Forwards Rev 3 to Reload 11/Cycle 12 Colr

ML20082T696
Person / Time
Site:	FitzPatrick
Issue date:	04/28/1995
From:	William Cahill POWER AUTHORITY OF THE STATE OF NEW YORK (NEW YORK
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
JPN-95-024, JPN-95-24, NUDOCS 9505040135
Download: ML20082T696 (2)
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Text

.-.

_~

123 fAs6n Street Whste Piknr. Now York 10601 i

914t;El1410 914 287 3309 (FAX)

William J. Cahill. J r.

4# Authority cr~"~~ *-

April 28,1995 JPN-95-024 i

U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Mali Station P1-137 i

Washington, D.C. 20555

SUBJECT:

James A. FitzPatrick Nuclear Power Plant Docket 50-333 Revision 3 to the Reload 11/ Cycle 12 Core Operatina Limits Report (COLR)

REFERENCE:

NYPA letter, W. J. Cahill,Jr. to USNRC, dated February 2,1995 (JPN 95-004) regarding Reload 11/ Cycle 12 Core Operating Limits Report.

Dear Sir:

Revision 3 to the FitzPatrick Core Operating Limits Report (COLR) for Reload i

11/ Cycle 12 is attached. This revision supersedes and replaces Revision 2 (Reference).

Revision 3 reflects a change to the core loading pattern and corrects typographical errors in the bundle types on Figures 8.4.a through 8.4.d.

The COLR contains the core operating limits applicable to the current operating cycle and is submitted in accordance with Technical Specification 6.9 A,4.d.

If you have any questions, please contact Ms. C. D. Faison.

Very truly yours,

/

William J.

ahill, Jr.

505040135 950428 Chief Nuclear Officer pDR ADDCK 05000333 p

PDR cc: next page i

\\'

i

-i

cc:

All w/ attachment Regional Administrator U. S. Nuclear Regulatory Commission 475 Allendale Road King of Prussia, PA 19406 Office of the Resident Manager U. S. Nuclear Regulatory Commission P.O. Box 136 Lycoming, New York 13093 Mr. C. E. Carpenter, Project Manager Project Directorate 1-1 Division of Reactor Projects 1/11 U. S. Nuclear Regulatory Commission Washington, D.C. 20555

Attachment:

As stated

NEW YORK POWER AUTHORITY JAMES A.

FITZPATRICK NUCLEAR POWER PLANT REPORT CORE OPERATING LIMITS REPORT REVISION 3 REVIEWED BY:

PLANT OPERATIONS REVIEW COMMITTEE DATE8!'

MEETING NO.

APPROVED BY:

QM ox DATE 315 S6 REACTOR ANALYST SUPERVISOR DATE 3 /$ fl APPROVED BY:

~

RESIDENT MANAGER '

i i

PO

- n cpONLy Rev. No. 3 Page 1 of 26 f u dN GO /G 5 Q 1

,a-7-

CORE OPERATING LIMITS REPORT CYCLE 12 1.0 PURPOSE This report provides the cycle-specific operating limits for Cycle 12 of the James A. FitzPatrick Nuclear Power Plant.

The following limits are addressed:

Operating Limit Minimum Critical Power Ratio (MCPR)

Flow Dependent MCPR Limits Maximum Average Planar Linear Heat Generation Rate (MAPLHGR)

Linear Heat Generation Rate (LHGR)

Flow-Biased Average Power Range Monitor (APRM) and Rod Block Monitor (RBM) Settings 2.0 APPLICABILITY The plant shall be operated within the limits specified

, in this report.

If any of these limits are violated, the corrective actions specified in the Technical 1

Specifications shall be taken.

3.0 REFERENCES

3.1 JAFNPP Administrative Procedure 12.05, Control of Core Operating Limits Report.

3.2 JAFNPP License Appendix A, Operating Technical Specifications.

j 3.3 FitzPatrick Cycle 12 Core Reload Safety Evaluation, JAF-SE-94-127.

3.4 JAFNPP SAFER /GESTR-LOCA Loss of Coolant Analysis, NEDE-31317P, including Errata and Addenda Sheets 1, 2 and 3.

3.5 Supplemental Reload Licensing Submittal for JAFNPP Reload 11 Cycle 12, GE Report 24A5167 Revision 0 December,1994.

Includes a Supplement 1 containing MAPLHGR DATA.

3.6 Supplement 1 to GE Report 23A7114 June,1992.

Contains MAPLHGR Data for Reload 10 Fuel.

3.7 Cycle 12 Core Reload, M1-94-164.

3.8 RAP-7.3.17 Rev.5, Core Monitoring Software and Databsae Changes.

Rev. No. 3 Page 2 of 26

l l

CORE OPERATING LIMITS REPORT CYCLE 12 4.0 DEFINITIONS 4.1 Minimum critical power ratio (MCPR) Minimum value of the ratio of that power in a fuel assembly which is calculated to cause some point in that fuel assembly to experience boiling transition to the actual assembly operating power as calculated by application of the GEXL correlation (Reference NEDE-10958).

4.2 Fraction of Limiting Power Density - The ratio of the linear heat generation rate (LHGR) existing at a given location to the design LHGR.

The design LHGR is given in Table 8.2.

4.3 Maximum Fraction of Limiting Power Density - The Maximum Fraction of Limiting Power Density (MFLPD) is the highest value existing in the core of the Fraction of Limiting Power Density (FLPD).

4.4 Rated Recirculation Flow - that drive flow which produces a core flow of 77.0 x 10' lb/hr.

5.0 RESPONSIBILITIES 5.1 See AP-12.05 (Reference 3.1).

5.2 It is the responsibility of the Shift Supervisor to assure that the reactor is operated within the limits described herein.

5.3 It is the responsibility of the Reactor Analyst Supervisor to assure that the limits described herein are properly installed in the 3D-Monicore databank used for thermal limit surveillance (Reference 3.8).

6.0 SPECIAL INSTRUCTIONS /REOUIREMENTS Not applicable.

Rev. No. 3 Page 3 of 26

CORE OPERATING LIMITS REPORT CYCLE 12 7.0 PROCEDURE 7.1 Operating Limit MCPR During power operation, The Operating Limit MCPR shall be equal to or greater than the limits given below.

7.1.1 Technical Specification

Reference:

3.1.B 7.1.2 The Operating Limit MCPR shall be determined based on the following requirement:

7.1.2.1 The average scram time to notch position 38 shall be:

7avr 7 s 7.1.2.2 The average scram time to notch position 38 is determined as follows:

N Elfs g I*1 i

=

A VE n

El(

i=1 1

where:

n=

number of surveillance tests performed to date in the cycle, i

number of active rods measured in the N

=

i th surveillance, and i

average scram time to notch position 38 71

=

of all rods measured in the ith surveillance test.

Rev. No. 3 Page 4 of 26

m.._

i i

c:

4

.I CORE OPERATING LIMITS REPORT CYCLE 12 i

..; a -

i

.l 7.1.2.3 The adjusted analysis mean scram. time is-l calculated as follows:

i i

y' an x, (sec) = p + - 1.65 o El(

j lal i

where:

p=

mean of the distribution for the average scram insertion time to the pickup of notch position 38 = 0.706 seC.

o=

standard deviation of the distribution i

for average scram insertion time to the pickup of notch positien 38 = 0.016 sec.

l the total number of activu rod:.

i N

=

3 measured in Technical Specification 4.3.C.1.

i The number of rods to be scram tested and the l.

test intervals are given in Technical Specification 4.3.C.

l 7.1.3 When requiremer,.t of.7.1.2 is met, the Operating Limit MCPR shall not be less than that specified i

in Table 8.1.

t 7.1.4 When the requirement 7.1.2 is not met (i.e. 7 a'<7 an) then the Operating Limit MCPR values (as a function of 7) are given in Figure 8.1, l

(7mm - 7,) / ( 7 7) where 7

=

3 and 7mm =

the average scram time to notch position 38 as defined in 7.1.2.2.

4 i

the adjusted analysis mean scram time as 7,

=

i defined in 7.1.2.3 i

the scram time tn notch-position 38 as T

=

a defined'in Technical Specification 3.3.C.1.

Rev. No.

3'

.Page 5 of 26

CORE OPERATING LIMITS REPORT CYCLE 12

]

s-7.1.5 During single-loop operation, the Operating Limit l

l MCPR shall be increased by 0.01.

1 7.1.6 During reactor' power operation with core flow less 1

than 100 percent of rated, the operating Limit-MCPR:shall be multiplied by the appropriate Kg specified in Figure 8.2.

j 7.2 Maximum Average Planar Linear Heat Generation Rate (MAPLHGRJ 7.2.1 Technical Specification

Reference:

3.5.H

)

7.2.2 During power operation, the APLHGR for each fuel type as-a function of axial location and average i

planar exposure shall be within limits based on i

applicable APLHGR limit values which have been approved for the respective fuel and lattice types.

{

7.2.3 When hand calculations are required, th( APLHGR for each type of fuel as a function of average i

planar exposure shall not exceed the limiting value for the most limiting lattice (excluding natural uranium) shown in Figures 8.3.a through h.

{

7.2.4 During single loop operation, the APLHGR for each fuel type shall not exceed the values given in 7.2.2 or 7.2.3 above multiplied by 0.84.

-l 7.3 Linear Heat Generation Rate (LHGR) 7.3.1 Technical Specification

Reference:

3.5.I.

7.3.2 The LHGR of any rod i: any fuel assembly at any axial location shall wa. exceed the maximum allowable LHGR specified in Table 8.2.

i l

I f

i i

?

Rev. No. 3 Page 6 of 26

+

w T-yi

i CYCLE 12 CORE OPERATING LIMITS REPORT i

7.4 APRM Trip Settings 7.4.1 APRM Flow Referenced Flux Scram Trip Setting (Run Mode) 7.4.1.1 Technical Specification

References:

2.1.A.1.c, Table 3.1-1, 3.1.A 7.4.1.2 When the Mode Switch is in the RUN position, the APRM flow referenced flux scram trip setting shall be Ss0.66W + 54% for two loop operation; Ss0.66W + 54% - 0.66 AW for single loop operation; where:

setting in percent of rated thermal S

=

power (2436 MWt);

recirculation flow in percent of rated; W

=

difference between two loop and i

AW

=

single-loop effective drive flow at the same core flow.

7.4.1.3 In the event of operation with a maximum fraction of limiting power density (MFLPD) f greater than the fraction of rated power (FRP), the setting shall be modified as follows:

Ss(0.66W + 54%) (FRP/MFLPD) for two loop operation; Ss(0.66W + 54% - 0.66 AW) (FRP/MFLPD) for single-loop operation; where:

fraction of rated thermal power FRP

=

(2436 Mwt);

MFLPD =

Maximum fraction of limiting power density, where the limiting power density is as specified in Table 8.2.

The ratio of FRP to MFLPD shall be set equal to 1.0 unless the actual operating value is less than the design value of 1.0, in which Page 7 of 26 Rev. No. 3

4 4

CORE OPERATING LIMITS REPORT CYCLE 12 case the actual operating value will be used.

7.4.2 APRM Flow Biased Rod Block Setting 7.4.2.1 Technical Specification

References:

2.1.A.1.d, Table 3.2-3, 3.2.C.1 7.4.2.2 The APRM rod block trip setting shall be:

S50.66W + 42% for two loop operation; Ss0.66W + 42% - 0.66 AW for single loop operation; where:

S = rod block setting in percent of rated thermal power (2436 Mwt) ;

recirculation flow in percent of rated; W

=

AW =

difference between two loop and single loop effective drive flow at the same core flow.

7.4.2.3 In the event of operation with a maximum fraction of limiting power dennity (MFLPD) greater than the fraction of rated power (FRP), the setting shall be modified as follows:

Ss(0.66W + 42%) (FRP/MFLPD) for two loop operation; Ss(0.66W + 42% - 0.66 AW) (FRP/MFLPD) for single loop operation; where:

fraction of rated thermal power FRP

=

(2436 Mwt);

MFLPD =

maximum fraction of limiting power density as specified in Table 8.2.

I Rev. No. 3 Page 8 of 26

CORE OPERATING LIMITS REPORT CYCLE 12 7.5 RBM Flow Biased Rod Block Setting 7.5.1 Technical Specification

Reference:

3.2.C.1 7.5.2 The RBM flow biased rod block trip setting shall

~,

be:

Ss0.66W + K for two loop operation; Ss0.66W + K - 0.66AW for single loop operation; where:

S = rod block setting in percent of initial; W = loop flow in percent of rated K = intercept values of 39%, 40%,_41%, 42%, 43%,

and 44% can be used with the appropriate MCPR operating Limit from Table 8.1(note that for Cycle 12 the RBM intercept value does not effect the MCPR Operating Limit for K values s 44%);

AW = difference between two loop and single loop effective drive flow.

Rev. No. 3 Fage 9 of 26

CORE OPERATING LIMITS REPORT CYCLE 12 8.0 FIGURES AND TABLES Table 8.1 MCPR Operating Limit for Incremental Cycle Core Average Exposure Table 8.2 Maximum LHGR Figure 8.1 MCPR Operating Limit Versus T Figure 8.2 Kr Factor Figure 8.3.a MAPLHGR Versus Planar Average Exposure:

BD336A Figure 8.3.b MAPLHGR Versus Planar Average Exposure:

BD339A Figure 8.3.c MAPLHGR Versus Planar Average Exposure:

GE10-P8HXB322-11GZ-70M-150-T Figure 8.3.d MAPLHGR Versus Planar Average Exposure:

GE10-P8HXB324-12GZ-70M-150T Figure 8.3.e MAPLHGR Versus Planar Average Exposure:

89LTA Figure 8.3.f MAPLHGR Versus Planar Average Exposure:

GE11-P9 HUB 356-15GZ-100M-146T and ATRIUM-10A Figure 8.3.g MAPLHGR Versus Planar Average Exposure:

GE11-P9 HUB 359-16GZ1-100M-146-T Figure 8.3.h MAPLHGR Versus Planar Average Exposure:

GE11-P9 HUB 380-12GZ5-100M-146-T l

I l

Figure 8.4.a CYCLE 12 LOADING PATTERN, UPPER LEFT QUADRANT, BUNDLE DESIGN Figure 8.4.b CYCLE 12 LOADING PATTERN, UPPER RIGHT QUADRANT, BUNDLE DESIGN Figure S.4.c CYCLE 12 LOADING PATTERN, LOWER RIGHT QUADRANT, BUNDLE DESIGN Figure 8.4.d CYCLE 12 LOADING PATTERN, LOWER LEFT QUADRANT, BUNDLE DESIGN 9.0 EXHIBITS Not Applicable.

Rev. No. 3 Page 10 of 26

f CORE OPERATING LIMITS REPORT CYCLE 12 TABLE 8.1 MCPR Operating Limit for Incremental Cycle Core Average Exposure l

Cycle 12 GE11-P9 HUB 380-All Other Fuel Exposure 12GZ5-100M-146-T Bundle Types Range BOC 1.35 1.30 to 4 GWD/ST

>4 GWD/ST 1.30 1.30 to 9 GWD/ST

>9 GWD/ST 1.31 1.31 to 10.5 GWD/ST

>10.5 GWD/ST 1.34 1.34 to EOC Technical Specification

Reference:

3.1.B For single loop operation, these limits shall be increased by 0.01.

Rev. No. 3 Page 11 of 26

A CORE OPERATING LIMITS REPORT CYCLE 12 TABLE 8.2 Maximum LHGR Fuel Type Fuel Bundle Design Maximum LHGR (kw/ft)

BD336A GE8x8EB 14.4 BD339A GE8x8EB 14.4 GE10-P8HXB322 GE8x8NB-3 14.4 11GZ-70M-150-T GE10-P8HXB324 GE8x8NB-3 14.4 12GZ-70M-150-T 89LTA GE11LTA 14.4 Gell-P9 HUB 356 Gell 14.4 15GZ-100M-146-T GE11-P9 HUB 359 Gell 14.4 16GZ1-100M-146-T Gell-P9 HUB 380 Gell 14.4 12GZ5-100M-146-T Technical Specification

Reference:

3.5.1 Rev. No. 3 Page 12 of 26

• 6 CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.1 MCPR Operating Limit Versus 7 (TAU) 1 43 1 43 1 42 1 42 1 41 1.41 14 14 1.39 1 39 1 30 1 38 1 37

/

1 37 1 36 1 36

[

v y^

1 35 13 2

i 1 34 1 34 i

1 33 1 33 E

b 1 32 1.32 1 31 1 31 g

g 0

O 13 1.3 1 29 1.29 1 28 1.28 I

1 27 i i'7 0

1 TAU 0 00C-9000G*D/ t

+ 9000- 10500GWD/ t o 10500GWD/ t-EOC Technical Specification

Reference:

3.1.B For single loop operation, these limits shall be increased by 0.01.

9 2

Lev. No. 3 Page 13 of 26

i CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.2 Kr Factor 14 e

i-L 1.3 l

l Kr ALf70 auric FLOW Coef7Bt0L s

\\.I e

temasueL FLOW CoeffflOL SCOOP fust SftP0eff CASMruous P0smoedE0 SJCM M FLOwMAX = 102.8%

107.0 %

i s a.o *

,.0 117.0%

I gg f

f f

f i

1 1

30 80 50 to 70 to 30 800 i

Cong 0.0w is) l i

Technical Specification

Reference:

3.1.B Rev. No. 3 Page 14 of 26 l

CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.3.a MAPLHGR Versus Planar Average Exposure:

BD336A 14 00 13.00 12 00 l

11 00 #

10 00 N

9 00 8 00

\\

l t

7 00 N

6 00 5 00 5

4 00 3 00 2 00 1 00 I

0 00 O

10 20 30 40 50 60 P la nar Average E=DosureCGwD/ t)

This curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H

Reference:

NEDC-31317P For single loop operating t!

MAPLHGR values shall be multiplied by 0.84.

f f

I Rev. No. 3 Page 15 of 26

CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.3.b MAPLHGR Versus Planar Average Exposure:

BD339A 14 00 13 00 12 00 11 00 N

10.00 9 00 B 00 f

7 00

\\

g 6 00 fg 5 00 1

4 00 3 00 2 00 1 00 I

0 00 O

10 20 30 40 50 60 Planar Average EnoosureCGwD/ t)

This curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H

Reference:

NEDC-31317P For single loop operating these MAPLHGR values shall be multiplied by 0.84.

Rev. No. 3 Page 16 of 26

l CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.3.c MAPLHGR Versus Planar Average Exposure:

GE10-P8HXB322-11GZ-70M-150-T 1

)

1 14 00 l

13 00 5

l 12.00 i

11 00 10.00 N

9 00 0 00 7 00 k

6 00 t-g 5 00 4 00 3 00 2 00 1 00 0.00 O

10 20 30 40 50 60 Planar Average ExposureCGWO/ t) i This curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H j

Reference:

NEDC-31317P For single loop operating these MPLHGR values shall be multiplied by 0.84.

l 1

)

l Rev. No. 3 Page 17 of 26

.e

CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.3.d MAPLHGR Versus Planar Average Exposure:

GE10-P8HXB324-12GZ-70M-150T 14 00 13 00 12.00

/

11 00 10 00 9 00 N

8 00 7 00

\\

e i

6 00

\\

g 5 00 4 00 3 00 2 00 1 00 0 00 O

10 20 30 40 50 60 Planar Aver age EnoostreCG*0/ t )

This curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H I

Reference:

NEDC-31317F For single loop operating these MAPLHGR values shall be multiplied by 0.84.

i Rev. No. 3 Page 18 of 26 i

l

. CORE OPERATING LIMITS REPORT CYCLE 12 i

FIGURE 8.3.e MAPLHGR Versus Planar Average Exposure:

89LTA 13 00 12.00 11 00 10.00 9 00 0 00 s

O 7 00

~

)

6 00 5 00 4 00 3 00 2 00 1 00 I

0.00 O

10 20 30 40 50 60 planer Average E=posureCGwo/ t)

This curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H

Reference:

NEDC-31317P For single loop operating these MAPLHGR values shall be j

multiplied by 0.84.

Rev. No. 3 Page 19 of 26 l

CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.3.f MAPLHGR Versus Planar Average Exposure:

GE11-P9 HUB 356-15GZ-100M-146-T and ATRIUM-10A' 12.00 11.00 10 00 9 00 0 00

'N 7 00 h.N

.e 6 00

.g k

5.00 T

4 00 3 00 2 00 1.00 0.00 O

10 20 30 40 50 60 Planar Average ExoosureCGw0/ t)

• The A10-339 bundle will be monitored as a GE11-P9 HUB 356-15GZ-100M-146-T bundle.

Operation to the limiting MAPLHGR for the Gell bundle assures this bundle will remain within LHGR limits, see Reference 3.8.

'.'his curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H Referenze:

A23A7114 Rev 1 For single loop operating these MAPLHGR values shall be multiplied by 0.84.

Rev. No. 3 Page 20 of 26

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

4 CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.3.g MAPLHGR Versus Planar Average Exposure:

GE11-P9 HUB 359-16GZ1-100M-146-T 12 00 f.

11 00 10 00 y

\\

9 00 0.00 1 00 -

6 00 U

cr 5 00 Y

k 4 00 2

o 3 00 2 00 1 00 0 00 O

10 20 30 40 50 60 planar Average Enr>osure (GwD/ ST)

This curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H

Reference:

23A7114 Rev 1 For single loop operating these MAPLHGR values shall be multiplied by 0.84.

Rev. No. 3 Page 21 of 26 I

CORE OPERATING LIMITS REPORT CYCLE 12 FIGURE 8.3.h MAPLHGR Versus Planar Average Exposure:

GE11-P9 HUB 380-12GZ5-100M-146-T i

14 1

13 11

\\

8

\\_ N 7

\\

3

\\

6 g

5 1

4 3

2 1

0 0

l 2'O l

d'0 l

60 10 30 50 planar Average Exposure (G*D/ t';

i This curve represents the limiting exposure dependent MAPLHGR values.

Technical Specification

Reference:

3.5.H

Reference:

24A5167 Rev 0 For single loop operating these MAPLHGR values shall be multiplied by 0.84.

Rev. No. 3 Page 22 of 26

CORE OPERATING LIMITS REPORT CYCLE 12 I

l 1

1

'2 1

1 52 1

2 4

5 5

5 50 1

2 1

1 4

5 4

5 2

48 1

2 4

5 5

5 4

5 2

5 46

[

~

2 6

5 4

5 4

2 2

4 4

44 2

4 5

4 5

2 2

4 5

4 4

42 2

5 4

5 2

4 4

5 4

5 2

40 1

1 5

5 2

4 3

5 4

4 2

5 38 1

2 4

5 4

2 4

5 4

4 2

5 2

36 2

4 5

4 2

4 5

4 4

4 4

4 4

34 2

5 4

5 2

5 4

4 2

4 2

4 2

32 1

5 5

2 4

4 5

2 5

4 4

2 4

30 1

5 2

5 4

4 2

5 2

4 2

4 4

28 01 03 05 07 09 11 13 15 17 19 21 23 25 FIGURE 8.4.a CYCLE 12 LOADING PATTERN, UPPER LEFT QUADRANT, BUNDLE DESIGN 1

1 = GE8x8EB, Bundle Types BD319A, BD336A, DD339A 2 = GE8x8NB-3, Bundle Types P8HXB322, P8HXB324 3 = GE11LTA, Bundle Type 89LTA 4 = Gell, Bundle Type P9 HUB 356, P9 HUB 359 5 = Gell, Bundle Type P9 HUB 380 6 = ATRIUM-10A, Bundle Typc A10-339 Rev. No. 3 Page 23 of 26

r CORE OPERATING LIMITS REPORT CYCLE 12 52 2

1 2

1 1

50 5

5 5

4 2

1 48 2

5 4

5 4

2 2

2 1

46 5

2 5

4 5

5 5

4 2

1 4

4 4

2 2

4 5

4 5

6 1

1 42 4

4 5

4 2

2 5

4 5

4 1

40 2

5 4

5 4

4 2

5 4

5 2

38 5

2 4

4 5

3 4

2 5

5 2

1 36 2

5 2

4 4

5 4

2 4

5 4

2 1

34 4

4 4

4 4

4 5

4 2

4 5

4 1

32 2

4 2

4 2

4 4

5 2

5 4

5 2

30 4

2 4

4 5

2 5

4 4

2 5

5 1

28 4

4 2

4 2

5 2

4 4

5 2

5 1

27 29 31 33 35 37 39 41 43 45 47 49 51 FIGURE 8.4.b C YCLE 12 LOADING PATTERN, UPPER RIGHT QUADRANT, BUNDLE DESIGN 1 = GE8x8EB, Bundle Types BD319A, BD336A, BD339A 2 = GE8x8NB-3, Bundle Types P8HXB322, P8HXB324 3 = GE11LTA, Bundle Type 89LTA 4 = Gell, Bundle Type P9 HUB 356, P9 HUB 359 5 = Gell, Bundle Type P9 HUB 380 6 = ATRIUM-10A, Bundle Type A10-339 Rev. No. 3 Page 24 of 26

CORE OPERATING LIMITS REPORT CYCLE 12 27 29 31 33 35 37 39 41 43 45 47 49 51 26 4

4 2

4 2

5 2

4 4

5 2

5 2

24 4

2 4

4 5

2 5

4 4

2 5

5 1

22 2

4 2

4 2

4 4

5 2

5 4

5 2

20 4

4 4

4 4

4 5

4 2

4 5

4 2

18 2

5 2

4 4

5 4

2 4

5 4

2 1

16 5

2 4

4 5

3 4

2 5

5 1

1 14 2

5 4

5 4

4 2

5 4

5 1

12 4

4 5

4 2

2 5

4 5

4 2

10 4

4 2

2 4

5 4

5 6

2 1

08 5

2 5

4 5

5 5

4 2

1 06 2

5 4

5 4

2 2

2 1

04 5

5 5

4 2

1 02 1

1 2

2 1

FIGURE 8.4.c CYCLE 12 LOADING PATTERN, LOWER RIGHT QUADRANT, BUNDLE DESIGN 1 = GE8x8EB, Bundle Types BD319A, BD336A, BD339A 2 = GE8x8NB-3, Bundle Types P8HXB322, P8HXB324 3 = GE11LTA, Bundle Type 89LTA 4 = Gell, Bundle Type P9 HUB 356, P9 HUB 359 5 = Gell, Bundle Type P9 HUB 380 6 = ATRIUM-10A, Bundle Type A10-339 Rev. No. 3 Page 25 cf 26

- 0 CORE OPERATING LIMITS REPORT CYCLE 12 01 03 05 07 09 11 13 15 17 19 21 23 25 1

5 2

5 4

4 2

5 2

4 2

4 4

26 1

5 5

2 4

4 5

2 5

4 4

2 4

24 2

5 4

5 2

5 4

4 2

4 2

4 2

22 1

4 5

4 2

4 5

4 4

4 4

4 4

20 1

2 4

5 4

2 4

5 4

4 2

5 2

18 1

1 5

5 2

4 3

5 4

4 2

5 16 2

5 4

5 2

4 4

5 4

5 2

14 2

4 5

4 5

2 if2 4

5 4

4 12 1

1 6

5 4

5 4

2 2

4 4

10 1

1 4

5 5

5 4

5 2

5 08 1

2 1

2 4

5 4

5 2

06 1

2 4

5 5

5 M

i 1

2 2

1 1

02 FIGURE 8.4.d CYCLE 12 LOADING PATTERN, LOWER LEFT QUADRANT, BUNDLE DESIGN 1 = GE8x8EB, Bundle Types BD319A, BD336A, BD339A 2 = GE8x8NB-3, Bundle Types P8HXB322, P8HXB324 3 = GE11LTA, Bundle Type 89LTA 4 = Gell, Bundle Type P9 HUB 356, P9 HUB 359 5 = Gell, Bundle Type P9 HUB 380 6 = ATRIUM-10A, Bundle Type A10-339 Rev. No. 3 Page 26 of 26 H

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