Revision as of 06:33, 22 October 2019

Text

Rev 0 to Unit 1 Cycle 4 Core Operating Limits Rept.
	ML18009A902
Person / Time
Site:	Harris
Issue date:	05/13/1991
From:	; CAROLINA POWER & LIGHT CO.
To:	;
Shared Package
ML16342B767	List: ML16342B765; ML18009A902;
References
	PLP-106, NUDOCS 9105210269
	Download: ML18009A902 (25)
	v • d • e

OSl Attachment 9 Page 1 of 15 Shearon Harris Unit 1 Cycle 4 Core Operating Limits Report Rev. 0 PLP-106 Rev. 3 Page 66 of 80 9105210265 910513 PDR ADOCK 05000400 P PDR

OS1 Attachment 9 Page 2 of 1S COLR for Shearon Harris Unit 1 Cycle 4 1.0 CORE OPERATING LIMITS REPORT This Core Operating Limits Report (COLR) for Shearon Harris Unit 1 Cycle 4 has been prepared in accordance with the requirements of Technical Specification 6.9.1.6.

The Technical Specifications affected by this report are listed below:

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 FQ 3/4.2.3 Nuclear Enthalpy Rise Hot Channel Factor F<H PLP-106 Rev. 3 Page 67 of 80

0 OS1 Attachment 9 Page 3 of 15 COLR for Shearon Harris Unit 1 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 6.9.1.6 and given in Section 3.0 ~

2.1 Moderator Tem erature Coefficient (Specification 3/4.1.1.3)

1. The Moderator Temperature Coefficient (MTC) limits are:

The Positive MTC Limit (ARO/HZP) shall, be less positive than

+5.0 pcm/'F for power levels up to 70X RTP with a linear ramp to 0 pcm/'F at 100X RTP.

The Negative MTC Limit (ARO/RTP) shall be less negative than

-49 pcm/'F.

2. The MTC Surveillance limit is.

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

-41.5 pcm/'F.

where.'RO stands for All Rods Out HZP stands for Hot Zero THERMAL POWER RTP stands for RATED THERMAL POWER 2.2 Shutdown Rod Insertion Limit (Specification 3/4.1.3.5)

1. Fully withdrawn for all shutdown rods shall be 228 steps.

2.3 Control Rod Insertion Limits (Specification 3/4.1.3.6)

The control rod banks shall be limited in physical insertion as specified in Figure 1 of this attachment. Fully withdrawn for all control rods shall be 228 steps.

2.4 Axial Flux Difference (Specification 3/4.2.1)

1. The acceptable operational space for Relaxed Axial Offset Control (RAOC) operation is specified in Figure 2 of this attachment.

2 ~ The AXIAL FLUX DIFFERENCE (AFD) target band for Base Load operation is +5X.

3 ~ The APL for Base Load operation is 85X of RATED THERMAL POWERS PLP-106 Rev. 3 Page 68 of 80

Osl Attachment 9 Page 4 of 15 COLR for Shearon Harris Unit 1 Cycle 4 2.5 Heat Flux Hot Channel Factor - F~(Z) (Specification 3/4.2.2)

1. Fq(Z) < P

K(Z) for P > 0.5 Fq(Z) <

F~

05 Q

K(Z) for P < 0.5 where. P = THERMAL POWER RATED THERMALPOWER

=

2. ~Q 2.45

3. K(Z) is specified in Figure 3 of this attachment.

4. W(z) Curves for RAOC Operation are specified in Figure's 4 through 6 of this attachment. These W(z) curves are sufficient to determine

'he RAOC W(z) versus core height for Cycle 4 burnups through the end of full power reactivity plus a power coastdown of up to 1219 MWD/MTU through the use of three point interpolation.

5 ~ W(z) Curves'or Base Load Operation are specified in Figures 7 through 9 of this attachment. These W(z) curves are sufficient to determine the Base Load W(z) versus core height for Cycle 4 burnups through the end of full power reactivity plus a power coastdown of up to 1219 MWD/MTU through the use of three point interpolation.

PLP"106 Rev. 3 Page 69 of 80

Attachment 9 Page 5 of 15 COLR for Shearon Harris Unit 1 Cycle 4 2.6 Nuclear Enthal Rise Hot Channel Factor F<H (Specification 3/4.2.3)

Fgu - F g~ (1 hg where: P = THERMALPOWER RATED THERMALPOWER 1.62 for LOPAR fuel

b. P<> =1.65 for VANTAGE-5 fuel

c. PF~z = 0.3 for LOPAR fuel d- PF~z 0.35 for VA1VTAGE-5 fuel PLP-106 Rev. 3 Page 70 of 80

Osl Attachment 9 Page 6 of 15 COLR for Shearon Harris Unit 1 Cycle 4 3 ' METHODOLOGY REFERENCES

1. WCAP-9272-P-A, "Westinghouse Reload Safety Evaluation Methodology,"

July 1985 (W Proprietary).

(Methodology for Specification 3.1.1.3 Moderator Temperature Coefficient, 3.1.3.5 Shutdown Rod Insertion Limit, 3.1.3.6 Control Rod Insertion Limit, 3.2.1 Axial Flux Difference, 3.2.2 Heat Flux Hot Channel Factor, and 3.2.3 Nuclear Enthalpy Rise Hot Channel Factor.)

2. WCAP-11914, "Safety Evaluation Supporting a More Negative EOL Moderator Temperature Coefficient Technical Specification for the Shearon Harris Nuclear Power Plant," August 1988 (W Proprietary).

Approved by NRC Safety Evaluation dated May 22, 1989.

(Methodology for Specification 3.1.1.3 - Moderator Temperature Coefficient.)

3. WCAP-10216-P-A, "Relaxation of Constant Axial Offset Control F Surveillance Technical Specification," June 1993 (W Proprietor)).

(Methodology for Specifications 3.2.1 Axial Flux Difference (Rexated Axial Offset Control) and 3.2.2 Heat Flux Hot Channel Factor (F~ Methodology for W(Z) Surveillance requirements).)

4. :WCAP-10266-P-A, Rev. 2, "The 1981 Version of the Westinghouse ECCS Evaluation Model Using the BASH Code," March 1987 (W Proprietary) ~

(Methodology for Specification 3.2.2 Heat Flux Hot Channel Factor.)

5 ~ WCAP-8385, "Power Distribution Control and Load Following Procedures " Topical Report," September 1974 (W Proprietary).

(Methodology for Specification 3.2.1 Axial Flux Difference (Constant Axial Offset Control).)

6. WCAP-11832-P"A, "Extension of Methodology for Calculating Transition Core DNBR Penalties," January 1990 (W Proprietary).

PLP-106 Rev. 3 Page 71 of 80

OS1 Attachment 9 Page 7 of 15 FIGURE 1 SHEARON HARRIS UNIT 1 CYCLE 4 ROD GROUP INSERTION LIMITS VERSUS THERMAL POWER (THREE-LOOP OPERATION) 220 .538. 228 200 186 c 180 O

1 BANK

~ 160

~ 140 0, 128 120 CD BANK 0

~ 100 CD

~ 80

~ 60 Ch CD 40 20 0 0 00 . 10 .20 .30 .40 .50 .60 .70 .80 .90 1.0 FRACTION OF RATED THERMAL'POWER (Fully withdrawn shall be 228 steps)

Note: ControL Banks A and B Must be Withdrawn From The Core Prior To Power Operation This figure is referred to by Technical Speci f ications 3.1.3.1.d.2 PLP-106 Rev. 3 3.1.3.5 Page 72 of 80 3.1.3.6

0 OS1 Attachment 9 Page 8 of 15 FIGURE 2 SHEARON HARRIS UNIT 1 CYCLE 4 AXIAL FLUX DIFFERENCE LIMITS AS A FUNCTION OF RATED THERMAL POWER FOR RAOC 120

-11, 100 7. 1 00 100 UN CCEPT BLE U ACOEPT BLK

~t'- I 90 80 CER TAB 5 70 Q 60 50 CO

-34, 50 28 50

~.40 4J CD Q

30 10 50 -40 "30 -20 -10 0 10 20 30 40 50 .

AXIAL FLUX DIFFERENCE (X DELTA-I)

This figure is referred, to by Technical Specifications 3.2.1 4.2.2.2f PLP-106 Rev. 3 S3/4.2.1 Page 73 of 80

$

II

OS1 Attachment 9 Page 9 of 15 FIGURE 3 SHEARON HARRIS UNIT 1 CYCLE 4 K(z) LOCAL AXIAL PENALTY FUNCTION FOR F~(z) 1.2 1.0 5.90

~ .80 w

CL

.70 Normalized Elevation Peaking Facto w OSSRRRQR5$ OSRSSSSRRSRSS

'.60 0.0 1.0 6."0 1.0 12.0 0.925 g:So

.40

.30

.20 10 11 12 CORE HEiGHT (Feet)

This figure is referred to by Technical Specification 3/4.2.2 PLP-106 Rev. 3 Page 74 of 80

0 OS1 Attachment 9 Page 10 of FIGURE 4 SHEARON HARRIS UNIT 1 CYCLE 4 RAOC W(Z) AT 150 MWD/MTU Height 80!.

1.35

, I I I I I

.I i!'!

ili I:

~

I I! I! 'I i '

.

t Feet 0 00 F

0.20 0.40 1 M(z)

1. 0000 1 . 0000

1. 0000

'i!

~

' ' I Il 0.60 1 . 0000 I I I ~

(

0.80 1. 0000

!

'-

I i I i I! :I i i ~

I I 1.00

1. 20

1. 0000

1. 0000 I I I I! I i I! i! ~

I 1. 40 1 ~ 0000 1.30 1.60 1. 0000 II ~

I 1. 80 1. 3177 I:!

.

III ' 2.00 1.2859 I I I 2.20 1.2839

il' ll II!! 2.40 2.60

1. 2222-

1. 1SOS'.

2.80 1578 1.25 ill 3.00 3.20 3.40

1. 1395

1. 1328

1. 12SB

! I il Ill'!I,!

i 3.60 1. 1223 3.80 1. 1188 4.00 1. 1143 4.20 1. 109B 4.40 1. 1044-4.60 1.0986 II 4.80 1 ~ 0950 I I 8.00 1 ~ 0918 1.20 5.20 1. 0875 5.40 1. 0832 5.60 1. 0811 8.80 1.0827 6.00 1.0856 6.20 1.0927 6.40 1. 1003 6.60 1. 1069 1.15 6.80 1. 1125 7.00 1. 1168 7.20 1. 1205 7.40 1. 1241 7.60 1. 1287 7.80 1. 1279 8.00 1 ~ 1277 8.20 1. 12B1 8.40 1. 1234 1.10 S.BO 1. 119B 8.80 1 ~ 1167 9.00 1. 123B 9.20 1. 1388 9.40 1. 1480 9.60 1. 1827 9.80 1. 1894 10.00 1. 1781

10. 20 1. 2040 1.05 10. 40 1 ~ OOOO

10. 60 1 . 0000

10. 80 1. 0000

11. 00 1. 0000

11. 20 1 OOOO

~

11. 40 1. 0000

11. 60 1 OOOO

~

11. 80 1. 0000

12. 00 1 . 0000 1.000 4 5 6 7 8 9 10 11 12 Top and Sottotsi18%

2 3 excluded as per CORE HEIGHT (F eet} Technics l Speci 4.2.2.2.

f cation 1

Thxs fI.gure xs referred to by Technical Specifications 4.2.2.2c PLP-106 Rev. 3 83/4.2.2 Page 75 of 80

Osl Attachment 9 Page ll of 15 FlGURE 5 SHEARON HARRIS UNIT 1 CYCLE 4 RAOC W(Z) AT 7000 MWD/MTU Height HO!.

~Feat I ~WW 1.35 0.00 I ~ ~ 1' 1. 0000 l(II 0.20 1. 0000 I

~ ( I I I: I ( I 0.40 1. 0000

~ ~ 0.60 1. 0000 0.80

~

( ~

I 1. 0000

! t I I 1.00 1. 0000

'I

1. 20 1. 0000 l! III '

1. 40 1. 0000 1.30 I'I'III l 1.60 1.80 2.00 1.0000'.

1 ~

2274 2065 .

2.20 1. 1854

!Itl I I( I 2.40 2.60'.80

1. 1B44-.

1. 1433

1. 1211 3.00 1. 1066'-

3.20 '( . 0986 1.25 3.40 1.0930'.

3.60 0930 3.80 1. 0930 4.00 1. 0926 4.20 1. 0922 4.40 1. 0916 4.BO 1. 0907 4.80 1. 0891 1.20 5.00 1. 0881 5.20 1. 0873 5.40 1.0892; 5.60 1.0982 5.80 1. 1110 B.OO 1. 1233 6.20 . 1340 6.40 , 1434 6.60 , 1513 1.15 B.80 .

7.00 1S75',

1619 7.20 1 ~ 1647 7.40 1666

',

7.60 1 ~ 1B47 7.80 1. 1618 8.00 .1570 8.20 . 1503.

8.40 . 1419

1. 10 8.60 . 1320 8.80 . 1232

$ .00 . 1288 9.20 . 1426 9.40 , 1S35' 9.BO 1639 9.80 . 1728' 10.00 182$

10.20 ,2026 1.05 10. 40 1. 0000 10 60

~ 1. OOOO 10.80 1. OOOO

11. 00 1.0000..

11. 20 1. 0000',0000.

11.40 11.60 1. OOOO

11. 80 1. OOOO

12. 00 1. 0000' 1.000 2 3 4 5 6 9 10 11 12 Top and as per.=

Sotto(s'16%'xcluded ORE HElG HT eet} Technical f cation Speci 1 4.2.2.2.

This figure is referred to by Technical'pecifications 4.2.2.2c PLP-106 Rev. 3 S3/4.2.2 Page 76 of 80

OS1 Attachment 9 Page 12 of 15 FIGURE 6 SHEARON HARRIS UNIT 1 CYCLE 4 RAOC M{2) AT 15500 MMD/MTU Height MI.

~()eet ~w( e 1.35 Il: 'I'I

~ F I I 0.00 1. 0000 lijl I!II !III :I I H

0. 20 0.40 1 . 0000 1.0000 II 0.60 I'I

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1.00 1. 0000

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1. 20 1. 0000 1.30

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)II Ij I

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1. 1916 I

2.20

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1. 1727 I << 2.40 2.60

1. 1535

1. 1340 2.&0 1. 1131 3.00 1. 0980 1.25 3.20 1. 0949 3.40 1. 0994 3.60 1. 1024 3.80 1. 1111 4.00 1. 1219 4.20 1. 1319 4.40 1. 1411 4.60 1. 1494 4.80 1. 1582 1.20 5.00 1. 1622 5.20 1. 1B47 5.40 . 1693.

5.60 . 1878 5.80 1. 2050 6 00 F . 2191 jB. 20 . 2311 6.40 1. 2404 B.BO . 2470

1. 15 6.80 .2507 7.00 . 2516 7.20 . 249B 7.40 .2448 7.60 .2372 7.80 .2267 8.00 . 2138 8.20 . 1977 8.40 . 1808 1.10 8.60 . 1B&7

&.80 . 1620 9.00 . 1609 9.20 . 1592 9 40

~ : 1598 9.60 . 1755 9.80 . 1926 10.00 .2223

10. 20 .258$

1.05 10. 40 1. OOOO

10. 60 1. 0000 10.80 1. OOOO 11.00 1. 0000

11. 20 1. OOOO

11. 40 1. 0000 11.60 1. 0000

11. 80 1. 0000

12. 00 1. 0000 1.000 4 5 6 7 8 9 10 11 12 e Top and Bottots 15%

CORE HEIGHT (Feei) excluded as per Techn1ca I Spect f teat ton 4.2.2.2.

This figure is referred t'o by Technical Specifications 4.2.2.2c PLP-106 Rev. S a3/4.2.2 Page 77 of 80

OS1 Attachment 9 Page 13 of 15 FIGURE 7 SHEARON HARRIS UNIT 1 CYCLE 4 BASE LOAD W(Z) AT 150 MWD/MTU FOR POWER LEVELS ABOVE 85X OF RATED THERMAL POWER F

Height BOL

1. 12 (Feet) ~w< z I I r 0.00 1. 0000

~

~ t ~

0.20 1. 0000 J 0.40 1. 0000 0.60 1. 0000 0.80 1. 0000

~

t I ~ I 1. 00 1. 0000 F ~ ~

1. 20 1 . 0000 i t ~

1. 40 1. 0000

'4 1. 60 1. 0000

1. 10 1. 80 1. 0851 2.00 1. 0844

~ i t I I . I ~ i 2.20 1. 0838

~ ' i ~ i I I I 2.40 1.0831 2.60 1. 0820 1.09 t 2.80 1. 0803 ii

~ F ~

It I I i I I I t ~ 3.00 1. 0782 I I J I ~ I t i ~ 3.20 1.0758 J i i i ~ I ~ ~ I i I I f ~ 3.40 1. 0730 3.60 1. 0701 1.08 3.80 1. 0677 4.00 1. 0657 4.20 1.0838 4.40 1. 0617 4.60 1. 0598

.1.07 4.80 1. 0575 5.00 1.0558 5.20 1. 0545 5.40 1 0530

~

5.60 1. 05'12 1.06 I 5.80 1, 0493 F

6.00 1.0472 8.20 1. 0448 8.40 1. 0420 6.60 1.0389 1.05 6.80 1. 0350 7,00 1. 0338 7.20 1.0352 7.40 1. 0374

7. 60 1.0394 1.04 7. 80 1. 0412

8. 00 1,0427

8. 20 1. 0439 8.40 1. 0451 8.60 1. 0484 1.03 8,80 1. 0480 9,00 1.0497 9.20 1.0515 9.40 1. 0532 9.60 1. 0548 9.80 1. 0581 1.02 '10. 00 1. 0574 10.20 1 0587

~

10. 40 1. 0000 S 10. 80 1. 0000 J 10.80 1. 0000 1.01 S 11.00 1. 0000

'I . 0000 S 11. 20

11. 40 1. 0000 J 11.60 1. 0000

11. 80 1. 0000

12. 00 1 0000 1.000 7'

~

2 3 5 6 9 10 11 12 s Top and Bottom 15K CORE HEIGHT (Feet} excluded as per Technical 5peci f i cat ion 4.2.2.4.

This figure is referrecf to by Technical Specifications 4.2.2.3a PLP-106 Rev. 3 4.2.2.4c Page 78 of 80 B3/4.2.2

OS1 Attachment 9 Page 14 of 15 FIGURE 8 SHEARON HARRIS UNIT 1 CYCLE 4 BASE LOAD W(Z) AT 7000 MWD/MTU FOR POWER LEVELS ABOVE 85X OF RATED THERMAL POWER Me1ght MOL

~(Feet ~WZ

1. 12 0.00 1.0000 0.20 1.0000 0.40 1.0000 0.60 1. 0000 0.80 1. 0000 1 ! I " I 1.00 1 . 0000

~ I 1. 20 1. 0000

~ I I, ' 1.40 1. 0000 1.60 1. 0000

1. 10 1 ~ 80 1. 0907

~ i 2.00 1'.O894 I I 2.20 1. 0881 I

~

I

~

2.40 1.0866 I ~ ~

2,60 1.0847 1.09 I 2.80 1. 0820

~ ~

3.00 1.0787 I I 3.20 1.0747 I I ~

3.40 1.0708

~ I

~: 3.60 1. 0881 1.08

~ I I I I 3.80 1. 0858 4.00 1.0835 I ~

4.20 1. 0612

~ ~ ~ I I I I ~

4.40 1.'OS89 F 80 1. 0571 1.07 I ~ I I 4.80 1.0558

~ I S.OO 1.0545 5.20 1. 052$

5.40 1. 0513 I ~

'.60 5.80 1.0496 1.0475 1.06 6.00 1.0452 I 5 ~

6.20 1.0427 6.40 1.0397 6.60 1.0368 1.05 6.80 1,0387 7.00 1,041S 7.20 1.0434

~ I 7.40 1.0482 7.60 1.0468 I I ~ I ~ F 80 1.0480 1.04 8.00 1.0488 8.20 1. 0493 8.40 1.0498 8.60 1. 0503 8.80 1. 0510 1.03 9.00 1. 051$

9.20 1.0528 9.40 1. 0536 9.60 1 . 0542 9.80 1. 0548 1.02 10. 00 1.0552

10. 20 1.0557

10. 40 1.0000

10. 60 1.0000 10.80 1.0000 1.01 11.00 1. OOOO 11.20 1. OOOO

11. 40 1 . OOOO 11.60 1 . OOOO

11. 80 1 . 0000

12. 00 1. 0000 1,000 4 5 6 7 8 9 10 11 12 e Top and Bottcel 16%

CORE HEIGHT (Feet) excluded as pel Techn 1 ca I Spec11'1cat 1 on 4.2.2.4.

This figure is referred to by Technical Specifications 4.2.2.3a, PLP-106 Rev. 3 4.2.2.4c Page 79 of 80 B3/4.2.2

OS1 Attachment 9 Page 15 of 15 FIGURE 9 SHEARON HARRIS UNIT 1 CYCLE 4 BASE LOAD W(Z) AT 15500 MWD/MTU FOR POWER LEVELS ABOVE 85X OF RATED THERMAL POWER He 1 ght EOI.

~(Feet Mf z 1 1.12 0.00 1.0000 l 0.20 1.0000 I I I I, a I I I 0.40 1.0000 4 0.60 1.0000

~

$ I 0.80 1.0000

~ I C 1. 00 1. 0000 I I I I ~ I 1. 20 1.0000 I I I I I I ' I ~ 1. 40 1. 0000 1.60 1.0000 1.10 1. 80 1. 1087 I ~ 2.00 1. 1050 I I I ~ I ~ I 2. 20 1. 1010

~

I 2.40 1.09B7

~

~ I 2.60 1.0917 1.09 I I 2.80 1.0858 3.00 1.0794 3.20 1.0718 I ~ ~ 3. 40 1. 0652 I I 3.60 1.0830 1.08 I 3. 80 1. 0606

~

F 00 1.0586 4.20 1.0575 4.40 1.05BB 4 60 1 0554 1.07 4.80 1.0541 5.00 1.052S 5.20 F 0508 5.40 1.0488

5. 60 1. 0467 1.06 5.80 1.0441 6.00 1.0438 6.20 1.0459 6.40 1.0487 6.60 1.0508 6.80 1.0525 1.05 7.00 1.0538 7 '0 7 40 1.0548 1 0554 7.60 1.05SB 7.80 1.0554 1.04 8.00 1.0546 8.20 1.0539

8. 40 1.0551

8. 60 1. 0600 8 . 80 1 . 0652 1.03 9.00 1.0702 9.20 1.0753 9.40 1.0801 9.BO 1.0844 9.80 1.0884 1.02 10. 00 ' 1. 0919 10.20 0950 10 40

~ 1 . 0000

10. 60 1. 0000 5 10. 80 1. 0000 1.01 11. 00 1. OOOO

11. 20 1 0000

~

1 1 40

~ 1. 0000 C 11.BO 1.0000 C 11. 80 1. 0000 C 12.00 1.0000" 1.000 4 5 6 7 8 9 10 11 12 Top and Bottom 15%

CORE HEIGHT (Feei) excluded as per Techni ca l Spec1f 1catlon 4.2.2.4.

This figure is referred to by Technical Specifications 4.2.2.Sa PLP-106 Rev. S 4.2.2.4c Page 80 of 80 B3/4.2.2

0 N t

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ML18009A902: Difference between revisions

Revision as of 06:33, 22 October 2019

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