ML20078S022

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Temporary Change Number (Tcn) TCN-1 to Rev 2 to COLR for Pnpp,Unit 1 Cycle 5 (Reload 4), Incorporating TS Amend 61, Single Loop Operation,Limiting MAPLHGR Factors to 0.80
ML20078S022
Person / Time
Site: Perry FirstEnergy icon.png
Issue date: 01/23/1995
From: Bonner N, Igyarto D, Rincckel J
CENTERIOR ENERGY
To:
Shared Package
ML20078S020 List:
References
PDB-F0001-01, PDB-F0001-R02, PDB-F1-1, PDB-F1-R2, NUDOCS 9502230268
Download: ML20078S022 (24)


Text

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u sr snar m a a mo n 1 3, 4, 5, 6, 13 Irremorate T.S. Amendment 61, Sirgie loop tion. Specificall MAPLMR factors are limited to 0.80 duriri s loop opration. y, the power and f1w depmdent  ;

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Additionally tor recirr;alation systen in single loop oleration is tted  !

vith norml l. eedwater plant operation with the te erature. P reduction of ratef feedwater t rature frin nomi rated  !'

er emperag g@no gted g sirgle loop operation mtil gevaluation is completed.

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9502230268 950214 PDR ADOCK 05000440 P PDR 3 i

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Page: i'  :

'Rev.: 2  :

PLANT DATA BOOK ENTRY SUBMITTAL SHEET j i

n TITLE: COP.E OPERATING LIMITS REPORT FOR THE PERRY NUCLEAR POWER PLANT, ,

i UNIT 1 CYCLE 5 (RELOAD 4) l PDB - F0001 /Rev. 2 EFFECTIVE DATE: 7"" bb i

/

MPL: J11  ;

Incorporate new fuel type information for Cycle 5 i SCOPE OF CHANGE:

including MCPR limits which are fuel type dependent j and delta T dependent. .

n i

REFERENCE:

PY-CEI-NRR-1104 L ,

i PY-CEI-NRR-1157 L

~

PY-NRR/CEI-0529 L PREPARED BY: ,T. M. Rinckel O h Xzt M - 5-2-94 Date l

REVIEWED BY: k $~- /2 -N Date

' ~

t APPROVED BY: M Date Manager -f Sponsoring Group i

=================.======================================================= l TAB E, F, AND G USE OIEY PORC MEETING NUMBER: N '073 76 k N i Date  !

f APPROVED BY: t' M ilfW 6[//!hh '

General M ger, PNPPD / Dste 1

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PDB-F0001 Pigs: 1 g

Rev.: 2

. UNIT 100RE OPERATIM3 LIMITS REPORT INDEK Specification Page INTRODUCTION AND REFERENCES 3 AVERAGE PLANAR LINEAR HEAT GENERATION RATE 4 (CORRESPONDS TO TS 3.2.1)

Figure 3.2.1-1 Flow Dependent MAPLHGR Factor (MAPFACg ) 5 Figure 3.2.1-2 Power Dependent MAPLHGR Factor (MAPFAC )

p 6 Figure 3.2.1-3 MAPLHGR Versus Average Planar Exposure, Fuel Type BS301E 7 Figure 3.2.1-4 MAPLHGR Versus Average Planar Exposure, Fuel Type BS301F 8 Figure 3.2.1-5 MAPLHGR Versus Average Planar Exposure, Fuel Type GE8B-P8SQB320-9GZ-120M-150-T 9 Figure 3.2.1-6 MAPLHGR Versus Average Planar Exposure, Fuel Type GE8B-P8SQB322-7GZ-120M'150-T 10 Figure 3.2.1-7 MAPLHGR Versus Average Planar Exposure, Fuel Type GE10-P8SXB306-10GZ2-120M-150-T 11 Figure 3.2.1-8 MAPLHGR Versus Average Planar Exposure, Fuel Type GE10-P8SXB306-11GZ3-120M-150-T 12 MINIMUM CRITICAL P0 DER RATIO (CORRESPONDS TO TS 3.2.2) 13 Figure 3.2.2-1 Power Dependent MCPR Limit (MCPR )

p Fuel Types GE8X8EB 14 Figure 3.2.2-2 Power Dependent MCPR Limit (MCPR )

p Fuel Types GE8X8NB-1 15 Figure 3.2.2-3 Flow Dependent MCPR Limit (MCPRp )

Fuel Type GE8B-P8SQB301-5GZ-120M-150 'r 16 CYCLE 5 CORE OPERATING PERRY UNIT 1 LIMITS REPORT

PDB-F0001 l t

Pags: 2 Rev.: 2 j UNIT 1 CORE OPBRATIIC LIMITS REPORT mner (Continued) .

Specification . P_aje l Figure 3.2.2-4 Flow Dependent MCPR Limit (MCPR,)

Fuel Type GE8B-P8SQB301-7GZ-120M-150-T 17 Figure 3.2.2-5 Flow Dependent MCPR Limit (MCPR,)

I Fuel Types GE8B-P8SQB320-9GZ-120M-150-T '

GE8B-P8SQB322-7GZ-120M-150-T 18 Figure 3.2.2-6 Flow Dependent MCPR Limit (MCPRp)

Fuel Type GE10-PBSXB306-10GZ2-120M-150-T 19 Figure 3.2.2-7 Flow Dependent MCPR Limit (MCPR,)  !

Fuel Type GE10-PBSXB306-11GZ3-120M-150-T 20 .

LINEAR HEAT GENERATION RATE (CORRESPONDS TO TS 3.2.3) 21 Linear Heat Generation Rate of each Fuel Type i REACTOR PROTECTION SYSTEM INSTC'JMENTATION -

22 (CORRESPONDS TO TS 3.3.1)

Simulated Thermal Power Time Constant i

i l

l l

4 CYCLE S CORE OPEMTIIC LIMITS RE NRT I PERRY UNIT 1 l

l s

PDB-F0001 ,

Page: 3 Rev.: 2 INTRODUCTION AND REFERENCES ,

e DmtODUCTION This Core Operating Limits Report for PNPP Unit 1 Cycle 5 is prepared in accordance with the requirements of PNPP Technical Specification 6.9.1.9.

The core operating limits presented were developed using NRC-approved methods (Reference 2). Results from the' reload analyses for the General [

Electric fuel in PNPP Unit 1 for Cycle 5 are documented in References 3, 4, 5 and 6.

The cycle-specific core operating limits for the following PNPP Unit 1 Technical Specifications are included in this report:

1. Average Planar Linear Heat Generation Rate (APLHGR) Limits for each fuel / lattice type, including the power and flow dependent MAPFAC curves with the single loop MAPLHGR reduction factor. (Technical Specification 3/4.2.1)

{([(

2. Minimum Critical Power Ratio Operating Limit including the power and flow dependent MCPR curves. (Technical Specification 3/4.2.2)

L

3. Linear Heat Generation Rate (LHGR) Limit for each fuel type.

(Technical Specification 3/4.2.3)

D

4. The simulated thermal power time constant. (Technical Specification 3/4.3.1)

REFERENCES

1. J.R. Hall (USNRC) to M.D. Lyster (CEI), Amendment No. 33 to Facility Operating License No. NPF-58, September 13, 1990. "
2. " General Electric Standard Application for Reactor Fuel-GESTAR II,"

NEDE-24011-P-A-10 and NEDE-24011-P-A-10-US (US Supp N ent),

April 1991.

3. " Supplemental Reload Licensing Report for the Perry Nuclear Power Plant Unit 1, Reload 4, Cycle 5,' GE Document 23A7227 Rev. 0 (April 1994).
4. ' Supplement 1 to the Supplemental Reload Licensing Submittal for the Perry Nuclear Power Plant Unit 1, Reload 1, Cycle 2," GE Document 23A5948AA Rev. 0 (October 1988).
5. ' Supplement 1 to the Supplemental Reload Licensing Submittal for the Perry Nuclear Power Plant Unit 1, Reload 2, Cycle 3,* GE Document <

23A6492AA Rev. 0 (September 1990). l

6. " Supplement 1 to the Supplemental Reload Licensing Submittal fr r the Perry Nuclear Power Plant Unit 1, Reload 3, Cycle 4,* GE Document i 23A7147AA, Rev. 0 (January 1992).

CYCLE 5 PERRY UNIT 1 CORE OPERATING

'IC/VAX/Page 1 of 5 LIMITS REPORT )

L** -

^

. PDB-F0001 is Page: 4 Rev.: 2

7. Perry Nuclear Power Plant Updated Safety Analysis Report, Unit 1, Appendix 15B-Reload Safety Analysis.
8. R.J. Stransky (USNRC) to R.A. Stratman (CEI), Amendment No. 48 to Facility Operating License NPF-58, May 28, 1993.
9. J. B. Hopkins (USNRC) to R. A. Stratman (Centerior), Amendment No. 61 to Facility Operating License NPF - 58, June 2, 1994.

AVERAGE PLANAR LINEAR HEAT GRERATION RATE (TS 3.2.1)

All AVERAGE PLANAR LINEAR HEAT GENERATION RATES (APLHGRs) shall not excee.d the result obtained from multiplying the applicable MAPLHGR values

  • by the smaller of either the flow dependent MAPLHGR factor (MAPFAC p ) Figure 3.2.1-1, or the power dependent MAPLHGR factor (MAPFACp )

Figure 3.2.1-2.

  • These applicable MAPLHGR values are:
1. Those for the respective fuel and lattice type as a function of the average planar exposure (as described by the NRC approved methodology described in GESTAR-II) or,
2. When hand calculations are required, the MAPLHGR as a function of the average planar exposure for the most limiting lattice shown in Figures 3.2.1-3 through Figure 3.2.1-10 for the applicable type of fuel.

CYCLE 5 PERRY UNIT 1 CORE OPERATING

'IC/VAX/Page 2 of 5 LIMITS REPORT

. PDB-F0001 Page: 5 ,

Rev.: 2 PNPP Na 8767 Rev.10/94 1.1 1.0 ,

v i

.r a

A' r

2 j

r ,

& 1 i

j, 0.9 - / I

.r .

j Clamped at 0.80

, j during SLO j ,{

o

< C s -

e- W m 0.8 '

2, D

a r s

.c  ;

r a

f 0.7 j l

2 r r t

,. i A' 1 2 r 't a MAPFACg- MIN (1.0,0.4574 + 0.006758F)  :::

0.6 l 0.5 i I

O 20 40 60 80 100 120 CORE FLOW (% RATED), F FLOW DEPENDENT MAPLIIGR FAC'IOR (M APFAC g )

Figure 3.2.1-1 CYCLE 5 PERRY UNIT 1 CORE OPERATIIG

'IC/VAX/Page 3 of 5 LIMITS REPORT

PDB-F0001 Page: 6 Rev.: 2-PNPP Na 8768 Rev.10/94 1.1 ,

1 1

.. I 1.0 ,

___, r F

' 4

.. '  ?

, d' 0.9 '~ '

s ,

, r  !

A' r >

< Clamped at 0.80 f during SLO  ::::: ,

c.

t, 0.8 2

r

r

.r TC'( ,

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Ce 4 __ .__

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E j N

.r .

.r  !

.r 0.7 r

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't f 1 s'

/ MAPFAC p- 1.0 + 0.0052 (P-100) -

t J

E 40% $ P $ 100% ; All core flows ~

J 25 % $ P $ 40% : Core flow F $ 50% :  ;

0.6 - .. -

_w u i MAPFAC p- 0.6 + 0.002 (P-40)  ; /

___ 25% $ P $ 40% ; Core flow F > 50% : ,

E Ii 111111111 tilIlligf IIllill1 i 0.5 <><< '''' '''' iiiiiiin 0 20 40 60 80 100 120  :

I COllE TIIERMAL POWEll(% llATED), P  !

POWEll DEPENDENT MAPLIIGR FAC'IDR (MAPFAC p) l Figure 3.2 1-2 ,

CYCLE 5 PERRY UNIT 1 CORE OPERATING i

'IC/VAX/Page 4 of 5 LIMITS REPORT

V PNPP No 8771 Rev. N94 q EXPOSURE MAPLHGR 13.0 (GWd/t) (kW/ft) g 12.5 o.o 12.4 w

g < BS301E 1.0 12.4 x WO 12.0 h

  • 2.
  • 5.0 12.8 E 3 11.5 * *
x.5  % ' 8.0 13.2

<m 11.0 10.5 2d 12.5 13.5 10.0 20.0 12.5 C" \ 25.0 -

9.5 35.0 10.4

% 9.0 45.0 8.9 m

~

.o 6.9 E W j PERMISSIBLE 2 ... O 2 g.o - REGION OF w hb OPERATION N dh 7.5 w

x= 7.0

\g

.c 6.5 6.0 g o s.o 10.0 1s.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 xmm e' g Q 5N9m AVERAGE PLANAR EXPOSURE (GWd/t) N.

.m

.. y g%m MAXIMUM AVERAGE PLANAR LINEAR HEAT Note: 1. Intermediate MAPLHGR- g values are btained by es q

!E GENERATION RATE (MAPLHGP.; VERSUS AVERAGE PLANAR EXPOSURE, GE8x8EB h NtEe'n'a at polnts.

2. '

FUEL TiPE BS301E he 1 Iti e i ed fuel lattices. For lattice specific values consult Reference 4.

t

- -- +v _ _ _ . _ _ _ _ _ _ _ _ _ _ _

" '?  ;.

PNPP No 8772 Rev. 4/94 13.5 '

N URE N GR 13.0 '

( {GWd/t) (kW/ft) ,

( 0.0 12.6 y  % 12.5 ,

1.0 . .

WO 12.0 5.0 12.9 g

zS 47 11.5 1

X 7.0 13.2 e yd

~ 11.0 8.0 .

k GC Zh '\\ 10.0 13.5

<y 10.5 12.5 13.5 20.0 12.5 LG O KA 25.0 11.8 C[ 9.5 35.0 10.4 Z 9,o s LQ '

Z 8.5 50.0 6.9 w PERMISSIBLE

  • hg 8.0 -- REGION OF OPERATION F gk

h P, $ \u

^ < 7.0 6.5 6.0 0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 rgQ :o m m

!NG do'*N AVERAGE PLANAR EXPOSURE (GWd/t) yE Notes: 1. Intermediate MAPLHGR 8 MAXIMUM AVERAGE PLANAR LINEAR HEAT " "

, GENERATION RATE (MAPLHGR) VERSUS u"' e In e >

w AVERAGE PLANAR EXPOSURE, GE8x8EB between adjacent points.

g5 l 2. This curve is a composite FUEL TYPE BS30]F the most limiting enrich -1 lattices. For lattice speciflu - .:

values consult Reference 4. i k

. . _ _ _. . . _ , _ . _ - - - _ _ . - . . . - . - . _ . , . _ - , , . ,._._-. .. ~. _. _ . . . _ _ . _ _ _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _

~

w bMMO e 13.5 p EXPOSURE MAPLHGR l NM NN 'b

13'0 ~

% 12.5 f

[ ( GE8B-P8SQB320-9GZ-120M-150-Tl g,o 0.2

. g g,73 11.7 8 4 4 '

Y %O 12.0 - 1.0 11.83

' 2.0 - 11.91 47 11.5 -

3.0 12.02 g gd 4.0 12.17  !

Q < LQ 11.0 3

" Z' \ 5.0 12.32

% \ 6.0 12.44 10.0 7.0 12.56 C- 8.0 12.70 '

< 9.0 12.84

g 9.0 10.0 12.97 I 12.5 13.00

([

5

  • $h 33 8.0 -- REGION OF PERMISSIBLE \ \

15.0 20.0 12.73 12.10  :

g p<

Q OPERATION . \ 25.0 11.48 w mW 7.5

'N XZ 35.0 10.23

- 7.0 45.0 8.66 .

4g 6.5 50.0 6.16 6.0 g t t

0 5.0 10.0 15.0 20.0 25.0 30.0 35.0- 40.0 45.0 50.0 - ,

AVERAGE PLANAR EXPOSURE (GWd/t) Fgg.

.# $ ? -

h]Ok i

]E, y, MAXIMUM AVERAGE. PLANAR LINEAR HEAT Notes: 1. Intermediate MAPLHGR, "g w8 "

'*3"" ",%% Y iE g GENERATION RATE (MAPLHGR) VERSUS 33 ,

s AVERAGE PLANAR EXPOSURE, GE8x3EB between adjacent points.

FUEL TYPE GE8B-P8SQB320-9GZ 120M-150-T ** $',7d*g,**",, g,,g inttices. For htuce .pecine values consult Reference 5. ,

1 4

-- . _~ . L _ _ _ _ _ _ . _ .

PNPP No 8879 Rev. 4/94 13.3 I EXPOSURE MAPLHGR (GWd/t) (ItW/ft) 13.0 0:; 12.5

( GE8B P8SQB322-7GZ-120M-150-T O.0 0.2 12.11 12.10

~

< 1.0 12.09 NO 12.0 3

' s 11.5 3.0 12.28 i

@ ,3. d 4.0 12.42 Q (I .1 11.0 3 5.0 12.58

< 10'5 2 \ 6.0 7.0 12.67 12.75 10.0 .

8.0 12.83 C* -

9.0 12.92 y 13.02 wg 9.0 10.0 13.07 2 E 12.5 m

8.5 g g 15.0 12.79 E $m 0 PERMISSIBLE 8.0 -- REGION OF \ 20.0 12.19

% Dg g

  • *s OPERATION 25.0 11.56 w Ih 7.5 35.0 10.29 XZ

" \

- < 7.0 45.0 8.77 4 y 50.0 6.27 6.5

))

6.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0- 40.0 45.0 50.0 0

AVERAGE PLANAR EXPOSURE (GWd/t) g;gg h00 <ow

~M

$o g Notes: 1. Intermediate MAPLHGR *94o

.. 3 MAXIMUM AVERAGE PLANAR LINEAR HEAT d -

GENERATION RATE (MAPLHGR) VERSUS ",I",*8

,,g* *,,y*I"g'o, t by "

@f AVERAGE PLANAR EXPOSURE, GE8x8EB between adjacent points.

34 I'

  • b FUEL TYPE GE8B-P8SQB322-7GZ-120M-150-T ** he73i iti gEric ed fuel lattices. For lattice specific wlues consult Reference 5.

FNFF N2 9867 Ret 4#94 . ,, .,

13.5 -

EXPOSURE MAPLHGR (G W Wh) .

13.0 "

C

[ \ GE10-P8SXB306-10GZ2-120M-150 T 0.0 0.2 11.21

-.11.26 1

' 1.0 11.36 WO 12.0 .

2.0 - 11.56 1

J# 11.5 3.0 11.81

  • g n [ 4.0 12.08 ,

y <W 11.0 3 E< 10.a

\ 5.0 12.35 ,

4 6.0 12.57 Z 10.0 7.0 12.80 wo \, 8.0 13.00 _

CC 9.5 9.0 13.20 9.0 10.0 13.37 Wy 3 '

12.5 13.45 m

kZ 8.5 \ 15.0 13.14 E 5 py

$m Q 8.0 -- REGION OF PERMISSIBLE \

\ 20.0 12.40'

  • gk OPERATION \ 25.0 11.61 ,

w W 7.5 35.0 10.12-U XZ

) 45.0 8.83 i

' 52.1 5.87 6.5

\ i 6.0 o j

5.5 10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 55.0 0 5.0 "8Q (2i'y sga a

AVERAGE PLANAR EXPOSURE (GWd/t) - mi

"-M N Notes: 1. Intenuediate MAPLHGR d@w MAXIMUM AVERAGE PLANAR LINEAR HEAT GENERAT*.ON RATE (MAPLHGR) VERSUS g3,',,$$'dD "

  • u$""

Mg AVERAGE PLANAR EXPOSURE, GE8x8NB-1 between adjacent points. -

3g **

5 FUEL TYPE GE10-P8SXB306-10GZ2120M 150T the inYlimiti[end fuel lattices. Por lattice specific values consult Reference 6.

h

. _ _ . _ m._ . .__..m.._..--______._____m___._m_- --___-.m___. - ____.___._.ium._m___________..-.m..,e -

._1.. -.~%.---,..#. =n- - , , , _ . wm __w.-...www...,....c. -

_ -v.1

FNPP No 9268 Rev. 4/94 .

13.5 .

EXPOSURE MAPLHGR 13.0 (GWd/ST) (kWift)

% 12.5 [ \ GE10 P8SXB306-11GZ3-120M-150-T 0.0 0.2 11.55 11.61 g  %~ 12.0 1.0 11.71 k 11.5 J

@ gd 3.0 12.17 y <N 11.0 g 4.0 12.41

" 5.0 12.h1 10.5 J"

10.0

\ 6.0 7.0 12.31 12.99 8.0 13.16 CC 9.5 9.0 13.31 Wy 9.0 I 10.0 13.34 Z 8.5 12.5 13.23 m W \

15.0 12.92 E "ai;

, Q PERMISSIBLE k

% p

  • p 8.0 -- REGION OF \ 20.0 12.16 S M OPERATION \ 25.0 11.44 w hh 7.5 XZ N 35.0 10.14 45.0 8.90 6.5 51.7 5.87 6.0 g

. 5.5 l

0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 55.0 egQ mmm l

sa d Q AVERAGE PLANAR EXPOSURE (GWd/t)

Notes: 1. Intermediate MAPLHGR

  • ag
  • O

""2 e

l MAXIMUM AVERAGE PLANAR LINEAR HEAT N5

-w GENERATION RATE (MAPLHGR) VERSUS AVERAGE PLANAR EXPOSURE, GE8x8NB-1

'",l",**"J,$i,g'dD

, g "l"

, wd yh between adjacent points.

"8 FUEL TYPE GE10-P8SXB306-11GZ3-120M-150T ** $',",,]g$iting nSNed fuel lattices. For lattice specific values consult Reference 6.

PDB-F0001 Page: 13 Rev.: 2 MININJM CRITICAL POWER RATIO (TS 3.2.2)

The MINIMUM CRITICAL POWER RATIO (MCPR) shall be equal to or greater than the MCPR , MCPR , and OLMCPR limits at the indicated core flow, THERMAL POWER,dbitaT.pand core average exposure compared to the End of Cycle Exposure (EOCE)** as specified in Figures 3.2.2-1 through 3.2.2-7.

NOTE: MCPR limits are fuel type dependent and delta T dependent. The MCPR f and MCPR limits are applicable for all core average exposures,nomSnalratedfeedwatertemperature(4200F),andall core flows less than or equal to 105% core flow. For planned reduction of rated feedwater temperature from rated feedwater temperature (4200F), increase the appropriate OLMCPR limits by the following:

FW Temperature *** GE8X8EB GE8X8NB-1 420 to 3700F 0.0 0.0 420 to 3200F 0.0 0.0 420 to 2500F 0.0 0.0 OLMCPR, operating limit MCPR GE8B-P8SQB301-5GZ-120M-150-T 1.19  !

GE8B-P8SQB301-7GZ-120M-150-T 1.19 '

GE8B-P8SQB320-9GZ-120M-150-T 1.19 GE8B-P8SQB322-7GZ-120M-150-T 1.19 GE10-P8SXB306-10GZ2-120M-150-T 1.22 GE10-P8SXB306-11GZ3-120M-150-T 1.22 There are a total of 19 safety / relief valves, the two lowest setpoint valves are assumed to be out-of-service in the transient analyses.

  • This delta T refers to the planned reduction of rated feedi la; temperature from nominal rated feedwater temperature (4205i, ach as prolonged removal of feedwater heater (s) from service.

Planned reduction of rated feedwater temperature from nominal rated ,g,l feedwater temperature is not permitted during plant operation with ,

the reactor recirculation system in single loop operation. )

    • End of Cycle Exposure (EOCE) is defined as 1) the core average exposures at which there is no longer sufficient reactivity to achieve RATED THERMAL POWER with rated core flow, all control rods withdrawn, all feedwater heatere in service and equilibrium Xenon, or 2) as specified by the fuel vendor.
      • Partial feedwater heating to 3200F during the cycle with final feedwater temperature reduction to 2500F after ALL RODS OUT at end  ;

of cycle. )

CYCLE S PERRY UNIT 1 CORE OPERATING l TC/VAX/Page 5 of S LIMITS REPORT I

l l

PDB-F0001 Page: 14 Fev.: 2 PNrr Na an4 new. sn4 2.3 - iiiniiiii,isiniiiiisiiiiiiiii iiisieiiiiiiiiiiiiiiieiiiiiii MCPR, = 2.1 + 0.0033[40 - P) ----

---~

-d for 25% _<_ P (40%; Core flow > 50% _...

2.2 - f s e- i

'%_ _e d l

'% m MCPR, = 1.85 + 0.0133(40 - P) 1 1 '

for 25% < P '~< 40%; Core flow <50% ~

2.0 - igu' , ,,.

'L

% \

1.9 - \4 PERMISSIBLE l I

REGION OP OPERATION  !

1.8 -

iieiiiiiiiii liiiiiiiiiil l MCPR, = 1.19 [1.21 + 0.004(70 - P)]

1.7 - for 40% < P < 70%; All core flows

% a 3

4 1.6 - '

A f __

%.'%JP

'A 1.5 ,,

' m 1.4 s

1.3 j; , ,

--- .-- MCPR =

1.19 [1.0 + 0.005(100 - P)] ,

\  %

for 70% < P < 100%; All core flows 1.2 -- ,  ;

I l

1 1.1 -- j 1.0 0 20 40 60 80 100 120 l

I

' CORE THERMAL POWER (% RATED), P POWER DEPENDENT MCPR LIMIT

{MCPR p)

FUEL TYPE GE8X8EB Figure 3.2.2-1 (See Note Page 13)

CYCIE 5 CO2E OPERATING PERRY UNIT 1 LIMITS REPORT l

. t i

  • PDB-F0001 Page: 15 PNPP Na 9269 Rev. 4/94 Rev.: 2 2.3 iiiiiiiiiiiiiiiiiiiiiiiiiiiii ililllitlilllfillllllllilllli MCPR,- 2.1 + 0.0033(40 P) ----

2.2 - ,, ;

' FOR 25%gP$40%; Core flow >50% ----

s

~

3*-

2.1 6 MCPR,- 1.85 + 0.0133(40 - P) t ,, FOR 25%g Pg40%; Core flows g50%

2.0 - , ,, - ,

ur -

t i.

' i 1.9 - 6 PERMISSIBLE REGION OF OPERATION g _

iiiieiiiiiii iIiilii1IIiI MCPR,- 1.22 [1.21 + 0.004(70 - P)] _;;-;

FOR 40%< Pg70%; All core flows

~

a

% 1 l

% K s N

4 1.6 -

, , j

,s_

1.5 3 ,

1.4 -____

.r% '

af'  % w 1.3 r

/ \ x MCPR,- 1.22 [1.0 + 0.005[100 - P)) h 1.2 - FOR 70%< Pg100%; All core flows 1.1 -

1.0 0 20 40 60 80 100 120 CORE TIIERMAL POWER (% RATED), P l

POWER DEPENDENT MCPR LIMIT (MCPRp)

FUEL TYPE: GE8 x 8NH . I Figure 3.2.2-2 i (See Note Page 13) l CYCLE 5 CORE OPERATDC PERRY UNIT 1 LIMITS REPORT j l

I i

a PDB-F0001 Page: 16 Rev.: 2 PNPP Na 8773 Itev. 5/94 I.0 IIIIII1IIIIItiIi1IiIiiiiIIIIi1IIIIIIIIIIIIII lillllill lilll llill il l f f i ll f illl lIIIIIIIIlli L MCPR,- (1.8134 0.006948F) ' {1.0 + 0.0032 (40. F)) ;

  • 1 for -

k F $40%  :

n n .e 1.7 - t s s

'k .#'

s ur 1 1 d'

L ' ' PERMISSIBLE t mr REGION OF

' '" OPERATION 1.6 - (

t L

i L

1 MCPRg- MAX (1.19,1.8134 0.006948F) :

' for -

1.5 - St y )40%  :

W  %

L n z

N

\, n k s 1.4 \i a

/

% F

'k  ;

t n t r i

k .

1.3 i RATED OPERATING :

t LIMIT MCPR - 1.19 ;

t

' s i  :::::

)

J s r _____

l

't,  ;

i 1.2 -

1.15 0 20 40 60 80 100 120 CORE FLOW (% RATED), F FLOW DEPENDENT MCPR LIMIT l (MCPRg)  !

Fl]EL TYPE GE811 P8SQB3015GZ-120M-150T Figure 3.2.2-3 (See !Jote Page 13)

Includes Rotated Bundle Analysis results. l CYCLE 5 CORE OPERATING PERRY UNIT 1 LIMITS REPORT l

1

.- PDB-F0001 Page: 17 1 Rev.: 2 l PNPP Na 9602 I*O iiiiiIIiiiiiiiiiiiiiiiieiIiiiiiii1iiiiieiiii 1111111111661llI11tllIll111111111111 lIIfIllI i MCPRg= (1.8134 - 0.006948F) * (1.0 + 0.0032 (40 F)) l for .

(h  :

F f 40%

i # # i 1.7 \ ,

n p L 2 P i F

1. J

't # .._

(a ir j' PERMISSIBLE REGION OP t--

l- "

OPERATION i

1.6 - ---- i <

u I 1 1 1<

L 1

i MCPRg= MAX (1.20,1.813d - OiOO6948F) :

\y for .

1.5 -- p y4_og  ;

  • L .r M 1 6 r

J A 1 J

O W

k t J 4 i r i 1 P 1.4 - 1  % J

[

'L r' 1

% J )

i a t V l f i

\

1.3 \' RATED OPERATING : I t LIMIT MCPR = 1.20 :

~~

h . .

1 I i 4

t i r s

s 1.2 -

1.15 0 20 40 60 80 100 120 j 1

COltE FLOW (% RATED), F FLOW DEPENDENT MCPR LIMIT (MCPRg)

FUEL TYPE: GE8-P8SQB301-7GZ 120M 150T Figure 3.2.2-4 (See Note Page 13)

Includes Rotated Bundle Analysis results.

CYCLE S CORE OPERATING PIGRY UNIT 1 LIMITS REIORT

o.

e. l' PDB-F0001 Page: 18 Rev.: 2 PNPP No 9600 10 1111Iiiiiiiiiiiiii1ieiiieiiIiiI11IIIIiii1iei

. IIlliliII111IIIIIlliIIIIII T, IIIIilIIIIi1IIIII k MCPRg- (1.8134 0.006948F) * (1.0 + 0.0032 (40 F)) :

-h-- for - -

j 4 P f 40%  :

r .,

1.7 j

i, ,

% a v ,

1 6 JF n a (i .s j'

PERMISSIBLE REGION OF h "' OPERATION 1.6

'k

( i 1

I E MCPRg- MAX (1.21,1.8134 0.006948F)  :

h for -

1.5 - \ F > 40%  :

  • t r d  %

r' r

A 't h

Q ,

E \h r r 1 j

1.4 , f l

't J k J l hg I

'L 1 RATED OPERATING "_

--- hg LIMIT MCPR - 1.21 :

1. .

% I

'k h I r i l

}

1.2 --

1.15-0 20 40 60 80 100 120 CORE FLOW (% RATED), I- 1 l

FLOW DEPENDENT MCPR LIMIT (MCPRg ) l FUEL TYPE: GE8B-P8SQIl320-9GZ 120M 150T GE811 P8SQIl322-7GZ-120M-150T Figure 3.2.2-5 (See Note Page 13)

Includes Rotated Bundle Analysis results.

CYCIE S CORE OPERATING j PERRf UNIT 1 LIMITS REPORT i

I

9 PDB-F0001 Page: 19 Rev.: 2 PNPF Na 9272 Rev. 4/94 I.8 Iiiiiiiiiiii1iiaiiiieiiiiiiiiieiiiIEiiIiiiiI

, 111111111111111111111111111ll111111111111111

$ MCPR,- (1.8134 - 0.006948F) * (1.0 + 0.0032 (40 F)) :

L for - -

4 F f 40%  :

1 , .r 1.7 . $ ,

't r

% av lt J L .#'

1-t PERMISSIBLE

$ j REGION OF

'L " OPERATION 1.6 1 k

1.

'b i ._

'L P-- MCPRg- MAX (1.22,1.8134 0.006948F)

'L for -

1.5 - i F > 40% "_

\L , .r d 1, f A  % r g ____

\i j 4 r

% F 1.4 - \i A f

s

'l r'

J l< 4A

% F

'L h

~

1.3 L RATED OPERATING

LIMIT MCPR - 1.22

L .

' i t P l t

% 1 r 1.2 -

1.15 g o 20 40 60 80 100 120 CORE FLOW (% RATED), F FLOW DEPENDENT MCPR LIMIT (MCPRg )

FUEL TYPE: GElo-P8SXB30610GZ2-120M.150T Figure 3.2.2-6 (See Note Page 13)

Includes Rotated Bundle Analysis results.

CYCIE 5 CORE OPERATUC Pr3tRY UNIT 1 LIMITS REPORT

~

PDB-F0001 Page: 20 Rev.: 2 PNPP Ha 9608 I*O fIii#II##111##1Ii11#111iiiiaiiIiiiin1iii#l 1I

, i iili s t ili t t i s i s i t il iiii iiii i iiiiiiiiiiiiiii MCPRf- (1.8134 - 0.006948F) * (1.0 + 0.0032 (40 F)) :

for - -

'l F $40%  :

h #

1.7 - ',

n r

/

r i 2

'k J h PERMISSIBLE

1. s

[

REGION OF L" OPERATION 1.6 - (% (

h n

1, i i

(___. 4CPRg- MAX (1.23,1.8134 - 0.006948F) :

n

' for -

1.5 - ( p )4og

  • 1 i .r M k i t r C.

N \1 [

4 '

F L

1.4 - \ 'l J

% r'

1. . A

% a .

'gr h

i

% RATED OPERATING : <

' i q LIMIT MCPR - 1.23 :

' t I i 1 iir 1.2 -

l 1.15 l 0 20 40 60 80 100 120 CORE FLOW (% RATED), F FLOW DEPENDENT MCPR LIMIT (MCPRg )

FUEL TYPE: GE10 P8SXB30611GZ3-120M-150T l Figure 3.2.2-7 (See Note Page 13)

Includes Rotated Bundle Analysis results.

CYCLE 5 CORE OPERATIlO PERRY UNIT 1 LIMITS REPORT

N.  ; --

~

PDB-F0001 ,

. Page: 21 Rev.: 2 .,

LINEAR HEAT GENERATION RATE (TS 3.2.3)

~

The LINEAR HEAT GENERATION RATE (LHGR) shall not exceed:

]

a. 14.4 kw/ft. for the following fuel types: i
1. GE8B-P8SQB301-7GZ-120M-150-T (BS301E) (GE8X8EB) l
2. GE8B-P8SQB301-5GZ-120M-150-T (BS301F) (GE8X8EB)
3. GE8B-P8SQB320-9GZ-120M-150-T (GE8X8EB)
4. GE8B-P8SQB322-7GZ-120M-150-T (GE8X8EB) ,

)

5. GE10-P8SXB306-10GZ2-120M-150-T (GE8X8NB-1)
6. GE10-P8SXB306-11GZ3-120M-150-T(GE8X8NB-1) i I

t CYCLE 5 CORE OPERATING PERRY UNIT 1 LIMITS REPORT

IR, . Lei, i -

.,-- . PDB-F0001

'* Page: 22'- LAST i Rev.: 2 l REACMR PROTBCTION SYSTEM INSTRIMENTATION (TS 3.3.1) (

i

.The simulated thermal power time constant shall be 610.6 seconds.

t

. I r

?

h h

?

i i

e P

l L

CYCLE 5  ;

CORE OPERATING PINRY UNIT 1 LIMITS REIORT i

5