
(
3 2.342 4.672 ;
4 2.M2 5.533 4 2.342 4.806 5 f.M2 5.441 5 2.342 4.918 6 2.M2 5.420 6 2 342 5.019 7 2.342 5.35' 7 2.342 5.118
- 4 2.342 5.285 4 2.342 5.212 9 2.342 5.213 9 2.342 5.243
,
10 2.M2 5.119 10 2.342 5.356 11 2.D2 5.020 11 2.342 5.420 12 2.342 4.958 12 2.M2 5.641 13 2.342 4.406 13 2.342 5.534
+ 14 2.M2 4.677 14 2.342 5.570
- 15 2.342 4.519 15 1.342 5.5 73 ;
16 ~ 2.342 4,366 - 16 2.342 5.5 75
_ _ _
- 1) WDMlWAL BOL $h:kJL0f t CAP. 2.M2 in.
- 2) EM'2 AVG G'.;IDE TL4! CRMM. ( )in.
- 3) IfX*2 AVG GUIDE TUlf fluth:t. 4,299 31(21,v sq.co.
4* BDL ROD LENGTN. 161.168 in.
- FlutWCC ( . 0.421 MeV 4
A.-
,
_ _ __ _ _
-
_ _ _ . __
, . - .- -- - _, _-
t
- t
, t
.
Table A 7 !
i Al6tatti Sill &L WO P1CO39 i
i Fact 0 Fact 90 1 00C 2 00C+t MP R@ at M W $0C+2 L oC 2 GAP ROD Ot M N DOL f.4P FLUCWCi' St. ts4P CL'Igutt Sk M N linAlk {
DOL (AP FlutWCt' $N. GAP CLOSutt Ga M u $1 talk 400 (in.) (n/6q.en) (In.) (in.) (in.) (3; B00 (In.) (W64.om) (in.) (in. ) (In.) (t) !
c:.............................,................... 6...........
..............................;............................. 4 5 1 f.M2 S.3M 1 2.38? 5.3% *
- 2 2.342 5.3M i 2.342 5.M3
'
3 f.M2 l.hd , 3 f.382 S.417 !
4 2.342 5.237 4 2.342 $.422 5 f.342 5.144 5 f.342 S.4t4 i
-
6 2.382 $ 033 6 2.342 5.403 7 f.M2 4.808 l
7 2.342 5.397 !
8 2.342 4.767 8 2.342 $.393 '
9 2.342 4 . 74 2 9 f.342 5.393 s 10 2.M2 4.M6 10 2.342 5.397 '
11 2.M2 4.M7 11 2.342 5.403 12 2.342 4.203 12 2.M2 5.414 ,
13 - 2.M2 4.003 13 f.22 5.422 i 14 3.342 3.743 14 2.382 $.417 -
15 2.342 3.537 15 f.M2 5.M3 14 f.342 3.292 4 ,. - 16 2.342 5.3% -
.
Facts 180 Facts 2 70 EOC 2 80C+2 (AP 90D SD M N EOC+2 EOC ! GAP R(o t.RM m DOL GAP FlutWCE* SN. GAP CLOSURE GR M N STRAIN DOL GAP FlutNCt* $N. GAP Ct0sutt Ga m p $ttals RCD (In.) (voq.ce) (In.) tin.) (in.) (1) toD (In.) (voq.ce) (In.) (In.) (In.) (t) '
ese............................................................ ............................................................... ,
1 2.M2 3.292 1 2.342 3.292
"' *"
2 2.342 3.537 2 2.M2 3.322 3 f.342 3.743 3 2.M2 3.M8
- 4 2.342 4.003 4 2.382 3.354
$ t.M2 4.203 5 2.M2 3.3%
6 2.342 4.M7 6 f.342 3.358 !
7 f.M2 4.M6 7 2.362 3.360 ?
8 2.342 4.742 4 f.382 3.356 9 '.M2 s 4.767
'
9 2.M2 3.356 10 2.M2 4.90$ 10 2.382 3.M0
'
11 2.342 5.033 11 2.382 3.358 12 2.342 5.%4 12 2.342 3.356 13 2.342 $.237 13 2.M? 3.354
. 14 2.M2 $.306 14 2.362 3.M8 15 f.M2 $.336 15 2.382 3.322
% 2.342 5.3% ,
,,,, 16 2.342 3.292 , , ,
- 1) W3MihAL SQL $N00LD[t GAP. 2.342 in.
- 2) (DCa2 Ava GUIDE tutt GRMM. ( )n. ,
- 3) EDCat AVG CUIDE Tutt FLuthCE. 4.344 X1(21. W sq.ca. *
- 4) SQL ROD LthCTM. 161.168 in.
- FLuthCE E . 0.421 NeV
,
/c 8 w -- ---- t -e w w-+yn --
us-- r-.- - -g- - , , - - - , - - , - - - - - - - - -
_ ._ _ _ _ _ _ . _ . . . . _ _ . _ _ _ _ _ _ _ . .
.
. ,
o.
.-
Tcble A 8 [
AlltettLT titlAL WO Pittle
.
Fact 0 F Att i 90 80C*R 80 Cat MP RCD 9tMN 80C 2 E0C ! (4P t0D DMN l 90L SAP FLutwCt' $N. (AP CLOIUtt DMN linAIN tol MP FLUENCl' SN. fAP CLClutt Gt M N likelt I te (In.) ( W og.se) (In.) (in.) (in.) (4) RCD (in.) (Woq.en) (In.) (In.) (in,) (t) ;
cm .................. .......g............................. ..............................gg.......................,....... ,
1 f.342 5.276 1 f.M2 5.52 ;
, # 2.342 .5.205 2 2.X2 5.785 3 2.342 5.327 3 2.342 5.859 4 2.M2 5.3r? 4 2.382 5.893 j 5 2.M2 5.379 5 2.362 5.877 >
. 6 3.M2 S.218 6 2.342 5.851 7 2.342 5.190 7 2.342 5.862 8 f.M2 5.155 8 2.342 5.460 :
9 2.21 5.107 9 2.342 5.k1 i 10 2.342 5.00s to 2.M2 5 . 7 73 !
11 2.342 4.903 11 2.342 5.696 l, 12 2.342 4.830 12 2.M2 5.657 -
13 2.M2 4.746 13 2.342 5.604 ;
16 2.342 4.617 14 2.342 5.503 +
15 2.342 6.656 15 2.342 5.M6 16 2.M2 4.328 ,, 16 2.342 5.276 , ,
i
.
Facts 180 FACit 270 E0 Cat IOCat MP RCD 0* M N EOC*t E0C*! f4P 900 Gt M N i DOL fAP FLUENCE' $N. (AP CLOsutt at M N 81 LAIN DOL r.AP FluthCt' $N. GAP CLO$Utt Gt M M $1tAIN toD (In.) ( Woq.oe) (in.) (in.) (In.) (4) ROD (In.) (Wsq.cs) (in.) (in.) (In.) (t) j es............................................................. ...............................................,............... *
~ ~ ~ ~
1 2.M2 5.575 1 2.342 6.328 2 2.M2 5.629 '
2 2.342 4.493 3 2.342 5.54 3 2.342 4.697 4 2.342 5.002 . 4 2.342 4.467 5 2.342 5.420 5 2.M2 6.96' 6 2.M2 5.429 6 2.M2 5.089 ;
7 2.342 5.881 ,
7 2.342 5.221 !
4 2.M2 5.927 8 2.342 5.342 ;
9 2.342 5.913 9 2.22 5.412 r 10 2.342 5.096 . 10 2.M2 5.662 t
- 2.342 5.500 11 2.342 5.869 11 <
12 2.342 5.846 12 2.M2 5.570 13 2.342 5.396 13 2.342 5.623
. 14 2.342 5.859 14 2.342 5.624 15 2.342 5.742 15 2.342 5.540 16 2.342 5.752 ,
16 2.342 5.575 ,
i
- 1) W;mlhAL BOL $Netr Dtt GAP. 2. M2 In.
- 2) 80C+2 AVG GUIDE TUSE CA M N. [ )in. '
- 3) 10C+2 AVG OulDE Tutt FLutWCt. 5.214 mit21.n/sq.cm.
- 4) DOL RCD LthCTN. 161.168 in.
- FlutWCE t . 0.421 MeV l
l A-9 i
_ _ _ _ _ _ . _ _ _
. _ _ . _ _ _ _ _ _ _ - - __ __ _._
_ _ _ . -_. . . _ - . _ _ _ - _ _ . - -
t
,
e i o
{
s .
t Table A 9 i
i AlltutLY titl AL NO P19001 F Act: 0 Fact: 90 10C 2 80C 2 MP 90D Sk M N 80C 2 toc 2 MP RCD et M N '
00L MP fluthCt* DN. MP CL0eukt OR M N linAIN SOL MP flut#Ct' DN. M* CLOtutt Ga M N sinals i te ( In. ) ( W 64.es) (in.) (in.) (in.) (t) 800 u s............................................................
(in.) (Waq.es) (In.) (In.) (In.) (t) :
'" ' ...............................................................
~
?
1 2.474 1.834 1 2.640 2.228 " <
- 2 2.49 1.815 3 2.649 2.244 3 2.643 1.799 3 2.642 2.262 4 2.450 1.7M l 4 2.458 2.259 5 2.49 1.723
'
5 2.645 2.249
- 6 2.640 1.679 6 2.452 2.234
- 7 2.4 72 1.04 7 2.431 2.217 8 2.49 1.587 6 2.449 2.194 !
9 2.452 1.553 9 2.649 2.142 i 10 2.426 1.494 10 2.451 2.147 11 2.666 1.02 11 2.436 2.110 U 12 2.41 1.M7 12 2.642 2.070 4 13 2.4 72 1.299 13 2.46 2.025 14 2.45 1.226 14 2.470 1.973 ;
il 2.45 1.140 15 2.470 1.901 16 2.432 1.057 , , 16 2.474 1.834 , t
,
,
facti 140 fact 270 80C 2 50C 2 MP 900 GA M N EOC 2 EOC 2 MP 90D ct M N l OOL MP FLUENCt* SN. SAP CLOSutt Ge M M $ftAlk DOL GAP fluthCE. $N. (shi CL0$utt GA M N $1tAtt i 80D (In.) (W sq.en) (In.) (in.) (in.) (1) ROD (In.) (W6q.cm) (In.) (in.) (in,) (1) ,
es...e s..e.a..s .s.s s e s.e s s e...s.e s.....s.s s.....s s s e s..s s s e e. .ssses..sp ses..s..s.a s.e s.e s es. s sssssssseess.a. s e s s es. s.es *
' ~ ~ ~
1 2.642 1.969 1 2.42 1.057 '
2 2.642 2.032 2 2.454 1.149 !
3 2.420 2.098 3 2.449 1.243 4 2.628 2.164 4 2.667 1.324 i 5 2.4M 2.182 5 2.439 1.401 6 2.410 2.215 6 2.629 1.475 7 2.425 2.245 7 2.434 1.546 8 2.431 2.271
[
8 2.439 1.615 t 9 J.432 2.275 9 2.433 1.656
- 10 2.420 2.294 10 2.412 1.712
'
11 2.404 2.303 11 2.433 1.767 i 12 2.4M 2.307 12 2.458 1.821 13 2.431 2.306 13 2.458 1.871
. 14 2.401 2.297 14 2.446 1.914 ,
'
i 15 2.08 2.263 15 2.44 1.94 0 16 2.640 2.228 - _, 16 2.44? 1.969 ,,,,
,
I
- 1) NOMihAL DOL SM:11LDtt GAP. CHARAcittitt0
i
- 2) (OC 2 AVC QUIDE tutt GtMNe
- 3) 10C 2 AVG GUIDE tutt FLUENCE.
( )in.
- 1. M 7 X1f21. W 64.cm. !
- 4) 80L 200 LENGTMs 161.168 In. i
- FluthCE E 0.821 MeV e
A 10
.
. - - _ _ - _ - _ _ ._ - . _ _ - .-- --
. . _ - . .. . .-. --. . .
. -_ -.. _-.
i i
- i
- . t
!
Table A.30 .
!
5 6sst ate See:At m0 p10002 l
PACE: 0 Fact: 90 00C.) 80C+! w h@ SkMN BOC 2 80C*t W BOD ga M a l e0L w ftutoCE. sa. w cteaunt enevra SinA n e0L w flutect. Sn. w CL0 sung ea M a staAta '
BOD' tin.) (Naq.an) (In.) (In.) (in.) (1) top (In.) (Waq.en) (In.) (In.) (In.) (t) cc.............................................................
~* * .......................................e.......................
~
,
i 1 2.446 1.969 1 f.470 2.228 ~ '
2 f.428 1.M0 2 2.478 f.M3 i ;
. 3 f.400 1.914 3 f.413 2.797 '
i 4 f.4.N) 1.8 71 4 2.418 2.306 5 f.435 1.821 5 2.405 2.307 l
, 6 2.390 1.76 ' 6 2.382 f.303 7 2.430 i 1.712 7 2.403 f tM 8 f.432 i 1.656 8 f.420 2.278 9 f.435 1.615 9 2.396 2.271 l 10 2.392 1.546 10 2.412 2.745 11 2.435 1.475 [
11 2.385 2.215 12 f.431 1.401 2.402 L
12 2.182 .
13 2.435 1.334 13 2.423 f.144 !
14 2.388 1.243 14 2.425 2.098 i 15 2.436 1.149 15 2.421 2.032 ;
16 2.447 1.057 ,. 16 2.446 1.969 l
FAtt 180
.
s FACE: 270 EOC*t 80C 2 GAP R@ GR M N ED>t t0Ca2 GAP R@ Gt M k 80L GAP ftutWCt* SN. 8AP Ct00URE $40WTN 81kAIN BOL GAP fluttCt* $N. GAP Ct0sutt Ga M M sinatk t 400 (in.) (West.en) (In.) (In.) (In.) (1) RS fin.) (Waq.cm) (In.) (In.) (in.) (1) ,
e..................e 1 3.435
.......................................... ...............................................................
1.834
" ' "
- 1 f.447 1.057 ,
t 2.431 1.901 2 2.418 1.140 3 2.410 1.973 !
3 2.387 1.226 4 2.402 1.025 4 t.430 1.299 ;
5 2.418 t.070
- 5 2.403 1.M7 .
6 2.397 2.110 6 2.429 1.432 7 2.394 2.147 7 2.620 1.494 4- 2.404 2.182 8 . 2.426 1.553 9 f.431 2.194 9 2.421 1.547 10 2.415 2.217 to 2.420 1.634 2.428 f.234
,
. 11 11 P.423 1<679 .
12 2.419 2.N 9 12 2.428 1.723 2.399
,
13 2.259 13 2.434 1.764 14 2.402 2.262 14 2.420 1.799
- 15 2.418 2.244 15 2.440 1.815
,
!
16 ?.420 2.228 ,,, , 16 2.435 1.834 '
.
.
- 1) WOMihAt 80i $w:ULDtt GAP. CHARAcittl280
- 2) t0C*2 AVG GUIDE tutt GA M M. { )in. ,
- 3) EOC 2 AVG GUIDI iUBt FLUENCE. 1.867 X1821,W an.cm.
- 4) DOL ROD LthCTM. 161.168 in.
- FluthCE E
- 0.421 meV A-11
_. _ _ _ _ _ _ . _ _ - _ _ - . . _ . . _ . _ _ _ _ _ _ _ - . _ . _ _ _ - . _ _
_ _ _ . . . . . .
l
., ,, e
' '
a i
- !
Table A-ll ;
1 i
i PAID VERDE-1 EOC-2 GUIDE TUBE GROWTH DATA Average G.T.
Assembly Fluence
- GUIDE TUBE GROWTH (in.)
G.T. G.T. G.T. G.T.
Average Growth f
j f1 f2 03 4 (in.) '
=======menemme===============me==================#
- ====n=======gi
,
r P15120 5.49 '
.
PIC002 4.41 i
PIC005 4.38 i
P1C017 i 3.92
.
,
PIC025 4.30 P1C039 4.38
-
P1D001+ 1.87 P1D002+ 1.87 I P2B233 5.67
)
P2C114 5.21 -
t
.
- FLUENCE XE-21, n/sq. ca., E>0.821MeV. !
+ CHARACTERIZED ASSEMBLY GUIDE TUBE IDENTIFICATION: $1-NE,#2-SE,#3-SW,#4-NW.
. ;
t i
!
f
!
!
!
!
- <
.
7
,
O a
,
i
!
I l
l A-12 l
. _ _ - -__._ _ . . - _ __. . _ . _ . ._- . _ . _ . . - - - _ _ _. I