Revs to COLR for Vogtle Electric Generating Plant Unit 2 Cycle 4

ML20058M724
Person / Time
Site:	Vogtle
Issue date:	09/30/1993
From:	GEORGIA POWER CO.
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NUDOCS 9310060361
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Text

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V0GTLE ELECTRIC GENERATING PLANT (VEGP) UNIT 2 CYCLE 4 CORE OPERATING LIMITS' REPORT t

SEPTEMBER 1993 r

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PDR ADOCK 05000425 ff;*;

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l Vogtle Electric Generating Plant Unit I and Unit 2 i

Core Operating Limits Report Unit 2 Cycle 4 September 1993 Revision Insertion Instructions 119m Instructions Active COLR List Repl ace Unit 2 Report Pages 1-11 Replace with Pages 1-12 and and Title Page Title Page G

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Vogtle Electric Generating Plant Unit 1 and Unit 2

~

f(s Active Core Operating Limits Report List September 1993 l

Unit 1 Cycle 5 March 1993 Unit 2 Cycle 4 September 1993 i

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O ks\\=rivogtle\\ COLA.RI!

J COLR for VEGP UNIT 2 CYCLE 4 l

1.0 CORE OPERATING LIMITS REPORT This Core Operating Limits Report (COLR) for VEGP UNIT 2 CYCLE 4 has been prepared in accordance with the requirements of Technical Specification 6.8.1.6.

The Technical Specifications affected by this report are listed below:

3/4.1.1.1 SHUTDOWN MARGIN - MODES I and 2 3/4.1.1.2 SHUTDOWN MARGIN - MODES 3, 4 and 5 3/4.1.1.3 Moderator Temperature Coefficient 3/4.1.3.5 Shutdown Rod Insertion Limit 3/4.1.3.6 Control Rod Insertion Limits 3/4.2.1 Axial Flux Difference 3/4.2.2 Heat Flux Hot Channel Factor - F,(Z) 3/4.2.3 Nuclear Enthalpy Rise Hot Channel Factor - F6 O

PAGE 1 of 12

1 COLR for VEGP UNIT 2 CYCLE 4 2.0 OPERATING LIMITS The cycle-specific parameter limits for the specifications listed in Section 1.0 are presented in the following subsections.

These limits have been developed using the NRC-approved methodologies specified in Technical Specification 6.8.1.6.

1 2.1 SHUTDOWN MARGIN - MODES 1 AND 2 (Specification 3/4.1.1.1) 2.1.1 The SHUTDOWN MARGIN shall be greater than or equal to 1.3% M/k.

2.2 SHUTDOWN MARGIN - MODES 3. 4 AND 5 (Specification 3/4.1.1.2) 2.2.1 The SHUTDOWN MARGIN shall be greater than or equal to the limits shown in Figures 1 and 2.

2.3 Moderator Temperature Coefficient (Specification 3/4.1.1.3) 2.3.1 The Moderator Temperature Coefficient (MTC) limits are:

The BOL/AR0/HZP - MTC shall be less positive than +0.7 x 10

M/k/*F for power levels up to 70% RTP with a linear ramp to 0 M/k/*F at 100% RTP.

The E0L/AR0/RTP-MTC shall be less negative than -5.5 x 10

M/k/*F.*

2.3.2 The MTC Surveillance limit is:

The 300 ppm /AR0/RTP-MTC should be less negative than or equal to

-4.75 x 10-' M/k/*F.*

where:

BOL stands for Beginning of Cycle Life ARO stands for All Rods Out HZP stands for Hot Zero THERMAL POWER E0L stands for End of Cycle Life RTP stands for RATED THERMAL POWER 2.4 Shutdown Rod Insertion Limit (Specification 3/4.1.3.5) 2.4.1 The shutdown rods shall be withdrawn to a position greater than or equal to 225 steps.

2.5 Control Rod Insertion Limits (Specification 3/4.1.3.6) 2.5.1 The control rod banks shall be limited in physical insertion as shown in Figure 3.

O

• Applicable over full-power T-average range of 584.4 F through 588.4,

inclusive.

PAGE 2 0F 12

1 COLR for VEGP UNIT 2 CYCLE 4 i

2.6 Axial Flux Difference (Specification 3/4.2.1)

{RAOC methodology) 2.6.1 The Axial Flux Difference _ (AFD) Acceptable Operation Limits are provided in Figure 4.

2.7 Heat Flux Hot Channel Factor - F,(Z) (Specification 3/4.2.2)

{F, methodology)

RTP pQ 2.7.1 F,(Z) s

• K(Z) for P > 0.5 P

RTP p

F,(Z) s

• K(Z) for P s 0.5 0.5 l

where:

P THERMAL POWER

=

RATED THERMAL POWER 2.7.2 FRTP - 2.50 2.7.3 K(Z) is provided in Figure 5.

2.7.4 Fh(Z)s for P > 0.5 P

• W(Z)

FRTP g(7)

F[(Z) s for P s 0.5 0.5

• W(Z) 2.7.5 W(Z) values are provided in Figures 6 through 8.

O PAGE 3 of 12

4

'COLR for VEGP UNIT 2 CYCLE 4 q

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2.8 Nuclear Enthalov Rise Hot' Channel Factor - F% (Specification 3/4.2.3) 2.8.1 FE s F.R,TP* (1 + pp,,, * (1_p))

where:

P THERMAL POWER

=

RATED THERMAL POWER 1

2.8.2a F,RTP 1.53 for LOPAR fuel, and l

=

2.8.2b F,RTP 1.65 for VANTAGE 5 fuel

=

0.3 for LOPAR and VANTAGE 5 fuel 2.8.3 P F.,,

=

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O ki\\wp)wegtle\\ COLA.02 PAGE 4 of 12

i COLR FOR VEGP UNIT 2 CYCLE 4

[

b 5.00 3 4.00 2

ACCEPTABLE 8

OPERATING S

REGION 3~00 i

7 2

l g

(1600,2.25) o

,e g 2.00 5

Pu UNACCEPTABLE 9;

OPERATING D

(950,1.30)

REGION 8 1.00 m

1 i

0.00 0

500 1000 1500 2000 2500 21751 RCS BORON CONCENTRATION (ppm) t FIGURE 1 REQUIRED SHUTDOWN MARGIN FOR MODES 3 AND 4 (MODE 4 WITH AT LEAST ONE REACTOR COOLANT PUMP RUNNING)

O PAGE 5 of 12 i

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COLR FOR \\/EGP UNIT 2 CYCLE 4 10

-v 1

i 5.00 (2500,4.90)

$ 4.00 ACCEPTABLE E

OPERATING REGION OS z

5 3.00 m

(1250,2.85) 2 z

3:

8 O.

g 2.00 5

UNACCEPTABLE c

OPERATING 5

REGION 8 1.00 c

(460,1.00) 1 0.00 0

500 1000 1500 2000 2500 i

2175-1 RCS BORON CONCENTRATION (ppm)

FIGURE 2 REQUIRED SHUTDOWN MARGIN FOR MODES 4 AND 5 (MODE 4 WITH NO REACTOR COOLANT PUMPS RUNNING)

O PAGE 6 of 12

COLR FOR VEGP UNIT 2 CYCLE 4 (Fully Withdrawn *)

20 28.0 %,225)

(78.0%, 225)-

>T j'

[B NK B

[

f 180

/

U T

160 (100 %,161) e

/

/

140 g

[ BANK C

/

E

/

z 120 0

E

/

o 100 O

f x

[

[ BANK D 8

[

60 40 j

(0%,46) 1

/

20

/

(30.2a/o, 0)/

0 0

20 40 60 80 100 (Fully inserted) i

,,,g POWER (percent of rated thermal power) j

' Fully withdrawn shall be the conddion where control rods are at a position within the interval 2225 and 5;231 steps withdrawn.

FIGURE 3 i

ROD BANK INSERTION LIMITS VERSUS THERMAL POWER O

PAGE 7 of 12

1 i

l COLR FOR VEGP UNIT 2 CYCLE 4 i

140 120

(-20,100)

(+10,100) e y

100 UNACCEPTABLE UNACCEPTABLE E

i 2

H 80 3a

[

ACCEPTABLE y

60 E

E

(-35, 50)

(+26, 50)

_1 s:

2 4

20 0

-50

-40

-30

-20

-10 0

10 20 30 40 50 AXIAL FLUX DIFFERENCE (percent Al)

FIGURE 4 AXIAL FLUX DIFFERENCE LIMITS AS A FUNCTION OF RATED THERMAL POWER FOR RAOC PAGE 8 of 12

COLR FOR VEGP UNIT 2 CYCLE 4 1.40 1.20 g

hO I 1.00

?

E h 0.80 O

?

N

.i d 0.60 O-s F r 2.50 g

o z

CORE l

d

.40 0

HEIGMT K(Z)

SE 0.000 1.000 6.000 1.000 12.000 0.925 0.20 0

0 2.0 4.0 6.0 8.0 10.0 12.0 CORE HEIGHT (ft)

FIGURE 5 K(Z) - NORMALIZED Fg (Z) AS A FUNCTION OF CORE HEIGHT PAGE 9 of 12

COLR FOR VEGP UNIT 2 CYCLE 4 1.6 Axlal Elevation BOL Ob1.

l l

l j.

1 l

2 11.80 1.0000 ll l

l l

i l

1l

.lt l

3 11.60 1.0000 i

4 11.40 1.0000 j

I I

j I

5 11.20 1.0000 1.5 l

t l

6 11.00 1.0000 l'

l 7 10.80 1.0000 1!

l) i 8 10.60 1.0000 9 10.40 1.0000 l

I i

I I

i 10 10.20 1.0000 11 10.00 1.3103 j

j l

j i

12 9.80 1.2936 ll l

l l

ll i

li i

13 9.60 1.2734 14 9.40 1.2563 l -

I4 15 9.20 1.2404 I

I ILl l

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34 16 9.00 1.2225 jj j

j

j4 17 8.80 1.2051 l~

l' l l

j i

ll l l

18 8.60 1.1985 a

19 8.40 1.2069 I

l

^

I li i

I 20 8.20 1.2122 4

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21 8.00 1.2143 l

li j

j 22 7.80 1.2148 t

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l 23 7.60 1.2129 (31.3 l-l l

24 7.40 1.2091 3:

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25 7.20 1.2036

{

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j 26 7.00 1.1964 27 6.80 1.1883 4;

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28 6.60 1.1791 29 6.40 1.1694 n

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l 30 6.20 1.1622 6

j 31 6.00 1.1553 i

nuon.

l 4

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1.2 6

l ll1',l l.

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l 33 5.60 1.1384 34 5.40 1.1471 a

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35 5.20 1.1618 j

j j

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36 5.00 1.1763 o

g 6 37 4.80 1.1894 l

ly i

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38 4.60 1.2016 39 4.40 1.2125 I

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40 4.20 1.2220 j,j 41 4.00 1.2300 j

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42 3.80 1.2364 i

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43 3.60 1.2411 44 3.40 1.2442 I-l 1

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45 3.20 1.2500 46 3.00 1.2609 j

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l t

l l

47 2.80 1.2798 l

ll 1 i i

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l l

48 2.60 1.3043 1.0 49 2.40 1.3274 0

1 2

3 4

5 6

7 8

9 10 11 12 50 2.20 1.3499 51 2.00 1.3722 52 1.80 1.0000 CORE HEIGHT (feet) 53 1.60 1.0000 54 1.40 1.0000 55 1.20 1.0000 56 1.00 1.0000 FIGURE 6 57 0.80 1.0000 58 0.60 1.0000 RAOC W(Z) AT 150 MWD /MTU 59 0.40 1.0000 60 0.20 1.0000 61 0.00 1.0000

• Top and Bottom 15%

0 Excluded This fgure is referred to by Techsdeal Spocacations 4 2 2 2d. B3/4 2 2 Tactinical ification 4.2.2.2 Data appbcable over a temperature range of 584.4 to 568 4 F.

1 PAGE 10 of 12 o

h COLR FOR VEGP UNIT 2 CYCLE 4

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ll 11 lIll Ipl 11 l I Ill lIt li l

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• 2 11.80 1.0000

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3 11.60 1.0000

'ill l

4 11.40 1.0000 5

11.20 1.0000 l

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6 11.00- 1.0000 7

10.00 1.0000 l

l;i j

8 10.60 1.0000 l

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9 10.40 1.0000

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10 10.20 1.0000

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11-10.00 1.2676 12 9.80 1.2600 l

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13 9.60 1.2489 14 9.40 - 1.2380 l

l l

15 9.20 1.2231 1

16 9.00 1.2048 i

17 8.80 1.1992 j

18 8.60 1.2083 19 8.40 1.2163 i

-li l +- l

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l l

20 8.20 1.2265

.l n

1 I

l

,3 21 8.00 1.2344 ~

6.

nl ll I fi l lt 22 7.80 1.2386 i

23 7.60 1.2400 A

i ll 1

jn N

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24 7.40 1.2364 25 7.20 1.2343 3'

f6

': li l!

ll

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i 26 7.00 1.2277 T

I 27 6.80 1.2189 5"'

28 6.60 1.2064 odg i

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29 6.40 1.1974 n

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30 6.20 1.1855 ln" l

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1l 31 6.00 1.1720 n

a 1.2 32 Sm 1.1606

' l, ll l

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l 33 5.60 1.1597 l

n n

34 5.40 1.1730 l

l l

l l

35 5.20 1.1856 A

3 o

36 5.00 1.1965 l

37 4.80 1.2065 i,

1 l

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l l.

38 4.60 1.2148 i

I 39 4.40 1.2216 40 4.20 1.2267 I

t 41 4.00 1.2302 l

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42 3.80 1.2320 1.1

~

l l

43 3.60 1.2333 l

l l

l l

+

i 44 3.40 1.2353 45 3.20 1.2353 46 3.00 1.2429 i

1 l

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47 2.80 1.2572 l,

48 2.60 1.2721 lI l

l l

l 1

49 2.40 1.2864 1

~

50 2.20 1.3002 l

l l

I, l.

l 51 2.00 1.3136

-~

52 1.80 1.0000 l

l i

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53 1.60 1.0000 1.0 54 1.40 1.0000 0

1 2

3 4

5 6

7 8

9 10 11 12 55 1.20 1.0000 56 1.00 1.0000 57 0.80 1.0000 CORE HEIGHT (feet) 58 0.60 1.0000 59 0.40 1.0000 60 0.20 1.0000

)

61 0.00 1.0000 FIGURE 7 Top and Bottom 15%

Excluded per RAOC W(Z) AT 7000 MWD /MTU Tecnnical specincation 4.2.2.2 TNs figure is referred to by Technica; Specificatiorm 4 2.2.2d, Ba'4 2.2 s

Data appi. cable over a temperature range of 584 4 to 588 4 E PAGE 11 of 12

I COLR FOR VEGP UNIT 2 CYCLE 4

)

l

\\j 1.5

- l llll l - l lll ij lll.

1-ill l -

l i

Point (feet) l l

Axial Elevation EOL Wiz 1

12.00 1.0000) j l

l j

l

^l l

i 2

11.80 1.0000

^

3 11.60 1.0000

- l.

l i

l I

4 11.40 1.0000 l

l 5

11.20 1.0000

..l l

l l

l:

l l

l 6

11.00 1.0000 i

7 10.80 1.0000 j

j j

l l

l l

8 10.60 1.0000 9

10.40 1.0000 j*4 l

l l

l l

l l

10 10.20 1.0000 11 10.00 1.2303 i

+

12 9.80 1.2215 l

l I

I 13 9.60 1.2129 g

l l

l I

l l

14 9.40 1.2030 15 9.20 1.1944 i

i 16 9.00 1.1935 i

i l

i j

I I

i 17 8.80 1.2057 18 8.60 1.2276 ll l

l l #4, ll j

i lllll 4l I

dr l

l I

21 8.00 1.2833 l

l 19 8.40 1.2494

'n i

1.3 20 8.20 1.2680 ll i'

i l

l 1I l l' l

l 22 7.80 1.2952 llI l"

n" l

23 7.60 1.3037 n

n

^

24 7.40 1.3088 N

Ao l

1 l

l l

u S

4"--

o l

25 7.20 1.3108

^

26 7.00 1.3095 l, l" l

l ll l4 jn j

i 27 6.80 1.3059 28 6.60 1.3011

/3 j

l l

I l

Al k

29 6.40 1.2958 ij j*g 1

on l

1 l

31 6.00 1.2815 h

<l'!

30 6.20 1.2896 s'

1 1

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32 5.80 1.2705 Ii i.

l i

j-34 5.40 1.2520 33 5.60 1.2586 I

I 1

i 35 5.20 1.2582 1

1 36 5.00 1.2663 37 4.80 1.2715 I

l l

38 4.60 1.2746 i

39 4.40 1.2751 l

l l

l l

l l

l 40 4.20 1.2730 1.1 41 4.00 1.2679 l

l l

l l

l l

l 42 3.80 1.2616 43 3.60 1.2557 l

l j'

l l

44 3.40 1.2486 45 3.20 1.2384 l

l l

l l

46 3.00 1.2350 l

47 2.80 1.2434 l

l l

48 2.60 1.2594 l

l l

i 49 2.40 1.2762 j

j 50 2.20 1.2924 i

51 2.00 1.3083 1*0 O 1

2 3

4 5

6 7

8 9

10 11 12 52, j g j;0000 9g99 54 1.40 1.0000 CORE HEIGHT (feet) 55 1.20 1.0000 56 1.00 1.0000 57 0.80 1.0000 58 0.60 1.0000 FIGURE 8 59 0.40 1.0000 SO O.20 1.0000 6'

U' U U RAOC W(Z) AT 16500 MWD /MTU

• Top and Bottom 15%

1 Excluded per l

Technical Specification 4.2.2.2 O

1 b

itus t,gure is referred to by Technicai speciticanons 4 2 2 2d. B3:422 Data apolcable over a temperature range of 584 4 to 588 4 F PAGE 12 of 12