ML033230167

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Core Operating Limits Report (COLR) for Cycle 15
ML033230167
Person / Time
Site: Summer South Carolina Electric & Gas Company icon.png
Issue date: 11/14/2003
From: Byrne S
South Carolina Electric & Gas Co
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
Download: ML033230167 (52)
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Text

Stephen A. Byrne Senior Vice President, Nuclear Operations 803.345.4622 A SCANA COMPANY November 14, 2003 U. S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555 Gentlemen:

Subject:

VIRGIL C. SUMMER NUCLEAR STATION DOCKET NO. 50-395 OPERATING LICENSE NO. NPF-12 CORE OPERATING LIMITS REPORT (COLR)

FOR CYCLE 15 In accordance with Section 6.9.1.11 of the Virgil C. Summer Nuclear Station Technical Specifications, South Carolina Electric & Gas Company (SCE&G) hereby submits the Cycle 15 Core Operating Limits Report (COLR).

Should you have any questions, please call Mr. Jeffrey W. Pease at (803) 345-4124.

Very truly yours, Stephen A. Byrne JWP/SAB Attachment NOTE: Attachment is on file in NL&OE c:

Without Attachment unless noted N. 0. Lorick N. S. Cams T. G. Eppink R. J. White L. A. Reyes (w/attachment)

K. R. Cotton (w/attachment)

NRC Resident Inspector (w/attachment)

K. M. Sutton NSRC RTS (0-L-99-0150)

File (818.23-1, RR 5000)

DMS (RC-03-0235) boal S(E&G I Virgil (. Summer Nuclear Station

  • P.O. Box 88. *enkinsville, South Carolina 29065.T (803) 345.5209.www.scana.com

SOUTH CAROLINA ELECTRIC & GAS COMPANY VIRGIL C. SUMMER NUCLEAR STATION CORE OPERATING LIMITS REPORT FOR CYCLE 15 REVISION 0 OCTOBER 2003

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Table of Contents Section Pagle 1.0 Core Operating Limits Report 1

2.0 Operating Limits 2

2.1 Moderator Temperature Coefficient (Specification 3.1.1.3) 2 2.2 Shutdown Rod Insertion Limits (Specification 3.1.3.5) 2 2.3 Control Rod Insertion Limits (Specification 3.1.3.6) 2 2.4 Axial Flux Difference (Specification 3.2.1) 2 2.5 Heat Flux Hot Channel Factor - FQ(z) (Specification 3.2.2) 3 2.6 RCS Flow Rate and Nuclear Enthalpy Rise Hot Channel Factor - F (Specification 3.2.3) 4 2.7 Power Distribution Measurement Uncertainty (Specifications 3.2.2 and 3.2.3) 4 3.0 References 6

Revision 0

List of Tables Table Page Table 1.

RAOC Wl'(z) at 150 M11'D/MITU V. C. Summer - Cycle 15 12 Table 2.

RAOC W(z) at 3000 MWD/MTU V. C. Summer-Cycle 15 14 Table 3.

RAOC W(z) at 10000 MWD/MTU V. C. Summer-Cycle 15 16 Table 4.

RAOC W(z) at 20000 MWD/,MTU V. C. Summer-Cycle 15 18 Table 5.

Baseload WS(z) at 150 MWD/MTU V. C. Summer - Cycle 15 20 Table 6.

Baseload W(z) at 1300 MWD/MTU V. C. Summer - Cycle 15 22 Table 7.

Baseload W(z) at 3000 MWNDIVMTU V. C. Summer-Cycle 15 24 Table 8.

Baseload W(z) at 4700 MWD/IMTU V. C. Summer - Cycle 15 26 Table 9.

Baseload W(z) at 10000 M rD/AI~TU V. C. Summer - Cycle 15 28 Table 10.

Baseload W(z) at 20000 MVD/MTU V. C. Summer - Cycle 15 30 Table 11.

Baseload FQ Margin Decreases in Excess of 2% Per 31 EFPD 31 Table 12.

Baseload AOD W(z) at 150 MNN'D/MTU V. C. Summer - Cycle 15 33 Table 13.

Baseload AOD W(z) at 1300 MWD/hITU V. C. Summer-Cycle 15 35 ii Revision 0

List of Tables Table page Table 14.

Baseload AOD W(z) at 3000 MWD/MITU V. C. Summer - Cycle 15 37 Table 15.

Baseload AOD W(z) at 4700 MWD/MlTU V. C. Summer - Cycle 15 39 Table 16.

Baseload AOD W(z) at 10000 MWVD/MTU V. C. Summer - Cycle 15 41 Table 17.

Baseload AOD \\\\'(z) at 20000 MWDINMTU V. C. Summer - Cycle 15 43 iii Revision 0

List of Figures Figure Page Figure 1.

Moderator Temperature Coefficient Versus Power Level V. C. Summer - Cycle 15 7

Figure 2.

Rod Group Insertion Limits Versus Thermal Power for Three Loop Operation V. C. Summer-Cycle 15 8

Figure 3.

Axial Flux Difference Limits as a Function of Rated Thermal Power V. C. Summer - Cycle 15 9

Figure 4.

K(z) - Normalized FQ(z) as a Function of Core Height V. C. Summer - Cycle 15 10 Figure 5.

RAOC WN'(z) at 150 MWD/MTU V. C. Summer-Cycle 15 11 Figure 6.

RAOC WN'(z) at 3000 MN'ID/MTU V. C. Summer-Cycle 15 13 Figure 7.

RAOC W(z) at 10000 MWD/IMTU V. C. Summer - Cycle 15 15 Figure 8.

RAOC W(z) at 20000 MWD/MTU V. C. Summer - Cycle 15 17 Figure 9.

Baseload W(z) at 150 MWD/MTU V. C. Summer-Cycle 15 19 Figure 10.

Baseload W(z) at 1300 MWD/MTU V. C. Summer - Cycle 15 21 Figure 11.

Baseload W(z) at 3000 MWD/MTU V. C. Summer - Cycle 15 23 Figure 12.

Baseload W(z) at 4700 MWD/MTU V. C. Summer-Cycle 15 25 Figure 13.

Baseload W(z) at 10000 MWD/MTU V. C. Summer - Cycle 15 27 Figure 14.

Baseload W(z) at 20000 MWD/MTU V. C. Summer - Cycle 15 29 Figure 15.

Baseload AOD W(z) at 150 MWD/MTU V. C. Summer - Cycle 15 32 iv Revision 0

List of Figures Fig~ure Page Figure 16.

Baseload AOD W(z) at 1300 MWD/MTU V. C. Summer - Cycle 15 34 Figure 17.

Baseload AOD W(z) at 3000 MWNID/NITU V. C. Summer - Cycle 15 36 Figure 18.

Baseload AOD W(z) at 4700 MWDIMTU V. C. Summer - Cycle 15 38 Figure 19.

Baseload AOD W(z) at 10000 AMWD/MTU V. C. Summer - Cycle 15 40 Figure 20.

Baseload AOD W(z) at 20000 MIWD/ITU V. C. Summer - Cycle 15 42 Figure 21.

RCS Total Flowrate vs. R for Three Loop Operation V. C. Summer - Cycle 15 44 V

Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 1.0 Core Operating Limits Report This Core Operating Limits Report (COLR) for V. C. Summer Station Cycle 15 has been prepared in accordance with the requirements of Technical Specification 6.9.1.1 1.

The Technical Specifications affected by this report are listed below:

3.1.1.3 Moderator Temperature Coefficient 3.1.3.5 Shutdown Rod Insertion Limits 3.1.3.6 Control Rod Insertion Limits 3.2.1 Axial Flux Difference 3.2.2 Heat Flux Hot Channel Factor 3.2.3 RCS Flow Rate and Nuclear Enthalpy Rise Hot Channel Factor 3.3.3.11 Power Distribution Measurement Uncertainty I

Revision 0

V. C. Summer Cycle 15 October 2003 2.0 Operating Limits The cycle-specific parameter limits for the specifications listed in Section 1.0 are presented in the subsections which follow. These limits have been developed using the NRC-approved methodologies specified in Technical Specification 6.9.1.11.

2.1 Moderator Temperature Coefficient (Specification 3.1.1.3):

2.1.1 The Moderator Temperature Coefficient (MTC) limits are:

The BOIJARO-MTC shall be less positive than the limits shown in Figure 1.

The EOIJARO/RTP-MTC shall be less negative than -5x 104 Ak/k/0F.

2.1.2 The MTC Surveillance limit is:

The 300 ppm/ARO/RTP-MTC should be less negative than or equal to -4.1x 104 Ak/k/0F where:

BOL stands for Beginning of Cycle Life ARO stands for All Rods Out RTP stands for RATED THERMAL POWER EOL stands for End of Cycle Life 2.2 Shutdown Rod Insertion Limits (Specification 3.1.3.5):

The shutdown rods shall be withdrawn to at least 230 steps.

2.3 Control Rod Insertion Limits (Specification 3.1.3.6):

The Control Bank Insertion Limits are specified by Figure 2.

2.4 Axial Flux Difference (Specification 3.2.1):

2.4.1 The Axial Flux Difference (AFD) Limits for RAOC operation for Cycle 15 are shown in Figure 3.

2.4.2 The Axial Flux Difference (AFD) target band during base load operations for Cycle 15 is:

BOL - EOL (0 - 22,800 MWD/MTU): +/-5% about a measured target value.

2.4.3 The minimum allowable power level for base load operation, APLND, is 75% of RATED THERMAL POWER.

2 Revision 0

V. C. Summer Cycle 15 October 2003 2.5 Heat Flux Hot Channel Factor - FQ(z) (Specification 3.2.2):

F RTP FQ(Z)

Q x K(Z) for P > 0.5 P

RTPThraPoe FQ (Z) < FQ x K(Z) forP *0.5 where:

ThermalPower 0.5 Rated Thernal Power 2.5.1 FQRTP =2.40 2.5.2 K(z) is provided in Figure 4.

2.5.3 Elevation dependent W(z) values for RAOC operation at 150, 3000, 10000, and 20000 MWD/MTU are shown in Figures 5 through 8 and Tables I through 4, respectively. This information is sufficient to determine W(z) versus core height in the range of 0 MWD/MTU to EOL burnup through the use of three point interpolation. A 2% penalty factor shall be used at all burnups to increase FQNI(z) as per Surveillance Requirement 4.2.2.2e.

2.5.4 Elevation dependent W(Z)BL values for base load operation between 75 and 100% of rated thermal power with the item 2.4.2 specified target band about a measured target value at 150, 1300, 3000, 4700, 10000, and 20000 MWDIMTU are shown in Figures 9 through 14 and Tables 5 through 10, respectively. This information is sufficient to determine W(Z)BL versus core height for bumups in the range of 0 MWDIMTU to EOL burnup through the use of three point interpolation. Table 11 shows FQ margin decreases for base load operation that are greater than 2% per 31 Effective Full Power Days (EFPD). These values shall be used to increase FQ'(z) as per Surveillance Requirement 4.2.2.4e. A 2%

penalty factor shall be used at all burnups that are outside the range of Table 11.

2.5.5 Elevation dependent W(Z)BL values to be used in the event that an axial offset deviation (AOD) condition exists (as defined by measured axial offset more negative than predicted by 3% or more at beginning of cycle) are shown in Figures 15 through 20 and Tables 12 through 17, respectively. These values apply to base load operation between 75 and 100% of rated thermal power with the item 2.4.2 specified target band about a measured target value at 150,1300,3000,4700, 10000, and 20000 MWDJMTU. This information is sufficient to determine W(Z)BL versus core height for bumups in the range of 0 MWD/MTU to EOL burnup through the use of three point interpolation. A 2% penalty factor shall be used at all bumups to increase FQ^'(z) as per Surveillance Requirement 4.2.2.2e.

3 Revision 0

V. C. Summer Cycle 15 October 2003 2.6 RCS Flow Rate and Nuclear Enthalpy Rise Hot Channel Factor - FAN (Specification 3.2.3):

F N FA= T, P x ( + PF,11 x ( - P)

Thermal Power where: P = Rated Thermal Power 2.6.1 FAI, = 1.62 2.6.2 PFml = 0.3 2.6.3 The Acceptable Operation Region from the combination of Reactor Coolant System total flow and R is provided in Figure 21.

2.7 Power Distribution Measurement Uncertainty (Specifications 3.2.2 and 3.2.3):

If the Power Distribution Monitoring System is OPERABLE, as defined in Technical Specification 3.3.3.11, the uncertainty, UFul, to be applied to the Nuclear Enthalpy Rise Hot Channel Factor FN'Il shall be calculated by the following formula:

UFAII = 1.0 +

100.0 where: Ump = Uncertainty for enthalpy rise as defined in equation (5-19) in Reference 1.

If the Power Distribution Monitoring System is OPERABLE, as defined in Technical Specification 3.3.3.11, the uncertainty, UFQ, to be applied to the Heat Flux Hot Channel Factor FQ(z) shall be calculated by the following formula:

UF = 1.0+

.U.

FQ ~

100.0) where: UQ = Uncertainty for power peaking factor as defined in equation (5-19) in Reference 1.

U,

= Engineering uncertainty factor.

= 1.03 4

Revision 0

V. C. Summer Cycle 15 October 2003 If the Power Distribution Monitoring System is INOPERABLE, as defined in Technical Specification 3.3.3.11, the uncertainty, UFMI, to be applied to the Nuclear Enthalpy Rise Hot Channel Factor FNAI shall be calculated by the following formula:

UFAII =

UFAIIm where: UFAIIm = Base Fm, measurement uncertainty.

= 1.04 If the Power Distribution Monitoring System is INOPERABLE, as defined in Technical Specification 3.3.3.11, the uncertainty, UFQ, to be applied to the Heat Flux Hot Channel Factor FQ(z) shall be calculated by the following formula:

UFQ =U qu Ue where: Uqu = Base FQ measurement uncertainty.

= 1.05 Ue

= Engineering uncertainty factor.

= 1.03 5

Revision 0

V. C. Summer Cycle 15 October 2003 3.0 References

1) WCAP-12473-A (Non-Proprietary), "BEACON Core Monitoring and Operations Support System," August, 1994.

6 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 1.

Moderator Temperature Coefficient Versus Power Level V.C. Summer - Cycle 15 1.00 0.90 1

Unacceptable

~~~Operation 0.80 Ur.

, 0.70 0

C 0.60 LU Acceptable 0

~~~~~Operation o0.50 CD

.30 0

0.40 0.1 0.0 0

10 20 30 40 50 60 70 80 Percent of Rated Thermal Power 7

Revision 0

V. C. Summer Cycle 15 October 2003 Figure 2. Rod Group Insertion Limits Versus Thermal Power for Three Loop Operation V. C. Summer - Cycle 15 230 -

l I I l

220 -

(055,230) 0- I I I I I I I I I I I I I I I I I I I I I I V 1*

,l 210 -

l II I I I I I I I I 200 190 180 -_

170 -

C I I I Al 160-150 Yje_______1 I11 I I I I,11

.0 140 A

I I

I Jo I I 1 1 1 11111 C', ~

00 o 130 0L 0.~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~'0 12 -

2 0I I 1 lT I

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o 1430-

_ _ Z I

I l xi I I I I I o0 100 0

c_I(0-,18 I I I V

CC 80 70 0

60--

50 40-30 20 10 (0.048, 0 0

0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 Fraction Of Rated Thermal Power 8

0.8 0.9 1.0 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 3.

Axial Flux Difference Limits as a Function of Rated Thermal Power V. C. Summer - Cycle 15 120 100 0

0 I.

'a 0

C) t-cc 0

80 60 40 I~~~~~--

(+

1A. X I

I~~~~~~~~~~ I=

I UnccetableE Unaccepal I

I Acceptable]

=-

(-2, 5

(+20, 50)L 20 0'L

-4 0

-30

-20

-10 0

10 Axial Flux Difference (%Al) 20 30 40 9

Revision 0

V. C. Summer Cycle 5 October 2003 Figure 4.

K(z) - Normalized FQ(z) as a Function of Core Height V. C. Summer - Cycle 15 1.10 1 00 0.90 0.80

-t w

w IL

.0 U-z N

0.70 0.60 0.50 0.40 0.30 0.20 0.10 0.00 L-o 2

4 6

8 10 Core Height (Feet) 12 Top Bottom 10 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 5. RAOC W(z) at 150 MWD/MTU V. C. Summer - Cycle 15 1.40 1.35 1.30 1.25 1.20 1.15 1.10 1.05 1.00 p

l l

l l

l l

l l

r_

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0 2

4 6

Core Height (Feet) 11 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Table 1.

RAOC W(z) at 150 MWD/MTU V. C. Summer - Cvcle 15 Core Height (ft) lW(z)

Core Height (ft) l Wz) 0.00 1.238 6.08 1.135 0.16 1.237 6.24 1.144 0.32 1.245 6.40 1.151 0.48 1.261 6.56 1.158 0.64 1.275 6.72 1.164 0.80 1.275 6.88 1.170 0.96 1.270 7.04 1.174 1.12 1.264 7.20 1.178 1.28 1.256 7.36 1.181 1.44 1.246 7.52 1.183 1.60 1.236 7.68 1.185 1.76 1.224 7.84 1.185 1.92 1.212 8.00 1.184 2.08 1.200 8.16 1.182 2.24 1.187 8.32 1.179 2.40 1.175 8.48 1.175 2.56 1.162 8.64 1.168 2.72 1.149 8.80 1.161 2.88 1.137 8.96 1.159 3.04 1.126 9.12 1.159 3.20 1.118 9.28 1.161 3.36 1.115 9.44 1.165 3.52 1.114 9.60 1.167 3.68 1.112 9.76 1.166 3.84 1.110 9.92 1.166 4.00 1.109 10.08 1.170 4.16 1.108 10.24 1.177 4.32 1.108 10.40 1.182 4.48 1.107 10.56 1.186 4.64 1.106 10.72 1.188 4.80 1.106 10.88 1.189 4.96 1.107 11.04 1.190 5.12 1.108 11.20 1.190 5.28 1.112 11.36 1.191 5.44 1.116 11.52 1.182 5.60 1.118 11.68 1.164 5.76 1.121 11.84 1.150 5.92 1.126 12.00 1.138 12 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 6. RAOC W(z) at 3000 MWD/MTU V. C. Summer - Cycle 15 1.40 1.35 U r

= _llvr T

I I

T

=

=

=

T I

r

=

{

I 1.25

1.20-1.15 1.10 _

u

_=

_ 39 _

~I I11 I I Ias

_ _ I I l=S 1.05'-

1.00

=

0 2

4 6

Core Height (Feet) 13 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 2.

RAOC W(z) at 3000 MWD/MTU V. C. Summer - Cycle 15 Core Height (ft)

W(z)

Core Height (ft)

W(z) 0.00 1.317 6.08 1.114 0.16 1.316 6.24 1.125 0.32 1.320 6.40 1.135 0.48 1.331 6.56 1.144 0.64 1.339 6.72 1.153 0.80 1.335 6.88 1.161 0.96 1.325 7.04 1.168 1.12 1.315 7.20 1.174 1.28 1.301 7.36 1.180 1.44 1.285 7.52 1.185 1.60 1.269 7.68 1.189 1.76 1.250 7.84 1.192 1.92 1.232 8.00 1.194 2.08 1.212 8.16 1.195 2.24 1.192 8.32 1.195 2.40 1.173 8.48 1.193 2.56 1.153 8.64 1.189 2.72 1.134 8.80 1.187 2.88 1.115 8.96 1.189 3.04 1.103 9.12 1.199 3.20 1.096 9.28 1.210 3.36 1.094 9.44 1.218 3.52 1.093 9.60 1.226 3.68 1.093 9.76 1.231 3.84 1.094 9.92 1.235 4.00 1.094 10.08 1.237 4.16 1.094 10.24 1.243 4.32 1.093 10.40 1.253 4.48 1.093 10.56 1.262 4.64 1.092 10.72 1.270 4.80 1.091 10.88 1.276 4.96 1.089 11.04 1.281 5.12 1.089 11.20 1.285 5.28 1.090 11.36 1.286 5.44 1.090 11.52 1.279 5.60 1.092 11.68 1.264 5.76 1.096 11.84 1.251 5.92 1.103 12.00 1.238 14 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 7. RAOC W(z) at 10000 MWD/MTU V. C. Summer - Cycle 15 1

1 1

1

- 1

.40

.30 I

1

=

=

=

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==

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1 1

1 1

0 2

4 6

Core Height (Feet) 15 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 3.

RAOC W(z) at 10000 MWD/MTU V. C. Summer - Cycle 15 lCore Height (ft) lwz)l Core Height (ft) lW(Z) 0.00 1.247 6.08 1.126 0.16 1.245 6.24 1.137 0.32 1.251 6.40 1.146 0.48 1.262 6.56 1.155 0.64 1.271 6.72 1.163 0.80 1.268 6.88 1.170 0.96 1.262 7.04 1.177 1.12 1.255 7.20 1.182 1.28 1.244 7.36 1.187 1.44 1.231 7.52 1.191 1.60 1.218 7.68 1.193 1.76 1.204 7.84 1.195 1.92 1.189 8.00 1.195 2.08 1.173 8.16 1.195 2.24 1.157 8.32 1.193 2.40 1.141 8.48 1.190 2.56 1.126 8.64 1.184 2.72 1.110 8.80 1.179 2.88 1.095 8.96 1.179 3.04 1.083 9.12 1.185 3.20 1.076 9.28 1.195 3.36 1.075 9.44 1.206 3.52 1.075 9.60 1.218 3.68 1.074 9.76 1.228 3.84 1.073 9.92 1.238 4.00 1.072 10.08 1.247 4.16 1.074 10.24 1.256 4.32 1.076 10.40 1.263 4.48 1.079 10.56 1.269 4.64 1.082 10.72 1.273 4.80 1.085 10.88 1.275 4.96 1.087 11.04 1.277 5.12 1.089 11.20 1.277 5.28 1.090 11.36 1.274 5.44 1.092 11.52 1.257 5.60 1.097 11.68 1.242 5.76 1.106 11.84 1.230 5.92 1.116 12.00 1.220 16 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 8. RAOC W(z) at 20000 MWD/MTU V. C. Summer - Cycle 15 14.

1 E

I

.~

I

.I

. NA 1.

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1.

10

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_ = =

1 05-I 1.

.4 nn%

0 2

4 6

Core Height (Feet) 8 10 12 17 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Table 4.

RAOC W(z) at 20000 MWDI4TU V. C. Summer - Cycle 15 Core Height (ft)

W(z)

Core Height (ft)

W(Z) 0.00 1.199 6.08 1.173 0.16 1.197 6.24 1.181 0.32 1.202 6.40 1.188 0.48 1.216 6.56 1.194 0.64 1.229 6.72 1.199 0.80 1.229 6.88 1.203 0.96 1.225 7.04 1.206 1.12 1.221 7.20 1.208 1.28 1.212 7.36 1.209 1.44 1.202 7.52 1.209 1.60 1.192 7.68 1.207 1.76 1.181 7.84 1.204 1.92 1.170 8.00 1.200 2.08 1.158 8.16 1.194 2.24 1.146 8.32 1.187 2.40 1.133 8.48 1.180 2.56 1.121 8.64 1.180 2.72 1.108 8.80 1.180 2.88 1.096 8.96 1.182 3.04 1.089 9.12 1.185 3.20 1.087 9.28 1.187 3.36 1.090 9.44 1.188 3.52 1.095 9.60 1.188 3.68 1.100 9.76 1.186 3.84 1.104 9.92 1.184 4.00 1.108 10.08 1.188 4.16 1.114 10.24 1.192 4.32 1.120 10.40 1.195 4.48 1.127 10.56 1.207 4.64 1.133 10.72 1.224 4.80 1.139 10.88 1.235 4.96 1.144 11.04 1.242 5.12 1.149 11.20 1.246 5.28 1.152 11.36 1.240 5.44 1.155 11.52 1.227 5.60 1.158 11.68 1.199 5.76 1.161 11.84 1.166 5.92 1.166 12.00 1.146 18 Revision 0

V. C. Summer Cycle S October 2003 V. C. Summer Cycle 15 October 2003 Figure 9. Baseload W(z) at 150 MWD/MTU V. C. Summer-Cycle 15 1.20 1.15 N 1.10 1.05 1.00 X-.1 1 1 I I I1

_~~~~~~~~~~

0 2

4 6

Core Height (Feet) 19 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 5.

Baseload W(z) at 150 MWD/MTU V. C. Stmmpr - Cvclt 15 lCore Height (ft) l Wz)l Core Height (ft) lW(z)l 0.00 1.107 6.08 1.065 0.16 1.108 6.24 1.062 0.32 1.109 6.40 1.060 0.48 1.111 6.56 1.057 0.64 1.113 6.72 1.054 0.80 1.113 6.88 1.051 0.96 1.113 7.04 1.050 1.12 1.112 7.20 1.052 1.28 1.112 7.36 1.055 1.44 1.111 7.52 1.058 1.60 1.110 7.68 1.059 1.76 1.108 7.84 1.061 1.92 1.107 8.00 1.063 2.08 1.105 8.16 1.065 2.24 1.103 8.32 1.067 2.40 1.101 8.48 1.069 2.56 1.099 8.64 1.070 2.72 1.096 8.80 1.072 2.88 1.094 8.96 1.073 3.04 1.091 9.12 1.075 3.20 1.088 9.28 1.076 3.36 1.085 9.44 1.077 3.52 1.083 9.60 1.079 3.68 1.081 9.76 1.080 3.84 1.081 9.92 1.081 4.00 1.081 10.08 1.082 4.16 1.080 10.24 1.083 4.32 1.080 10.40 1.084 4.48 1.079 10.56 1.085 4.64 1.078 10.72 1.086 4.80 1.077 10.88 1.087 4.96 1.076 11.04 1.088 5.12 1.075 11.20 1.089 5.28 1.073 11.36 1.089 5.44 1.072 11.52 1.089 5.60 1.070 11.68 1.089 5.76 1.069 11.84 1.089 5.92 1.067 12.00 1.089 20 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 10. Baseload W(z) at 1300 MWD/MTU V. C. Summer - Cycle 15 1.20 1.1 0

2 4

6 8

10 Core Height (Feet) 21 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 6.

Baseload W(z) at 1300 MWD/MTU V. C. Summer - Cycle 15

[Core Height (ft) l W(z)

Core Height ft)

W(z) 0.00 1.102 6.08 1.063 0.16 1.104 6.24 1.061 0.32 1.105 6.40 1.059 0.48 1.107 6.56 1.057 0.64 1.108 6.72 1.054 0.80 1.109 6.88 1.051 0.96 1.109 7.04 1.050 1.12 1.109 7.20 1.052 1.28 1.108 7.36 1.054 1.44 1.108 7.52 1.056 1.60 1.107 7.68 1.058 1.76 1.106 7.84 1.060 1.92 1.105 8.00 1.062 2.08 1.104 8.16 1.064 2.24 1.102 8.32 1.066 2.40 1.100 8.48 1.068 2.56 1.099 8.64 1.069 2.72 1.097 8.80 1.071 2.88 1.094 8.96 1.073 3.04 1.092 9.12 1.074 3.20 1.090 9.28 1.076 3.36 1.087 9.44 1.077 3.52 1.085 9.60 1.079 3.68 1.083 9.76 1.080 3.84 1.082 9.92 1.082 4.00 1.082 10.08 1.083 4.16 1.081 10.24 1.084 4.32 1.080 10.40 1.085 4.48 1.079 10.56 1.086 4.64 1.077 10.72 1.088 4.80 1.076 10.88 1.089 4.96 1.075 11.04 1.090 5.12 1.073 11.20 1.090 5.28 1.072 11.36 1.091 5.44 1.070 11.52 1.091 5.60 1.068 11.68 1.091 5.76 1.067 11.84 1.091 5.92 1.065 12.00 1.091 22 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 11. Baseload W(z) at 3000 MWD/MTU V. C. Summer - Cycle 15 0

2 4

6 8

10 Core Height (Feet) 23 12 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Table 7.

Baseload W(z) at 3000 MWD/MTU V. C. Simmer-CvclI i I Core Height (ft)

W(z)

Core Height (ft)

W(z 0.00 1.093 6.08 1.059 0.16 1.094 6.24 1.057 0.32 1.096 6.40 1.055 0.48 1.097 6.56 1.053 0.64 1.099 6.72 1.051 0.80 1.100 6.88 1.048 0.96 1.100 7.04 1.048 1.12 1.101 7.20 1.048 1.28 1.101 7.36 1.049 1.44 1.101 7.52 1.051 1.60 1.100 7.68 1.053 1.76 1.100 7.84 1.055 1.92 1.099 8.00 1.057 2.08 1.099 8.16 1.059 2.24 1.098 8.32 1.061 2.40 1.097 8.48 1.064 2.56 1.096 8.64 1.066 2.72 1.094 8.80 1.067 2.88 1.093 8.96 1.069 3.04 1.091 9.12 1.071 3.20 1.089 9.28 1.073 3.36 1.087 9.44 1.075 3.52 1.086 9.60 1.076 3.68 1.084 9.76 1.078 3.84 1.082 9.92 1.080 4.00 1.080 10.08 1.081 4.16 1.079 10.24 1.083 4.32 1.077 10.40 1.084 4.48 1.076 10.56 1.085 4.64 1.074 10.72 1.087 4.80 1.073 10.88 1.088 4.96 1.071 11.04 1.089 5.12 1.069 11.20 1.090 5.28 1.067 11.36 1.091 5.44 1.065 11.52 1.092 5.60 1.063 11.68 1.091 5.76 1.062 11.84 1.092 5.92 1.060 12.00 1.092 24 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Figure 12. Baseload W(z) at 4700 MWD/MTU V. C. Summer - Cycle 15 1.20 N

1.10 0

2 4

6 8

10 Core Height (Feet) 25 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 8.

Baseload W(z) at 4700 MWD/MTU V. C. Summer - Cycle 15 Core Height (ft)

W Core Height (ft) 0.00 1.090 6.08 1.059 0.16 1.091 6.24 1.058 0.32 1.092 6.40 1.057 0.48 1.094 6.56 1.055 0.64 1.095 6.72 1.053 0.80 1.096 6.88 1.051 0.96 1.097 7.04 1.050 1.12 1.098 7.20 1.050 1.28 1.098 7.36 1.049 1.44 1.099 7.52 1.050 1.60 1.099 7.68 1.053 1.76 1.099 7.84 1.056 1.92 1.099 8.00 1.058 2.08 1.099 8.16 1.060 2.24 1.099 8.32 1.062 2.40 1.098 8.48 1.065 2.56 1.098 8.64 1.067 2.72 1.097 8.80 1.069 2.88 1.096 8.96 1.071 3.04 1.095 9.12 1.073 3.20 1.094 9.28 1.075 3.36 1.093 9.44 1.077 3.52 1.091 9.60 1.079 3.68 1.089 9.76 1.081 3.84 1.086 9.92 1.083 4.00 1.084 10.08 1.085 4.16 1.082 10.24 1.086 4.32 1.080 10.40 1.088 4.48 1.079 10.56 1.090 4.64 1.077 10.72 1.091 4.80 1.074 10.88 1.093 4.96 1.072 11.04 1.094 5.12 1.070 11.20 1.095 5.28 1.067 11.36 1.097 5.44 1.065 11.52 1.097 5.60 1.063 11.68 1.097 5.76 1.061 11.84 1.097 5.92 1.060 12.00 1.098 26 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Figure 13. Baseload W(z) at 10000 MWD/MTU V. C. Summer - Cycle 15 I,%,

1.

II 1-5 I I I.

izr N

1.10 1.05 1.00 iA~. II I

L 22212 I IL l _

a I-

u. _ _ _ _ _

I sm I

_ __ _ ____ _ _ ___ _ _I_ _

_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _~~~~~~~~~~~~~~~

0 2

4 6

Core Height (Feet) 27 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 9.

Baseload W(z) at 10000 MWD/MTU V. C. Summer - CYcle 15 Core Height (ft) l Core Height (ft)

W(z) 0.00 1.108 6.08 1.062 0.16 1.109 6.24 1.059 0.32 1.110 6.40 1.056 0.48 1.112 6.56 1.053 0.64 1.113 6.72 1.053 0.80 1.114 6.88 1.053 0.96 1.114 7.04 1.054 1.12 1.114 7.20 1.056 1.28 1.113 7.36 1.058 1.44 1.113 7.52 1.060 1.60 1.112 7.68 1.062 1.76 1.111 7.84 1.064 1.92 1.110 8.00 1.065 2.08 1.108 8.16 1.067 2.24 1.106 8.32 1.069 2.40 1.104 8.48 1.070 2.56 1.102 8.64 1.071 2.72 1.099 8.80 1.073 2.88 1.097 8.96 1.074 3.04 1.094 9.12 1.075 3.20 1.090 9.28 1.076 3.36 1.087 9.44 1.077 3.52 1.084 9.60 1.078 3.68 1.082 9.76 1.079 3.84 1.081 9.92 1.080 4.00 1.080 10.08 1.081 4.16 1.079 10.24 1.082 4.32 1.079 10.40 1.083 4.48 1.078 10.56 1.084 4.64 1.077 10.72 1.085 4.80 1.075 10.88 1.086 4.96 1.074 11.04 1.086 5.12 1.073 11.20 1.087 5.28 1.071 11.36 1.088 5.44 1.070 11.52 1.088 5.60 1.068 11.68 1.088 5.76 1.066 11.84 1.088 5.92 1.064 12.00 1.088 28 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Figure 14. Baseload W(z) at 20000 MWD/MTU V. C. Summer - Cycle 15 1.20 N

1.10 0

2 4

6 8

10 12 Core Height (Feet) 29 Revision 0

V. C. Summer Cycle 15 October 2003 Table 10.

Baseload W(z) at 20000 MWD/MTU V. C. Summer - Cycle 15 l Core Height (ft) l W(z)(Core Height (ft) l W(z) 0.00 1.146 6.08 1.063 0.16 1.146 6.24 1.064 0.32 1.147 6.40 1.066 0.48 1.148 6.56 1.068 0.64 1.149 6.72 1.070 0.80 1.149 6.88 1.072 0.96 1.148 7.04 1.073 1.12 1.146 7.20 1.074 1.28 1.144 7.36 1.075 1.44 1.142 7.52 1.076 1.60 1.139 7.68 1.076 1.76 1.135 7.84 1.077 1.92 1.131 8.00 1.077 2.08 1.127 8.16 1.077 2.24 1.122 8.32 1.078 2.40 1.117 8.48 1.079 2.56 1.111 8.64 1.083 2.72 1.105 8.80 1.087 2.88 1.099 8.96 1.092 3.04 1.093 9.12 1.095 3.20 1.087 9.28 1.099 3.36 1.083 9.44 1.103 3.52 1.081 9.60 1.106 3.68 1.079 9.76 1.109 3.84 1.078 9.92 1.112 4.00 1.076 10.08 1.114 4.16 1.075 10.24 1.116 4.32 1.073 10.40 1.118 4.48 1.072 10.56 1.119 4.64 1.072 10.72 1.121 4.80 1.071 10.88 1.122 4.96 1.070 11.04 1.122 5.12 1.069 11.20 1.122 5.28 1.068 11.36 1.122 5.44 1.066 11.52 1.121 5.60 1.064 11.68 1.120 5.76 1.062 11.84 1.119 5.92 1.062 12.00 1.118 30 Revision 0

V. C. Summer Cycle 15 October 2003 Table 11.

Baseload F, Margin Decreases in Excess of 2% Per 31 EFPD Cycle Burnup Maximum Dccrease (MWD/MTU) in FQ Margin 837 1.020 1008 1.021 1180 1.021 1352 1.021 1523 1.021 1695 1.020 4270 1.020 4442 1.022 4614 1.022 4785 1.023 4957 1.022 5129 1.020 Note:

All cycle burnups outside the range of this table shall use a 1.020 decrease in margin for compliance with Specification 4.2.2.4e. Linear interpolation is adequate for intermediate cycle burnups.

31 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 15. Baseload AOD W(z) at 150 MWD/MTU V. C. Summer - Cycle 15 1.20 1.15 N 1.10 1.05 1.00 11 1 IXTT 1 1 l

~H ll I 111111111111

.~~~~~E EU U

II11_

ti

' te I

I 1

1Z15-0 2

4 6

Core Height (Feet) 32 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 12.

Baseload AOD W(z) at 150 MWD/MTU V. C. Summer - Cycle 15 lCore Height (ft)

W(z)

Core Height (ft)

W(z) 0.00 1.104 6.08 1.068 0.16 1.106 6.24 1.066 0.32 1.107 6.40 1.064 0.48 1.109 6.56 1.062 0.64 1.111 6.72 1.062 0.80 1.111 6.88 1.063 0.96 1.111 7.04 1.066 1.12 1.111 7.20 1.069 1.28 1.110 7.36 1.072 1.44 1.109 7.52 1.075 1.60 1.108 7.68 1.078 1.76 1.106 7.84 1.080 1.92 1.105 8.00 1.083 2.08 1.103 8.16 1.085 2.24 1.100 8.32 1.087 2.40 1.098 8.48 1.090 2.56 1.096 8.64 1.092 2.72 1.093 8.80 1.094 2.88 1.090 8.96 1.095 3.04 1.087 9.12 1.097 3.20 1.084 9.28 1.099 3.36 1.081 9.44 1.100 3.52 1.080 9.60 1.102 3.68 1.078 9.76 1.103 3.84 1.078 9.92 1.105 4.00 1.077 10.08 1.106 4.16 1.076 10.24 1.107 4.32 1.075 10.40 1.109 4.48 1.074 10.56 1.110 4.64 1.073 10.72 1.110 4.80 1.073 10.88 1.111 4.96 1.073 11.04 1.111 5.12 1.072 11.20 1.112 5.28 1.072 11.36 1.111 5.44 1.072 11.52 1.110 5.60 1.071 11.68 1.111 5.76 1.070 11.84 1.111 5.92 1.069 12.00 1.111 33 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Figure 16. Baseload AOD W(z) at 1300 MWD/MTU V. C. Summer - Cycle 15 1.20 1.15

-II III I

I U

rlT I I I I I I I I I I I II I I I so I oI

.. 1.....,

U'

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s

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I

_ _ __ ____ _-_ ___ _ _ _ _ _I

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0 2

4 6

Core Height (Feet) 34 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 13.

Baseload AOD W(z) at 1300 MWD/MTU V. C. Summer - Cycle 15 Core Height ft W(z)

Core Height ft)

Wz 0.00 1.098 6.08 1.064 0.16 1.100 6.24 1.063 0.32 1.101 6.40 1.061 0.48 1.103 6.56 1.060 0.64 1.105 6.72 1.059 0.80 1.106 6.88 1.059 0.96 1.106 7.04 1.061 1.12 1.106 7.20 1.064 1.28 1.105 7.36 1.067 1.44 1.105 7.52 1.070 1.60 1.104 7.68 1.073 1.76 1.103 7.84 1.076 1.92 1.102 8.00 1.079 2.08 1.100 8.16 1.081 2.24 1.099 8.32 1.084 2.40 1.097 8.48 1.086 2.56 1.095 8.64 1.088 2.72 1.093 8.80 1.091 2.88 1.090 8.96 1.093 3.04 1.088 9.12 1.095 3.20 1.085 9.28 1.096 3.36 1.083 9.44 1.098 3.52 1.081 9.60 1.100 3.68 1.080 9.76 1.102 3.84 1.079 9.92 1.104 4.00 1.078 10.08 1.105 4.16 1.076 10.24 1.107 4.32 1.075 10.40 1.108 4.48 1.074 10.56 1.109 4.64 1.073 10.72 1.110 4.80 1.072 10.88 1.111 4.96 1.072 11.04 1.112 5.12 1.071 11.20 1.113 5.28 1.070 11.36 1.113 5.44 1.069 11.52 1.112 5.60 1.068 11.68 1.113 5.76 1.067 11.84 1.113 5.92 1.066 12.00 1.113 35 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 17. Baseload AOD W(z) at 3000 MWD/MTU V. C. Summer - Cycle 15 1.'On

U I

1.15 1.10 1.05 1.00

_~~~~

______________ l-I s

r 0

2 4

6 Core Height (Feet) 36 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 V. C. Summer Cycle 15 October 2003 Table 14.

Baseload AOD W(z) at 3000 MWD/MTU V. C. Summer - Cvclp 15 lCore Height (ft)

[Core Height (ft)

W(z) 0.00 1.092 6.08 1.061 0.16 1.094 6.24 1.060 0.32 1.095 6.40 1.059 0.48 1.097 6.56 1.057 0.64 1.099 6.72 1.056 0.80 1.100 6.88 1.055 0.96 1.100 7.04 1.056 1.12 1.101 7.20 1.059 1.28 1.101 7.36 1.062 1.44 1.100 7.52 1.065 1.60 1.100 7.68 1.068 1.76 1.100 7.84 1.071 1.92 1.099 8.00 1.074 2.08 1.098 8.16 1.077 2.24 1.097 8.32 1.079 2.40 1.096 8.48 1.082 2.56 1.094 8.64 1.084 2.72 1.093 8.80 1.087 2.88 1.091 8.96 1.089 3.04 1.089 9.12 1.091 3.20 1.087 9.28 1.094 3.36 1.085 9.44 1.096 3.52 1.083 9.60 1.098 3.68 1.081 9.76 1.100 3.84 1.080 9.92 1.102 4.00 1.078 10.08 1.104 4.16 1.077 10.24 1.105 4.32 1.076 10.40 1.107 4.48 1.075 10.56 1.108 4.64 1.073 10.72 1.110 4.80 1.072 10.88 1.111 4.96 1.071 11.04 1.112 5.12 1.070 11.20 1.113 5.28 1.068 11.36 1.114 5.44 1.067 11.52 1.114 5.60 1.065 11.68 1.114 5.76 1.063 11.84 1.114 5.92 1.062 12.00 1.114 37 Revision 0

V. C. Summer Cycle S October 2003 V. C. Summer Cycle 15 October 2003 Figure 18. Baseload AOD W(z) at 4700 MWD/MTU V. C. Summer - Cycle 15 1.20 1.15

_-I I

I 1 I

_I_

I_

___ I ___ _I___ _ _ _ ___ __ i _ _ _

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I

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N 0

2 4

6 Core Height (Feet) 38 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 15.

Baseload AOD W(z) at 4700 MWD/MTU V. C. Summer - Cycle 15 Core Height (ft)

W(z)

Core Height (ft)

W(z) 0.00 1.090 6.08 1.059 0.16 1.092 6.24 1.058 0.32 1.093 6.40 1.057 0.48 1.095 6.56 1.056 0.64 1.097 6.72 1.054 0.80 1.098 6.88 1.053 0.96 1.099 7.04 1.053 1.12 1.099 7.20 1.056 1.28 1.099 7.36 1.059 1.44 1.099 7.52 1.062 1.60 1.099 7.68 1.065 1.76 1.099 7.84 1.068 1.92 1.099 8.00 1.071 2.08 1.098 8.16 1.074 2.24 1.097 8.32 1.077 2.40 1.096 8.48 1.079 2.56 1.095 8.64 1.082 2.72 1.094 8.80 1.085 2.88 1.092 8.96 1.087 3.04 1.090 9.12 1.089 3.20 1.088 9.28 1.092 3.36 1.086 9.44 1.094 3.52 1.084 9.60 1.096 3.68 1.082 9.76 1.098 3.84 1.081 9.92 1.100 4.00 1.079 10.08 1.102 4.16 1.078 10.24 1.104 4.32 1.076 10.40 1.105 4.48 1.075 10.56 1.107 4.64 1.074 10.72 1.108 4.80 1.072 10.88 1.110 4.96 1.071 11.04 1.111 5.12 1.069 11.20 1.112 5.28 1.068 11.36 1.113 5.44 1.066 11.52 1.113 5.60 1.064 11.68 1.113 5.76 1.062 11.84 1.113 5.92 1.061 12.00 1.114 39 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 19. Baseload AOD W(z) at 10000 MWD/MTU V. C. Summer - Cycle 15 1.20 1.15 N 1.10 1.05 1.00 0

2 4

6 8

10 Core Height (Feet) 40 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 16.

Baseload AOD W(z) at 10000 MWD/MTU V. C. Summer - Cycle 15 Core Height (ft)

W(z)

Core Height (ft)

W(z) 0.00 1.106 6.08 1.066 0.16 1.107 6.24 1.064 0.32 1.108 6.40 1.062 0.48 1.110 6.56 1.060 0.64 1.112 6.72 1.058 0.80 1.113 6.88 1.058 0.96 1.113 7.04 1.057 1.12 1.113 7.20 1.060 1.28 1.113 7.36 1.064 1.44 1.113 7.52 1.067 1.60 1.112 7.68 1.069 1.76 1.111 7.84 1.072 1.92 1.110 8.00 1.074 2.08 1.109 8.16 1.077 2.24 1.107 8.32 1.079 2.40 1.105 8.48 1.081 2.56 1.103 8.64 1.083 2.72 1.101 8.80 1.085 2.88 1.098 8.96 1.087 3.04 1.095 9.12 1.088 3.20 1.092 9.28 1.090 3.36 1.089 9.44 1.091 3.52 1.086 9.60 1.093 3.68 1.083 9.76 1.094 3.84 1.082 9.92 1.095 4.00 1.081 10.08 1.097 4.16 1.080 10.24 1.098 4.32 1.079 10.40 1.099 4.48 1.077 10.56 1.100 4.64 1.076 10.72 1.101 4.80 1.075 10.88 1.102 4.96 1.074 11.04 1.103 5.12 1.072 11.20 1.103 5.28 1.071 11.36 1.104 5.44 1.071 11.52 1.104 5.60 1.070 11.68 1.104 5.76 1.068 11.84 1.104 5.92 1.067 12.00 1.104 41 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 20. Baseload AOD W(z) at 20000 V. C. Summer - Cycle 15 MWD/MTU 1.20 llll I -

III111 I _I I

I I I I T

I I I I T

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1.15-N 1.10.

1.05 -

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I_

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I 11:

l:

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U~

E 0

2 4

6 Core Helght (Feet) 42 8

10 12 Revision 0

V. C. Summer Cycle 15 October 2003 Table 17.

Baseload AOD W(z) at 20000 MWD/MTU V. C. Summer-Cycle 15 0Core Height (ft)

W(z)

Core Height (ft)0W(z) 0.00 1.145 6.08 1.072 0.16 1.146 6.24 1.072 0.32 1.147 6.40 1.075 0.48 1.149 6.56 1.078 0.64 1.150 6.72 1.080 0.80 1.150 6.88 1.082 0.96 1.149 7.04 1.084 1.12 1.147 7.20 1.086 1.28 1.145 7.36 1.087 1.44 1.143 7.52 1.088 1.60 1.140 7.68 1.089 1.76 1.137 7.84 1.090 1.92 1.133 8.00 1.090 2.08 1.128 8.16 1.090 2.24 1.123 8.32 1.090 2.40 1.118 8.48 1.090 2.56 1.112 8.64 1.089 2.72 1.106 8.80 1.089 2.88 1.100 8.96 1.091 3.04 1.093 9.12 1.095 3.20 1.087 9.28 1.099 3.36 1.084 9.44 1.103 3.52 1.083 9.60 1.107 3.68 1.082 9.76 1.110 3.84 1.082 9.92 1.113 4.00 1.081 10.08 1.115 4.16 1.080 10.24 1.117 4.32 1.079 10.40 1.119 4.48 1.078 10.56 1.121 4.64 1.078 10.72 1.122 4.80 1.078 10.88 1.123 4.96 1.077 11.04 1.123 5.12 1.076 11.20 1.123 5.28 1.076 11.36 1.123 5.44 1.075 11.52 1.122 5.60 1.073 11.68 1.121 5.76 1.072 11.84 1.120 5.92 1.071 12.00 1.119 43 Revision 0

V. C. Summer Cycle 15 October 2003 Figure 21. RCS Total Flowrate vs. R for Three Loop Operation V. C. Summer - Cycle 15 30.0 9__I__-F----

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29.4

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- - - - - -I - -

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29 Acetal

---aio.- -- - -

r 4- - - -

Uncepal 28.2 T

s 9I I

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.(1.00, 28.36)

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0.90 0.95 1.00 1.05 1.10 R = FN-delta-H/1.62[1.0 + 0.3(1.0 - P)]

Measurement Uncertainty of 2.1% for Flow (includes 0.1% for feedwater venturi fouling) is Included in this figure.

44 Revision 0

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