ML21125A579

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0 to Updated Final Safety Analysis Report, Chapter 3, Figures (Unit 2)
ML21125A579
Person / Time
Site: Cook  American Electric Power icon.png
Issue date: 04/19/2021
From:
Indiana Michigan Power Co
To:
Office of Nuclear Reactor Regulation
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References
AEP-NRC-2021-19
Download: ML21125A579 (75)


Text

INDIANA AND MICHIGAN POWER D. C. COOK NUCLEAR PLANT UPDATED FINAL SAFETY ANALYSIS REPORT Revised:

26.0 Chapter:

3 Sheet:

1 of 1 UFSAR Figure: 3.2-1 Change

Description:

UCR-2052, Rev. 0 Unit: 2

Title:

Fuel Assembly Cross Section 17 x 17 Vantage 5 Update UFSAR Revision 30.0

INDIANA AND MICHIGAN POWER D. C. COOK NUCLEAR PLANT UPDATED FINAL SAFETY ANALYSIS REPORT Revised:

27.0 Chapter:

3 Sheet:

1 of 1 UFSAR Figure: 3.2-2 Change

Description:

UCR-2116, Rev. 0 Unit: 2

Title:

Vantage 5 Fuel Assembly UFSAR Revision 30.0

INDIANA AND MICHIGAN POWER D. C. COOK NUCLEAR PLANT UPDATED FINAL SAFETY ANALYSIS REPORT Revised:

26.0 Chapter:

3 Sheet:

1 of 1 UFSAR Figure: 3.2-3 Change

Description:

UCR-2052, Rev. 0 Unit: 2

Title:

17 X 17 Fuel Rod Assembly UFSAR Revision 30.0

Unit 2 Revision: 19.0 Change

Description:

UCR-1703 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN UFSAR Figure: 3.2-4 Sheet 1 of 1

Title:

D.C. Cook Unit 2 Plan View UFSAR Revision 30.0

-3 I-

?

0.C.

C3OK UNIT 2

I Tap GRID TO THIMBLE ATTACHMENT FIGURE 3.2-5 I

UFSAR Revision 30.0

iFM Ml0 GUIDE THIMBLE TUBE GUIDE THIMBLE TUBE d.-----.,

d.-----.,

-7 GRID GRID

)

i i

..-----,I..-----,I

..--w-.,

+

..--w-.,

+

!2 11%

GRID SLEEVE 4

11%

GRID SLEEVE 4

WELD WELD EXPANSiON LOBE EXPANSiON LOBE GUIDE THiMBLE

-i;BE GUIDE THiMBLE

-i;BE I

1 GRID GRID -

1

\\

\\

MID GRIO SLEEVE EXPANSiON LOBE

---fit EXPANSiON LOBE OlMtNSlONS ARE IN INCHES (MOWN&)

UFSAR Revision 30.0

Unit 2 Revision: 19.0 Change

Description:

UCR-1703 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN UFSAR Figure: 3.2-6 Sheet 1 of 1

Title:

D. C. Cook Unit 2 Top Nozzle to Thimble Attachment UFSAR Revision 30.0

INDIANA MICHIGAN POWER D. C. COOK NUCLEAR PLANT UPDATED FINAL SAFETY ANALYSIS REPORT Revised: 29.0 Chapter:

3 Sheet:

1 of 1 UFSAR Figure: 3.2-6A Change

Description:

UCR-2330,. Rev. 0 Unit: 2

Title:

Top Nozzle and Top Grid* Attachment Illustration

There is a double top grid bulge configuration starting with the Unit 2 fresh fuel in Cycle 24, where a triple top grid bulge configuration was the previous configuration.

UFSAR Revision 30.0

Unit 2 Revision: 19.0 Change

Description:

UCR-1703 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN UFSAR Figure: 3.2-7 Sheet 1 of 1

Title:

D.C. Cook Unit 2 Guide Thimble to Bottom Nozzle Joint UFSAR Revision 30.0

INDIANA MICHIGAN POWER D. C. COOK NUCLEAR PLANT UPDATED FINAL SAFETY ANALYSIS REPORT Revised:

29.0 Chapter:

3 Sheet:

1 of 1 UFSAR Figure: 3.2-8 Change

Description:

UCR-2221, Rev. 0 Unit: 2

Title:

Typical Core Barrel Assembly UFSAR Revision 30.0

UNIT 2 Revision: 19.1 Change

Description:

UCR-1727 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN UFSAR Figure: 3.2-9 Sheet 1 of 1

Title:

Upper Core Support Structure UFSAR Revision 30.0

6 I6U-2 HEAD AND VESSEL ALIGNMENT PIN LOCATION Figure 3.2-10 Plan View of Upper Core Support Structure UNIT 2

July, 1982 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 TYPICAL FULL LENGTH ROD CLUSTER CONTROL AND DRIVE ROD ASSEMBLY WITH INTERFACING COMPONENTS FSAR FIG. 3.2-11 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 FULL LENGTH ROD CLUSTER CONTROL ASSEMBLY OUTLINE FSAR FIG. 3.2-12 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 160.949 1.838 Dia.

Max.

0.362 Dia. Max.

1.470 Dia. Max.

UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 FULL LENGTH ABSORBER ROD FSAR FIG. 3.2-13 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 171.845 for groups 08, 09, & 14 151.885 for groups 11-13 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 TYPICAL BURNABLE POISON ASSEMBLY FSAR FIG. 3.2 - 15A SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

CWAE3A) ASSEMBLY 1EF. DWGS:

I A

UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 TYPICAL BURNABLE POISON ROD CROSS SECTION FSAR FIG. 3.2-16A SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 PRIMARY SOURCE ASSEMBLY FSAR FIG. 3.2-17 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 HISTORICAL UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 SECONDARY SOURCE ASSEMBLY FSAR FIG. 3.2 - 18 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 NOTE: ALL DIMENSIONS ARE IN INCHES 97.0 SECONDARY SOURCE 0.426 DIA.

0.338 DIA.

UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1243 THIMBLE PLUG ASSEMBLY FSAR FIG. 3.2-19 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 0.426 DIA.

UFSAR Revision 30.0

Title:

Full Length Control Rod Drive Mechanism Sheet 1 of 1 UFSAR Figure: 3.2-20 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN Change

Description:

UCR-1836 Revision: 21.2 UNIT 2 UFSAR Revision 30.0

Revision: 21.2 Change

Description:

UCR-1836

Title:

Full Length Control Rod Drive Mechanism Schematic AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN UFSAR Figure: 3.2-21 Sheet 1 of 1 UNIT 2 UFSAR Revision 30.0

BEFORE LOAD TRANSFER MG IF I I

B I

LIFT COIL OFF LIFT COIL ON LIFT COIL OFF LIFT COIL ON Figure 3.2-23 AT 70' 1

AT 650' I

LOAD AFTER LOAD D &!!

MG B

B I

I LIFT COI LIFT COIL OFF IL OFF I I I I LIFT COI LIFT COIL ON L ON I

I I

I I

I LIFT COIL OFF I

I LIFT COIL ON I

I P

SG TRANSFER AT 70' I

I AT 650' I

Nominal Latch Cleal-ante at Minimum and Maximum Temper-atute UFSAR Revision 30.0

0.080 2

0.070 W

5 0.060 W

w c

g 0.050 W w Ei 0.0110 E

0.030 E

5 0.020 E

2 0.010 Y

0 0.000 LIFT COIL OFF

/

MG CLEARANCE AFTER

/

LOAD TRANSFER 0

too 200 300 ill0 TEMPERATURE (OF) 500 600 Figure 3.2-24 Control Rod D rive Mechanism Latch Cleatonce Thelma1

.Effect 300 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 Typical Axial Zoning of Uranium Enrichment and IFBA Poisoning FSAR FIG. 3.3-1 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 5"

121" 6"

6" 6"

6" 6"

132" UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 EXAMPLE LOW LEAKAGE FUEL LOADING ARRANGEMENT FSAR FIG. 3.3-2 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL PRODUCTION AND CONSUMPTION OF HIGHER ISOTOPES FSAR FIG. 3.3 - 3 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

UFSAR Revision 30.0

UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 EXAMPLE BORON CONCENTRATION OVER CYCLE LENGTH FSAR FIG. 3.3-6 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION AT BEGINNING-OF-LIFE UNRODDED CORE, HOT FULL POWER, NO XENON FSAR FIG. 3.3-7 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION AT BEGINNING-OF-LIFE UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON FSAR FIG. 3.3-8 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR BEGINNING-OF-LIFE GROUP D AT INSERTION LIMIT, HOT FULL POWER, EQUILIBRIUM XENON FSAR FIG. 3.3-9 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION AT MIDDLE-OF-LIFE UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON.

FSAR FIG. 3.3-10 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 AVERAGE POWER UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL NORMALIZED POWER DENSITY DISTRIBUTION NEAR END-OF-LIFE UNRODDED CORE, HOT FULL POWER, EQUILIBRIUM XENON.

FSAR FIG. 3.3-11 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL RODWISE POWER DISTRIBUTION IN A TYPICAL ASSEMBLY (ASSEMBLY G-12) NEAR BEGINNING-OF-LIFE, HOT FULL POWER, EQUILIBRIUM XENON, UNRODDED CORE.

FSAR FIG. 3.3-12 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL RODWISE POWER DISTRIBUTION IN A TYPICAL ASSEMBLY (ASSEMBLY G-12) NEAR END-OF-LIFE, HOT FULL POWER EQUILIBRIUM XENON, UNRODDED CORE.

FSAR FIG. 3.3-13 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

8 d tl3fiOd 03ZllVWMON UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 EXAMPLE AXIAL POWER SHAPES OCCURRING AT MOL FSAR FIG. 3.3-15 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 P - 1 D - 0.05 AO - -2.132%

P - 1 D - 0.130 AO - -7.082%

UFSAR Revision 30.0

UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 MAXIMUM F Q (Z) x POWER VERSUS AXIAL HEIGHT (Z) DURING NORMAL OPERATION FSAR FIG. 3.3-20 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 2.159 2.335 2.335 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL PEAK LINEAR POWER DURING CONTROL ROD MALFUNCTION OVERPOWER TRANSIENTS FSAR FIG. 3.3-21 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 TYPICAL PEAK LINEAR POWER DURING BORATION/DILUTION OVERPOWER TRANSIENTS FSAR FIG. 3.3-22 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 ILLUSTRATION OF A COMPARISON BETWEEN CALCULATED AND MEASURED RELATIVE FUEL ASSEMBLY POWER DISTRIBUTION FSAR FIG. 3.3-23 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 COMPARISON OF TYPICAL CALCULATED AND MEASURED AXIAL SHAPE FSAR FIG. 3.3-24 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 EXAMPLE DOPPLER TEMPERATURE COEFFICIENT AT BOL AND EOL FSAR FIG. 3.3-26 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 EXAMPLE DOPPLER ONLY POWER COEFFICIENT AT BOL AND EOL FSAR FIG. 3.3-27 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

I-I 8OL LJ w-a.

EOL Figure 3.3-28 Example Doppler Only Power Defect

- BOL, EOL UNIT 2 July 1991 UFSAR Revision 30.0

UFSAR Revision 30.0

Figure 3s.3.30

  1. ourmr TWERAllJRt (F)

Example Moderator Temperature Coefficient EOL UNIT 2 July 199b UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 EXAMPLE MODERATOR TEMPERATURE COEFFICIENT AS A FUNCTION OF BORON CONCENTRATION - BOL, NO RODS FSAR FIG. 3.3-31 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

16.4 REVISED PER 99-UFSAR-1242 EXAMPLE HOT FULL POWER MODERATOR TEMPERATURE COEFFICIENT (AT THE CRITICAL BORON CONCENTRATION)

VERSUS BURNUP FSAR FIG. 3.3-32 SH 1 of 1 AMERICAN ELECTRIC POWER COOK NUCLEAR PLANT NUCLEAR GENERATION GROUP BRIDGMAN, MICHIGAN REV. NO.

DESCRIPTION REVISIONS TITLE DWG. NO.

UNIT 2 UFSAR Revision 30.0

Figure 3.3-33 Example Total Power Coefficient at BOL and EOL UNIT 2 July 1991 UFSAR Revision 30.0

Figure 3.3-34 Example Total Power Defect at BOL and EOL UNIT 2

July 1991 UFSAR Revision 30.0

1 2

3 4

3 6

7 9GO a

9 10 1 1 12 17

?J 1s

?

I I

33 I

/

/ j j

it/

joi j*i

/q

/*I j3/

11 i

/ sa I I

1 I I

/

I

/ / i sa i j

j

/l(lj dl*

c

!/I8

/

I so I

I I

1 0

/

SC i

fA

/

I SA I

1 0

0

/

I I

SC Iso/

I

]

SA SWtgoUN 8ANK fiWtD@UW

  1. AlUK fnutoowru HANK CaNtllOC 8ANK CoNtROt.

8ANK CONTROL OANK CONTROL 8ANK 00 FUNCtrON i:

SC 6

so c

0 NUM8Ei)

OF 800 CLiJSfCRS 8

464 4

a a

9 Figure 3.3-35 Rod Cluster Control Assembly Pattern July 1991 UNIT 2 UFSAR Revision 30.0

CuaVL 1

2 1650 7700 32.1 27.2

-O.OYb

-0.011)

I I

I I

I I

I I

I I

I I

I I

I I

I 0

4 8

12 16 20 2l 28 32 36 40 UU l8 52 56 60 64 68 72 71wL (HOURS)

Figure 3.3-36 Axial Offset Versus Time PWR Core With a 12-Ft Height and 121 Assemblies I

UFSAR Revision 30.0

0

- a

-a 3

0 3

B i

0 Y

8 12 16 20 2u 26 32 36 110 uu UB 52

!j6 60

(

Figure 3.3-37 IN Xenon Test Thermocouple

Response

Quadrant Tilt Difference Versus Time UFSAR Revision 30.0

-60.0

-50.0 CI P

c 1 30.0 6 5 -30.0 L 3 3 -20.0 ii!

ii

-10.0 0

ii c0n1a01 UYU wnffrsrrlow uouow CoHrLaSAllOn tx?trrnfrr CALCUl AI Ion 0

YO 50 60 PERCLrl Of FULL POWER Figure 3.3-38 Calculated and Measured Doppler Defect and Coefficients at BOL Two-Loop

Plant, 121 Assemblies, LZ-Ft Core

-2uOo

-2200

-2000

-UOO

-200 0

UFSAR Revision 30.0

0.07 0.06 c

i z

0.05 t-

- Y g

0.w w

E z

B 0

0.03

-l z

iii b-0.02 0.01 0

LfGfYD:

PfRCLYI tEICLN 1 lYtDlfllCA1 INCDUfIICM DfNSI IY DLltllY 0

GYllAWDfl 96.4 0

wOUA80 A Gulvlw 96.0 l AS&U10 95.0 LUClS A DffM 96.6 0

DDBCILY 93.4 0

DAYIt fl Al 96.5 A

SIDIA 92.2

+

ffllll 97.9 l

AD. WI at.4 0

YOGI f1 Al 97.0 A

IIISHIJIMA 95.0 v

rnUGCl 93.7 v

WffLfl 6 AlNSCOUGN 97.0 SEE RfffIfICfS fOR INfUMAL-HYDAAUllC SECTtOY A

1600 Figure 3.4-l Thermal Conductivity of U02 (Data Corrected to 95% Theoretical Density) 3200 I

UFSAR Revision 30.0

2 0.60 hove th IS 1 ine with 952 O.lMl 0.10 0.20 0.30 0.40 0.50 0.60 l-J.70 0.80 lJ.!m I.u)o I.rn 6

((J;JIFl

)PRED, PREDlCTlD CPITICU HEAT fl IIX (ETU/llR-FT)

Figure 3.4-2 Measured Versus Predicted Critical Heat Flux URB2 Correlation UNIT 2

July 1991 UFSAR Revision 30.0

0. I2
0. IO 0.011 E 0.06 O.oY 0.02 0

UGElbD:

0 24' SfACIIll t-?uIsL 0 24" SrrclrG 24YIst 0

1.0 2.0 3.0 u.0 5.0 6.0 7.0 8.0 0.

Figure 3.4-3 TDC Versus Reynolds Number fcx 26" 6rid Spacing UFSAR Revision 30.0

r I. 166 I.209 l.ooo l.ooo I I I.223 I. I70 Loo0 I.001

  • 1 I. I26 I.161 I.001 I.001 1.A I.ozs I.002 1.002 I. IS5 1.m I

I. 162 I. I85 I,ool Loo0 I.238 I.000 I.093 I.066 1,002 I.002 0.990 0.97s I.002 I.002 0.823 1.m 0.967 I.001

0. we 0.997 Figure 3.4-4 Normalized Radial Flow and Enthalpy Distribution at 4-Ft Elevation UNIT 2

July 1991 UFSAR Revision 30.0

F F 1 1 I I T T 4 4 1.096 1.096 KEY:

KEY:

t-t-

I I IV IV

-m

-m I I r r

-- Ad$

Ad$

0.996 0.996 L L I I 1.026 1.026 I. I20 I. I20 1.002 1.002 0.994 0.994

/ /

I I I I

/ /

I. I55 I. I55 1.072 1.072

1. I88
1. I88 0.991 0.991 0.998 0.998 0.988 0.988 I I I I I

4 4 I. 169 I. I69 I.212 I.212 I. I65 I. I65 I. I89 I. I89 0.990 0.990 0,986 0.986 0.990 0.990 0.998 0.998 1 1 I I t

I. 22%

I. I73 I.191 I.065 I.242 0.965 0,989 0.908 0.998 0.w 7

I 1 1

I. I29 I. I65 I.093 I.006 0.916 0.963 0.992 0.990 0.995 0.996 I*009 I.006 I r I. 22%

I. I73 I.191 I.065 I.242 0.965 0*989 0.908 0.998 0.w 7

I 1 I. I29 I. I65 I.093 I.006 0.916 0.963 a.992 0.990 0.99s 0.996 I.009 I.006 I r--

l.02U lAzs as9 0.973 0.819 0-w l.02U I.025 as9 0.973 0.819 0.468 l.ooo I.00 I.003 I.ooy I.018 I.018 1 I 0.715 0.m 0.663 0.662 FOR RAOlAL PQUER OlSTR~eKIflOH 1.022 I.019 1.021 I.019 REIR 8EGIWllRG-OF-LIFE. HOT FULL I I

PMR, EQUILIBRIUI EMOR CALaJlxED FA; c I. 3Y Figure 3.4-5 Normalized Radial Flow and Enthalpy Distribution at 8-Ft Elevation UNIT 2

July 1991 UFSAR Revision 30.0

0.999 0.993 L I I. 157 I.073 I.189 0.991 0.996 0.989 I.170 I.215 Ia 168 0.990 0.900 0.991 1.231 I. 173 I. 193 0.987 m90 0.989 I

I.130

1. I65 I.=

0.993 0.991 0.995

-r r

LO23 Lost 0.987 1.m l.mo la2 I.190 0.990 1.066 0397 I.087 0.996 0.970 I.003 o.r;l 0.m 0.640 IJl6 I.013 I.019 0.560 I.025 0.9N 0.961 I.005 I.003 01817 0.469 l.Oll 1.030 Figure 3.4-4 Nowlized Radial Flow and Enthalpy Distribution at 120Ft Elevation

- Core Exit UNIT 2 July 1991 UFSAR Revision 30.0

0 Figure 3.4-7 Void Fraction Versus Thermodynamic Quality (H-H SAT)'(Hg-HSAT)

UFSAR Revision 30.0

I II q n Ian n

q n El Minimum DNBR Corresponding to.Design Shape for Non-Overpower/Overtemperature Events I.9

-a

--6 1

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4-Axial Offset (Peroent)

Figure 3.4-8 100% Power C" r)es Evaluated at Conditions Representat of Loss of Flow:

All Shapes Evaluated WB Fjy-1.59 UFSAR Revision 30.0

0

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0 MEASUAfO ASfLn0l.r EN11 ILMPf AAilUflt I

I I

I 0.7 0.8 0.9 1.0 ASSEM8LY POWER ( Bh/HR II w6 1

I. I 1.2 Figure 3.4-9 PWR Natural Circulation Test UFSAR Revision 30.0

6

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5Y 55 56 67 58 60 rowf I 99.5 83.9 SO. 6 97.5 98.9 98.3 Figure 3.4-10 Comparison of a Representative w Two-Loop Reactor Incore Thermocouple Measurements with THIN-IV Predictions I

UFSAR Revision 30.0

LfCf8k I

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26

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21 84.8 A

28 88.0 V

0 28 100.7 v

38 101.0 0

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0.5 0.6 0.1 0.8 0.9 1.0 1.1

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Figure 3.4-11 Comparison of a Representative 43 Three-Loop Reactor Incore Thermocouple Measurements with THING-IV Predictions 1.2 1.3 I

UFSAR Revision 30.0

A A

8 0

0 A

0 LEGtWO:

0 MEASIJIED ATHINC-IV I

I 30 Figure 3.4-12 Hanford Subchannel Temperature Data Comparison with THINGIV UNIT 2 July 1991 UFSAR Revision 30.0

1 PRC SsuRL 2OIY PSIA MASS flOY 0.5-2.21 1061cl/,f 12-HR MD DIWtlEa O.Y22 IIICIIES RDD PIICI o-555 IICHf s lItAIL 1LlGll BY lWCHlS YLAI fLUl DIS~IIIUIIOY IYIItR Iu)D:

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1.0 IC -

InLRHOcOUrLL LOCAIrOw Figure 3.4-13 Hanford Subcritical Temperature Data Comparison with THINC-IV UFSAR Revision 30.0

I 89@

9 IO II I2 13 IV I3 R

P H

M I.

K J

H G

F E

0 C. 8 A

l8@

0 00 UPPER HEAO PEWffRATlOW FOR CONTROL ROOS (73) 0 UPPER HEAD PENETRATIOM FOR THERMOCWPLTS (5) 0 UIWER HEAD PENETRATION FOR FLUX THIM8l.B (58)

T THERMOCWPE LOCATIONS IN THE CORE (65)

Figure 3.4-14 Distribution of Incore Instrumentation UNIT 2

270° July 1991 UFSAR Revision 30.0