Rev 0 to Supplemental Reload Licensing Submittal for Perry Nuclear Power Plant Unit 1 Reload 2 Cycle 3

ML20065R612
Person / Time
Site:	Perry
Issue date:	09/30/1990
From:	Charnley J, Hansen E GENERAL ELECTRIC CO.
To:
Shared Package
ML19310D014	List: ML20065R595 ML20065R612 ML20065R833 PY-CEI-NRR-1228, Forwards Rev 0 to Core Operating Limits Rept for Perry Nuclear Power Plant,Unit 1 Cycle 3 (Reload 2). Nonproprietary 23A6492,Rev 0 & Proprietary 23A6492AA,Rev 0, Suppl 1 Also Encl.Proprietary Rept Withheld (10CFR2.790)
References
23A6492, 23A6492-R, 23A6492-R00, NUDOCS 9012190105
Download: ML20065R612 (19)
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o ENCLOSURE 1 SUPPLEMENTAL RELOAD LICENSING SUBMITTAL FOR PNPP RELOAD 2, CTCLE 3 l

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GENuclearEnemy 115 Curtner Annue 23gS492 SonJose, CA 95125 '

Revision 0 Class I

) September - 1990 -

23A6492, Rev. O Supplemental Reload Licensing Submittal p for Perry Nuclear Power Plant Unit 1

- Reload 2 Cycle 3

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' A'pproveh) '^ Approved: /h AE& '

J. . Charnley, Manage E. C. Ilansen, Manager

) Reload Nuclear Engineering lpel Licensing x

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) Perry 1 nam 2 Reload 2 new o Important Notice Regarding Contents of This Report Please Read Carefully t

The only undertakings of the General Electric Company (GE) respecting information in this document are contained in the contract between Cleveland Electric Illuminating Company (CEI)

> and OE, and nothing contained in this document shall be construed as changing the contract. The

. use of this information by anyone other than CEI for any purpose other than that for which it is intended,is not authorized; and with respect to any unauthorized use, GE makes no representation or warranty, and assumes no liability as to the completeness, accuracy or usefulness of the p information contained in this document.

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O Perry 1 2w.m Reload 2 ner o Acknowledgment O

The engineering and reload licensing analyses which form the technical basis of this Supple-mental Reload Licensing Submittal, were performed by P. A. Hahn and J. L. Casillas of the Fuel O Engineering Section. The Supplemental Reload Licensing Submittal was prepared by P. A.

Lambert and verified by J. L. Embley of Regulatory and Analysis Services.

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o. . Perry 1 moo 2 Reload 2 Rev,0 1 Plant unique Items'(1.0)*

O: A Ppendix A:- Analysis Conditions Appendix B: Basis For Analysis of Loss of feedwater Heating Event Appendix C: Analyzed Operating Domain a 2. Reload Fuel Hundles (1.0 and 2.0)

Fuel Tvne Cycle Loaded Number O Irradiated:

BP8 SRB 219 1 64 "

BP8 SRB 176 1 140 **

BS301E 2 136 O BS301F 2 136 New:

GE8B P8 SOB 320 90Z-120M 150 T 3 104

.O GE8B P8SQB322 70Z 120M 150 T 3 .MS Total 748

_ .3. l Reference Core Imding Pattern (3.2.1)

' Nominal previous cycle core average exposure at end of cycle: 16,436 mwd /MT Minimum previous cycle core avera

. from cold shutdown considerations:ge exposure at end of cycle M,105 mwd /MT g; ' Assumed reload cycle core average exposure at end of cycle: 18,357 mwd /MT Core loading pattern: Figure 1

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O

. ( ) refers to area of discussion in GeneralElectric Standard ApplicationforReactorFuel, NEDE 24011-P A 9, September,1988; a letter "S" preceding the number refers to the U.S.

- Supplement, NEDE 24011 P A 9 US, September 1988.

' 'y-s "4 BP8 SRB 219 fuel bundles and 140 BP8 SRB 176 fuel bundles were removed for the second cycle; these fuel bundles are to be reinstalled for the third cycle.

Page 4 0

O Perry 1 2mm Reload 2 Rev.o i

4. Calculated Core Effective Multiplication and Control System Worth No Volds,20 C (3.2.4.1 and 3.2.4.2)

O Beginning of Cycle, K,y,,

Uncontrolled 1.127 Fully controlled 0.953 O

Strongest control rod out 0.985 R, Maximum increase in cold core reactivity with exposure into cycle, AK 0.003

5. Standby Liquid Control System Shutdown Capability (3.2.43)

Boron Shutdown Margin (AK)

(prJD) (20'C. Xenon Free)

O M0 0.029

6. Reload Unique GETAB AOO Analysis initial Condition Parameters (S.23)

Exposure: BOC3 to EOC3 O Fuel Peakine Factors Bundle Power Bundle Flow Initial Design IEal Radial Adal B Factor _.1MWt) (1.000 lb/hr) MCPR GE8x8EB 1.20 1.55 1.40 1.051 7.239 117.5 1.17 BP8x8R 1.20 1.54 1.40 1.051 7.166 117.1 1.18 O

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): Perry 1 ause Reload 2 ney. o

7. Selected Margin Improvement Options (S.S.I)

); Recirculation pump trip: Yes Rod withdrawallimiter: Yes Thermal power monitor: Yes Measured scram time: No Exposure dependent limits: No

)l Exposure points analy ed: 1 (EOC)

8. Operating Flexibility Options (S.5.2) j-Single loop operation: Yes Load line limit: No Extended load line limit: No Increased core flow: Yes j Flow point analyzed, %: 105 i Feedwater temperature reduction: Yes

- ARTS Program: No Maximum extended operating domain: ~ Yes 9.' Core-wide AOO Analysis Results (S.2.2)*

. Methods used: GEMINI and GEXL PLUS

, . ACPR

. Flux O/A Event (% NBR)(% NBR) GE8x8EB BP8x8R Figure Exposure range: - BOC 3 to EOC 3 Load rejection without 280 108 0.06- 0.06 2 bypass f; Feedwater controller 203 112- 0.10 0.10 3-failure (143%)

Pressure regulator 150 105 0.05 0.05 4 failure downscale Loss of 100'F " " 0.11 "

0.11

- feedwater heating

' Limiting values listed; see Appendix C.

" See Appendix B.

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O Perry 1 - umn Reload 2 Rev. 0

10. Local Rod Withdrawal Errcr (With Limiting Instrument Failure) AOO Summary

(S.2.2.1.5) '

O-The generic bounding BWR/6 rod withdrawal error is analyzed in NEDE 24011.P A 9.US and GESSAR II Appendix 15B is applied; the resulting ACPR is 0.11. The original generic analysis in GESSAR II was not applicable for control cell core operation; however, it was g; subsequently shown to be applicable for control cell core operation and GESSAR II was revised to reflect this application in Revision 21.

11. Cycle MCPR Values * (4.3.1 and S.2.2)

O Safety limit: 1.07 Exposure range: BOC 3 to EOC 3 O Non-oressurization events:

GE8x8ED BP8x8R

- Rod withdrawal error 1.18 1.18

g Loss of 100*F feedwater heating 1.18 1.18 Pressurization events:-

Ontion A O GE8x8EB BP8x8R Load rejection without bypass 1.13 1.13 Feedwater controller failure 1.18 1.18 l0 l

Pressure regulator failure downscale 1.13 1.13 o

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• GEMINI ODYN adjustment factors are provided in the letter from J. S. Charnley (GB) to M.

W. Hodges (NRC), GEAflNI ODYN Adjustment Factorsfor BWR/6, dated July 6,1987. The

~O.

MCPR limit does not change because of channel bow. Channel bow is reflected in the manitoring of the core.

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p Perry 1 aswn Reload 2 Rev. 0

12. Overpressurization Analysis Summary (SS)

> Pd Pv Event (plig) (psic) Plant Response MSIV closure (flux scram)* 1226 1258 Figure 5 p 13. Ioading Error Results (S.2.2.3,7)

Loading error results are not applicable for BWR/6 plants. NRC approval of the non applicability of Loading Errors to BWR/6 plants is documented in Section S.2.2.3.7 of p hTDE 24011 P A 9 US.

14. Control Rod Drop Analysis Results (S.2.23.1) p Banked Position Withdrawal Sequence is utilized at the Perry Nuclear Power Plant Unit 1; therefore, the bounding control rod drop analysis (CRDA) described in NEDE 24011 P A 9 US is applied. NRC approval of the bounding analysis is given in the letter to J. S. Charnley (GE), Acceptance for Referencing of Licensing Topical Report p NEDE 240ll, Revision 6, Amendment 9 'GESTAR-il General Electric Standard Application for Reactor Fuel," January 25,1985.

15. Stability Analysis Results (SA)

D GE SIL 380 recommendations have been included in the Perry Nuclear Power Plant Unit 1 operating proceduies and/or Technical Specifications and, therefore, the shbility analysis is not required. NRC approval for deletion of a cycle specific stability analysis is documented y in Amendment 8 to NEDE 24011 P A 9 US. In addition, the I my Nuclear Power Plant Unit I recognizes the issuance of NRC Bulletin No. 88-07, Wpplement 1, Power Oscillations in Boiling Water Reactors (BWRs), and will continue to comply with the recommendations contained herein.

D

'The MSIV closurkflux scram) analysis is performed using GEMINI methods at the 102% power level to account for the power level uncertamties specified m Regulatory Guide 1.49. The analysis

, was performed with 13 highest setpoint safety valves operational.

Page8 D

)? Perry 1=. a.u u n  :

Reload 2 - nev o 16.' Loss of. coolant Accident Results (S.2.2.3.2)

)j LOCA method used: SAFE /REFLOOD (see the Perry Nuclear Power Plant Unit 1 Updated Safety Analysis Report, as amended)

Bundle'I)pe: GE8B P8 SOB 320 90Z 120M.150-T(GE8X8EB)* ,

),

Average Planar Ernosure_ MAPLHOR (kw/ft)

(GWd/ST) - (GWd /MT) Most Limiting Least Lirnhing 0.0 0.0 11.75 11.76

)

0.2 0.2 11.78 11.79 1.0 1.1 11.83 11.90 2.0 2.2 -11.91 12.00 -

3.0 33 12.02 12.13

)

4.0 4.4 . 12.17 12.27 5.0 5.5 12.32 12.40 6.0 6.6 - 12.44 12.53 7.0 7.7 12.56 12.67 1 8.0 8.8 12.70 12.82 9.0 9.9 12.84 12.96 10.0 11.0 12.97 13.07 12.5 13.8 13.00 13.03

).--

15.0 16.5 12.73 12.74 20.0 22.0 12.10 12.12.

'J.0 27.6 11.48 11.49 35.0 38.6 10.23 10.24

)-

45.0- 49.6 - 8.66 - 8.68 50.0 55.1 6.16 '6.18 The Peak Clad Temperature (PCF) is $2105'F at all exposures; the Local Oxidation (Fraction) is

)' '.

50.049 at all exposures.

T

'MAPLHGR multiplier for single-loop operation (SLO) is 0.80.

E Page 9 f

).c .. Perry 1 uwe .

Reload 2 Rev.0

16. ' 14ss of coolant Accident Results (S.2.2.3.2) (continued)

I Bundle Type: GE8B P8 SOB 322 70Z 120M 150 T(GE8x8EB)*

Average Planar Exnosure MAPLHOR (kw/fti

"); (GWd/SD (GWd/MT) Most Limiting Least Limiting 0.0 0.0 12.11 12.13 0.2 0.2 12.10 12.13 1.0 1.1 12.09 12.14

)* 2.0. 2.2 12.16 12.22 3.0 3.3 12.28 12.35 4.0 4.4 12.42 12.51-5.0 - 5.5 12.58 12.67

) 6.0 . . 6.6 12.67 12.77

. 7.0 7.7 12.75 12.86

v. 8.0 8.8 12.83 12.95 9.0 9.9 12.92 13.04 10.0 11.0 13.02 '13.11 12.5 13.8 - 13.07 13.09

'15.0 16.5 12.79 12.79

- 20.0 - 22.0 12.19 - 12,19 25.0' - 27.6 11.56 11.56 35.0' 38.6 10.29 10.30 45.0 49.6- - 8.77 8.80 50.0 55.1 6.27. 6.30 l~ Th'e Peak Clad Temperature (PCT) is $2100'F at all exposures; the Local Oxidation (Fraction) is

= $0.048 ata' ll exposures..

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• MAPLHGR multiplier for single loop operation (SLO) is 0.80.

Page 10

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*"sMMMMHs IIIIIIIIIIII

) 1 3 5 7 911131517192123252729313335373941434547495153555759 l FUEL TYPE

) A = BP8 SRB 176 E = BS301E

.B = BP8 SRB 219 F = GE88-P8SQB322-7GZ-120M-150-T C'= BP8 SRB 219 0 = GE88 P8SQB320-9GZ-120M-150-T D = BS30lf

) Figure 1 Reference Core IAading Pattern Page 11

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Figure 3. Plant Response to Feedwater Controller Failure Page 13

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Page 14

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Page 15 I

)_ . Perry 1- zuun Reload 2 Rev.0' Appendix A D:

- Analysis Conditions 3_ To reflect actual plant parameters accurately, the values shown in Table A 1 were used this cycle to reflect the bounding conditions.

Table A 1 .,

D-Analysis Value Pararneter 250'F FW Temp. 420'F FW Temo.

3: Thermal power, MWt 3579 3579 Dome pressure, psig 1008 1026 Rated steam flow, Mlb/hr 12.58 15.40 Turbine pressure, psig 974 976 Core flow, Mlb/hr 109.2 109.2 Reactor pressure, psia 1056 1056 Inlet enthalpy, Btu /lb -512.4 528.8 Non fuel power fraction - 0.038 0.038 D

No, of dual mode Safety / Relief Valves 17* 17*

Relief mode lowest setpoint, psig 1143* 1143*

- Safety mode lowest setpoint, psig 1177- 1177

'3)

)

E *There are a total of 19 valves; the 2 lowest setpoint safety / relief valves are assumed to be out of service in the transient analyses.

Page 16 j)

) Perry I nAun Reload 2 Rev j}

Appendix B 4 b

Basis for Analysis of Loss of feedwater Heating Event b The loss of feedwater heating event was analyzed using the BWR Simulator Code (Reference B 1). The use of this code is permitted in GESTAR 11 (Reference B 2). The transient plots, neutron flux and heat flux values normally reported in Section 10 are not an output of the BWR Simulator code; therefore, these items are not included in this document.

D The transient analysis inputs normally reported in Section 6 of the licensing submittal are internally calculated in the BWR Simulator Code and in ODYN.

I References B1 Stea@ State Nuclear Afethodr, NEDE-30130 P A and NEDO 30130 A, April 1985.

B2 General Electric Standard Application for Reactor Fuel, NEDE 24011 P A 9, September 1988.

D D

D D

D Page 17 B

D- Perry 1 mm2 Reload 2 new o

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Appendix C D

Analyzed Operating Domain e The core wide abnormal operational occurrence (AOO) analysis results reported in Section 9 are the most limiting values over the entire allowable operating range. This range covers the following operating options:

g 1. Standard 100% power / flow map;

2. End of cycle power coastdown; g 3. MEOD with 100% power flow range from 75% to 105% of rated; and

4. Partial feedwater heating to 320*F during the cycle with final feedwater temperature reduction to 250*F after AllRods out at end of cycle.

9 Limiting events and conditions analyzed are based on Reference C 1 and the USAR analytical results. The Reload 2/ Cycle 3 analyses were performed assuming all four turbine control valves in a full are mode of operation. This is conservative for partial are configuration.

9 The single loop operation (SLO) analysis was reverified for the standard power / flow map with normal feedwater temperature.

1. References C-1 General Electric Standard Application for Reactor Fuel, NEDE 24011 P A 9.US, September 1988.

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