Text

Forwards Computer Results Generated by BNL in Review of 840502 Submittal Proposing Tech Spec Changes to Revise Allowable out-of-svc Time for Several Components & Forwarding WCAP-10526, Byron Generation Station..
	ML20138R650
Person / Time
Site:	Byron
Issue date:	12/19/1985
From:	Olshan L; Office of Nuclear Reactor Regulation
To:	Farrar D; COMMONWEALTH EDISON CO.
References
	NUDOCS 8512310473
	Download: ML20138R650 (57)
	v • d • e

a Docket Nos: STN 50-454 and STN 50-455 MC 19 hl65 Mr. Dennis L. Farrar Director of Nuclear Licensing Commonwealth Edison Company Post Office Box 767 Chicago, Illinois 60690

Dear Mr. Farrar:

SUBJECT:

REVIEW 0F BYRON LC0 RELAXATION PROGRAM By letter dated May 2, 1984, you proposed changes to the Byron Technical Specifications to revise the allowable of out-of-service times for several components. Included with your letter was a report entitled, " Byron Generation Station Limiting Condition for Operation Relaxation Program, WCAP-10526."

Enclosed are computer results generated by Brookhaven National Laboratory in its review of your submittal. The nomenclature on the print-out is consistent with that in your submittal.

Our final Safety Evaluation detailing the results of our review will be issued in the near future.

/ .>)

L. N. Olshan Project Manager PWR Project Directorate #5 Division of PWR Licensing-A cc: See next page Distribution Docket File NRC PDR Local PDR PD# 5 Reading Division Director OELD E. Jordan B. Grimes J. Partlow Project Manager M. Rushbrook ACRS(10)

DFC :PD#5 :

....j............:..M.......::............:............::............:............:...........

NAMD :L01shan :ASpho : : : : :

DATE :R /6 /85 :ll/L$as : : : : :

0FFICIAL RECORD COPY 0512310473 051219 PDit ADOCK 05000454 P PDft I

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A yf UNITED STATES yj NUCLEAR REGULATORY COMMISSION

5 ef \ g r ' g8 t

.1 WASHINGTON, D. C 20555

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..... SUS Docket Nos: STN 50-454 and STN 50-455 l Mr. Dennis L. Farrar l Director of Nuclear Licensing

( Commonwealth Edison Company Post Office Box 767 Chicago, Illinois 60690

Dear Mr. Farrar:

SUBJECT:

REVIEW OF BYRON LC0 RELAXATION PROGRAM 1

By letter dated May 2,1984, you proposed changes to the Byron Technical Specifications to revise the allowable of out-of-service times for several l components. Included with your letter was a report entitled, " Byron Generation Station Limiting Condition for Operation Relaxation Pregram, WCAP-10526".

Enclosed are computer results generated by Brookhaven National Laboratory in its review of your submittal. The nomenclature on the print-out is consistent with that in your submittal.

Our final Safety Evaluation detailing the results of our review will be issued in the near future.

Yha L. N. Olshan, Project Manager PWR Project Directorate #5 Division of PWR Licensing-A cc: See next page

+

f m

Mr. Dennis L. Farrar Byron Station Commonwealth Edison Company Units 1 and 2 CC:

Mr. William Kortier Ms. Diane Chavez i Atomic Power Distribution 528 Gregory Street '

Westinghouse Electric Corporation Rockford, Illinois 61108 Post Office Box 355 Pittsburgh, Pennsylvania 15230 Regional Administrator, Region III U. S. Nuclear Regulatory Comission Michael Miller 799 Roosevelt Road Isham, Lincoln & Beale Glen Ellyn, Illinois 60137 One First National Plaza 42nd Floor Joseph Gallo, Esq.

Chicago, Illinois 60603 Isham, Lincoln & Beale Suite 840 Mrs. Phillip B. Johnson 1120 Connecticut Avenue, N.W.

1907 Stratford Lane Washington, D. C. 20036 Rockford, Illinois 61107 Douglass Cassel, Esq.

Dr. Bruce von Zellen 109 N. Dearborn Street Department of Biological Sciences Suite 1300 Northern Illinois University Chicago, Illinois 60602 DeKalb, Illinois 61107 Hs. Pat Morrison Mr. Edward R. Crass 5568 Thunderidge Drive Nuclear Safeguards & Licensing Rockford, Illinois 61107 Sargent A Lundy Engineers 55 East Monroe Street Ms. Lorraine Creek Chicago, Illinois 60603 Rt. 1, Box 182 Manteno, Illinois 60950 Mr. Julian Hinds U. S. Nuclear Regulatory Commission

. Byron / Resident inspectors Offices 4448 German Church Road Byron, Illinois 61010 Mr. Michael C. Parker, Chief Division of Engineering Illinois Department of Nuclear Safety 1035 Outer Park Drive Springfield, Illinois 62704

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Table 4.5 Plant Damage State and Core Samage Frecuencies for leodde O CASE 1 o

IGEl. O CASE I ET! ET2 ET3 ET4 ET5 ETE ET7 ET8 ET9 ET!! ET128 ET13 ET14 ET15 ET16 'ET17 TOTE HEFC 6.36E-07 2.30E-07 8.66E-07 EF '

EC !.14E-08 1.14E-08 GE 1.0 I-10 1.03E-10 2.06E-10 ,

RFC !.54E-CG !.54E-06 '

3.08E-06 R.F 5.56E-10 5.58E-10 -

1.12E-09 ALC 1.14E-08 1.14E48 t R.

SEFC 1.88E-08 4.88E-08 9.53E-07 !.02E-06 SEF 3.32E-09 3.32E-09 ;

SEC 8.08E-05 3.86E-06 8.47E-05 SE i 1.68E-06 4.99E-05 5.16E-05 i SLFC 1.84E-05 1.10091.IE49 7.7!E-071.54E-07 9.21E-081.03E-06 5.83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 ;

SLF 7.20E-09 2.94E-!! 1.62E-09 8.65E-09 4 SLC 3.30E-12 3.04E-09 3.25E-10 3.37E-09 R.

4.41E-!! 4.41E-11

. TEFC i

' 1.6tE-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 !

TEF

!.73E-10 3.46E-!! 2.07E-!! 9.60E-10 2.37E-10 1.43E-09 TEC 1.E-101.E-101.0!E-06 2.02E-071.20E-071.35E-06 2.57E47 5.36E-081.33E-06 0.00E+00 4.38E-06 TE .

2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.62E-061.05E-09 3.21E-06 0.00E+00 3.72E-06 i V2E 5.29E-07 *

. 5.23E-07 V21. 9.40E-09 9.40E-09 2.37E46 9.40E-09 9.40E-09 --

2.41E-06 V

7.80E-07 7.80E-07 TOTAL 2.20E461.79E-061.0!E-04 2.90E-061.24E-081.24E-08 4.78E-06 9.55E-07 5.69E-07 6.36E-06 5.83E-05 5.88E-07 6.54E-06 7.80E47 9.60E-07 0.00E+00(t i

I i

. _ . . _ _ ._ ._ ._. m ,_ _ _ . - _i,, , . _ ,

,oj l L Table 4.6 Plant Damage State and Core Damage Frequencies foe Mode! O CRSE 2 s

PCCEL 0 EkSE 2 ETI ET2 ET3 ET4 ETS ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TOTR.

EFC 6.EEE-07 2.82E47 9.50E-07 EF EC 6.13E-03 6.13E43 E 9.15E-10 9.15E-10 1.63E-09 RfC 1.62E-M 1.62E-M

3.24E46 RF 5.5aE-10 5.53E-10 1.12E-09 RC 6.13E-03 E.132-03 R.

SEFC 5.4E-05 5.33E-08 9.53E-07 1.0EE-06 SEF 9.18E-03 9.18E-03 SEC 4.!EE-04 2.48E-05 4.41E-04 SE 7.01E-06 2.2EE-09 2.35E-04 SLFC -2.35E-05 1.33E491.33E-09 2.90E-06 5.75E-07 3.4EE-07 3.6EE-06 2.71E-06 4.45E-07 3.97E-06 4.55E-10 3.83E-05 SLF 1.03E43 2.20E-10 2.!EE-03 3.21E-08 SLC 2.2EE-09 8.04E-08 9.30E-10 8.35E-03 SL 1.81E-09 1.61E-03 TEFC 4.44E-09 4.44E-09 8.58E-061.72E-061.02E-061.14E-05 2.0EE-07 7.50E-071.18E-05 2.81E-09 3.55E-05 TEF 1.53E49 3.0EE-101.83E-10 4.16E-09 2.10E-09 8.26E-09 TEC 6.17E-10 6.17E-10 8.0!E-06 1.60E-06 9.57E-07 1.05E-05 2.5EE-06 4.24E-07 1.10E-05 0.00E+00 3.53E-05 TE 1.40E-07 2.81E-03 1.6SE-08 1.68E-07 2.22E-05 7.03E-09 1.92E-07 0.00E40 2.EEE-05 V2E 2.64E-06

- 2.64E-06 VT1 9.40E-09 9.40E-09 6.4SE-M 9.40E-09 9.40E-09 V

6.53E-%

7.60E-07 7.60E-07 TOT;L 2.3EE-% 1.97E-M 4.47E-04 9.12E-061.5BE-081.5EE-OS 1.9EE-05 3.93E-06 2.34E-06 2.63E-05 2.81E-041.63E-06 2.69E-05 7.80E-07 9.65E-07 0.00E40 8.24E-04 9

I.

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Table 4.7 Plant Casace State ar.d Core Damage Frecuencies for Model 0 Case 3 P.0 DEL 0 ET.SE 3 ETI ET2 ET3 ET4 ETS ET6 ET7 ET8 ET9 ET!! ET!24 ET13 ET14 ET15 ET16 ET17 TOTAL EFC 6.3EE-07 2.3E-07 8.EEE-07

~

EF ^

EC 1.14E-08 1.14E-08 E 9.15E-10 9.15E-10 1.83E-03 AlfC 1.54E-C61.54E-06 '

3.0SE46 ALF 5.55E-10 5.5EE-10 1.12E49 RC 1.14E-08 R. 1.14E-08 SEFC 2.05E-08 5.35E-08 9.53E-07 1.03E-06 SEF 3.32E-09 3.32E-09 SEC 8.03E-05 6.5EE-06 8.74E-05 SE 7.00E-06 1.75E-04 1.82E-04 SLFC 1.84E-05 1.19E-09 1.19E-09 7.77E-07 1.55E-07 9.27E-08 1.04E-06 1.75E-06 2.74E-07 1.0EE-06 4.55E-10 2.3EE-05 SLF 7.20E-09 2.94E-11 1.14E-08 1.EEE-09 SLC 3.30E-12 9.4EE-09 3.25E-10 9.79E-03 SL 2.04E-10 2.04E-10 TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.55E-07 3.9EE-061.4EE-07 2.59E-07 4.07E-06 2.8!E-09 1.24E-05 TEF 1.73E-10 3.4EE-!! 2.07E-11 9.60E-10 2.37E-10 1.43E-09 TEC 1.63E-101.63E-101.0!E-06 2.02E471.20E-071.35E-06 4.3EE-07 5.3EE-081.39E-06 0.00E+00 4.EEE-06 TE ,

1.05E-07 2.!CE-081.25E-081.40E-071.24E-05 5.!EE-091.44E-07 0.00E @ 1.EEE-05 V2E 5.62E-07

- 5.62E-07 V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 V 2.41E-06 7.80E-07 7.EGE-07 TOTAL 2.20E-061.79E-061.0EE-04 2.93E-061.24E-081.24E48 4.87E-06 9.72E-07 5.8CE-07 6.4EE-061.9EE-04 5.92E-07 6.67E-06 7.80E47 9.E0E-0

l .

Table 4.8 Plant Damage State and Core Damase Frequencies for Model 0 Case 4 a

MODEL0E5SE4 ET! ET2 ET3 ET4 ET5 ET6 ET7 ET8 ETS ETl! ETim ET13 ET14 ETIS ET16 ET17 TOTAL AEFC 6.36E-07 2.30E-07 8.66E-07 AEF EC 6.13E-08 6.13E-08 AE 1.03E-10 1.03E-10 2.06E-10 ALFC 1.54E-M !.54E-06 3.0SE-06 EF 5.58E-10 5.58E-10 ,

1.12E-09 ALC 6.13E-08 6.13E-08 R.

SEFC 2.03E-08

4.88E-08 9.53E-07 1.02E-06 .

SEF 3.32E-03 3.32E-09 SEC 4.16E-04 2.21E-05 4.33E-04 SE 1.66E-06 1.03E-04 1.05E-04 SLFC .!.84E-05 1.19E-091.19E-09 7.71E-071.54E-07 9.21E-081.03E-06 5.83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 7.20E-09 2.94E-11 1.62E-09 8.65E-03 SLC 3.30E-12 3.04E-09 9.30E-10 3.97E-09 SL 4.41E-11 4.41E-11 TEFC I

1.61E-091.61E-09 2.97E-M 5.96E-07 3.54E-07 3.%E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-11 2.07E-!! 9.60E-10 2.37E-10 1.43E-09 TEC 5.33E-10 5.33E-10 4.95E-M 9.91E-07 5.91E-07 6.64E-061.51E-06 2.62E-07 6.78E-06 0.00E+00 2.17E-05 TE 2.34E-08 4.68E-09 2.79E-09 3.14E-08 7.25E-06 1.05E-09 3.21E-08 0.00E+00 7.35E-06 V2E 2.61E 2.61E-06 l V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 2.41E46 l V 7.80E-07 7.80E-07

( TOTR. 2.25E-061.84E-06 4.37E-04 4.90E-061.27E-021.27E-08 8.71E461.74E-061.04E-061.17E451.35E44 7.97E-071.19E-05 7.80E-07 9.60E47 0.00E+00 6.!BE-04 I

l l

s Y q 6

. . _ . _ _ _ . __ m_.. . _ . _ _ . . . _ _ _ _ _ _ _

_ _ m . .

O' q . . ,

1 l '

Table 4.9 Plant Daanse State and Core Damage Freovercies for Model o Case 5 s

. . i MODEL 0 EASE 5 ET! ET2 Ei3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET!6 - ET17 TOTAL-

[ AEFC 5.3EE-07 2.30E-07 8.E6E-07

. +

AEC 1.14E-08 1.14E48 AE 1.03E-10 1.03E-10 2.06E-10

' ALFC 1.54E-M 1.54E-06 f 3.08E-06 ALF 5.58E-10 5.58E-10 '

1.12E-09 ALC 1.14E-08 R. !.14E-08 SEFC 1.88E-08 4.88E-08 9.53E-07 1.02E-(6 SEF 3.32E-09 3.32E-C3 ,

, SEC L08E-05 3.86E A SE 8.47E45 1.79E-06 4.99E-05 SLFC

. 5.17E-05

-1.84E-05 1.19E-091.19E49 7.71E-071.54E-07 9.21E-081.03E-06183E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 9.12E-09 2.94E-11 2.72E-09 1.19E48 SLC 2.28E-09 2.08E-08 3.25E-10 2.34E48 ,

SL 4.41E-11 4.41E-11 TEFC 1.61E-091.61E-09 2.97E-06194E-07 3.54E-07 3.96E46 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-112.07E-11 1.02E49 2.37E-10 1.4'f-09 TEC 1.63E-101.63E-101.01E-06 2.02E-071.20E-071.35E-06 2.58E-07 5.36E-081.39E-06 0.00E+00 4.33E-06 TE ,

2.34E-08 4.68E-09 2.79E-03 3.14E48 3.62E-061.05E-09 3.21E-08 0.00E+00 3.72E-06 V2E 5.29E-07 '

5.29E-07 V21. 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 i V 2.41E-06 i 7.80E-07 7.80E-07 10T4. 2.20E-061.79E-061.01E-04 2.30E-061.24E-081.24E48 4.78E46 9.55E-07 5.69E47 6.36E-06 5.84E45 5.88E-07 6.54E-06 7.80E-07 9.60; i l l t c

I i

j a , ,.~% - - - . -- - - . _ ~ v.~.

j -

i

]

Table 4.10 Plant Casage State and Core Damage Frequercies for Modde O CASE 6 s

MODEL 0 CASE 6 .

3 s i

j -s -

ET) ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ETil ET12A ET13 ET14 ET15 ET!6 ET17 TOTAL EFC 6.36E-07 2.50E-07 "

8.66E-07 4

. AEF AEC , , 1 14E-08 1.14E-03 AE 1.03E-10 h 03E-10 2.06E-10 ALFC 1.54E-M 1.54E-06 3.08E-06 ALF 5.58E-10 5.58E-10 1.12E-03

R.C 1.14E-08

, 1.14E-08

! AL

SEFC 1.88E-08 4.88E-08 9.53E-07

' 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 8.09E-05 3.86E-06 8.47E45 SE 1.68E46 4.99E-05 5.1EE-05 4

SLFC 1.84E-05 1.19E-091.19E49 7.71E-071.54E-07 9.21E-081.03E-06 5.84E-07 2.74E-071.06E-06 4.55E-10

"~ 2.24E-05 SLF 7.20E-09 2.94E-Il 1.62E-09

' 8.85E-09 SLC 3.3fE-12 3.04E-09 3.25E-10 3.37E-09 SL 4.41E-11 4.4tE-!!

TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.%E-06 6.25E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.4EE-Il 2.07E-ll 9.6(E-10 2.37E-10 1.43E-09 TEC

, 1.63E-10 1.63E-10 1.01E-06 2.02E-07 1.20E-07 1.35E-05 2.57E-07 5.36E-08 1.39E-06 0.00E+00 4.38E-06 TE 2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.62E-061.05E-03 3.21E-08 0.00E+00 3.72E-06 V2E

5.29E-07 5.29E-07 V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 .

2.4IE-06 V ~

7.80E-07 7.80E-07 TOTAL 2.20E-061.81E-061.01E-04 2.90E-061.24E-081.24E-08 4.78E-06 9.55E-07 5.69E-07 6.36E-06 5.83E-05 5.88E-07 6.54E-06 7.80E-07 9.60E-07 0.00E+001.8SE-04 e

9

}

i

i .

Table 4.11 Plant Damage State and Core Damage Frecuencies for Model 0 Case 7 i

MODEl. 0 EASE 7 ET! ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TOTAL AEFC 6.66E-07 2.63E-07

AEF 9.31E-07 l

AEC' !.14E-08 '

1.14E48

AE 1.03E-10 1.03E-10 -

2.06E-10 ALFC 1.62E-06 1.62E-06 3.24E-(6

.{ ALF 5.56E-10 5.5SE-10 s 1.12E-09

ALC 1.14E-08 1.14E-08 AL l{

SEFC 1.88E-08

' 4.89E-08 I 9.53E-07 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 8.08E-05 l 3.86E-06 8.47E-05 l SE 1.68E-06 4.99E-05 5.16E-05

'i SLFC 2.35E-05 1.19E-091.19E-09 9.84E-071.97E-071.17E-071.31E-06 9.25E-07 3.49E-071.35E46 4.55E-10 2.87E-05 SLF 8.39E-09 2.94E-!! 3.80E-09 1.22E-08 SLC 3.30E-12 5.87E-09 3.25E-10 6.20E-03

,; SL -

3.92E-10 TEFC 3.92E-10

1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.%E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-11 2.07E-!! 9.60E-10 2.37E-10 1.43E-09

, TEC 1.63E-101.63E-101.01E-06 2.02E-071.20E-071.35E-06 2.57E-07 5.36E-081.39E46 0.00E+00 4.35E-06 TE ,

2.34E-08 4.66E-09 2.79E-09 3.14E-08 3.62E-06 1.05E-09 3.21E-08 0.00E+00 3.72E-06 V2E 5.29E-07 '

5.29E-07 V2L 9.40E-09 9.40E-09 2.44E-06 9.40E-09 9.40E-09 .-

V 2.48E-06 7.80E-07 7.80E-07 TOTAL 2.31E-061.90E-061.06E-04 2.97E-061.24E-081.24E-08 4.99E-06 9.98E-07 5.94E-07 6.65E46 5.87E-05 6.63E-07 6.83E-06 7.80E-07 9.60E-0

+

J t

i 9

1

j -

i L -

l Table 4.12 Plant Damage State and Core Damane Frequencies for Model 0 Case 8 l MODEl. 0 EASE 8 t

j ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET!3 ET14 ET15 ET!6 ET17 TOTAL

. AEFC 5.36E-07 2.30E-07 8.6EE-07 AEF EC 1.14E-08 1.14E48 AE 1.03E-10 1.03E-10 2.0EE-10 ALFC 1.54E-M 1.54E-06 3.08E46 Alf 5.58E-10 5.58E-10 1.12E-03 ALC 1.14E-08 1.!4E-08 AL SEFC 5.08E-08 4.88E-08 9.53E-07 1.05E-06 i SEF 9.18E-09 9.!EE-09 SEC 8.08E-05 3.86E-06 8.47E-05 SE 1.68E-06 4.99E-05 5.!EE-05 SLFC 1.84E-05 1.33E-091.33E-09 2.26E-05 4.52E-07 2.70E-07 3.01E-06 8.55E-07 3.49E-07 3.09E-06 4.55E-10 2.87E-05 SLF 7.20E-09 2.60E-10 1.85E-09 9.31E-09 SLC 3.30E-12 4.48E-09 3.25E-10 4.81E-03 SL 4.41E-11 4.41E-11 TEFC 4.44E-09 4.44E-09 8.58E-06 1.72E-06 1.02E-06 1.14E-05 1.20E-07 7.50E-07 1.18E-05 2.81E-09 3.54E-05 TEF

!.53E-09 3.06E-10 1.83E-10 3.57E-09 2.10E-03 7.6SE-09 TEC 2.47E-10 2.47E-101.60E-06 3.19E-071.91E-07 2.14E46 3.92E-07 8.4EE-08 2.19E-06 0.00E+00 6.91E-06 TE ,

3.48E-08 6.93E-09 4.14E-09 4.64E-08 5.35E-06 1.61E-09 4.77E-08 0.00E+00 5.49E-06

, V2E 5.29E-07 *

. 5.29E-07

[ V2L 9.40E-03 9.40E-09 6.41E46 9.40E-09 9.40E-09 6.45E-06 i V 7.80E-07 7.80E-07 TOTAL 2.20E-06 1.79E-06 1.01E-04 6.94E-06 1.54E-08 1.54E-08 1.25E-05 2.50E-06 1.49E-06 1.66E-05 6.05E-05 1.19E-06 1.71E-05 7.80E-07 9.65E-07 0.00E 40 2.26 i

}

I

. =

e t 4

4 Table 4.13 Plant Damage State and Core Damage Frequenefes for Model 0 Case 9 s

MODEL 0 CASE 9 l

i ET! ET2 ET3 ET4 ETS ET6 ET7 ET8 ET9 ETil ET12A ET13 ET14 ET15 ET16 ET17 TOTAL ,

AEFC 6.36E-07 2.30E-07 8.66E-07

, AEF AEC 1.14E-08 1.14E-08 AE 1.03E-10 1.03E-10 2.0EE-10 4

ALFC 1.54E-(61.54E-06 3.0SE-06 ALF 5.58E-10 5.58E-10 ,

1.12E-09 i ALC 1.14E-08 1.14E-08 R.

i SEFC 1.88E-08 4.88E-08 9.53E-07 1.02E-05 SEF

3.32E-09 3.32E-09

. SEC 8.08E-05 3.86E-06 8.47E-05 SE 1.68E-06 4.99E-05 5.1EE-05 l SLFC 1.84E-05 1.19E-091.19E-09 7.74E-071.55E-07 9.22E-081.03E-06 6.39E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 7.20E-09

2.94E-11 1.65E-09 8.85E-03 j SLC 3.30E-12 3.39E-09 3.25E-10 3.72E-09 SL 4.41E-11 4.41E-11 TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.%E-05 6.13E-08 2.59E-07 4.07E-06 2.81E-03 1.23E-05 TEF 1.73E-10 3.4EE-!! 2.07E-11 9.60E-10

2.37E-10 1.43E-03 TEC 1.63E-101.63E-101.01E-06 2.02E-071.20E-071.35E-06 2.57E-07 5.3EE-081.39E-06 0.00E+00 4.3aE-06 TE 2,34E-08 4.66E-09 2.79E-09 3.14E-05 3.62E-06 1.05E-09 3.21E-08 0.00E+00 3.72E-06 V2E 5.29E-07 - 5.29E-07 V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 , 2.41E-06 V

7.80E-07 7.80E-07 TOTAL 2.20E-061.79E-061.01E-04 2.90E-061.24E-081.24E-08 4.78E-06 9.56E-07 5.69E-07 6.37E-06 5.84E-05 5.88E-07 6.55E-06 7.80E-07 9.60E-07 0.00E+001.ESE-04

. s G

4

f

(

Table 4.14 Plant Damage State and Core Damap Frequencies for Mode! ! Case 1 MODEL 1 EASE 1 ET! ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 TOTAL

. AEFC 6.36E-07 2.30E-07 AEF 8.66E-07 AEC 1.14E-08

, 1.14E-08 AE 1.03E-10 1.03E-10 2.06E-10 M C. 1.54E 4 1.54E-06 3.08E-06 ALF 5.58E-10 5.58E-10 1.12E-09 ALC 1.14E-08 R 1.14E-08 SEFC 1.88E-08 4.88E-08 9.53E-07 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 5.54E-04 3.86E-06 5.58E-04 SE 1.78E-05 4.99E-05 5.17E-05 SLFC 1.84E-05 1.19E-091.19E-09 7.71E-071.54E-07 9.21E-081.03E-06 5.83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 7.20E-09 2.94E-11 1.62E-09

8.85E-09 SLC 3.30E-12 3.04E-09 3.25E-10 3.37E-09 SL 4.41E-11 4.41E-11 TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E48 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-!! 2.07E-!! 9.60E-10 2.37E-10 1.43E-09 TEC 1.63E-101.63E-101.01E-06 2.02E-071.20E-071.35E-06 2.57E-07 5.36E-081.39E-06 3.37E-05 3.81E-05

, TE 2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.62E-06 1.05E-09 3.21E-08 2.00E-08 3.74E 4 V2E 5.29E-07 5.29E-07 V2L 9.40E-09 9.40E-09 2.37E-06 9.40E49 9.40E-09 V 2.41E-06 7.80E-07 7.80E-07 TOTAL 2.20E-061.79E-06 5.75E-04 2.90E-061.24E-081.24E-08 4.78E-06 9.55E-07 5.G9E-07 6.36E-06 5.83E-05 5.88E-07 6.54E46 7.80E-6 m

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Table 4.16 Plant Damage State and Core Damap Frequencies for Model 1 Case 3 I

MODEl. I CASE 3 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TOTAL AEFC 6.36E-07 2.30E-07 AEF 8.66E-07

' AEC 1.14E-08

, 1.14E-08 AE 9.15E-10 9.15E-10 1.83E-09 ALFC 1.54E-06 1.54E-06 3.08E-06 ALF 5.58E-10 5.58E-10 1.12E-09 ALC 1.14E-08 AL 1.14E-08 SEFC 2. 05E-08 5.38E-08 9.53E-07 1.03E-06 SEF 3.32E-09 3.32E-09 SEC 5.54E-04

' 6. 56E-06 5.61E-04 SE 7.10E-06 1.75E44 1.82E-04 SLFC 1. 84; -05 1.19E-091.19E-09 7.77E-071.55E-07 9.27E-081.04E-061.78E-06 2.74E-071.06E-06 4.55E-10 2.36E-05 SLF 7.20E-09 2.94E-!! 1.14E48 1.86E-08 SLC 3.30E-12 9.46E-09 3.25E-10 9.79E-09 SL 2.04E-10 2.04E-10 TEFC 1.61E-091.61E-09 2.97E-06 5.94E47 3.55E-07 3.96E-061.46E-07 2.59E-07 4.07E-06 2.81E-09 1.24E-05 TEF 1.73E-10 3.46E-Il 2.07E-Il 9.60E-10 2.37E-10 1.43E-09 TEC 1.63E-10 1.63E-10 1.01E-06 2.02E-07 1.20E-07 1.35E-06 4.38E-07 5.36E-08 1.39E-06 3.37E-05 3.83E-05 TE 1.05E47 2.10E-081.25E-081.40E471.24E45 5.18E-091.44E-07 2.00E-08 1.28E-05 V2E 5.62E-07 5.62E-07 V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 V 2.41E-06 7.80E-07 7.80E-07 TOTAL 2.20E-061.79E-06 5.80E-04 2.93E-061.24E-081.24E-08 4.87E-06 9.72E-07 5.80E-07 6.48E-061.96E-04 5.92E-07 6.67E-06 s

t 1

l g . ,.

f , j Table 4.17 Plant Damage State and Core Damage Frequercles for flodel 1 Case 4 IIDDEL 1 CASE 4 ET! ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TOTAL AEFC 6.36E47 2.30E-07 AEF 8.66E-07 AEC 6.13E-08 6.13E-08 AE 1.03E-10 1.03E-10 2.06E-10

ALFC 1.54E-06 1.54E-06

' 3.08E46 RJ 5.58E-10 5.58E-10 1.12E-09 i ALC 6.13E-08

' 6.13E-08 R.

l SEFC 2.03E-08 4.88E-08 9.53E-07 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 4.02E-03 2.21E-05 4.04E-03 SE 2.48E46 1.03E-04 1.05E-04 SLFC 1.84E-05 1.19E-09 1.19E-09 7.71E-07 1.54E-07 9.21E-08 1.03E-06 5.83E-07 2.74E-07 1.06E-06 4.55E-10 2.24E-05 SLI 7.20E-09 2.94E-11 1.62E-09 8.85E-09 SLC 3.30E-12 3.04E-09 9.30E-10 3.97E-03 SL 4.41E-11 4.4tE-Il TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-11 2.07E-Il 9.60E-10 2.37E-10 1.43E-09 TEC 5.33E-10 5.33E-10 4.95E-06 9.91E-07 5.91E-07 6.64E-061.51E-06 2.62E-07 6.78E46 2.57E-04 2.78E-04 TE 2.34E-08 4.68E49 2.79E-09 3.14E-08 7.25E-061.05E-09 3.21E-08 1.52E-07 7.50E-06 V2E 2.61E-06 2.61E-06 V2L 9.40E-09 9.40E-09 2.37E-(6 9.40E-09 9.40E-09 V

2.41E-06 7.80E-07 7.80E-07 TOTAL 2.25E-061.84E-06 4.04E-03 4.98E-(61.27E-081.27E-08 8.71E-061.74E461.04E-061.17E-051.35E-04 7.97E-071.19E-05 7.20E-07 9.60E-0

Table 4.18 Plant Damage State and Core Damage Frequencies for Mode! ! Case 5 M(EEL 1 CASE 5 ET! ET2 ET3 ET4 ETS ET6 ET7 ET8 ET9 ETil ET12A ET13 ET14 ET15 ET16 ET17 TOTAL.

4 AEFC 6.36E-07 2.30E-07 8.66E-07 EC 1.14E-08 AE g 1.14E-08 1.03E-101.03E-10 ALFC 1.54E-061.54E-06 2.06E-10 3.0SE-06 ALF 5.58E-10 5.58E-10 1.12E-09 ALC 1.14E-08 R. 1.14E-08 SEFC 1.88E-08 4.88E-08 9.53E-07 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 5.54E-04 3.86E-06 5.58E-04 SE 1.79E-06 4.99E-05 5.17E45 SLFC 1.84E-05 1.19E-091.19E-09 7.71E-071.54E-07 9.21E-081.03E-06 5.83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 9.12E-09 2.94E-11 2.72F-09 1.19E-08 SLC 2.28E-09 I 2.08E-08 3.25E-10 2.34E-08 SL 4.41E-11 4.41E-11 TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E46 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-11 2.07E-11 1.02E-09 2.37E-10 1.49E-09 TEC

, TE 1.63E-101.63E-101.01E-06 2.02E-071.20E-071.35E-06 2.58E-07 5.36E-081.39E46 3.37E-05 3.81E-05 2.34E-08 4.68E49 2.79E-09 3.14E48 3.62E-061.05E49 3.21E-08 2.48E-08 3.74E-06 V2E 5.29E-07 V2L 9.40E-09 9.40E-09 5.29E-07 2.37E46 9.40E-09 9.40E-09 V 2.41E-06 7.80E-07 7.80E-07 TOTAL 2.20E-061.79E-Oti 5.75E-04 2.90E461.24E-081.24E-08 4.78E-06 9.55E-07 5.69E-07 6.36E-06 5.84E-05 5.88E-07 6.54E a

_ _ __ . . _ . - __ ._. _ ._ .m . _ . . - . . . _ .._ .__ _ . . _ . -_

4.

1 t

Table 4.19 Mant Damage State and Core Damage Frequencies for Itale! ! Case 6 1

IEIDEL 1 CASE 6 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET124 ET13 ET14 ET15 ET16 ET17 TOTAL EFC 6.36E-07 2.50E-07 8.86E-07 AEF AEC 1.14E-08 i

, 1.14E-08 AE 1. E -10 1.01-10 2.06E-10 R FC 1.54E-06 1.54E-06 3.08E-06 5 ALF 5.58E-10 5.58E-10 1.12E-09 EC 1.14E-08 [

1.14E4B AL

SEFC 1.88E-08 4.88E-08 9.5lE-07 1.02E46 SEF 3.32E-09 3.32E-09 SEC 5.54E-04 3.8CE-06 5.58E-04 i SE 1.78E-06 4.99E-05 5.17E-05

SLFC 1.84E-05 4

1.19E-091.1E-09 7.71E-071.54E-07 9.2iE-081.03E-06 5.84E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 7.20E-09 2.94E-!! 1.62E49 ~8.85E-09 -

l SLC 3.30E-12 3.04E-09 3.25E-10 3.37E-09 SL i 4.41E-!! 4.41E-11

! TEFC 1.61E-091.61E-09 2.9?E-06 5.94E-07 3.54E47 3.96E-06 6.25E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 !

TEF 1.73E-10 3.46E-11 2.07E-11 9.60E-10 2.37E-10 1.43E-09 t TEC 1.63E-101.63E-101.01E-06 2.02E-071.20E471.35E-06 2.57E-07 5.36E-081.39E-06 3.37E-05 3.81E-05

TE 2.34E-08 4.68E49 2.79E-09 3.14E-08 3.62E-061.05E-09 3.21E-08 2.00E-08 3.74E-06

{ V2E 5.29E-07 j 5.29E-07 V2L 9.40E49 9.40E-09 2.37E-06 9.40E-09 9.40E-09 ,

V 2.41E-06 ['

} 7.80E-07 7.80E-07 i TOTit. 2.20E-061.81E-06 5.75E44 2.90E-061.24E-081.24E-08 4.78E-06 9.55E47 5.69E-07 6.36E-06 5.83E-05 5.88E-07 6.54E-06 7.80E-07 9 1 !

r I

k

~

i I

\

Table 4.20 Plant Damap State and Corv Damage Frequercies for Model 1 Case 7 M1IIEl.1 DEE 7 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 TOTAL i AEFC 6.68E47 2.63E-07 EF 9.31E-07 AEC 1.14E-08 AE 1.03E-10 1.03E-10 ' 1.14E-08 ALFI; 1.62E-061.62E-06 2.06E-10 ALF 5.58E-10 5.58E-10 3.24E-06 i ALC 1.14E-08 1.12E-09 R. 1.14E48 SEFC 1.88E-08 4.88E-08 9.5?E-07 1.02E-06 SEF SEC 3.32E49 3.32E49 5.54E-04 3.86E-06 5.58E-04 SE 1.78E-06 4.99E-05 5.17E-05 SLFC 2.35E-05 SLF 1.19E-091.19E-09 9.84E-071.97E-071.17E471.31E-06 9.25E-07 3.49E-071.35E-06 4.55E-10 2.87E-05 <

8.39E-99 2.94E-!! 3.80E-03 1.22E-08 SLC 3.30E-12 5.87E-09 3.25E-10 6.20E-09 SL ,

3.92E-10 3.92E-10 TEFC 1.61E-09 1.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-!! '2.07E-11 9.60E-10 2.37E-10 1.43E-09 TEC

, TE

!.63E-10 1.63E-10 1.01E-06 2.02E-07 1.20E-07 1.35E-06 2.57E-07 5.36E-08 1.39E-06 3.37E-05 3.81E-05 2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.62E-06 1.05E-09 3.21E-08 2.00E-08 3.74E-06 V2E 5.29E-07 V2L 9.40E-09 9.40E-09 5.29E-07 2.44E-06 9.40E-09 9.40E-09 V 2.4BE-06 7.80E-07 7.80E-07 TOTAL 2.31E-061.90E-06 5.80E-04 2.97E-061.24E-081.24E-08 4.99E-06 9.98E-07 5.94E-07 6.65E-06 5.87E-05 6.63E-07 6.83E P

4

't I

1 1

', Table 4.21 Plant Damap State and Core Dasay Frequercies for Model 1 Case 8 g .

j IElDEL 1 CE 8

, ETI ET2 ET3 ET4 ET5 ET6 ET7 -ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TOTAL

, EFC 6.36E47 2.30E-07 AEF gg AEC 1.14E-08 AE 1.0 K-10 1.03E-10 I ALFC 1.54E-06 1.54E-06 3.08E-06 ALF 5.58E-10 5.58E-10 l ALC 1.14E-08 1.12E 4 l g 1.14E-08 SEFC 5.08E-08 ~

4.88E-08 9.53E-07 1.05E-06 SEF 9.18E-09 9.18E-09 '

SEC 5.54E-04 3.86E-06 5.58E-04 SE 1.78E-06 4.99E-05 5.17E-05 SFC 1.84E-05 1.33E-091.33E-09 2.26E-M 4.52E-07 2.70E-07 3.01E-06 8.55E-07 3.49E-07 3.09E-06 4.55E-10 2.87E-05 SLF 7.20E-09 2.60E-10 1.85E-09 9.31E-09

, RC 3.30E-12 i 4.48E-09 3.25E-10 4.81E-09 SL 4.41E-11 4.41E-11 1 TEFC 4.44E49 4.44E-09 8.58E-061.72E-061.02E-061.14E451.20E-07 7.50E-071.18E-05 2.81E-09 3.54E-05

)

TEF 1.53E49 3.06E-101.83E-10 3.57E-09 2.10E49 7.68E-09 TEC l 2.47E-10 2.47E-10 1.60E-06 3.19E-07 1.91E-07 2.14E-06 3.92E-07 8.46E-08 2.19E-06 5.15E-05 5.84E-05 TE V2E 3.48E48 6.93E-09 4.14E-09 4.64E48 5.35E-061.61E-09 4.77E-08 3.11E-08 5.52E-06 5.29E-07 l 5.29E-07 t V2L 9.40E-09 9.40E-09 6.41E-06 9.40E49 9.40E-09 V 6.45E-06 f 7.80E-07 7.80E-07 TOT,1. 2.20E-061.79E-06 5.75E-04 6.94E-061.54E481.54E-081.25E45 2.50E-061.49E-061.66E-05 6.05L451.19E461.71E-05 7.80E47 9.65E-07 5.15E-05 7.51E- !

l !

h 4

l

~

9 i

I Table 4.22 Plant Damap State and Core Damage Frequencies for limir! ! Case 9 IGEL 1 CE 9 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ETil ET12A ET13 ET!4 ET15 ET16 ET17 TOTE EFC L36E47 2.30E-07 AEF 8.66E-47 EC 1.14E-08 AE I.0E-10 1.0E-10 1.14E-08 E FC 1.54E-06 1.54E 4 2.06E-10 EF 5.58E-10 5.58E-10 3.08E-06 EC 1.14E-08 1.12E-09 AL 1.14E-08 SEFC 1.88E-08 4.88E-08 9.53E-07 1.02E-06 SEF SEC 3.32E-09 3.32E49 5.54E-04 3.86E-06 5.58E-04 SE 1.78E-06 4.99E-05 5.17E SLFC 1.84E-05 1.1W491.19E49 7.74E471.55E-07 9.22E-081.03E-06 6.39E-07 2.74E-071.06E-06 4.55E-10 2.24E45 EF 7.20E-09 2.94E-Il 1.65E49 8.88E-09 EC 3.30E-12 3.39E-09 3.25E-10 3.72E-09 SL 4.41E-11 4.41E-fl TEFC TEF 1.6iE-051.61E-05 2.97E-06 5.94E-07 3.54E47 3.96E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.2K45 1.7K-10 3.46E-f! 2.07E-!! 9.60E-10 2.37E-10 1.43E-09 TEC TE 1.6E-101.6E-101.01E-06 2.02E-071.20E-071.35E-06 2.57E-07 5.36E-081.39E46 3.37E-05 3.'81E-05 I V2E 2.34E48 4.68E-09 2.79E49 3.14E-08 3.62E-061.05E-09 3.21E-08 2.00E-08 3.74E-06 5.29E-07 V2L 9.40E-09 9.40E-09 5.29E-07 2.37E-06 9.40E-09 9.40E-09 V 2.41E-06 7.80E-07 7.80E-07 TOTR. 2.20E-061.79E-06 5.75E-04 2.90E-061.24E-081.24E-08 4.78E-06 9.56E47 5.69E-07 6.37E-06 5.84E-05 5.88E47 6.5 9

Table 4.23 Plant Damay State and Core Dasa p Frequencies for Model 2 Case 1 I G EL 2 CASE 1 ET! ET2 ET3 ET4 ET5 ET6 ET7 ET8 ETS ET!! ET12A ET13 ET14 ET15 ET16 ET17 TOTAL EFC 6.36E-07 2.30E-07 EF '

8.66E-07

, AEC 1.14E-08 AE 1.0 I-10 1.03E-10 1.14E-06 ALFC 1.54E-06 1.54E-06 2.06E-10 3.06E-06 ALF 5.58E-10 5.58E-10 ALC 1.14E-08 1.12E-09 AL 1.14E-08 g

SEFC 1.88E-08 4.88E-08 9.53E-07 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 187E-07 5.26E-09

SE 5.93E-07 1.16E-06 2.42E-07 SLFC 2.54E-07 1.84E-05 1.19E-09 1.19E-09 7.71E-07 1.54E-07 9.21E-08 1.03E-06 5.83E-07 2.74E-07 1.06E-06 4.55E-10 2.24E-05 SLF 7.20E-09 2.94E-11 1.62E-09 8.85E-09 SLC 3.30E-12 3.04E-09 3.25E-10 3.37E-09 SL 4.41E-!! 4.41E-!!

TEFC TEF

.l.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.53E-07 4.07E-06 2.81E-09 1.23E-05

!.73E-10 3.46E-11 2.07E-11 9.60E-10 2.37E-10 1.43E-09 TEC 1.63E-101.63E-101.01E-06 2.02E-071.20E-071.35E-06 2.57E-07 5.36E-081.39E-06 3.37E-05 3.81E-05

> TE 2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.62E-06 1.05E-09 3.21E-08 2.00E-08 3.74E-06 V2E 5.29E-07 5.29E-07 V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 3 V 2.41E-06 7.80E-07 7.80r-o/

TOTit. 2.20E-061.79E-061.90E-05 2.90E-C51.24E-081.24E-08 4.78E-06 9.55E-07 5.69E-07 6.36E-06 4.82E-06 5.88E-07 6.54E 1

b I

i t i e

w, m - --

Table 4.24 Plant Damap State and Core Damage Frequencies for hi,el 2 Case 2 1 <

MIEEL 2 CASE 2 ETI ET2 ET3 ET4 ETS ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 KFC 6.68E47 2.82E-07 TOTAL !

AEF 9.50E-07 e AEC 6.13E-08' AE 5.15E-10 9.15E-10 6.13E-08 i

ALFC 1.62E-06 1.62E-06 1.83E-09 ALF 5.58E-105.58E-10 3.24E-06 ALC 6.13E-08 1.12E-09 A s 6.13E48. r SEFC 5.40E-08 SEF 5.3BE-08 9.53E-07 1.06E-06 SEC 3.20E-06 9.18E-09 9.18E-09 3.86E-08 3.24E-06 SE 5.28E-08 6.16E-07 6.69E-07 SLFC 2.35E-05 SLF 1.33E-091.33E-09 2.90E-06 5.79E-07 3.46E-07 3.86E-06 2.71E-06 4.45E-07 3.97E-064.55E-10 3.83E-05 1.03E-08 2.20E-10 2.16E-08 3.21E-08 SLC 2.28E-09 8.04E-06 9.30E-10 8.36E-08 SL TEFE 1.81E49 1.81E-09 TEF 4.44E-09 4.44E-09 8.58E-061.72E-061.02E-061.14E-05 2.08E-07 7.5E-071.18E-05 2.81E-09 3.55E-05 1.53E-09 3.06E-10 1.83E-10 4.16E-09 2.10E-09 TEC 8.28E-09 TE 6.17E-10 6.17E-10 LO1E-061.60E-06 9.57E-071.08E-05 2.56E-06 4.24E-071.10E-05 3.92E-04 4.28E-04 V2E 1.40E-07 2.81E-081.68E-081.88E-07 2.22E-05 7.03E-091.92E-07 2.94E-07 2.31E-05 2.64E-06 V2L 9.40E-09 9.40E-09 2.64E-06 6.48E-06 9.40E-09 9.40E-09 V 6.52E-06 7.80E-07 7.80E-07 TOTA 2.36E-061.97E-06 2.68E-05 9.12E-061.58E-081.58E-081.96E-05 3.93E-06 2.34E-06 2.63E-05 2.85E-051 o

i G

, _ _ =

l i .

I Table 4.25 Plant Damap State and Core Banny Freqwncies for llodel 2 Case 3 IEEEL 2 DIBE 3 ET! ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ETi& ET17 TOTAL EFC 6.36E-07 2.30E-07 NEF 8.66E-07

, EC 1.14E-08 AE 9.15E-10 9.15E-10 1.14E-08 KFC 1.54E-06 1.54E-06 1.83E-09 ALF 5.58E-10 5.58E-10 3.08E-06 RC 1.14E-08 1.12E-09 E 1.14E-08 SEFC 2.05E-08 5.38E-08 9.53E-07 1.03E-06 SEF SEC 3.32E-09 3.32E-09

5. 87E-07 1.02E-08 SE 5.98E-07 5.26E-08 5.30E-07 SLFC 5.83E-07 1.84E-05 SLF 1.19E-091.1E-09 7.77E-071.55E-07 9.27E-081.04E-061.78E-06 2.74E-071.06E-06 4.55E-10 2.36E-05 7.20E-09 2.94E-11 1.14E-08 SLC 1.86E-08 3.30E-12 9.46E-09 3.25E-10 9.79E-03 SL 2.04E-10 2.04E-10 TEFC 1.61E-09 1.61E-09 2.97E-06 5.94E-07 3.55E-07 3.96E 4 1.46E-07 2.59E-07 4.07E-06 2.81E-09 1.24E-05 TEF 1.73E-10 3.46E-!! 2.07E-119.60E-10 2.37E-10 1.43E-09 TEC TE 1.63E-10 1.63E-10 1.01E-06 2.02E-07 1.20E-07 1.35E-06 4.38E-07 5.36E-08 1.39E-06 3.37E-05 3.83E-05 1.05E-07 2.10E-081.25E-061.40E-071.24E-05 5.18E-091.44E-07 2.00E-08 1.28E-05 V2E 5.62E-07 V2L 9.40E-09 9.40E-09 5.62E-07 2.37E-06 9.40E-09 9.40E-09 .

V 2.41E-06 7.80E-07 7. 80E-07 TOTAL 2.20E-061.79E-061.91E-05 2.93E-061.24E-081.24E-08 4.87E-06 9.72E-07 5.80E-07 6.48E-061.ME-05 5.92E-07 a

7 e

O

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

Table 4.26 Plant Dasa y State and Core Dama p Frequencies for stodel 2 Case 4 i

IGEl. 2 CASE 4 ET1 ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ETl! ET12A ET13 ET14 ET15 ET16 ET17 TOTAL AEFC 6.EE-07 2.30E-07 EF 8.6EE-07 EC 6.13E-08 i E 1.03E-10 1.03E-10 6.13E-08 ALFC 1.54E-06 1.54E-06 2.0EE-10 ;

ALF 5.58E-10 5.58E-10 3.08E-06 '

, ALC 6.13E-fA 1.12E-09 R. 6.13E-08

, SEFC 2.03E-08 4.88E-08 9.53E-07 1.02E-06

{ SEF j SEC 3.32E-09 3.32E-03 3.20E-06 1 3.37E-08 3.23E-06 SE 1.17E-08 3.28E-07 3.40E-07 j SLFC 1.84E-05 SLF 1.19E-09 1.19E-09 7.71E-07 1.54E-07 9.21E-08 1.03E-06 5.83E-07 2.74E-07 1.06E-06 4.55E-10 2.24E-05 7.20E-09 ;

2.94E-!! 1.62E-09 8.8 2-09 SLC 3.30E-12

3.04E-09 9.30E-10 3.97E-09 i SL 4.41E-11 4.41E-!! i TEFC

TEF 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05

!.73E-10 3.46E-!! 2.07E-11 9.60E-10 2.37E-10 TEC 1.43E-09 l

TE 5.33E-10 5.3 E-10 4.95E-06 9.91E-07 5.91E-07 6.64E-06 1.51E-06 2.62E-07 6.78E-06 2.57E-0* 2.78E-04

~

2.34E-08 4.68E-09 2.79E-09 3.14E-C8 7.25E-061.05E-09 3.21E-08 1.52E-07 7.50E-06

} V2E 2.61E-06 V2L 9.40E-09 9.40E-09 2.61E-06

, 2.37E-06 9.40E-09 9.40E-09 ;

V i 2.41E-06 i

7.80E-07 7.60E-07 l

i TOTR. 2.25E-061.84E-06 2.16E-05 4.98d-061.27E-081.27E-08 8.71E-061.74E-061.04E-061.17E-05 9.82E-06 7.97E-;

i o i

i 1

1 -

i :

t ,

,e Table 4.27 Plant Damage State and Core Damage Frequencies for flodel 2 Case 5 l'

1: ,

NIIEl. 2 CASE 5

r ETt ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET!4 ET!5 ET16 ET17 TOTAL AEFC 6.36E-C7 2.30E-07 AEF 8.66E-07 i AEC 1.14E-08 AE !.0 I-10 1.03E-10 1.14E48 ,

2.06E-10 ;

ALFC !.54E-061.54E-06 3.08E-06 ALF 5.58E-10 5.58E-10 !

i ALC 1.14E-08 1.12E-09

4. 1.14E48 [

SEFC 1.88E-08 t 4.88E-08 9.53E-07 1.02E-06 SEF I 3.32E-09 3.32E-09 l SEC 5.87E-07 5.26E-09 5.93E-07 -

SE 1.16E-06 2.42E47 2.54E-07 SLFC 1.84E-05 1.19E-091.19E-09 7.71E-071.54E47 9.21E-081.03E-06 5.83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 9.12E-09 ;

2.94E-11 2.72E-09 1.19E-06 SLC 2.28E-09 2.08E-06 3.25E-10. 2.34E-08 SL s 4.41E-11 4.41E-!! !

TEFC

!.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-06 2.59E-07 4.07E-06 2.81E-09 1.23E-05 l TEF 1.73E-10 3.46E-11 2.07E-!! 1.02E-09 2.37E-10 1.49E-09 i TEC 1.63E-101.63E-101.0!E-06 2.02E-071.20E-071.35E-06 2.58E-07 5.36E481.39E-06 3.37E-05 3.81E-05 TE ;

2.34E-08 4.68E-09 2.79E-09 3.14E-03 3.62E-061.05E-09 3.21E-08 2.48E-08 3.74E-06

] V2E 5.29E-07 [

5.29E-07 ;

j V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09

) V 1

2.41E-C6 4 7.80E-07 7.80E-07 TOTAL 2.20E-061.79E-061.90E-05 2.90E-061.24E-081.24E-08 4.78E-06 9.55E-07 5.69E-07 6.36E-06 4.84E-06 5.88E-07 6.54E-i i *

}

l t

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

Table 4.28 Plant Dasage State and Core Dasa;e frequencies for Model 2 Case 6 ICO. 2 CR 6 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 TOTit.

EFC 6.3EE-07 2.50E-07 '

EF 8.6EE-07

, EC 1.14E-08 E 1.03E-10 1.03E-10 1.14E48 ALFC 1.54E-061.54E-06 2.0EE-10 ALF 5.5SE-10 5.5SE-10 3.0eE46 ALC 1.14E-08 1.12E-09 AL 1.14E-08 SEFC 1.8sE-08 4.8aE-08 9.53E-07 - 1.02E-C6 SEF SEC 3.32E-09 3.32E-09 5.87E-07 5.2EE-09 SE 5.93E-07 1.1EE-08 2.42E-07 2.54E-07 SLFC 1.84E-05 SLF 1.19E-091.19E49 7.71E-071.54E47 9.21E-081.03E-06 5.34E-07 2.74E-071.0EE46 4.55E-10 2.24E-05 7.20E-09 2.94E-!! 1.62E-09 SLC 8.65E-09 3.30E-12 3.04E-09 3.25E-10 3.37E-03 C.

4.41E-!! 4.41E-!!

TEFC TEF' 1.61E-091.61E-09 2.97E46 5.94E-07 3.54E-07 3.5EE46 6.2SE-08 2.53E-07 4.07E-06 2.81E-09 1.23E-05

!.73E-10 3.4EE-11 2.07E-11 9.6CE-10 2.37E-10 TEC 1.43E-09 TE 1.63E-101.63E-101.0!E-C6 2.02E-071.20E-071.35E-06 2.57E-07 5.3EE-081.39E-06 3.37E-05 3.E!E-05 2.34E-08 4.ESE-03 2.79E-09 3.14E48 3.62E-061.05E-09 3.21E-08 2.00E-08 3.74E-06 V2E 5.29E-07 V2L 9.40E-09 9.40E-09 5.23E-07 2.37E-06 9.40E-09 9.40E-09 V 2.41E-06 7.60E-07 7.874-07 TOTAL 2.20E-061.81E461.9CE-05 2.90E-061.24E-081.24E-08 4.78E-06 9.55E-07 5.69E-07 6.3EE-06 4.82E-06 5.8EE-07 6.5

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

. . ._ . . _ . - . .s i

i - t

, Table 4.29 Plant Damage State and Core Damage Frequercies for Model 2 Case 7 MIEEL 2 CA!E 7 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TOTAL EFC 6.68E-07 2.63E-07 EF 9.31E-07 EC 1.14E-06 E 1.14E-08 1.0I-101.03E-10 2.0EE-10 EFC 1.62E-C61.6?E-06 3.24E-06 RE 5.58E-10 5.58E-10 EC 1.14E-06 1.12E-09 A 1.14E48 s

SEFC 1.88E-06 4.88E-08 9.53E-07 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 187E-07 5.26E-09 SE 5.93E-07 1.16E-06 2.42E-07 SLFC 2.54E-07 2.35E-05 1.19E-091.1E49 9.84E-071.97E-071.17E-071.31E-06 9.25E-07 3.49E-071.35E-06 4.55E-10 2.87E-05 t SLF 8.39E-09 2.94E-!! 3.80E-09 -

1.22E-08 SLC 3.30E-12 5.87E-09 3.2SE-10 E.20E-03 SL 3.92E-10 3.92E-10 TEFC 1.61E-09 1.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.53E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.4EE-11 2.07E-!! 9.60E-10 2.37E-10 1.43E 09 TEC 1.63E-101.63E-101.0!E-06 2.02E-071.20E-071.35E-06 2.57C-07 5.3EE-081.39E46 3.37E-05 3.81E-05 TE 2.34E-08 4.68E-09 2.79E-09 3.14E-06 3.62E-061.05E-09 3.21E-08 2.00E-08 3.74E-06 V2E 5.29E-07 5.29E-07 V2L 9.40E-09 9.40E-09 2.44E-06 9.40E-09 9.40E-09 V

2.4BE-06 7.80E-07 7.60E-07 r TDT 12.31E-061.90E-06 2.41E45 2.97E-061.24E-061.24E-06 4.99E-06 9.98E-07 5. 94E-07 6.65E-06 5.17E-06 6.63E-07 6.83E-06 7.80 0

l

t .

l Table 4.38 Plant Damage State and Core Baenge Frequerries for iblet 2 Case 8 IGEL 2 DEE 8 ETI ET2 ET3 ET4 E15 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 fEFC 6.36E47 2.30E-07 TOTE AEF 8.66E-07 EC 1. !'.C4 E 1.0E-10 1.03E-10 1.14E48 EFC 1.54E 4 1.54E 4 2.06E-10 EF 5.58E-10 5.58E-10 3.08E-06 RC 1.14E-08 1.12E-09

4. 1.14E-08 SEFC 108E-08 4.88E-0R 9.53E-07 SEF 1.05E-06 . ,

SEC 5.87E-07 9.18E-09 9.18E-09 SE 5.26E-09 5.93E-07 1.16E-08 SLFC 2.42E47 2.54E-07 1.84E-05 SLF 7.20E-09 1.3E-091.3E-09 2.26E-06 4.52E-07 2.70E-07 3.01E-06 8.55E-07 3.49E-07 3.09E-06 4.55E-10 2.87E-05 2.60E-10 1.85E-09 SLC 3.30E-12 . 9.3!E-09 SL 4.48E-09 3.25E-10 4.81E-09 TEFC 4.41E-!! 4.41E-!!

TEF 4.44E-09 4.44E49 8.58E-061.72E-061.02E-061.14E-051.20E-07 7.50E-071.18E-05 2.81E-09 3.54E-05

!.53E-09 3.06E-10 1.83E-10 3.57E-09 2.10E TEC 7.68E-09 TE - 2.47E-10 2.47E-101.60E-06 3.19E471.91E47 2.14E46 3.92E-07 8.46E-08 2.19E-06 5.15E-05 5.64E-05 V2E 3.48E-08 6.93E-09 4.14E-09 4.64E-08 5.35E461.61E49 4.77E-08 3.!!E48 5.52E-06 5.29E-07 V2L 9.40E-09 9.40E-09 5.2?E-07 6.41E-06 9.40E-09 9.40E-09 V 6.45E-0E 7.80E-07 7.80E-07 TOTE 2.20E-061.79E-061.91E-05 6.94E-061.54E-081.54E-081.25E-05 2.50E-061.49E-061.66E-05 7.02E a

e

_m -

~

Table 4.31 Plant Damage State and Core Damage Frequencies for Model 2 Case 9 i

MODEL 2 EASE 9 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET124 ET13 ET14 ET15 ET16 ET17 TOTAL AEFC 6.36E-07 2.30E-07 AEF 8.66E-07 AEC 1.14E-08 1.14E-08 AE 1.03E-10 1.03E-10 2.06E-10 ALFC 1.54E-06 1.54E-06 3.06E-06 ALF 5.58E-10 5.58E-10 ALC 1.14E-08 1.12E-09 R. 1.14E-08 SEFC 1.88E-08 4.88E-08 9.53E-07 1.02E-06 SEF 3.32E-09 3.32E-09 SEC 5.87E-07 5.26E-09 5.93E-07 SE 1.lfE-08 2.42E-07 SLFC 2.54E-07 1.84E-05 1.19E-09 1.19E-09 7.74E-07 1.55E-07 9.22E-08 1.03E-06 6.39E-07 2.74E-07 1.06E-06 4.55E-10 2.24E-05 SLF 7.20E-09 2.94E-!! 1.65E-09 8.88E-09 SLC 3.30E-12 3.39E-09 3.2SE-10 3.72E-09 SL 4.41E-!! 4.41E-11 '

TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-!! 2.07E-11 9.60E-10 2.37E-10 1.43E-09 TEC 1.63E-10 1.63E-10 1.01E-06 2.02E-07 1.20E-07 1.35E-06 2.57E-07 5.36E-08 1..f3E-06 3.37E-05 3.81E-05 TE 2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.62E-061.05E-09 3.21E-08 2.00E-08 3.74E-06 V2E 5.29E-07 5.29E-07

} V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 j V 7 2.41E-06 7.80E-07 7.80E-07 TOTAL 2.20E-061.79E-061.90E-05 2.90E-061.24E-081.24E-08 4.78E-06 9.56E-07 5.69E-07 6.37E-06 4.88E-06 5.88E-07 6.55E-06 7.80E-i a

Table 4.32 Plant Dasay State and Core Damage Frequencies for Model 3 Case 1 IGEL 3 CASE 1 ET! ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TDTAL r AEFC 6.36E-07 2.30E-01

. AEF 8.66E-07 4

, AEC 5.03E-09 5.03E-09 AE 1.03E-10 1.03E-10 .

2.06E-10 ALFC 1.54E-M 1.54E-06 3.08E-06 RLF 5.56E-10 5.58E-10 R.C 103E-09 1.12E-09 il 5.03E-09 SEFC 1.86E-05 4.88E-08 9.53E-07 1.02E-06 SEF 3.32E-09 3.3?E-09 SEC 1.13E-04 1.53E-06 1.14E-04 SE 1.69E-06 4.32E-05 4.49E-05 SLFC 1.84E-05 1.19E-091.19E-09 7.71E-071.54E-07 9.21E-081.03E-06 5.83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 SLF 7.20E-09 2.94E-11 1.62E49 8.65E-09 SLC 3.30E-12 3.03E-09 2.48E-10 3.2EE-09 SL 4.41E-11 4.41E-11 TEFC 1.61E-091.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.53E-07 4.07E-06 2.81E-09 1.23E-05 TEF 1.73E-10 3.46E-11 2.07E-!! 9.60E-10 2.37E-10 1.43E-09 TEC

.16E-10 1.16E-10 5.07E-07 1.01E-07 6.05E-08 6.7EE-07 9.69E-08 2.70E-08 6.95E-07 5.30E-06 7.47E-06 TE 2.34E-08 4.68E-09 2.73E-09 3.14E48 3.16E-061.05E-09 3.21E-08 3.14E-09 3.2EE-06 V2E 2.63E-07 .

2.63E-07 V2L 9.40E-09 9.40E-09 2.37E-06 9.40E-09 9.40E-09 V 2.41E-06 7.80E-07 7.60E-07 TOTAL 2.19E-061.79E-of.1.33E-04 2.63E-061.23E-081.23E-08 4.27E-06 8.54E-07 5.09E-07 5.69E-06 4.87E-05 5.61E-07 5.85E-06 7.8C 9

Table 4.33 Plot Damage State -M Core Panage Frequencies for Model 3 Case 2 MODEL 3 CASE 2 ETI ET2 ET3 ET4 ETS ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 AEFC 6.68E-07 2.82E-07 TOTAL 2

9.50E-07 AEC 5.03E-09

' I AE 9.15E-10 9.1:,E-10 5.03E-09 ALFC 1.62E-06 1.62E-06 1.83E-09 ALF 5.58E-10 5.58E-10 3.24E-06 ALC 5.03E-09 1.12E-09 AL , 5.03E-09 SEFC 5.23E-08 5.38E-08 9.53E47 SEF 1.06E-06 SEC 1.13E-04 9.16E-09 9.18E-09 4.23E-06 SE 7.02E-06 1.17E44 SLFC 1.68E44 2.35E-05 1.75E-04 SLF 1.03E-08 1.33E-091.33E-09 2.89E-06 5.79E-07 3.45E-07 3.86E-06 2.62E-06 4.44E-07 3.96E-06 4.55E-10 3.82E-05 2.20E-10 2.12E-08 SLC 2.28E-09 3.17E-08 SL 7.52E-08 2.48E-10 7.77E-08 TEFC 1.81E-09 1.81E-09 TEF 4.44E49 4.44E-09 8.58E-061.72E-061.02E-061.14E-05 2.08E-07 7.50E-071.18E-05 2.81E-09 3.55E-05 TEC 1.53E-09 3.06E-10 1.83E-10 4.16E-09 P.10E-09 8.26E-09 .

TE 2.00E-10 2.00E-10 7.77E-071.56E-07 9.28E-081.04E-06 3.78E-07 4.14E-081.%E-06 8.11E-06 1.17E-05 V2E 1.40E-07 2.81E-08 1.68E-08 1.88E-07 1.58E-05 7.03E-09 1.92E-07 6.08E-09 1.64E-05 2.96E-07 V2L 9.40E-09 9.40E-09 6.48E-06 9.40E-09 9.40E-09 2. %E-07 V 6.52E-06 7.80E-07 7. 80E-07 TOTAL 2.30E-06 1.92E-06 1.43E-04 6.78E-06 1.54E-08 1.54E-08 1.24E-05 2.48E-06 1.47E-06 1.65E-05 I

.,+r

_ _ _ _ . _ _ _ m __ _ . . _ . _ _ _ . . _ . ._ _ . - _ _ . _ _ _ _ _ ._ _ _ __.____. _ ___

Table 4.34 plant Damage State and Core Dama9e Frequencies for ihdel 3 Case 3 1

NODEL 3 EASE 3 i

ET! ET2 ET3 ET4 E75 ET6 ET7 ET8

^ ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 TOTAL EFC 6.36E47 2.30E-07

AEF 8.66E-07

, AEC 5.03E-09 '

E 5.15E-10 9.15E-10 5.03E-09 R FC 1.54E-06 1.54E-06 1.83E-09 i j Alf 5.58E-10 5.58E-10 3.08E-06 i RC 5.03E-09 - 1.li:E-09 !

! A

5.03E49 ,

i SEFC 2.03E-08 5.38E-08 9.53E-07 1.03E-06

{ SEF i SEC 3.32E49 3.32E-09 1.13E-04

! 4.23E-06 1.17E-04 SE 7.02E-06 1.68E-04 1.75E-04 SLFC 1.84E-05 4

1.19E-091.19E49 7.77E-071.55E-07 9.27E-081.04E-061.78E-06 2.74E-071.06E-06 4.55E-10 2.36E-05 SLF 7.20E-09 i 2.94E-11 1.14E48 1.86E-08 EC 3.30E-12 l l 9.46E-09 2.48E-10 9.71E-09 SL l 2.04E-10 2.04E-10 i TEFC TEF 1.61E-091.61E-09 2.97E-06 5.94E-07 3.55E-07 3.96E461.46E-07 2.59E-07 4.07E-06 2.81E-09 1.24E-05

1.73E-10 3.46E-11 2.07E-11 9.60E-10 2.37E-10 1.43E-09 '

TEC i

1.16E-101.16E-10 5.07E-071.01E-07 6.05E-08 6.76E47 2.78E47 2.70E-08 6.95E-07 5.30E-06 7.65E46 TE 1.05E47 2.10E-081.25E-081.40E471.20E-05 5.18E-091.44E-07 3.14E49 1.24E-05 V2E 2.96E-07 ;

V2L 9.40E-09 9.40E-09 2.%E-07 2.37E-06 9.40E-09 9.40E-09

! V 2.41E-06 ,

7.80E-07 7.80E-07 ;

TOTE 2.19E-061.79E-061.38E-04 2.67E-061.23E-481.23E-08 4.36E-06 8.71E-07 5.21E-07 5.81E-061.87E-04 5.66E-07 5.98E-0 f a

i i

i 1

I l i I

i_ _ __ _ _

4 Table 4.36 Plant Damage State and Core Damage Frequencies for Model 3 Case 5 MODEL 3 CASE 5 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET11 ET12A ET13 ET14 ET15 ET16 ET17 TOTAL E FC 6.36E-07 2.30E-07 AEF 8.66E-07 EC 5.03E-09 AE 1.03E-10 1.03E-10 5.03E-09 ALFC 1.54E-06 1.54E-06 2.06E-10 ALF 5.58E-10 5.58E-10 3.08E-06 ALC 5.03E-09 1.I2E-09 i

E 5.03E49 SEFC 1.86E-08 4.88E-08 9.53E-07 1.02E-06 SEF SEC 1.13E-04 3.32E-09 3.32E-09 3.86E-06 1.16E-04 SE 1.79E-06 4.32E45 4.50E-05 SLFC 1. 84E-05 SLF 1.19E-091.19E-09 7.71E-071.54E-07 9.21E-081.03E-06 f 83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 9.12E-09 2.94E-11 2.72E-09 1.19E-08 SLC 2.28E-09 SL 2.07E-08 2.48E-10 2.32E-08 TEFC 4.41E-!! 4.41E-11 TEF 1.61E-09 1.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.59E-07 4.07E-062.81E-09 1.23E-05 1.73E-10 3.46E-11 2.07E-11 1.02E-09 2.37E-10 TEC 1.49E-09 TE 1.16E-101.16E-10 5.07E-071.0!E-07 6.05E-08 6.76E-07 9.79E-08 2.70E-08 6.9'E-07 5.30E-05 7.47E-06 V2E 2.34E-08 4.68E-09 2.79E49 3.14E-06 3.16E-061.05E-09 3.21E-08 3.90E-09 3.26E-06 2.63E-07 V2L 9.40E-09 9.40E-09 2.63E-07 2.37E-06 9.40E-09 9.40E-09 .

V 2.41E-06

, 7.80E-07 7.80E-07 TOTAL 2.19E-061.79E461.33E-04 2.63E-061.23E-081.23E-08 4.27E-06 8.54E-07 5.09E-07 5.69E-06 5.10E-05 5.61E-I e

Table 4.37 Plant Dasay State and Core Dasay Frequencies for Model 3 Case 6 MODEL 3 CASE 6 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 TOTAL AEFC 5.3EE-07 2.50E-07 AEF 8.86E-07 AEC 5.03E-09 AE 1.03E-10 1.03E-10 5.03E-09 ALFC 1.54E-06 1.54E-06 2.06E-10 ALF 5.58E-10 5.58E-10 3.08E-06 ALC 5.03E-09 1.12E-09 AL 5.03E-09 SEFC 1.86E-03 4.88E-08 9.53E-07 1.02E-06 SEF SEC 3.32E-09 3.32E-09 1.13E-04 1.53E-06 SE 1.69E-06 1.14E-04 4.32E-05 4.49E-05 SLFC 1.84E-05 SLF 1.19E-091.19E-09 7.71E-071.54E-07 9.21E-081.03E-06 5.83E-07 2.74E-071.06E-06 4.55E-10 2.24E-05 7.20E-09 2.94E-11 1.62E-09 8.85E-09 SLC 3.30E-12 SL 3.03E-09 2.48E-10 3.28E-09 4.41E-11 4.41E-11 TEFC TEF 1.61E-09 1.61E-09 2.97E-06 5.94E-07 3.54E-07 3. % E-06 6.25E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 1.73E-10 3.46E-11 2.07E-11 9.60E-10 2.37E-10 TEC 1.43E-09 TE 1.16E-101.16E-10 5.07E-071.0!E-07 6.05E-08 6.76E-07 9.69E-08 2.70E-08 6.95E-07 5.30E-06 7.47E-06 2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.15E-06 1.05E-09 3.21E-08 3.14E-09 3.26E-06 V2E 2.63E-07 ,

V2L 9.40E-09 9.40E-09 2.63E-07 2.37E-06 9.40E-09 9.40E-09 ,

7 ' 2.41E-06 7.80E-07 7. 8CE-07 TOTAL 2.19E-061.81E-061.33E-04 2.63E-061.23E-081.23E-08 4.27E-06 8.54E-07 5.09E-07 5.69E-06 4.87E-05 5.61E-07 5 o

e

- . - . m. -

e Table 4.38 Plant Damage State and Core Damage Frequencies for Model 3 Case 7 MODEl. 3 CASE 7 ETI ET2 ET3 ET4 ET5 ET6 ET7 ET8 ET9 ET!! ET12A ET13 ET14 ET15 ET16 ET17 AEFC 6.68E-07 2.63E-07 TOTAL AEF 9.31E-07 AEC 5.03E-09 AE 1.03E-10 1.03E-10 5.03E-09 ALFC 1.62E-06 1.62E-06 2.06E-10 ALF 5.58E-10 5.58E-10 3.24E-06

! ALC 5.03E-09 1.12E-09 AL g 5.03E-09 SEFC 1.86E-08 SEF 4.88E-08 9.53E-07 1.02E-06 SEC 1.13E-04 3.32E-09 3.32E-09 SE 1.53E-06 1.14E-04 1.69E-06 4.32E-05 4.49E-05 SLEC 2.35E-05 SLF 1.19E-091.19E-09 9.84E-071.97E-071.17E-071.31E-06 9.24E-07 3.49E-071.35E-06 4.55E-10 2.87E-05 8.39E-09 2.94E-11 3.80E-09 1.22E-08 SLC 3.30E-12 SL 5.86E-09 2.48E-10 6.!!E-09 TEFC 3.92E-10 3.92E-10 TEF !.61E-09 !.61E-09 2.97E-06 5.94E-07 3.54E-07 3.96E-06 6.13E-08 2.59E-07 4.07E-06 2.81E-09 1.23E-05 1.73E-10 3.46E-11 2.07E-11 9.60E-10 2.37E-10 TEC 1.43E-09 TE 1.16E-10 1.16E-10 5.07E-07 1.01E-07 6.05E-08 6.76E-07 9.69E-08 2.70E-08 6.95E-07 5.30E-06 7.47E-06 V2E 2.34E-08 4.68E-09 2.79E-09 3.14E-08 3.16E-06 1.05E-09 3.21E-08 3.14E-09 3.2E-06 2.63E-07 V2L 9.40E-09 9.40E-09 2.63E-07 2.44E-06 9.40E-09 9.40E-09 V 2.48E-06 7.80E-07 7.80E-07 TOTA 2.30E-061.90E-061.38E-04 2.70E-061.23E-081.23E-08 4.48E-06 8.97E-07 5.34E-07 5.98E-06 4.90E-05 6 a

1 1

2 - . . . - . , --

+p

~

. ;. 3

-t w ,

l .

1 Table 4.39 " Plant Damap State and Core Damap Frequencies for nodel 3 Case 8 '

l MODEL 3 CASE 8 s ~

. p i ETI ET2' eqe ET3 ET4 ET5 > ET6 ET7 ET8 ET9 ET!! ET124 ET13 ET14 ET15 ET16 ET17 TOTAL AEFC 6.36E-07 2.30E-07 AEF S 8.66E-07 l AEC 5.03E-09 I '

5.03E-09

, AE 1.03E-10 1.03E-10 -

ALFC 1.54E-06 1.54E-06 2.06E-10 i ALF 5.58E-10 5.58E-10 3.08E-06 ALC 5.03E-09 1.12E-03 AL ,

~- 5.03E-09 SEFC 5.06E-08 4.88E-08 9.53E-07 1.05E-06 SEF SEC 9.18E-09 9.18E-09 1.13E-04 1.53E-06 1.14E-04 SE 1.69E-06 4.32E-05 4.49E-05~

SLFC 1.84E-05 SLF 1.33E-091.33E-092.26E-064.52E-072.70E-073.01E-068.54E-973.49E-073.09E-06 4.55E-10 2.87E-05 7.20E-09 2.60E-10 1.85E-09~ 9.31E-09 SLC 3.30E-12 4.47E-09 2.48E-10 4.72E-09 i SL 4.41E-11 4.41E-il TEFC IEF 4.44E-09 4.44E-09 8.58E-06 1.72E-06 1.02E-06 1.14E-05 1.20E-07 7.50E-07 1.18E-05 2.81E-09 3.54E-05 1.53E-09 3.06E-10 1.83E-10 3.57E-09 2.10E-09 7.6BE-09 TEC TE 2.00E-10 2.00E-10 7.77E-07 1.56E-07 9.28E-08 1.04E-06 1.45E-07 4.14E-08 1.06E-06 8.11E-06 1.14E-05 3.48E-08 6.93E-09 4.14E-09 4.64E-08 4.63E-06 1.61E-09 4.77E-08 4.89E-03 4.7EE-06

, V2E 2.63E-07 V2L 9.40E-09 9.40E-09 2.63E-07

]

6.41E-06 9.40E-09 9.40E-09 V 6.45E-06 7.80E-07 7.60E-07 TOTAL 2.19E-061.79E-061.33E-04 6.67E-061.54E-081.54E-081.17E-05 2.34E-061.39E-061.55E-05 5.05E-051.14E-061.60E-05 7

/LJf Caa i TERM PEB.

MJMBER OF TERM Q,/ = f,ys xd*/y CORED =

1 4.7350E-04 S2-CA

IF-ET17 +

2 2.2065E-05 F 01PBFS

IF-ET17 +

3 9.8434E-06 CCESW1

S2-GA

IF-ET14 +

4 9.5800E-06 CCESW1

IF-ET11

S2-GA +

5 7.9296E-06 IF-ET3

PRH0!PACFS +

6 7.1850E-06 CCESW1

IF-ET7

S2-CA +

7 6.3182E-06 LOSPNONREC

DGANONEC

DGMR

DGENCNREC e DGBFR

IF-ET12A

S2-0A

8 6.1081E-06 F 0!PBFR

IF-ET17 +

9 3.6147E-06 LDSPNONREC

DGAM e DGBNONREC e DGBFR

IF-ET12A

S2-GA

E120-2 +

10 3.6147E-06 LOSPNONREC

D6ANONREC

DGER

DSBN

IF-ET12A

S2-GA

E120-2 +

11 3.5400E-06 IF-ET3

HPEC1RC09 +

12 3.2102E-06 LOSPNONREC

D6ANONREC

D6AFR

D6BNONREC e DGBFS

IF-ET12A

S 13 3.2102E-06 LDSPHONEC

DGANONREC e DGFS

DGBNONREC e DGBFR

IF-ET12A

S 14 3.1023E-06 LOSPHONREC

D6ANONREC

D6BNONREC

CCAC

IF-ET12A

S2-GA

E120 15 2.2671E-06 P W 0lPBM e IF-ET17 +

16 2.2199E-%

LOSPNONREC

D6ANONREC

D6& R

D6BNONREC

DGBFR

IF-ET12A 17 2.2105E-06 1PS101PAM

ISS101FBQ

S2-0A

IF-ET14 +

18 2.2105E-06 1SSIO1FAQ

iPSIO1PBM

S2-QA

IF-ET14 +

19 2.1514E-06 1PSIO!PAM

1SSIO1FBQ

IF-ET!!

S2-04 +

20 2.1514E-06 ISSIO!FAQ

IPS!0!PBM e IF-ET!!

S2-GA +

21 1.8366E-06 LDSPNONREC

DGAM e DGENONREC

DGEFS

IF-ET!2A

S2-CA

E120-2 +

+r -* w - **-T T r-Twf'h- e-<- 9"w-'m--w-p r--e-' -w-- v-- -

-w' - - ' -

< 22 1.8366E-06 LOSPNONREC e DGANONREC e DGAFS

D6EM e IF-ET12A

S2-GA

E!20-2 23 1.6461E-M IF-ET3

MVCC9412CC +

24 1.6461E-M IF-ET3

MVSte311CC +

25 1.6311E-M LOSPNONREC e DGAGREC e DGAFS

DGEDREC e 06BFS

IF-ET!2A

S2 s

26 1.61ZE-06 IPSIO!PAM e ISSIO1FBG e IF-ET7

S2-CA +

27 1.61ZE-06 ISSX01FAQ

iPSIO!FBM e IF-ET7

S2-GA + "

28 1.4370E-06 CCESWU1 e IF-ET8

S2-GA +

29 1.4100E-06 IF-ET!

LPRECIRCOP + .

30 1.4100E-06 LPRECIRCOP e IF-ET2 +

31 1.3637E-% A0VSI178D e IF-ET17 +

32 1.3637E-M A0VS1173D e IF-ET17 +

33 1.2700E-06 LOSPNONREC e DGAM e DGEh0NREC e DSBFR e IF-ET12A e E120-1

S2-GA +

34 1.2700E-M LOSPNONREC e DGANONREC e DGAFR e DGEM e IF-ET12A

E120-1

S2-0A +

35 1.1279E-06 LDSPNONREC e D6A G REC e D6AFR e DGB O REC e D6BFS

IF-ET12A

E!20 36 1.1279E-06 LDSPNONREC e DGANDNREC e DGAFS e DGENCNREC e DGEFR * !F-ET!2A

37 1.0900E-M LOSPNONREC e DGANONREC

D6BNONREC e CCAC e IF-ET12A e E120-1

S2-CA +

38 1.0541E-06 LOSPNONREC e D6BNONREC e D6BFR e IPSIO!PAM e IF-ET12A

S2-0A e E120-2 +

39 1.0541E-%

LOSPNDNREC e D6ANONREC e D6AFR e IPSI 0lPBM e IF-ET12A e S2-GA e E!20-2 + ,

40 9.5200E-07 IF-ET16 e PL-1

TT2-2 +

41 8.574tE-07 CCESIAll e IF-ET9 e S2-GA +

42 8.3287E-07 AFWSCCFAIL e IF-ET4 e 0P8-200 +

f 43 8.1414E-07 AFW5CCFAIL e OP2-GD e IF-ET14 +

. 44 8.1414E-07 AFWSCCFAIL e OP!-CD e IF-Eil4 +

45 7.92EE-07 AFW5CCFAIL e OP2-0D e IF-ETl! +

Mod <l 1 Cae2 TERM MJMBER .0F TERM PROB.

DN

U2 /

CORED =

1 3.6050E-03 S2-04

IF-ETl? +

-2 1.6799E-04 AFOIPBFS e IF-ET17 + - - -

'3 1.5264E-04 PAF01PBM e IF-ET17 +

4 4.6504E-05 AF0!PBFR

IF-ET17 +

'5 3.1%1E-05 LDSPNONREC e DGAM e DGBN0NREC e DGBFR

IF-E*..A e S2-GA e E120-2 +

6 3.1%1E-05 LOSPNONREC e D6ANDNREC e DGAFR e IEA

IF-Ei!24 e S2-04

E!20-2 +

7 1.9555E-05 1PSIO1 PPM e ISS101FBQ

S2-0A e IF-ET14 +

8 1.9555E-05 ISSIO1FAQ

1PS10lPBM e S2-04

IF-ET14. +

9 1.9032E-05 1PS101PAM e ISS101FBQ

IF-ET11 e :2-CA +

10 1.9032E-05 ISS101FAQ e IPSI 0lPBM e IF-ET!!

S2-GA +

11 1.6239E-05 LDSPNONREC e DGAM e DGBNONREC e DGBFS e IF-ET12A e S2-04

E120-2 +

12 1.6239E-05 LDSPNONREC e D6ANONREC e D6AFS e D6BM e IF-ET12A e 52-04

E120-2 +

13 1.4274E-05 IPSIO1PAM e ISSIO!FBQ e IF-ET7 e S2-GA +

14 1.4274E-05 ISSIO!FAQ e !PSIO!PBM e IF-iT7 e S2-04 +

~

} 15 1.1230E-05 LOSPNDNREC 6 D6AM e D6BNONREC e D6BFR e IF-ET12A e E120-1

S2-04 +

16 1.1230E-05 LOSPHONREC e D6ANONREC e D6AFR e DGBM e IF-ET12A e E!20-1

S2-0A + '

17 1.0382E-05 A0VSI!780 e IF-ET17 +

ji 18 1.0382E-05 ADVSI173D e IF-ET17 +

19 9.8434E-06 CCESW1 e S2-CA e 1F-ET14 +

20 9.5800E-M CCESW1 e IF-ET11 e S2-0A +

21 9.3249E-06 LOSPNONREC e DGBNCNREC e D6BFR e IPSI 0lPAM e IF-ET12A

S2-04 e E!20 i

-*,g3 o r w. ,,,_ , , ,_44 . ... e-_,,-, ,_ . .,..._ _ _ - ._ _ . --- ,_ _ _ . - ._, m ,- _ _ _ , _ - -.__m __ ,m

f 22 9.3249E-06 LO*PNONREC e DGANGNREC e DC#R e 1PSIO!PSM e IF-ET12A e S2-GA 23 7.9296E-06 IF-ET3

PRH0!PACFS +

24 7.1850E-M CCESW1 e IF-ET7 e S2-0A +

25 6.9030E-06 1PSIO1PAM e FSIO3CFFR

S2-04

IF-ET14 +

26 6.9030E-M IPSI 0lPAM e FSIO3CEFR e S2-CA e IF-ET14 +

27 6.9030E-06 FSIO3CEFR e !PSIO!PBN e S2-0A e IF-ET14 +

28 6.9030E-06 FSIO3CAFR e IPSIO!PBM e S2-GA e IF-ET14 +

29 6.7183E-% IPSIO1PAM e FSIO3CFFR e IF-ET!!

S2-0A +

30 6.7183E-M IPSI 0lPAM e FSIO3CEFA e IF-ET!! e S2-(N +

31 6.7183E-M FSIO3CEFR e iPSIO1PEM e IF-ET!!

S2-0A +

32 6.7183E-M FSIO3CAFR e IPSIO!PEM e IF-ET!!

S2-M +

33 6.3182E-06 LDSPNONREC e D6ANONREC e DGAFR e DGBNONREC e DSPFR 34 5.7057E-06 LDSPNONREC e DGAM e 06BNONREC e D65FS e IF-ET12A e E120-1

S 35 5.7057E-M LOSPNONREC e DGANONREC e D6AFS e CGEM e IF-ET12A e E120-1 e S 36 5.0387E-% IPS10!PAM e FSI0IFFR e IF-ET7 e S2-04 +

37 5.0387E-06 IPSIO!PAM e FSI0IEFR

IF-ET7 e S2-GA +

38 5.0387E-M FSIO3CDFR e IPSIO!PSM e IF-ET7 e S2-0A +

39 5.0387E-M FSIO3CAFR e IPSI 0lPBM e IF-ET7

S2-GA + -

40 4.8472E-06 ISSIO!FAQ

FSIO3CFM e S2-CA e IF-ET14 +

41 4.8472E-M 1SSIO!FAQ

FSX03CEM e S2-0A e IF-ET14 +

42 4.8472E-M FSI0 IBM e ISSIO1FB0

S2-04

IF-ET!4 +

43 4.8472E-M FSIO3CAN

ISSIO1FBQ

S2-04

IF-ET!4 +

44 4.7380E-%

LOSPNONREC e DGBNCNREC e D6BFS

IPSIO!FAM e IF-ET!2A e S2-CA e E120 45 4.7380E-M LOSPHONREC e DGANONREC e DGAFS

iPSIO1PEM e IF-ET12A

S2-GA e E120-2

Wadef 2. Canf h'U

,g, G f</ = 8 lo tw [

~

/

CORED =

1 2.2065E-05 AF01PBFS e IF-ET17 +

t' 2 7.9295E-06 IF-ET3 e PRH01FACFS + - '

3 6.1061E-06 AF01PBFR e IF-ET17 +

4 3.5400E-06 IF-ET3 e HPRECIRCOP +

5 2.2671E-06 PAF01Pl!M e IF-ET17 +

6 1.6461E-06 IF-ET3 e t!VCC3412CC +

7 1.6461E-06 IF-ET3

MVS!8811CC +

8 1.4100E-06 LPRECIRCDP e IF-ET2 + -

9 1.4100E-06 IF-ET1 e LPRECIRCOP +

10 1.3637E-06 A0VS1178D e IF-ET17 +

11 1.3637E-06 A0VSX173D e IF-ET17 +

.' 12 9.5200E-07 IF-ET16

R-!

TT2-2 +

13 8.3287E-07 AFWSCCFAIL e IF-ET4 e DP8-200 +

14 8.1414E-07 AFWSTFAIL

092-0D e IF-ET14 + U 15 8.1414E-07 AFWSCCFAIL

DPI-CD e IF-Eil4 +

16 7.9235E-07 AFWSCCFAIL e OP2-CD e IF-ET11 +

17 7.9235E-07 AFWSCCFAIL e Opl-CD e IF-ET11 +

l 18 7.8000E-07 ET15V +

19 5.9426E-07 AFWSCCFAIL e OPI-0D e IF-ET7 +

20 5.9426E-07 AFWSCFAIL e IF-ET7 e 072-0D + i 21 4.5670E-07 CCESWUt e AF01P9FS e IF-ET14 +

~n,-n,, , . - -- --

,a,,ag,-vm.e----.------ -~~-- - - - - , - -r-, ~~-- - - - e ee --

. =

+

22 4.4643E-07 CCESW1 e E0!PSFS

IF-ET!! +

23 4.3277E-07 AF01PFS

AF01PEFS

IF-ET4 e 098-20D +

24 4.2304E-07 AF01FFS e ENPEFS e OP2-CD e IF-ET14 +

25 4.2304E-07 AFO!PFS e AFOIP5FS e 0P1-0D

IF-ET!4 +

26 4.1172E-07 M 0!PFS

E 0!PEFS e CP2-CD e IF-ET!! +

27 4.117EE-07 AF01PFS e AFOIPLFS

0P1-0D e IF-ET11 +

28 3.3482E-07 CCESW1 e E0!PEFS

IF-ET7 +

29 3.0879E-07 AF0!PFS e AF01PBFS e IF-ET7 e OP2-CD +

30 3.0879E-07 E01PFS e E0!PBFS

0P1-0D e IF-ET7 +

31 3.0630E47 PAF01PM e E01PEFS

IF-ET4 e OP8-2GD +

32 2.9942E-07 PAF0!PM e AF0lP2FS e 0P2-00 e IF-ET!4 +

33 2.9942E-07 FAF0 LPM e AF0!PBFS e OP!-0D e IF-ET14 +

34 2.9443E-07 LOSPNONREC e DGANONREC e DGAFR e DSSdNREC e DGBFR e E0 35 2.9140E-07 PAF01PM e AF01PEFS

OP2-0D e IF-ETil +

36 2.9140E-07 PAF01PM e M01PBFS e CPI-CD e IF-ET11 +

. 37 2.9067E-07 IF-ET3

PRH01PACFR +

38 2.16'.ZE-07 PAF01PM e M0lPSFS

IF-ET7 e OP2-0D +

39 2.185 E-07 PAF0!PM e AF0!PEFS

OP!-0D e IF-ET7 + 2 40 2.1317E-07 E WSCCFAIL e IF-ET!7 +

41 2.1056E-07 CCRHRPMPFS e IF-ET2 +

42 2.10.'4E-07 IF-ET!

CCRHRPMPFS + -

43 2.0724E-07 PRHOIPACFS e AFWSCCFAIL e IF-ET14 +

44 2.0169E-07 PRH01PfCFS e AFWSCCFAIL e IF-ETl! +

45 1.7723E-07 CCESW1

IF-ET4 +

1 1

l

%/d.2. (4.c. 2 TEM PROB.

MMBER OF TERM ht<$ = t.4 u no" fry CD o . .

.1 1.6799E-04 F 01PBFS

IF-ET17 +

l

_ -2 1.5264E-04 PAF0!PBM e-IF-ET17 + -

l 3 4.6504E-05 F 01PBFR

IF-ET17 +

4 1.0382E-05 90VSX1780

IF-ET17 + .

5 1.0382E-05 ADVSX173D e IF-ET17 +

6 7.92%E-06 IF-ET3 e PRH01PACFS +

, 7 3.5400E 4 IF-ET3 e HPRECIRCCP +

8 2.7087E-06 PAF01PM e F01PFS e IF-ET4 e OP8-20D +

9 2.6478E-06 PAF0!PAM e F0!PEFS

OP2-0D e IF-ET!4 +

10 2.6478E-06 PAF01PM e F0!PFS e OPI GD e IF-ET14 +

! !! 2.5769E-06 PAF0!PAM e F0!PBFS

092-0D e IF-Eill +

12 2.5769E-% PAF01PM e M0!PFS e Opi-CD e IF-ETl! +

13 1.9327E-06 PAF01PAM e F01PDFS

IF-ET7 e OP2-DD +

t 14 1.9327E-M PAF0!PM e FO!PDFS e OP100 e IF-ET7 +

l 15 1.6461E-M IF-ET3 e MVS!8811CC +

16 1.6461E-06 IF-ET3 e MCC9412CC +

17 1.6230E-06 AFWSCCFAIL

IF-ET17 + '

18 1.4494E-M LDSPN0hREC e D6AN e D6ENONREC e D3BFR * # 0!PBFS e IF-ET12A e E!20-2 + .

19 1.4894E-06 LOSPNONREC e DGANONREC e DMER e DGEM e F0!PDFS e IF-ET!2A e E120-2 +

)

20 1.4100E-06 IF-ETI e LPRECIRCOP +

21 1.4100E-M LPRECIRCCP

IF-ET2 +

4 4

e g .4 .-e.-<---. , .-,y,,-..--~_-r- --4,--. _, ... , .-.- - - -,- _m...- -~ w_ .- - , .-...,y. --,---.m..-._ . - - . , - - , - - -

22 1.3532E-06 LOSPNONREC e D6ANONREC e DGAFR e DGEM e PAF0!PEM e IF-ET!2A

E120 23 9.5200E-07 IF-ET16

PL-1 e TT2-2 +

24 9.!!28E-07 1SSIO!FAQ * !PSIO!PBM e WO!PFS

IF-ET14 +

25 9.ll2BE-07 IPS10!PAM e 1SSIO!FBQ e AFO!PBFS

Ir-ET14 +

26 8.8689E-07 ISSIO!FAQ e !PSIO!PBM e WolPFS e IF-ET!! +

l 27 8.8689E-07

!PSIO!PAM e ISSIO!FB0 e AF0!PBFS e IF-ET!! + '

28 8.3287E-07 MWSCCFAIL e IF-ET4

OP8-20D +

29 8.2797E-07 IPSIO!PAM e ISJIO!FB0

PAF01PBM e IF-ET14 +

30 8.2797E-07 1SSIOlFAQ e IPSI 0lPBM e PAFo!PBM e IF-ET14 +

31 8.1414E-07 AFWSCCFAIL

OP2-0D e IF-ET14 +

32 8.1414E-07 FidCCFA!L e OP!-GD e IF-ET!4 +

33 8.0581E-07 IPSIO! PAN e ISSIO!FB0

PAF0!PBM e IF-ET!! +

34 8.0581E-07 ISSIO!FAQ e !PSIO!PBM e PAF0!PBM e IF-Ef!! +

35 7.92EE-07 AFWSCCFAIL e OP2-GD e IF-ETl! +

36 7.92EE-07 M WBCCFAIL

001-00 e IF-ETil +

. 37 7.8000E-07 ET15V '+

38 7.5675E-07 LDSPNONREC e D6AN e D6BNChREC e D6BFS e M0!PFS

IF-ET!2A e E120-2 39 7.5675E-07 LOSPN0NREC e DGANONREC e DGAFS e D6BM e AF0lPBcS e IF-ET!2A e E120-2 40 7.4964E-07 PAF0lPAM e WOIPFR e IF-ET4 e OP8-200 +

41 7.3298E-07 PAF0!PAM e F olPBFR

OP2-0D e IF-ET14 +

1 42 7.3298E-07 PAF0!PM e #0lPFR e 0P1-00 e IF-ET14 + L 43 7.2100E-07 S2-0C e IF-ET17 +

44 7.1336E-07 PAF0!PM e M0!PFR

0P2-00 e IF-ETil +

45 7.1336E-07 PM0!PM e F0!PDFR e 0P1-0D e IF-ET!! +

i

. _ _ _ . _ - . . _ . _ . . . - . _ _ =___ __ _ . _ . _ _ . _ _ . . _ _ _ _ _ _ _ _

1 l

Mo& 1 % /

< hiatof&

BASIC EVENT SIN 6LE EVENT CONTRIRJTION TD rtDBABILITY F-V IMPORTANCE TOP EVENT 1 ( 185) S2-GA 5.0000D-01 8.7843D-01 6.0877D-04 2 ( 195) IF-ET17 9.4700D44 7.3203 H 1 5.0731D-04 3 ( 178) IF-ET12A . 9.10000 8.3322D-02

! 5.7743D-05 '

4 ( 27) LDSPNONREC 2.6000 H 1 8.0622D42

! 5.5872D-05 5 ( 186) E120-2 7.4000D-01 6.17790-02 4.28140-05 6 ( 28) 06ANONREC 7.50000-01 5.84560-02 4.0511D-05 7 ( 33) D6liNONREC 7.5000D-01 5.7847D-02 4.00890-05 8 ( 143) F0!PBFS 2.3300D-02 4.%31D-02 3.45750-05 9 ( 194) IF-ET!4 4.11000+00 4.8967D-02 3.3935D-05 10 ( 177) IF-ET11 4.0000D+00 4.76560 4 2 3.3026D-05 11 ( 71) CCESW1 4.79000-06 4.5823D-02 3.1756D-05 12 ( 169) IF-ET7 3.0000D+00 3.5742D-02 2.47700-05 13 ( 30) D6F R 3.58200-02 3.42890-02 2.3763D-05 14 ( 35) DGBFR 3.58200-02 3.3855D-02 2.3462D-05 15 ( 97) 1PSIO!PBM 4.48200-03 2.7038D42 1.87380-05 16 ( 83) IPSIO1PAM 4.4820D-03 2.70340-02 1,8735D-05 17 ( 113) 1F-ET3 3.5400D-02 2.61190 4 2 f.810!D-05

' 18 ( 179) E120-1 2.6000D41 2.1543D-02 1.49300-05 19 ( 80) ISSIO!FAO 2.40000-04 2.0214D-02 2 1.4008D-05 20 ( 94) ISSIO!FBQ 2.40000-04 2.0213D42 1.4008D45 21 ( 29) D6FS 1.8200D42 1.7198D-02 1.19180 4 5 22 ( 34) D6BFS 1.82000-02 ,1.7023D42 1.1797D45 23 ( 126) PRH0!PA E S 2.2400 H 4 1.4?07D02 9.83870-M 24 ( 144) AF01P8FR 6.45000-03 1.3372D-02 i 9.26700-M

' 25 ( 31) DGAM 1.53700-02 1.3245D-02 9.17900 4 6 26 ( 32) D6BM !.5370D42 1.3078 H 2 9.06350- %

27 ( 139) FWSCCFAIL 2.2510D44 1.06990-02 7.41440-M 28 ( 147) DP14D 8.80000 4 4 8.29360-03

5.74760-06 '

29 ( 172) DP2-CD 8.8000D-04 8.27290-03 5.73330-M i 30 ( 140) F0!PFS 5.0200D43 7.7854D43 5.3954D-06 31 ( 118) CCAC 6.30000-04 7.17700-03 4.9738D-06 32 ( 175) IF-ET8 6.00000-01 7.13250 4 3 4.94290-06 33 ( 76) FSIO3CBFR 8.47D H 5 6.8963D-03 4.7772D-M L

+

34 ( 73) FSIO3CF R 8.472t'H)5 6.89630 4 3 4.7792D-M '

35 ( 89) FSIO3CFFR 8.47201,-05 6.8962D-03 4.7732D-M 36 ( 86) FSIO3CEFR 8.4720D45 6.8962D-03 4.77920-06 37 ( 120) HPRECIRCDP 1.0000D44 6.3023D-03 l 4.36760-06 38 ( 75) FSI0 IBM 1.!!20043 5.80500-03 4.02290-C6 39 ( 72) FSIO3CAN 1.11200-03 5.80500-03 4.02290 4 6 40 ( 88) FSIO3CFM 1.!!20C43 5.6152D-03 3.83140-M 41 ( 85) FSIO3CEM l.!!20D-03 5.6152D-03 3.89140-%

l 42 ( 141) PAF0lPAM 3.55300-03 5.3703D-03 3.7217D-06 i,

j

r r

l 43 ( 142) PAF0!PBM 2.3940D-03 4.6537D-03 j 3.2251D-06 44 1 176) IF-ET9 3.58000-01 4.24210-03 2.9399D-06 45 ( 77) FSIO3CBFS 1.1700D-03 4.1531D-03

2.8782D-06 46 ( 74) FSIO3CAFS !.17000-03 4.15310-03 2.8782D-06 47 ( 90) FS!03CFFS 1.1700D-03 4.1516D-03 2.8771D-M 48 ( 87) FSIO3CEFS !.1700D43 4.15160-03 2.8771D-06 49 ( 69) LPRECIRCOP 1.5000D-03 4.M92D-03 2.82000-06 50 i 150) IF-ET4 3.82000 4 2 4.0691D-03 2.8200D-C6 ~

51 1 7) IF-ETI 9.4000D44 3.12600-03 2.1664D-06 ~

52 ( 163) OP8-20D 1.00000-01 2.9666D43 2.0559D-06 53 1122) WCC9412CC 4.6500D-05 2.8976 H 3 i 2.0081D-M

' 54 1 121) MVS18811CC 4.65000 4 5 2.8976D-03 2.0081D-06 55 i 146) A0VSIl78D 1.4400D43 2.7883D-03 1.9323D-M 56 1 145) A0VSI173D 1.4400D43 2.7883D43

! 1.9323D-06 !

57 I 26) LDSP 3.4000D44 2.7457D43 1.9028D-06 '

58 ( 109) IPSIO!PAFS 7.2100D-04 2.55260-03 1.76%D-06 59 t 110) 1PSIO1PhFS 7.2100D-04 2.55!7D-03 1.7684D-M 60 1 105) IF-ET2 9.40000 4 4 2.5408D-03 61 1.7608D-06 1 98) BUS 1317D 5.57200-05 2.3300D-03 1.6494D-M 62 ( 101) BUS 1322D 5.57200-05 2.37990-03 1.6493D-06

' 63 ( 189) IF-ET13 1.6000D-01 2.3225D-03 1.60%D-M 64 ( 103) FLAGESFANF 5.0000D41 2.12810 4 3 i

1.47480- %

65 t 102) FLAGESF mE 5.0000 H 1 2.1281D-03 1.47480-M 66 ( 100) FLAGESTAh8 5.00000-01 2.128tD-03

1.47480- %

67 ( 99) RAGESFANA !

5.0000D-01 2.1281D-03 1.47480 46 j 68 ( 95) IPSIO!PBFR 3.16800 4 5 2.0604D43 1.4279D-M 69 ( 84) IPSIO!PAFR 3.16800-05 2.M04D-03 1.4279D-06 70 t 191) PL-1 5.0000D41 1.3744D-03 9.52480-07 71 1 190) IF-ET16 1.3600D-05 'l.3744D-03 9.52480-07 72 ( 193) 772-2 1.40000-01 1.3737D43 9.52000-07 73 ( 112) FLAGESPBFS 5.0000 H 1 1.3114D-03

! 9.0881D-07 74 ( 111) FLAGESPAFS 5.0000D41 1.3114D43 9.0881D-07 i 75 ( 199) ET15V 7.8000D-07 1.1255D-03 7.80000-07 76 ( 96) ISSIO! FEM 1.9000 H 4 9.33%D-04 6.47250-07 '

f j) 77 ( 82) ISS101FAM 74 ( 181) S2-0C

!.90000-04 1.00000 4 4 9.3396D-04 8.90160-04 6.47250-07 6.16900 4 7 ,

1 79 ( 190) CCESWILO3P 1.20000-05 4

8.3587D-04 5. 79270-07 80 ( 55) MVCC941290 1.5500 H 3 7.60510 4 4 5.27040-07 41 ( 51) WS188tlB0 1.55000-03 ;

7.6051D-04 5.27040-07

! 82 ( 155) OP3-00 t 3.0000 H J 7.5803D-04 5.2532D-07 I i

' 83 ( 45) MVCC9412AQ !.5500 H 3 6.7456D44 4.6748 H 1 84 ( 41) MVS!8811A0 1.55000-03 6.74560 4 4 4.67480-07

' 85 ( 149) AFolPFR 4.93500-04 6.2902D-04 4.3523D47 86 ( 23) CCRPRPPPFS 2.24000-04 6.0766D-04 4.2112D-07 2 87 ( 93) IIVSIl436C 9.50400-M 5.7929D44 4.01460-07 i 84 ( 92) IMVSIO0lBC 9.50400-M 5.7929 H 4 4.0146D-07 89 ( 4) PRH0lPBM 1.16000-03 5.63730 4 4 3.90670 4 7 90 t 2) PRH0lPAM l.1600D43 5.1390D44 3.56140-07 I

1 1

1

PA!RWISE CCNTRIPUTICN TO F-V IMMRTANCE TOP EVENT 1 ( 185) S2-04 (i95)IF-ET17' 6.8325D41 4.73500-04 2 ( 27) LOSPNONREC ( 178) IF-ET12A 7.7876D-02 5.39700-05 3 ( 105) S2-GA ( 178) IF-ET124 7.68790 4 2

^4 5.32790 4 5

( 185) S2-CA ( 27) LOSPNONREC 7.4737D-02 5.1794D-05 5 ( 178) IF-ET12A ( 186) E120-2 6.1779D42 4.2814D-05 6 ( 27) LOSPNONREC ( 28) DGrtO E C 5.8456D-02 4.0511D45 7 ( 27) LOSPNONREC ( 33) DGBNCNREC 5.7847D42 4.00890-05 -

8 ( 27) LDSPNONREC ( 186) E120-2 5.7719D-02 4.0000D45 *

'9 (185)S2-GA ( IS6) E120-2 5.6923D42 3.94490-05 10 ( 28) IGrWONREC ( 178) IF-ET12A 5.63710-02 3.9066D45 11 ( 33)DGENCNREC ( 178) IF-ET!2A 5.5768D-02 3.86400-05 12 ( 185) S2-GA ( 28) DGrWONREC 5.4160D-02 3.7534D-05 13 ( 185) S2-04 ( 33) DGENONREC 5.4153D-02 3.75290-05 14 ( 28) DGANONREC ( 186) E120-2 4.1775D-02 2.8951D-05 15 ( 33) DGENONREC ( 186) E120-2 4.12920-02 2.86160-05 16 ( 28) DGrWONREC ( 33) DGINNREC 3.79400 4 2 2.6293D-05 17 ( 28) DGre0NREC ( 30) DGr/R 3.42890 4 2 2.37630 4 5 18 ( ' 27) LOSPNONREC ( '30) DGrfR 3.42890 4 2 2.37630-05 19 ( 33) DGBNONREC ( 35) DGEFR 3.3855D42 2.3462D45 20 ( 27) LOSPNCNREC ( 35) DGFR 3.3855D42 2.3462D45 21 ( 30) DGAFR ( 178) IF-ET12A 3.2988D42 2.2861D-05 22 ( 35) IGEFA ( 178) IF-ET12A 3.25590-02

, 2.25640 4 5 23 ( 185) S2-04 ( 30) DGAFR 3.16890 4 2

2.19610-05 24 ( 185) S2-04 ( 35) DGFR 3.1682D-02 2.1956D45 25 ( 185) 52 4 4 ( 97) IPS10! PDM 2.52590 4 2 1.75050 4 5 26 ( 185) S2 GA ( 83) IPSI 0 LPM 2.52590-02 1.7505D45 27 ( 30) DGAFR ( 186) E120-2 2.44390 4 2 1.69360-05 28 ( 35) DG FR ( 186) E120-2 2.4101D-02 1.6702D-05 '

29 ( 30) DGifR ( 33) DGENONREC 2.07780 4 2 1.44000 4 5 30 ( 28) DGf60NREC ( 35) DGF R 2.07780-02 1.44000 4 5 31 ( 28) DGANONREC ( 29) DGAFS 1.71980 4 2 1.19180-05 32 ( 27) LOSPNONREC ( 29) IGTS !.71980 42 1.19180 4 5 '

33 ( 33) DGENCNREC ( 34) DGSFS 1.7023D42 1.1797D45 H 34 ( 27)LDSPNONREC ( 34) DG E S !.7023D-02 '

1.17970-(6 35 ( 29) DGifS ( 178) IF-ET12A 1.66900 4 2 1.1567D05 36 ( 34) 00 7 S ( 178) IF-ET!2A 1.65170-02 1.1446D-05 37 ( 185) S2-04 ( 34) DG8FS 1.59480 4 2 1.10520 4 5 38 ( 185) S2-0A ( 29) DGrfS 1.59480-02 1.10520-05 39 ( 30) DGr/R ( 35) DGFFR I.37820 4 2 9.55080-06 40 ( 27) LOCPNCNREC ( 31) tern 1.3245D-02 9.17900-06 41 ( 27)LOSPNONREC ( 32) DGEN 1.30780-02 9.06350-06 42 ( 31) DGin (178)IF-E712A 1.2727D-02 8.8200D46

43 ( 32) IG M ( 178) IF-ET!2A 1.25580 4 2 8.7029F06 44 ( 29) DG ES ( 186) E120-2 1.23790-02 8.57830-06 45 ( 34) DGBFS ( 186) E!20-2 1.22340 4 2 8.4780D-06 46 ( 185) S2-04 ( 32) DGEM 1.21930-02 8.4496D-06 47 ( 165) S2-04 ( 31) DGM 1.2193D-02 8.4496D-06 48 ( 28) DG MGNREC ( 32) DGEM 1.20580-02 8.3564D46 49 ( 31) DGM ( 33) DGENONREC 1.20050-02 8.31930-06 50 ( 29) DGV S ( 33) DGENONREC 1.04000-02 7.2074C -%

51 ( 28) DGANONREC ( 34) DG5FS 1.04000 4 2 7,2074D 4 52 ( 311 DGM i 186) E120-2 9.4287D-03 6.5342D-M 53 ( 32) DGM ( 186) E120-2 9.29700-03 6.4+300-06 54 ( 30) DG TR ( 32) DGEM 7.9105D-03 5 AE21D-06 55 ( 31) IGM ( 35) DGBFR 7.87540-03 5.678D46 56 ( !!8) CCAC ( 27) LDSPNONREC 7.1770043 4.97380 4 6 57 ( 30) DGAFR ( 34) ECEFS 6.9968 H 3 4.8489D 4 58 ( 29 DGES ( 35) DGBFR 6.93GD-03 4.84890-06 59 I 118) CCAC ( 28) DGMGNREC 6. % 95 H 3 4.83000-%

60 ( 118) CCAC ( 33) DGSNCNREC 6.%90H3 4.8296D-%

61 ( !!8) CCAC ( 178) IF-ET12A 6.90060-03 4.7822D 4 62 ( !!8) CCAC ( 185) S2-04 6.7214D43 4.65600 4 63 ( 185) S24A ( 75) FSIOXIM 5.5600D43 3.85320 4 64 ( 185) S2-04 ( 72) FSIOJCM 5.500003 3.EJ32D46 65 ( 185) S2-GA ( 88) FSIO3CFM 5.3725D43 3.7232D-06 66 ( 185) S2-GA ( 85)FSIO3CEM 5.3725D-03 3.7232D46 67 ( !!8) CCAC ( 186) E120-2 5.11610 4 3 3.5456 M 6 68 ( 97) IPSI 0lFEM ( 178) IF-E712A 4.49960-03 3.!!83046 69 ( 83) IPSI 0 LPM ( 178) IF-ET!2A 4.4996D43 3.!!83D46 1 70 ( 29 DGTFS ( 32) DGSM 4.01550 4 3 2.782SD46 71 ( 31) DGM ( 34) DGBFS 3.9977D43 2.7705D-06 72 ( 28) DCMGhREC ( 97) IPSIO!FM 3.5092043 2.4319D46

, 73 ( 27) LOSph0NREC ( 97) IPSIO!FBM 3.5092D43 2.4319046 74 ( 33) DG5NGNREC ( 83) IPSIO!PM 3.5052D-03 2.4292D-06 75 ( 27) LOSENGNREC ( 83) IPSI 0lFM 3.5052D43 2.4292D-M 76 ( 29) DG T S ( 34) ICIFS 3.4033D-03 2.3586D 4

77 ( 97) IPS10 LPM ( 186) E120-2 3.33200 4 3 2.30910 4 6 78 ( 83) IPSI 0!PM i 186) E120-2 3.33200-03 2.3091D-M 79 ( 142) PM0!PBM ( 195) IF-ETl? 3.27140-03 80 ( 26) LOSp 2.26710-%

( 27) LCSDNONREC 2.74570-03 1.90280-M 81 ( 185) 52-04 ( 26) LCSD 2.66700 4 3 1.8483D-06 82 ( 30)(CTR I 97) IDS 10lFM 2.30320-03 1.5162D-06 83 ( 35) DGEFR ( 83) 195101F4 2.2992D-03 84 ( 26)LOSp 1.5934D-%

( 28) ICMONPEC 2.08500-03 1.4449D-M 85 ( 26)LDSD ( 33) CGI@ REC 2.0787D43 86 (141) Py0 LPM 1.44%D-%

( 147) 001-0D 1.79440-03 1.2436D-06 87 ( 141) Py0!pM ( 172) OP2-00 1.78970 4 3 1.2403D 4 88 ( 26)tr)Sp ( 30) DGYR 1.3013D-03 9.01790-07 81 ( 26) LOSp ( 35) ICBFR I.29530-03 8.97990-07 90 ( 34) DGeFS ( 83) IPSI 0 LPM 1.1677D43 8.0920047

l l

l NooWI Caraa l

{Ahll[0 t

BASIC EVENT SINGLE EVENT CCNTRI M ION TO PRCBABILITY F-V IMPORTANCE TOP EVENT 1 ( 185) S2-CA 5.0000D-01 8.88300 4 1 4.2762043 2 ( 195) IF-ET17 7.2100D-03 8.3047D41

.3 3.9978H3

( 178) IF-E712A 9.1000D-02 5.7717D42 - 2.7785044 4 ( 27) LDSPNCNREC 2.6000D41 5.4757D-02 2.6360D-04 5 ( 143) 5 0lP3FS 2.33000-02 4.6839D-02 2.254SD44 6 (186)E!20-2 7.40000-01 4.2770 H 2 2.05890-04 7 ( 142) PAF0lPBM 2.ll70 H 2 3.70290-02 1.7826D44 l 8 ( 97) IPSIO! PEN 3.%50D-02 3.5573D-02 1.71250 4 4

! '9 ( 83) IPSIO! PAN 3.%50D-02 3.5568D-02 1.7122D-04 l 10 ( 194) IF-ET14 4.11000+00 3.47120 4 2 1.67100-04 l 11 ( 177) IF-ETil 4.00000+00 3.3783D-02

1.6263 H 4 12 ( 28) DGANCNREC 7.50000-01 2.9155D-02 1.4035 H 4 13 ( 33) DGBNCNHEC 7.5000D-01 2.8308D-02 1.3627D-04 14 ( 169) IF-ET7 3.00000+00 2.5337D-02 1.2197D-04 15 ( 80) ISSIO!FAQ 2.40000-04 2.1491D-02 1.03460 4 4 16 ( 94) ISS10!FB3 2.4000D-04 2.14880 4 2 1.03440 4 4 j 17 ( 30) DGV R 3.5820D-02 1.8528D-02 8.91920 4 5 18 ( 35J DGitA 3.!!20D42 1.7?62D42 8.6469D-v5 t

19 ( 32)!GN 1.3590D-01 1.72490 4 2 8.30360 4 5 l 20 1 31) DG#t 1.35900 4 1 1.68810 4 2 8.12650-05 21 ( 179) E12D-1 2.6000 H 1 1.4947D-02 7.19550-05 22 ( 144) 40lPBFR 6.45000 4 3 1.2607D42 6.0688045 23 ( 29) DGV S 1.8200D42 9.367D43 4.5104D45 24 ( 34) DGBFS 1.8200D-02 9.0940D43 4.3778D-05 25 ( 75) FSIO3CtM 9.8280D43 7.5465D-03 3.63280 4 5 26 ( 72) FSIO3 CAM 9.8280D-03 7.5465D-03 3.63280 M 27 ( 76) FS103CEFR 8.47200-05 7.36990 4 3 3.54780 4 5 26 ( 73) FS103CAFR 8.4720D45 7.3699 H 3 3.5478D-05 -

l 29 ( 89) FS103CFFR 8.47200 4 5 7.3690 H 3 3.54740-05 30 ( 86) FS103C!TR 8.47200 4 5 7.36900 4 3 3.54740-05 31 ( 88) FSIO3CFM 9.8280 H 3 7.30500-03 3.5166D-05 32 ( 85) FS103CEM 9.8280 H 3 7.30500 4 3 3.5166D-05 3J ( 141) PAF0lPAM 3.14200-02 7.1041D-03 3.4196D-05 '

34 ( 71) CCEC'n1Ji 4.79000 4 6 6.825104 3 "

3.2856D45 35 ( !!J) IF-ET3 3.5400D-02 5.2015D-01 2.5040 H 5

, 36 ( 175) IF-ET8 6.0000D-01 5.0582 H 3 2.43500-05 l 37 ( 147) OP140 8.80000-04 3.47100-03 1.6709D-05 l

38 ( 172) 002-G0 8.8000D44 3.4621D43 1.6666D-05 39 ( 98)EUS13 TID 5.57200-05 3.1375D43 1.51040-05 40 ( 101) 10S1321D 5.57200 4 5 3.1369 H 3 1.51010-05 i 41 ( 176) IF-fi9 3.5800 H 1 3.01080 4 3 1.44940-05 42 ( 95)! PSI 0lP6FR 3.16800 4 5 2.(605H3 1.2808045 l

t i

l t

i 43 ( 84) IPSI 0lPW R 3.16800-05 2.660 D-03 !.28080-05 44 ( 1 4) ADVSIl78D 1.4%0D43 2.65240-03 1.2765D-05 45 ( 145) A0VSIl73D 1.4 % 00 03 2.65240-03 1.27680-05

% ( 123) P9H0lPACFS 2.24000-04 2.6276D-03 1.26490-05 47 ( 261LOSP 3. WOOD-04

.48 1.91700-03 9.22850-06

( 139) AFisSCCFAll. 2.2510D44 1.90!!D-03 9.15380-M 49 ( 150) IF-ET4 3.8200D-02 1.86720 43 8.9384D-M 50 ( 140) F 0!PFS 5.02000-03 !

1.741: H 3 8.3334046 51 (.77)F3103CBFS !.1700 H 3 -

1.6501D-03 7.9434D 4 "

52 ( 74)FSIO3CES 1.1700D-03 1.6501D43 7.94340 4 53 ( 90)FSIOJCFFS 1.17000 4 3 i 1.63350-03 7.8637D-(6 54 ( 87) FSIO3CEFS 3.1700D43 !

1.633:D-03 7.8637D-M 55 (118)CCAC 6.30000-M 1.50310-03 7.235?D-M 56 (1891IF-ET13 1.60000-01 1.4532D43 6.9958046 57 ( 163) 094-20D 1.00000 4 1 1.2377D-03 5.95820-06 54 ( 96) ISSIO! FEM 1.68000 4 3 1.1962D-03 5.7 83D-M 59 ( 82) ISSIOlFAM 1.68000 4 3 1.1962D-03 5.75830 4 60 ( 120) HPRECIRCOP 1.00000 4 4 1.1635D43 5.60080-M 61 (109)IPSIO!PMS 7.21000-M 1.01%D-03 4.88440 4 62 ( 110) IPSI 0lPDFS 7.21000 4 4 1.00440 4 3 4.8353D-M 63 ( 4) PAH01F M 1.03000-02 ;

8.9135D44 4.29090 4 64 ( 2) PRH0lPAM 1.0300D42 7.8979D44 3.80200 4 65 ( 93) IIVSI!431'C 9.50MD-M 7.33880 4 4 ;

3.5329D 4 66 I 92) IMVS1001BC 1.50MD-M 7.3388D44 3.53290 4 6 67 ( 69)LPRECIRCCP 1.5000D43 5.6540D44 ' 2.8200D46 to ( 122) MVCC9412CC 4.65000 4 5 5.34%D44 2.5753D 4 69 ( 121) MVS!8811CC 4.6500 H 5 5.34%D44 2.5753D 4 70 ( Sil 0!VSIl38BC 3.50%D-M 4.91990 4 4 2.3644D4 71 ( 81) IIVSIl43AC 9.50 # D 4 4.917,D44 2.36840-(4 72 ( 79) IMVSIO0 LAC 9.50%D-M 4.91990 4 4 2.36440 4 6 73 ( 78)01VSIl38AC 9.504046 4.91990 44

( 2.3686D4 74 ( 7) IF-E11 9. WOOD 44 4.76780 4 4 2.29520 4 75 (105)IFf72 9. Wo00-M 3.94430 4 4 f.8948046 76 ( 103) RAGESTAW 5.0000H1 ?

3.M36D-04 1.474804 '

77 (102)FLAGESFANE 5.0000 H I 3.N36044 1.474046 74 ( 100) RAGESFANI 5.00000 4 1 3.M36044 1.4740-M 79 ( 99) FUGESFANA 5.00000-01 3.N36044 1.474D-M 80 ( 55) MVCC9411BO 1.55000 4 3 3.0!M644 1.45310-M 81 ( 51) NV$!88ttp0 f.5500043 J 3.0186D 04 1.453!D-M 82 ( 1811 52-C': 1.00006 44 2.6263D44 L

1.264304 43 ( 45) MVCC1412A0 1.55000-03 2.58870-04 !

1.24620-M 44 ( 41)MVS!8411AG l.55000 4 3 2.58470 4 4 1.24620-M 85 1155) 0P340 3.00000-03 2.45900-M 1.183704 86 ( 132) MVS1880414 1.55000-03 2.44516 44 1.17710-M 87 ( 174) OP24R 3.0000603 2.10780 4 4 !

1.01470 4 88 ( 173) 0P244 1.90000 4 2 2.1078D-04 1.01470 4 l 49 ( 131) MVS!8804A0 1.5:00 H 3 2.0140-04 9.61100-07 90 (191)pt.1 5.00000 4 1 1.9M5044 9.!E280-01 ,

l l t l

FAIRWISE CONTA!RlTICN TO F-V IMPORTANCE TOP EVENT 1 ( 185) S2-04 ( 195) IF-ET17 7.9863 H 1 5.70000 4 3 2 ( 27) LOSPNONREC i 178) IF-ET124 3.5640D42 2.5437D-04 3 ( 185) S2-CA ( 178) IF-ET12A -

3.51240-02 2.5069D-04 ~

4 ( 142) PAF0!PBM ( 195) IF-ET17 3.3814D42 2.4134D-04 5 ( 185) S2-04 ( 27) LOSPNCNREC 3.3390 H 2 2.383tD-04 6 ( 178) IF-ET12A i 186) E120-2 2.88480-02 2.0589D-04 7 ( 27) LOSPNONSEC ( 186) E120-2 2.640!D-02 1.8843D-04 8 1 185) S2-04 ( 186) E120-2 2.5996 H 2 1.8554D-04 9 ( 185) 52-04 ( 97) IPS101 FEM 2.1697D42 1.5486 H 4 10 ( 185) S2-CA ( 83) IPSI 0lPAN 2.1697D-02 1.5486D-04 11 ( 27)8.0SENONMEC ( 23)DGANONREC 1.%65H2 1.4035D44 12 ( 27) LOSFhChREC ( 33) DGBNONREC 1.90930-02 1.36270-04 13 ( 28) DGAh0NREC ( 178) IF-ET12A 1.89390 4 2 1.3517D-04 14 4 33) [GLh0NAEC ( 178) IF-Eil2A !.83880-02 1.3124D44 15 ( 185) S2-0A ( 28)DGANCNREC 1.7600 H 2 1.2562D44 16 ( !!5) S2-0A ( 33) D6INONREC 1.76000-02 1.256tD44 17 ( 28) DGf60NREC i 186) E120-2 1.4025D-02 1.00100 4 4 18 ( 33) DGIN0NREC ( 185) E120-2 1.3612D42 9.71530-05 19 ( 28) DGANGNREC ( 30) DGAFR 1.24370 4 2 8,9192D45 20 ( 27) LOSPNONREC i 30) DGifR !.2497D42 8.91V2D45 21 ( 33) DGBNONREC ( 35) DG6FR I.21150 4 2 8.64680 4 5 22 ( 27) LOSPNONREC ( 35) DGliFR 1.21150-02 8.6468D-05 23 ( 30) IGffR ( 178) IF-ET12A * " 1.20210 42 8.57950-05 24 ( 35) DG8FA ( 178) IF-ET12A 1.1654042 8.3178D45 25 1 2D LOS;NCNSEC

( 32) ISBN 1.1634 H 2 8.3016D45 26 ( 27)LOSENONREC ( 31)(Grm 1.13860 4 2 8.12650 4 5 27 ( 32) DGSM (178)IF-Eil2A l.11720-02 7.97400-05 to (185)S2CA ( 30) DG M R 1.ll70 H 2 7.D721045 29 ( 185) S2-04 ( 35) DGEFR I.1169D42 7.9717D45 30 ( 31) DGfM ( 178) IF ET12A 1.0941D-02 7.8091D-05 31 ( 28) DGANGNREC ( 32)DGEM l.07140 4 2 7.64700-05 32 ( 185) S2-CA ( 32) DGEM 1.04680 42 7.47100-05 33 1 185) S2-04 ( 31) DGfd ;

1.04680-02 7.47100-05 34 ( 31) 20fM i 33) DGENONREC l.0308042 7.35690-(4 '

35 ( 30) DGAFR ( 186) E120-2 8.90000-03 6.3521D45 36 1 35) DGIFA ( 186) E120-2 8.6?64D43 6. !!E8D45 37 I 32) DGBM i 186) E120-2 l 8.27290 4 3 5.90450-05 38 ( 31)(CtM (186)(120-2 8.10700 4 3

- 5.78610-05 31 ( 30)DGr/R ( 32)DGEM 7.029004 3 5.0167D-05 40 1 31) (Gra ( 35) IGEFA 6.76250 4 3 4.82650-05 41 1 28) tGr6CNREC ( 29) DC# S 6.3196D43 4.5104D45 42 ( 27) LOSFOREC i 29) DGifS 6.3196D43 4.5104D45

43 ( 33) DG6NONREC ( 34) DGBFS 6.13380 4 3 4.3772D-05 44 ( 27) LOSPNONREC ( 34) DGBFS 6.1338D43 4.377a0-05 45 ( 29) DGAFS ( 178) IF-ET!2A 6.0967D43 4.35130-05 4 ( 34) PGFS ( 178) IF-ET12A 5.9166D43 4.2223D-05 47 ( 185) S2-04 ( 34) DGBFS 5.6602D43 4.03?SD-05 44 ( 185) C2-0A ( 29) DGW S 5.66020-03 4.0333D-05 49 ( 185) S2-04 ( 75) FS103CEM 4.7715D43 3.40553-05 50 ( 185) $2-04 ( 72) FSIO3CM 4.7715D43 3.4055045 51 ( 185) S2-04 ( 88) FSX03CFM 4.61060 4 3 3.2906D45 52 ( 185) 52-04 ( 85) FSIO3CDI 4.6106043 3.29%D45 53 ( 29) DGAFS (IM)E120-2 4.51%D43 3.2236D45 54 ( 34) DG8FS ( IM) E120-2 4.3806D43 3.1265D45 55 ( 97) IPSIO!P8N (176)IF-ET12A 3.9995D43 2.85450-05 56 ( 83) IPS10!PM (178)IF-ET12A 3.99950-03 2.85450 4 5 57 ( 28) DGANONEC ( 33) DGBNONREC 3.8082D43 2.7180D45 58 ( 29) DGAFS ( 32) DGM 3.56800-0J 2.5466D-05 59 ( 31) DGAM ( 34) DGEFS 3.43260 4 3 2.44990-05 60 ( 28) DGANONREC ( 97) IPSI 0lP91 61 3. !!!3D-03 2.22360-05

( 27)LOSPNONREC ( 97) IPSI 0lP8N 3.11550 4 3 2.2236D-05 62 ( 33) DG8NONREC ( 83)IPSX0 LPM 3.1121D-03 2.22120-05 63 ( 27) LOSPNDNEC ( 83) IPS10lPAM 3.11210 4 3 2.22120 4 5 64 ( 97) IPSX0 LPM ( IM) E!20-2 2. % 210-03 2.!!41D-05 65 ( 83) IPSIO!PAM ( IM) E!204 2.%21043 2.11410 4 5 66 ( 30) DGF R ( 33) DGIN0NEC 2.0853D-03 1.4883D-05 67 ( 28) DGAh0N EC ( 35) DG8FR 2.085304 3 1.4883D45 M ( 30) DGWR ( 97) IPS10!P9M 2.0447D43 1.4594D-05 69 ( 35) DG8FR ( 83) IPSI 0lPAN 2.04130 4 3 1.45690-05 70 ( 141) PW OIPAN ( 147) Opt-00 1.54080 4 3 1.0917D-05 71 ( 141) PA.*0lPAM i 172) OP2-00 1.5367D43 1.09080 4 5 72 ( 30) D65 4 ( 35) DGFA 1.3831D43 9.87140-M 73 ( C6)LOSP ( 27) LOSPNDN9(C 1.29300 4 3 9.22850-%

74 ( 185) S2-04 ( 26)LOSP !.2153D-03 8.6735D46 75 ( 142) PW0 LPM ( 178) IF fil2A 1.11730 4 3 7.97470-M 76 ( 29)DGES ( 33) 06M(NEC 1.0443D43 '

7.4532D-M 77 ( 28) DGANONAEC ( 34)068FS 1.0443D43 7.4512D-%

78 ( 34) 06FC ( 83) IPS!0lPAM 1.0367D-03 7.319tD-M 79 ( 29) DO W S ( 97) IPSI 0 LPM 1.03670 4 3 ,

7.399tD-M 80 ( 27) LOSPNONE C ( 142) PF0!PM 1.0181D43 7.2MSD-M 01 (118)CCAC ( 27)LOSPNCN9EC 1.01380-03 7.23580-M 82 ( !!8) CCAC (178)IF-Eil2A 9.86990 44 j

7.04430 4 6 83 ( 75) FSX0XM ( 178) IF Eil2A 9.82240-04 7.01040-M 84 ( 72) FS10XM i 178) IF47124 9.82240 4 4 7.01040- %

85 ( 88) FS10XFM ( 178) IF4712A 9.81350 4 4 7.00410- %

86 ( 85) FS103CLM ( 178) IF4T12A 9.81330 4 4 7.004 tD-M 87 (!!8)CCAC (185)52-04 9.2616D44 6.61020-M N ( 142) PW0!P8n ( 91) IPS10 LPM 8.6602D44 6.18010 4 6 89 ( 83) IPS10 LPM i 142) PF0 LPM 8.6602D44 6.18096- %

90 ( 118) CCAC ( 28) DGAN(NEC 4.48460 44 6.05560 4 6

.

ML20138R650

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ML20138R650

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