'URKEY POINT PLANT · 2019. 4. 6. · 2.0. Initial Criticality The approach to criticaality began...
42
~ ~ l FLORIDA POWER 6 LIGHT COMA% 'URKEY POINT PLANT UNIT 4 CYCLE V STARTUP REPORT ' ~ „
Transcript of 'URKEY POINT PLANT · 2019. 4. 6. · 2.0. Initial Criticality The approach to criticaality began...
~ ~ l
FLORIDA POWER 6 LIGHT COMA%
'URKEY POINT PLANT
UNIT 4 CYCLE V
STARTUP REPORT'
~ „
Introduction
This report contains an official summary of the Startup Physics Tests,
Unit 4, Cycle V. The tests were conducted in accordance with Operating Procedure
0204.5, Nuclear Design Check Tests During Startup.Sequence After Refueling.C
The testing program commenced on September '27, 1978 with initial criticalityand was completed on September 30, 1978.
Author:R. G. Ifende
Reviewed:J. R. TomontoHanager of Nuclear Analysis
Approved:U. A. Kamindkas,Reactor Engineering Supervisor (PTP)
TABLE OF CONTENTS
Page
Acknovled gemen ts
Introduction
1.0 Unit 4 Cycle V Core
1.1 Loading Pattern1.2 Rod Pattern1.3 Rod Drop Times
'- 2.0 Initial Criticality2.1 ICRR Vs. Rod 'Position2.2 ICRR Vs. Dilution
2
7
8
3.0 Summary of Tests
3. 1 Nuclear Heating3.2 Reactivity Vs. Period
3. 3 Boron Endpoints
3.4 Rod Worth (PP"1)
3.5 Rod Worth (PC~I)
3.6 Temperature Coef ficient
10
11
12
13
13
19
4.0 Shutdovn ~far gin
5.0 Pov'er Distribution Maps
5.1 HZP Flux Mip
5.2. 30% Flux Hap
5.3 98% Flux ~Rp
6.0 Poser Defect
20
22
23
24
25
1.0 Unit 4 Cycle V
1.1 'Loading Pattern
1.2 Rod Pattern
1.3 Rod Drop Times
DATQREACTOR -FUEL LOCATION
TURKEY POINT PLANT UNITNO.~CYCLE NO. V
15 14 13 12 11 10
I I I I I .IP-34
25
P-36 P-44
17 78
B 6 4- '3
I I
83 R95
G-41 U-07
U-ll N-26 V-12
12P13
S-25
P-15 V-ll -10
63 2P79 R71
T-02 S-34 U-20
U-3.3
57
G-43 R-43
U-19
94
R-02 V-08
37 12P13
U-01 tel-37
60 79
N-14 S-31
47 R65
S-ll S-20
R89 88
R-42
61
S-13
R78
P-46 R-27 S-olR70 72 R80
T-10 S-26 S-16
2P 73 R54 12 R76 36 59 46
N-35 V-05 R-32
19 12P 109 53
S-36 N-40 U-17 'U-03
P-45
92
P-22
54
N-25 U-06 S-39
R12 12P72 R86
V-06 S-29 R-44
12P86 R81 38
P-23 T-08 P-37
69 PS-04 R58
T-14
2P 11
P-18\
R84
S-33 S-17
96 13
S-12 N-47
R77 21
N-.20
T-01
T-03
SP02
SP03 9 29
P-48 T-13 P-27
R59 8PO1 R51
P-26 N-43 S-35
R57 98 95
T-04 T-16 -48
S-24 S-28 U-10 N-49
20 R69 2P11 R83
S-15 R-13 S-04 V-02
90 R85 12P10
T-05 P-03 T-07 P-06
2PlOS R61 PS 0 62
P-30
P-28
74
P-47 V-07 S-02 R-10
12P12 R73 55
S-06 iN-01
R64 93
T-12 T-ll T-06 i -46
SP04 73 71
S-38
R79 85 R68
S-03 R-48 V-04]
12P131
P-35
56
N-04 U-05 S-05
R87 12P11 R75
S-19 S-18
89 23 R67 42 15
P-32 N-06 S-14 S-23 S-37 U-16 N-32
87 R62 12pll R82
U-18 U-15
101 86
N-38 S-07
R55
S-21 S-32
R74
T-152P95
S-22 S-30
R52 27
S-08R91
N-41
40
U-02
18
U-08
INSERTS
R= RCC
65 12P13
R-49
R-25 V-09'-44 S-09
28 R66
G-44
66
U-09
12P114
U-12 N-42
31 R-90
R-12
68
S-40
V-03
2P59
P-33
77
P-29 R-39 S-2 7
R53 58 R92
T-09 S-lo U-04
12P92 R63 12P118
P-25 V-01 N-09
52 2P113 R88
P-43 P-40
49 39
N-36 'V-10 R-05
26 12P12 44
G-42 R-28
51 50
U-14
16
RS = PART LENGTH
BP = POISON
NO LETTER DESIGNATION = THDIBLE PLUG
D = THIMBLE PLUG FOR REMOVABLE ROD ASSEMBLY
PS ~ PRDIARY SOURCE
Assembly No.
Insert No.
LEGEND
pEr rrP
FOR 5445 REV. lg177
DATEREACTOR FUEL LOCATION
TURKEY POINT PLANT UNITNO.~CYCLE NO.~
16 14 13 12 11 10 9 7 6 6
B
SA SA
C C
SB
C 'SB C B
SB'SB SA
C C
SA
SB
C C
'A
ABSORBER IMMATERIAL
Ag-In-Cd
FUNCTION
Control Bank 0Conlrol Bank C
Control Bank B
Control Bank A .
Shu'ldown Bank SBShutdown Bank SA
OF CLUSTERS
588888
Assembly No.
Insert No.
LEGEND
FORM 5445 REV. ll/77
ROD DROPS
rN
The following is a table of rod drops times as measured prior to
Unit 4 Startup Physics Tests. The two times given are time to dashpot,
a Technical Specification of 1.8 seconds or less, and time to the bottom-
of the core, which does not have a Technical'pecification requirement.
All rods were droppe'd and met the Technical Specification requirement.
DATE
Se tember 25, 1978
REACTOR FUEL LOCATION ITURKEY POINT PLANT UNIT NO.
CYCLE NO.~1S 14 13 12 11 10 9 6 S 4
1.341.79
1.29
l.72
1.26
1.76
1.29
1.78
l.29
1.78
1.31
1.73
1.27
l. 75
1.27
l.77
1.27
1.72
1.28
1.77
1.29
1.78
1.31:
1.73
1.281.78
1.31l.73
1. 28
1.75
1.29
1. 72
1.28
1.78
1. 28
1.72
1.29
l.76.
1.27
1.74
1.301.73
1.29
l. 72
1.27
1.74
1.29
l. 72
1.28
1.71
1.26
1.74
1.26
1.73
1.25
l. 75
1.26
1.75
1.29
1.72
1.27
1.76
1.29
1.72
1.28
1.77
1.33
1.76
1.25
1.74
1.29
1.79
1.281.75
1.26
l. 73
1.251.73
1.271.70
1.271.70
1.26
1.76
1.25
1.75
1.26
1.271. 70
H,
G
F"
8'l
I
I
A
Ti.me to Dash. Pot(sec)Tame to Bottom ofCore (sec)
LEGEND
FORM 5445 REV. 11/77
2.0. Initial Criticality
The approach to criticaality began September'27, 1978 at 2140, hours
in accordancewithOoerating Procedure 0204.3, Initial Criticality After
Refueling. Criticality was achieved September 28, 1978 at 0800 hoursI /
by withdrawing control rods to 193 stepson Bank D and dilutirig-39,700
gall'ons of water.
Upon attaining criticality the flux level was increased to 1 x 10-8
amps on the intermediate range to obtain critical data.
Tavg;— 547'. F
Control Bank = 193 steps-8Flux ~ 1 x 10 amps
Boron = 775 ppm
The following two graphs are a plot of the ICRR during the appr'oach
to criticality.
ICRR VS ROD BAi%( POSITION
— N32
UNIT CYCLE V EXPOSURE N/A IBM)/i~fTU
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x - '.f32- N35
ICRR Vs. Dilution
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3.0 Summary of Tests
3.1 Nuclear Heating
3.2 Reactivity Vs. Period Check
3.3 Boron Endpoints
3.4 Rod Norths (PP".Q
3.5 Rod Horths (PCM)
3.6 .Temperature Coefficient
3.1 Nuclear Heating
Nuclear Heating was determined in accordance with Operating Procedure
0204.3, Initial Criticality After Refueling.
'Nuclear heating first occurred at:-7Kiethly Pico Ammeter = 4.3.x 10 amps
-7N-35, 3.7 x 10 amps
-7N-36 3.3 x 10 "amps
-7All physics test were conducted at a flux level at or below X..O x 10
amps to assure nuclear. heating did not occur.
-10-
3.2 Reactivity Vs. Period
Reactivity Computer Checkout was done in accordance with Operating
Procedure 0204.3, Initial Criticality After Refueling. The results are
as follows:
Period (sec)
145.1
139.9
111.9
123.4
151.4
128.5
194. 6
Reactivity '(pcm)
36.5
37.9
45.2
42.5
35.5
30. 0
20.0
Reactivity (design)
35
37
45
'34
29
20
Diff (%)
+ 1.04
+ 1.02
+ 1.00
+ 3.66
+ 4.41
+ 3.4
0.0
-11-
3.3 Boron Endpoints
HeasuredDesign-
Westin house
ARO 799 750
D in 725 678
CD in
DCB in
DCBA in
567
520
359
515
470
309
3.4 Rod Worth (PPM)
D
Measured
74
Westinghouse
72
% Diff2%7
158 163 '+3.1
B 45 -4.4
161 ~ 161 0
To tal 440 441 +0.22
3.5 Rod Worth (PCM)
Measured Westinghouse % Diff
727
1701\
473
1744
762 .
17.35
487
1749
+4.8
+1.9
+2.9
+0. 3
Total 4645 4733 +1.89
r
HOT ZERO POWER
DIFFERENTIAL & INTEGRAL BiQT WORTH
VSBANK POSITION
UNIT 4O'ECLE 5EXPOSURE .0.0 KMD/MTUBANK A
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~ ~ ~ i ~ ~ ~ ~ ~ ~ etc ~ ~ ~ ~ ~ ~ e ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ I ~ ~ ~ ~ ~ se ~ ~ ~ Is ~ ~Illa II> ~ I ~ ~ I> ~ ~ ~ I ~ ~ I ~ I ~ ~ ~ I Ie I ~ it Itl~ ts> ~ I ~ ~ ~ ~ ee ~ ~ ~ ~I ~ ~ I tte ~ ~ ~ ~ I I I ~ ~ I If ~ ~ ~ ~ fs ~ j ~ e l> ~ ~ ~ ~ ~ I ~ It ~ 1 ~ ~ ~ ~ ~ I ~ I ~ ~
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40 60 100 120 140 160 180 200. 220 228
1200
1000
SOQ
600
'.400
200
UNIT 4.CYCLE 5EZPOSURE O O KMD/MTUBANK D
BANK POSXTIONS
MOVING;
Cl ~~ Q
D~ 0
Ee Q
OUT INSDA I .C3SDB 9 Q
'CBA EJ 0CBB IS .0CBC ElCOD GP/L tm Q .
~ TEST METHOD
o DXLUTXON 'ElBORATION 0,
~ Q ~ ~~
~
~ ta
k
P
PTP-4 CYCLE-5IiVTEGRAL h'ORTH - TN OVERLAP
ECC SECTlONFIGURE-3ERK 10/12/78
CONTROL BANK C POSITION (STEPS)
108 118 128 138 14!8 158 168 178 188 198 208 218 228
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0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 228
Temperature Coefficient
Temperature'oefficient was measured in accordance with Operating
Procedure 0204.5, Nuclear Design Check Tests .During Startup After Refueling.
Tne measured numbers (in PCM/ F) are:
Isothermal Temperature Coefficient
Rods
ARO
Measured
-7.66
DesignWestinghouse
-7.01
Moderator Temperature Coefficient
Rods
ARO
Measured
-5.76
DesignWestinghouse
-5.11
Moderator Temperature Coefficient can be defined as Xsothermal Temperature
Coefficient minus Doppler Coefficient. Doppler Coefficient = -1.9 pcm/'F.
Est. from Westinghouse WCAP -9351 was used for all Temperature Coefficients.
—,19-
4.0 SHUTDOWN MARGIN
The Shutdown Margin was calculated prior to power escallation to verifyadequate shutdown capability. For this calculation design, rod wreaths werereduced by 10% and showed shutdown margin at BOC and EOC. The fo92owingis a summary of the results:
CYCLE 5BOC EOC
Control Rod Worth (%hp)
All Rods Inserted Less Worst Stuck Rod(1) Less 10%
6.515. 86
6.5~45. 89
Control Rod Re uirements (%do)
Reactivity Defects (Doppler, Tavg,Void, Redistribution)
Rod Insertion Allowance(2) Total Requirements
Shutdown Margin [(1)-(2) ] %hpRequired Shutdown Margin (%hp)
2.13.50
2.63
3.231. 36
2. 78.59
3.29
2.691.'7,7
«20-
5.0 Power Distribution Map
5.1. HZP Flux Map
5.2 30% Flux'ap -,
5.3 98% Flux ?fap
-21-
«
IDA POWER tst LIGHT COMPANY
TURKEY POI»VT PLANT UNIT 4OPERATING SUMMARY
...R
00
00
.584
. bpej-2»6
eb)9
~ ~
0»0»
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!0»toot~ ~ ~
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.657»6402,6
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00
~ ~ ~ ~ ~
~00li318 t 13 ~
'4,',~4> jo3bptp3)9l~io.'i321'. 13)rl
F s ~ 8H ..., H...L. K J ..* H .tj~ ~ ~ ~ e ~ ~ « ~
. b;Sinai";354!c'hi~~!0)321!oe360!0 318
59> 5 h2ibf 1 132 H 4'0! i 12"
Q»~feei ~ j3doi»07~!j ~ 154li ~ 252!a»14
f,0, 449 j a 151 .l 0 9 7o: i:2? 7 f a ~ 007: i, n ) 9:. i.. 0 a 8l 0 ~ 459 ~ 1 »16$ lo ~ 99/ l 1 ~ ?82' ) 024 '
~ 047''»024
l oa ~ 1 54 ~ 0 ~ 9Y5'. 1 ~ 264 '. 1 t 3 0«n', 1 ~ 257 l 1 ~ 257 ~ 1 ~ 254
'j ',? 9 2 a o g 4 ~! i e «~ 2 a o a e ) $ 5 'f s 9 5 > '. /J ~ 9 5 a f 0 s 9 4 $! j.,3Q7 1,232! 1 e29d'1 ?59'.0 981 jo,963» 0e982
~ 1 ~ 207 f 1 ~ 53~ i ~ </< t 0 ~ ~40 '1 s 254.'i »152 l 1 ~ 2/6!a,?og!a 024.'a.?54lp,982!a 258' 106'j1 258
',i;2>r'.tji.b'o'fi!i.Mh 5,082!i,iO2;i,p~~.i i?i24?taI04? 1 257 0»963«!1)ipbofi Q67)j. ao+
'.i,284.'i 064!i 'C5'i;Oob.i,'«.'7?; ;„:»I)lid?8j'j..2C3l j. ~ C24! 1 25/I G,981.'1 25o! 1 '106,1 25e,2»5! 3 ~ P» 3 ~ <t 2 ~ Qo j ~ 1! 1)7! 1 ~ 5
!i;3451:i:06>'.i:33V'.i:386!h;995!b;64P!0 99EaI3aafae?32'a ~ 300! 1»259'O)98?!CD 963,'p)981
!iy252!a»53~.'i 202ll»530'a)30 .'i»335',i'86!1,160!0»99/!'e264l 1,?9dti»254! 1)257!1)257
PE 498Ia»23htaogallao?78!i»069!1»pbbfa ~ O09P.460,1.161!Oe+Y5 1 ?3> 1)024,1»G47»a n24
2)9 ~ . 2 ~ >l. 1 ~ 1 ..G ~ 4, 5 ~ 2) 6 ~ 2~ ~ e e ~ ) ~ ~ ~ ~ ~ ~ ~ ~ o ~ ~ ~ ~ ~ e ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~tp ~ 580tO ~ 607!1 ~ 056 n»765»iepbooo
lotbop!Ge63< 1 ~ $ 45 0 ~ 824! 1 e15j."2 ~ 3 "4»6l "/.7!. -7)1, "7»9s ~ ~ ~ o ~ ) ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ e ~ ~ ~ ~ ~ ~ ~ ~ ~ ~„!0,?89!0,329!0 295
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1 ~ 240'lellpl1 311.! a, 1 60!-7»4t 3
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'9/lp»570!lpe64»>!Po602t' " 'f'kA'SU!'«
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io«.5afie3)hf1 ~ (32'j.»311!
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o.46nfQ
~ ~ ~, ~ ~ ~
D F DE!TA KD F DELTA KI»CE
0.604Qebp?
0»3h;bki0»64C
Ooiilia."1)151
"Oe''.AO4
P)8?4"1 ~ &
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I~ ~ ~ ~
ROD POSITION
LocationBank ~In Sta s Classification
SBA
SBB
CBA
CBB
CBC
CBD
228
228«
228
228
228
212
Map No. P"14 VlPower (%) 0AxialOffset +46.22
Max ) 1.475
Max P 2.826
-22-
f
s
R P H H
IDA POMER & LIGHT COMPANYEY POINT PLANT UNIT 4OPERATING SRMARY
J' G F ' D c 8
3C ~ 64230 ~ 6393 0 ~ 5~ ~ ~ ~ ~
30 670)oebbfs3 CD 9
~ ~ e ~ ~ ~ ~ ~ ~ ~ ~ ~
30 ~ 3263) ~ )3)30 '4331 '263 5 F 03 0 ~ 5~ ~ e ~ ~ ~ ~ ~ ~ e ~ ~
3G ~ 372 30 ~ 8 3030 ~ 34) 30 ~ 8 SC3 -5e03 -0 ~ 0
30 ~ 347 3 le 1 313 -5 ~ 03 1 1~ ~ e ~ ~ ~ ~ ~ ~ ~ ~ ~
30 69430eb673 4 ~ 1
e e ~ ~ ~ ~
30 '56)G ~ o4)3 F 3
30 F 61230 '413 -4 ~ 4~ ~ ~ ~ ~ ~
31 e 14731 ~ 1 793 -2 '~ ~ ~ ~ ~ ~
31 AC?331 0)33 -G ~ 9
30 ~ 4 793G F 5013 4 ~ 4
~ ~ ~ ~ ~ e ~ ~ ~ ~ ~ ~
30 '95 31 1?C30 ~ SCC 3) ~ 190) -1 23 -1 7~ ~ * ~ ~ ~ ~ ~ ~ ~ ~)1 ~ )b)31e034)1 ~ 174)1 03)3 0 ~ 5'3 0e)31 '9931 '4631 '8731 F 2343 0 ~ 93 1 0
31 )P431 C4131 ~ 1563) ~ 0073 1 53 3 ~ 5
31 ~ Z24 30 962)1 ~ 175)C ~ 9183 4 '3 4 'J) ~ 2)b )1 04'931 )ba)) ~ OGe3 4 '3 4 '31 ~ )42)1 24331 28931 ')33 4 13 oea~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
)1 ~ 206 )1 ~ OQ931 '793)eo))3 2 F 33 -F 3
)o.'<~4)riel30 'G)31 '903 0 '3'2 'e ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
)oo49730 'QO3 "col
31 e? 5331 2833 0 ~ 0
)le))731 e 2993 1 ~ 4
31 e 29831 2)73 5 ~ 0~ ~ ~ ~ ~ ~
3)e30531 '063 8 '~ ~ ~ ~ ~ ~
)1 ~ 266)1 ~ 2)93 2 ~ 1
31 26631 ~ Io13 -2 5
~ ~))-)933) ~ ZSI3 -7 ')O ~ 9599e
31 ~ 03)3 -7 ')1 ~ 1513) o)743 -2 '~ ~ ~ ~ ~ ~
)c-e."e3C F 6)93 -2 ~ 0
~ ~ e ~ ~ ~
os ~ ~ ~ o ~ ~ ~ ~ ~ o ~ ~ e ~ \ e ~
~ )79~ 543
~ ~ ~ ~
F 114~ 126-leo
3030
30 ~ 6553130.6e7313 -1 ~ 83
322 30 364 30~ 347 30 ~ 391 3G-7 ~ 03 -7 ~ 03~ 100 3C ~ 803 31~ 131 30 ~ 83031-2 83 -3 ~ 33
149 31 169 31~ 168 31 «17531-1 eb 3 -0 ~ 53
30 ~ 67530 6643 lol
e)67F 166Ool
~ ~ e ~~ 004.~ 007-0
31 3))3) ~ 2873 )e931 ~ 26031 ?S43 2 1~ \ ~ ~ ~ ~
31 '7531 ~ 2993 -1 9
31 ~ 2703131 289313 -1 ~ 53~ ~ ~ ~ ~ ~ ~ ~31 2323)31 233313 -0 1.3~ ~ ~ ~ e ~ ~ ~
3) ~ 5) 53131 Io) 313 1 13
31 ~ 278 3031 ~ 271 )13 0 ~ 53~ ~ ~ ~ ~ ~ ~ ~
31 ~ 0183131 ~ OC8313 1 e03
CCZ )O 953)~ Gob 30 ~ 918 31-C ~ 53 -2 ~ 53
~ 196237-3 2
27)3) ~ )9)3)239 31 206312 ~ 63 -le)3
~ ~ ~ ~ ~ e ~ ~ ~
9<b)CD 95)30~ 007 30 ~ 981 31-1 13 -2 93~ 2033) 04131~ 24331 ~ 07) 31-3 ~ 23 -3 ~ 03
037 30 91031~ 073)0 ~ 9383)-3 ~ 4 3. -2 ~ 93
~ ) 99 31 ~ 05031e?4) 3) 07)))-) 53 -2 ~ 23
~ 975 30 ~ 97931~ Ooa 30 ~ 98) 31-3 '3 -0 '3~ 219 31 e24831'237 31 Zob 310 23 3.53
~ 009)0 '323)~ 007 30 ~ 9)a 31
0 F 33 1 ~ S3
~ 17131 '8131~ 166 31 ~ 175 31
0 ~ 43 0 ~ 53
~ G7 1 30 ~ 81531~ 126)0 ~ 6)031-4 ~ 83 -1 93
959 31 157~ 008 31 271-4 83 -6 ~ 9
~ 21224)-2 5
F 051F 073-2 '~ 227e243"F 3
30 ~ 95731 ~ 0073 -5 ~ 0
30 ~ 95G30 ~ 9813 -3 ~ 1
31 019313Q ~ 981 313 3.93
31 F 01231 F 0083 G ~ 4
3) e0293)31 ~ 007313 2 ~ 23
3) ~ 2)33031 ~ 271)13 -3e03
~ GI431 ?80~ 0073)e271
0 '3 CD 7
31 32231 e 3013 1 7~ ~ ~ ~ ~ ~
31 ~ 27031 ~ 2) 33 3 '~ ~ ~ ~ ~ ~
3) ~ )583)e2893 5 ~ 4
30:eaoOe30 '67) 2 0~ ~ ~ ~ ~ ~
333
)1 ~ 244 3131 ~ 299 313 -4 33
3) e?07)i3)e23431) -2 ~ 23
3) ~ 7763131 ~ 287313 -C ~ 83~ ~ ~ ~ ~ ~ ~ ~3" ~ 6 )9 3130e 664 313 -)o83~ ~ ~ ~ e ~ ~
30303
~ 272~ 239
2 e7~ ~ ~ ~
~ 036.Ooe
2 9~ ~ ~ o~ 187.iea
1 6e ~ ~ ~
F 117~ )I)
2
~ 3) 8 30 ~ 37C )0 ~ )42~ 34 3 30 ~ 391 30 ~ 34 7-7 ~ 53 -5 ~ 43 -le4
30 649 330 63933 1 ~ 6331 195 3G 509 331 ~ 1 74 30 ~ 500 33 1e73 1 ~ 633)eG4831 e2G530 504)31 03) 31 190 IQ ~ 50133 1 63 1 33 0 5331 30031 ~ C4231 179 30 635331 28)3) 0333) ~ )7930 ~ 64) 33 1 33 0 ~ 9) -0 ~ G3 -0 93
31 ~ 27) ) ) 250 31 3oe 30 ~ 676 3)1 ~ )0) 31 ~ 23) 31 ~ ?8930 ~ 66733 -2 ~ )3 1 ~ I) 1 ~ 33 le4331 ~ Z093)e C21 31 e 18231 1703031.2)9)i.oob)1. iea)1. i3i 303 -2 ~ 43 1 53 1 ~ 23 3 5331 e 191 30 ~ 9)8 31 e 166 30 824 )031 ~ 206 30 o918 31 e 1 75 )0 630 303 -1 ~ 23 0 03 -0 ~ 83 -0 73
31 24831 ~ 0433) e)7431 ~ 1013031 ~ 237)l 00731 166)1 1?6303 Oe93 3 ~ 63 C ~ 63 -2 ~ 13
)1 ~ 332 31 ~ 306 31 ~ )72 30 661 3.31 ~ 299 31 ~ ? 34 ')1 ~ 287 )0 ~ 664 33 2 ~ 63 S 63 2 ~ 83 -0 ~ 53
31 ~ 29)31 071 31 21730 6)fo3)1 ~ ZP) 31 ~ 0) 1 31 1 74 3G ~ 63933 0 ~ 83 3 93 3 ~ 63 -0 ~ 43~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~" ~ ~31 ~ Cbb 3) e 252)0 ~ S?7 )31 035)) ~ 19030 ~ 50033 3 23 5 ~ 23 5 33~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
)1 ~ 24330 ~ 528 3)1 ~ 17930 '0133 5.43 5.)3~ e ~ ~ ~ ~ e ~ ~ ~ ~ ~ ~30 e76 330 54133 Se43
rEASVREO F DELTA HEX>ECTEO F DELTA HDIFF EREHCE
e3543o)473
2 ~ 23e38) 3e39) 3-2 03
3ZLi 3.3433-s.a)
ROD POSITIONo e ~ ~ ~ ~ ~ ~ ~ e ~ ~ ~ ~ ~ ~ ~ ~ ~
LocationBank In Steps Classification
INCORE TILTS
SBA
CBA
CBB
CBC
CBD
228
228
228'7'7 8
228
146
Hap No. FM4 V2
Power (%) 30AxialOffset — 2.47
".fax P 1.477
Hax F 1. 794N
0.9979
0.9934
0.9930
1.0157
-23-I
~ ",g C
aa
F RIDA POVER 6 LIGHT COMPANYTURKEY POINT PLANT UNIT I>
OPERATING SUiMARY
K J H G F E D C ~ 4
0 ~ 3310 ~ 337-I 8
~ ~ ~ e ~ ~
!
J ~ 3780 '64-ltd
!
C. 3340 ~ 340
I ~ 6~ ~ ~ ~ ~ ~
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rE SuREXPECTDIFFER
ELTA HELTA H
CebCS0 '17-I a9
Oe647G ~ 649
Ct4tt ~ eeI ~ 131I 117
I ~ 2
0 ~ 8400 ~ 826
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00
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~ S29~ S37
2 '
00
00
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~ ~ ~ t ~ ~ ~l:0 610CD 615
I -0 6
BankLocation~Ia Ste a
~ ~ ~ ~ ~ ~ ~ ~ ~ e ~ e ~ ~ ~ e t ~ ~
Classification. INCORE TILTS
0.9870 1.0055
SBA
SBB
CBA
CBC
CBD
228
228
228
228
228
210
~ifap No. Rb'I V3
Pc~rex (%) 98AxialOffset — 1. 35
Max P 1.4!i9.
Hax P 1.621
1.0050 1.0026
Cg
J
Power Defect
Unit 4 Cycle V
Power defect was measured by taking the difference in boron concentra-
tions between hot zero power, no xenon and hot full power equilibrium xenon
conditions, and subtracting out unwanted changes in reactivity such as,
xenon, burnup, and rodposition.'his
method of measuring power defect has many uncertainties because
of the errors in boron concentrations.
Because of present operating limits during startup after refueling,
it would be impractical to use the reactivity computer. At present, other
methods of measuring power defect are being investigated.
The following is a summary of the results:
MEASURED BOL
1591 pcm
'ESTINGHOUSE
1520 pcm
DIFFERENCE
-4.46
-25-
P
I
