:Page 1 of 30 CALCULATION COVER SHEET Calculation No:           PTN-BFJR-06-001

PHASE 3 SDP FOR TURKEY POINT B AFW PUMP FAILURE

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0      INITIAL ISSUE                    -ae Descriptlon                     BY     7                   fe Date _'dhk/Ver I atelDate N.

REVISIONS PTN-BFJR-06--01 Rev 0 PTN AFWP BSDP Calc.doc

PTN-BFJR-06-001 Rev. 0 Page 2 of 30 LIST OF EFFECTIVE PAGES Calculation No:           PTN-BFJR-06-001                                   REV. 0

PAGE         SECTION         REV     PAGE   SECTION   REV PAGE SECTION   REV 1       COVER SHEET         0 2       LIST OF EF PG       0 3       TABLE OF CONTS       0 4               1.0           0 4             2.0           0° 4             3.0             0 5             4.0             0                           _  __

7             5.0             0 15             6.0           0 15             7.0           0 18         Attachment 1        0 23         Attachment 2              _    _

25   _    Attachment 3        0 28         Attachment 4        0 29     _  Attachment 5        0 30         Attachment 6        0 PTN-BFJR-06-031 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev. 0 Page 3 of 30 TABLE OF CONTENTS Calculation No:             PTN-BFJR-06-001                                                         REV. 0 ORMI                     mm 1.0 PURPOSE/SCOPE .....................                                                                           4

.....................                                                                              4 3.0 METHODOLOGY .....................                                                                             4 4.0 ASSUMPTIONSIBASES .....................                                                                       5 5.0 CALCULATION .......................                                                                           7 6.0 CALCULATIONAL FILES ....................                                                                     is 7.0 RESULTS                 .....................                                                                15 ATTACHMENT 1: SENSITIVITY CASE, USING MSPI DATA, WITH AFW B FAILURE TO RUN SET TO 1.0 .....................                                                                                         18 ATTACHME:NT 2, SENSITIVITY STUDY: BASE CASE, USING MSPI DATA, NOMINAL AFW B FAILURE TO RUN ...........                           .                                                          23 ATTACHMENT 3: CLARIFICATION OF LOSS OF DC 3A OPERATOR RECOVERY ACTION ............. 25 ATTACHMENT 4:  

OF TURKEY POINT PLANT RESPONSE TO LOSS OF AFW 1 HOUR AFTER A LOSS OF FEEDWATER ..........................................................................             28 ATTACHMENT 5:  

OF NRC PHASE 3 SDP RESULTS ....................................................... 29 ATTACHMENT 6: SPAR-H PERFORMANCE SHAPING FACTORS FOR EXECUTION ....................... 30 LIST OF TABLES i             MMEMM Table   (1): AFW Pump B Surveillance Data.                                                                         5 Table   (2): Top 10 cutsets from SPAR Model for LODC3A.                                                           9 Table   (3): List of Key HEPs and Performance shaping Factors.                                                   10 Table   (4): Top 10 cutsets from SPAR Model for LOCHS.                                                           11 Table   (5): Top 10 cutsets from SPAR Model for LOMFW.                                                           13 Table   (6): Best Estimate Delta CDF.                                                                           16 Table   (7): Summary of Delta CDF Sensitivity Study.                                                             16 PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CaicFinal.doc

: 1. Turkey Point Nuclear Plant Integrated Inspection Report , 05000250/2005005 and 05000251/2005005 Preliminary White Finding, ; January 27, 2005.

: 1. Based on the test data and operating experience of the B AFW pump, .the B AFW pump woL Id run at least one hour on or before October 30, 2005. Afterwards, the performance of B AFW pump is not determined, and is conservatively assumed to fail within the first hour.

PTN-BFJR-06-CO1 Rev 0 PTN AFWP BSDP CalcFinal.doc

Table (1): AFW Pump B Surveillance Data.                   l Surveillance Runs plus Rx               Reason (Procedure or Date           Trips(hours)                     Trip)       Residual runtime 1/3/2003             0.7             4-OSP-075.9                 54.83 1/6/2003             1.3             4-OSP-075.2                 54.13 C/6/2003             0.5             4-OSP-075.9                 52.83 G/7/2003             1.75             4-OSP-075.2                 52.33 1/8/2003           3.5             4-OSP-075.7                 50.58 1/9/2003             1.5             3-OSP-075.2                 47.08 9/10/2003             0.6             4-OSP-075.2                 45.58 9/12/2003             0.5             4-OSP-075.9                 44.98 10/13/2003             0.6             3-OSP-075.2                 44.48 11/4/2003             0.5             4-OSP-075.7                 43.88 11/10/2003             1.5             3-OSP-075.7                 43.38 12/8/2003             0.6             3-OSP-075.2                 41.88 12/9/2003             0.8             4-OSP-075.7                 41.28 1/5/2004             0.9             3-OSP-075.2                 40.48 1/5/2004             0.4             4-OSP-075.2                 39.58 1/30/2004               1               3-OSP-075.7                 39.18 2/2/2004             0.6             4-OSP-075.2                 38.18 3/2/2004             0.5             3-OSP-075.2                 37.58 3/4/2004             1.7             4-OSP-075.7                 37.08 3/29/2004             1.1             4-OSP-075.2                 35.38 3/29/2004             0.25             3-OSP-075.2                 34.28 4/26/2004             1.1             3-OSP-075.7                 34.03 5/14/2004             2.75             RxrTdpAFWAutoInitiation     32.93 PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

Surveillance Runs plus Rx                 Reason (Procedure or Date           Trips(hours)                       Trip)           Residual runtime 5/24/2004             0.5               3-OSP-075.2                       30.18 6/21/2004             0.5               3-OSP-075.2                       29.68 6/21/2004             0.9               4-OSP-075.2                       29.18 7/19/2004             1.7               3-OSP-075.7                       28.28 7/20/2004             0.5               4-OSP-075.2                       26.58 8/16/2004             0.4               3-OSP-075.2                       26.08 9/13/2004             0.25               3-OSP-075.2                       25.68 9/13/2004             0.5               4-OSP-075.2                       25.43 10/11/2004               0.4               4-OSP-075.2                       24.93

_11/8/2004             0.9               4-OSP-075.2                       24.53 11/12/2004               1.4               4-OSP-075.7                       23.63 1211/2004             1.2               3-OSP-75.7                       22.23 1 26/2004               1               4-OSP-075.2                       21.03 12/14/2004               1.8               Rxr Trip AFW Auto Initiation     20.03 12/25/2004               1.1               RxrTrip.AFW Auto Initiation       18.23 12/28/2004               0.9               RxrTripAFW Auto Initiation       17.13 1/10/2005             0.9               4-OSP-075.2                       16.23 1/31/2005             1.33               4-OSP-075.7                       15.33 2/24/2005             1.05               4-OSP-075.2                       14.00 2/28/2005             0.43               4-OSP-075.2                       12.95 2/28/2005             0.52               3-OSP-075.2.                     12.52 2/28/2005             0.5               3-OSP-075.9                       12.00 3/22/2005             0.5               3-OSP-075.2                       11.50 3/22/2005             1.5               Rxr.Trp AFW Auto Initiation       11.00 4/.25/2005             0.4               3-OSP-075.2                       9.50 5/6/2005             0.3               3-OSP-075.2                       9.10 5/23/2005             0.5               3-OSP-075.2                       8.80 5/27/2005               0.2             .3-OSP-075.2                       8.30 6/25/2005             0.5               4-OSP-075.2                         8.10 6/25/2005             0.6     _          3-OSP-075.7                       7.60 6/27/2005             0.9               Rxr Trip AFW Auto Initiation       7.00 7/18/2005             .1               4-OSP-075.7                         6.1 7/20/2005             0.5               3-OSP-075.2                         5.1 8/15/2005             0.5               4-OSP-075.2                         4.6 9/12/2005             0.3               4-OSP-075.2                         4.1 10/10/2005             0.4               3-OSP-075.2                         3.8 10/10/2005             2.1               4-OSP-075.7                         3.4 10/31/2005             0.6               Rxr Trip AFW Auto Initiation         1.3

_._November   7 ran 0.7 hours

PTN-BFJR-06-001 Rev. O Page 7 of 30 5.0 CALCULATION Based on the test data and operating experience of the BAFW pump, .the B AFW pump would run at least one hour at normal failure rate (thus for the first hour given any hypothetical accidents, there is no Delta CDF increase) on or before October 31, 2005. Afterwards, the performance of B AFW pump is not determined, and is conservatively assumed to fail.

Time Window 1:             Before October 30, 2005, B AFW pump Is assumed to fall one hour or longer after automatic actuation

: 1. If BAFW pump runs for an hour and then fails, the decay heat is significantly lower, allowing more time for operators to take actions stipulated inthe EOP.

Time Window 2:           After October31, 2005, B AFW pump Is assumed to fall witin one hour of automatic actuation.

There is still some margin in the estimated safety significance from the threshold of 1.OE-6/Yr, even if it is conservatively assumed that risk impact of the BAFW pump due to external events is as high as that due to internal events.

SAPHIRE ,' and the latest Turkey Point model were used to understand the three dominant sequences contributing to the phase 3 SDP summarized in the NRC inspection report. The SPAR model was modified by incorporating the key modeling assumptions related to using SSGFW pump, with slightly higher delta CDF than that estimated in Reference 2 (see Attachment 5)

Cut             %Cut No.   % Total     Set     ProbJFrequency       Basic Event         Description           Event Prob.

1       93.79   93.79         1.750E-006         IE-LODC3A     LOSS OF DC BUS 3A         2.500E-003 AFW-TDPC-     AFW TDP-C WEAKER OF         5.000E-001 WEAKER     THE TWO TRAIN 2 PUMPS (PSA)

AFW-XHE-XM- OPERATOR FAILS TO TRIP         1.400E-003 TRIP1           AFW PUMP MFW-XHE-XL-     OPERATOR FAILS TO         1.000E+000 TRIP         RECOVER MFW 2       95.67   1.88         3.500E-008         IE-LODC3A     LOSS OF DC BUS 3A         2.500E-003 AFW-TDP-FS-C     AFW TDP C FAILS TO         7.OOOE-003 START MFW-XHE-XL-     OPERATOR FAILS TO         2.000E-003 RESTORE   RESTORE MFW (LODC3A-

__                                                  PSA) 3       97.01   1.34         2.500E-008         IE-LODC3A     LOSS OF DC BUS 3A         2.500E-003 AFW-TDP-TM-C AFW TDP C UNAVAILABLE         5.000E-003 DUE TO TEST AND MAINTENANCE MFW-XHE-XL-     OPERATOR FAILS TO           2.000E-003 RESTORE   RESTORE MFW (LODC3A -

__      _  _        _                          PSA) 4       98.25   1.24         2.305E-008         IE-LODC3A       LOSS OF DC BUS 3A         2.500E-003 AFW-TDP-CF- COMMON CAUSE FAILURE           4.610E-003 FRBC       OF TDP B & C TO RUN MFW-XHE-XL-     OPERATOR FAILS TO           2.000E-003 RESTORE   RESTORE MFW (LODC3A -

PSA) 5       98.97     0.72         1.348E-008         IE-LODC3A       LOSS OF DC BUS 3A         2.500E-003 AFW-TDP-CF- COMMON CAUSE FAILURE           2.696E-003 FRALL       OF TURBINE DRIVEN PUMPS TO RUN MFW-XHE-XL-     OPERATOR FAILS TO         2.000E-003 RESTORE   RESTORE MFW (LODC3A -

PSA) 6       99.13   0.16         2.951E-009         IE-LODC3A       LOSS OF DC BUS 3A         2.500E-003 AFW-TDP-FR-C AFW TDP C FAILS TO RUN         5.366E-003 AFW-XHE-XL-     OPERATOR FAILS TO           1.100E-001 TDPA     MANUALLY ALIGN TDP-A GIVEN LOSS OF DC-3A (PSA)

MFW-XHE-XL-     OPERATOR FAILS TO           2.000E-003 RESTORE   RESTORE MFW (LODC3A -

                        ._                                                PSA) 7       99.26   0.13         2.500E-009         IE-LODC3A       LOSS OF DC BUS 3A         2.500E-003 AFW-CKV-CC-   FAILURE OF FLOW TO SG-         1.000E-004 3012       3B THROUGH CHECK VALVE 3-012 AFW-XHE-XM-     OPERATOR FAILS TO         1.OOOE-002 FLOW2     INCREASE AFW TRAIN 2 FLOW GIVEN ONE DISCH

__                                                  PATH FAILED PTN-BFJR-06-CO1 Rev 0 PTN AFWP B SDP CalcFinal.doc

Cut         -%Cut No.   % Total Set           ProbiFrequency         Basic Event             Description             Event Prob.

MFW-XHE-XL-         OPERATOR FAILS TO             1.000E+000 TRIP             RECOVER MFW 8       99.39   0.13           2.500E-009         IE-LODC3A         LOSS OF DC BUS 3A             2.500E-003 AFW-CKV-CC-       FAILURE OF FLOW TO SG-           1.000E-004 3010           3A THROUGH CHECK VALVE 3-010 AFW-XHE-XM-         OPERATOR FAILS TO             1.OOOE-002 FLOW2         INCREASE AFW TRAIN 2 FLOW GIVEN ONE DISCH PATH FAILED MFW-XHE-XL-         OPERATOR FAILS TO             1.000E+000 TRIP               RECOVER MFW 9       99.52   0.13           2.500E-009         IE-LODC3A           LOSS OF DC BUS 3A             2.500E-003 AFW-CKV-CC-       FAILURE OF FLOW TO SG-           1.OOOE-004 3014           3C THROUGH CHECK VALVE 3-014 AFW-XHE-XM-         OPERATOR FAILS TO             1.OOOE-002 FLOW2         INCREASE AFW TRAIN 2 FLOW GIVEN ONE DISCH PATH FAILED MFW-XHE-XL-         OPERATOR FAILS TO             1.OOOE+000 TRIP               RECOVER MFW 10     99.63     0.11           2.134E-009         IE-LODC3A           LOSS OF DC BUS 3A             2.500E-003 AFW-TDP-TM-             AFW TRAIN 2               3.880E-003 TRAIN2         UNAVAILABLE DUE TO TEST AND MAINTENANCE (PSA)

AFW-XHE-XL-         OPERATOR FAILS TO             1.100E-001 TDPA         MANUALLY ALIGN TDP-A GIVEN LOSS OF DC-3A (PSA)

MFW-XHE-XL-         OPERATOR FAILS TO             2.OOOE-003 RESTORE         RESTORE MFW (LODC3A -

HRA Basic Event         Event Description/Shaping       Distribution     Probability/   InitialUMultiplier Name                           Factor

* Type/PSF         Percentage AFW-XHE-XMI-THRTL           OPERATOR FAILS TO             Constrained         1.OE-3 THROTTLE SG FCVs           Noninformative Action is modeled.                                                 1.0E-3 Available Time       Nominal time         100%               1.00 Stress/Stressors         Nominal           100%               1.00 Complexity             Nominal           100%               1.00 Experience/Training         Nominal           100%               1.00 Procedures             Nominal           100%               1.00 Egonomics/HMI             Nominal           100%               1.00 PTN-BFJR-06-CO1 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev. 0 Page 11 of 30 Table (3): Ust of Key HEPs and   Performance shaping Factors.

HRA Basic Event         Event Description/Shaping       Distribution     Probability/ Initial/Multiplier Name                           Factor               TypeIPSF         Percentage Fitness for Duty         Nominal           100%             1.00 Work Processes             Nominal           100%             1.00.

SFP-XHE-XIM--SSGFP         OPERATOR FAILS TO             Constrained START AND ALIGN           Noninformative STANDBY SG PUMP TRAINS Action is modeled.                                             1.OE-3 Available Time       Nominal time         100%             1.00 Stress/Stressors           Nominal           100%             1.00 Complexity             Nominal           100%             1.00 Experience/Training         Nominal           100%             1.00 Procedures             Nominal           100%             1.00 Egonomics/HMI           Nominal           100%               1.00 Fitness for Duty         Nominal           100%               1.00 Work Processes           Nominal           100%               1.00 Dependency is not modeled.

HPI-XHE-XM-FB             OPERATOR FAILS TO             Constrained         2.OE-3 INITIATE FEED AND           Noninformative BLEED COOLING Action is modeled.                                               1.OE-3 Available Time         Nominal time         100%             1.00 Stress/Stressors           High             100%             2.00 Complexity           Nominal           100%             1.00 Experience/Training         Nominal           100%             1.00 Procedures           Nominal           100%             1.00 Egonomics/HMI           Nominal           100%             1.00 Fitness for Duty         Nominal           100%             1.00 Work Processes           Nominal           100%             1.00 Dependency is not modeled.

Cut     %    % Cut         ProbJ No. Totsil   Set     Frequency         Basic Event               Description             Event Prob.

1     70.82   70.82     2.888E-007         IE-LOCHS     LOSS OF CONDENSER HEAT SINK         9.000E-002 AFW-TDP-CF-       COMMON CAUSE FAILURE OF           2.696E-003 FRALL     TURBINE DRIVEN PUMPS TO RUN HPI-XHE-XM-FB     OPERATOR FAILS TO INITIATE       2.OOOE-002 FEED AND BLEED COOLING SFP-XHE-XM-     OPERATOR FAILS TO START AND         5.950E-002 SSGFP1         ALIGN STANDBY SG PUMP TRAINS (DE 2     73.80   2.98     1.213E-008         IE-LOCHS     LOSS OF CONDENSER HEAT SINK         9.000E-002 AFW-TDP-CF-       COMMON CAUSE FAILURE OF           2.696E-003

__                                        FRALL     TURBINE DRIVEN PUMPS TO RUN PPR-SRV-CC-     PORV 1 (PCV-456) FAILS TO OPEN     5.OOOE-003

_                                    456                 ON DEMAND PTN-BFJR-06-031 Rev 0 PTN AFWP B SDP CalcFinal.doc

Cut       %    % Cut         ProbJ No. Totail   Set     Frequency       Basic Event               Description         Event Prob.

SFP-XHE-XM-   OPERATOR FAILS TO START AND     1.000E-002 SSGFP         ALIGN STANDBY SG PUMP TRAINS 3     76.78   2.98     1.213E-008         IE-LOCHS   LOSS OF CONDENSER HEAT SINK     9.000E-002 AFW-TDP-CF-     COMMON CAUSE FAILURE OF       2.696E-003 FRALL   TURBINE DRIVEN PUMPS TO RUN PPR-SRV-CC-     PORV 2 (PCV-455C) FAILS TO   5.000E-003 455C           OPEN ON DEMAND SFP-XHE-XM-   OPERATOR FAILS TO START AND     1.OOOE-002 SSGFP       ALIGN STANDBY SG PUMP TRAINS 4     78.07   1.29     5.248E-009         IE-LOCHS   LOSS OF CONDENSER HEAT SINK     9.000E-002 AFW-TDP-FS-A       AFW TDP A FAILS TO START     7.000E-003 AFW-TDP-FS-C       AFW TDP C FAILS TO START     7.000E-003 HPI-XHE-XM-FB     OPERATOR FAILS TO INITIATE     2.OOOE-002

                            ._                              FEED AND BLEED COOLING SFP-XHE-XM-   OPERATOR FAILS TO START AND     5.950E-002 SSGFP1       ALIGN STANDBY SG PUMP TRAINS (DE 5     79.26   1.19     4.853E-009       IE-LOCHS   LOSS OF CONDENSER HEAT SINK       9.OOOE-002 AFW-TDP-CF-     COMMON CAUSE FAILURE OF       2.696E-003 FRALL   TURBINE DRIVEN PUMPS TO RUN HPI-XHE-XM-FB     OPERATOR FAILS TO INITIATE     2.OOOE-002

__                                            FEED AND BLEED COOLING SFP-MOV-CC-   FAILURE OF SSGFP DISCHARGE       1.000E-003

_                                  3012             PATH VALVE 3-012 6     80.25     0.99     4.023E-009       IE-LOCHS   LOSS OF CONDENSER HEAT SINK       9.000E-002 AFW-TDP-FR-A       AFW TDP A FAILS TO RUN       5.366E-003 AFW-TDP-FS-C       AFW TDP C FAILS TO START     7.OOOE-003 HPI-XHE-XM-FB   OPERATOR FAILS TO INITIATE     2.OOOE-002

__                                            FEED AND BLEED COOLING SFP-XHE-XM-   OPERATOR FAILS TO START AND       5.950E-002 SSGFP1         ALIGN STANDBY SG PUMP TRAINS (DE 7     81.24     0.99   4.023E-009         IE-LOCHS   LOSS OF CONDENSER HEAT SINK       9.000E-002 AFW-TDP-FR-C       AFW TDP C FAILS TO RUN       5.366E-003 AFW-TDP-FS-A       AFW TDP A FAILS TO START     7.000E-003 HPI-XHE-XM-FB   OPERATOR FAILS TO INITIATE     2.0002-002 FEED AND BLEED COOLING SFP-XHE-XM-   OPERATOR FAILS TO START AND       5.950E-002 SSGFP1         ALIGN STANDBY SG PUMP

__                                              TRAINS (DE 8     82.16     0.92   3.749E-009       IE-LOCHS   LOSS OF CONDENSER HEAT SINK       9.OOOE-002 AFW-TDP-FS-A     AFW TDP A FAILS TO START     7.000E-003 AFW-TDP-TM-C     AFW TDP C UNAVAILABLE DUE     5.000E-003 TO TEST AND MAINTENANCE HPI-XHE-XM-FB     OPERATOR FAILS TO INITIATE     2.OOOE-002 FEED AND BLEED COOLING SFP-XHE-XM-   OPERATOR FAILS TO START AND     5.950E-002 SSGFP1         ALIGN STANDBY SG PUMP TRAINS (DE 8308     0.92     3.749E-009       IE-LOCHS   LOSS OF CONDENSER HEAT SINK     9.000E-002 PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR406-D01 Rev. 0 Page 13 of 30 CTable       (4): Top 10 cutsets from SPAR Model for LOCHS.

Cut       %    °% Cut     ProbJ No.     Totsil   Set   Frequency         Basic Event             Description           Event Prob.

AFW-TDP-FS-C       AFW TDP C FAILS TO START       7.000E-003 AFW-TDP-TM-A     AFW TDP A UNAVAILABLE DUE       5.000E-003

___                                                  TO TEST AND MAINTENANCE HPI-XHE-XM-FB     OPERATOR FAILS TO INITIATE       2.000E-002 FEED AND BLEED COOLING SFP-XHE-XM-   OPERATOR FAILS TO START AND       5.950E-002 SSGFP1         ALIGN STANDBY SG PUMP

__                                                    TRAINS (DE 10       83.93   0.85   3.456E-009         IE-LOCHS   LOSS OF CONDENSER HEAT SINK       9.000E-002 AFW-TDP-CF-     COMMON CAUSE FAILURE OF         4.610E-003 FRBC               TDP B & C TO RUN AFW-TDP-FS-A       AFW TDP A FAILS TO START       7.000E-003 HPI-XHE-XM-FB     OPERATOR FAILS TO INITIATE       2.OOOE-002 FEED AND BLEED COOLING SFP-XHE-XM-   OPERATOR FAILS TO START AND       5.950E-002 SSGFP1         ALIGN STANDBY SG PUMP

__                                                    TRAINS (DE For the case when B AFW pump fails after running for one hour or more, the HEPs are reduced by a factor Df 10 because available time is "nominal" instead of "just enough".

___              Table (5): Top 10 cutsets from SPAR Model for LOMFW.

Cut       %    % Cut       ProbJ No.     Toti     Set     Frequency         Basic Event             Description           Event Prob.

1       70.78   70.78   3.209E-007         IE-LOMFW         LOSS OF MAIN FEEDWATER         1.000E-001 AFW-TDP-CF-     COMMON CAUSE FAILURE OF         2.696E-003

_                                FRALL     TURBINE DRIVEN PUMPS TO RUN HPI-XHE-XM-FB     OPERATOR FAILS TO INITIATE       2.OOOE-002 FEED AND BLEED COOLING MFW-XHE-XL-     OPERATOR FAILS TO RECOVER         1.OOOE+000 MFWREC                     MFW SFP-XHE-XM-   OPERATOR FAILS TO START AND       5.950E-002 SSGFPI         ALIGN STANDBY SG PUMP

__          TRAINS (DE 2       73.75   2.97   1.348E-008         IE-LOMFW         LOSS OF MAIN FEEDWATER         1.OOOE-001 AFW-TDP-CF-     COMMON CAUSE FAILURE OF         2.696E-003 FRALL     TURBINE DRIVEN PUMPS TO RUN MFW-XHE-XL-     OPERATOR FAILS TO RECOVER       1.000E+000 MFWREC                     MFW PPR-SRV-CC-   PORV 1 (PCV-456) FAILS TO OPEN     5.000E-003 456                 ON DEMAND SFP-XHE-XM-   OPERATOR FAILS TO START AND       1.OOOE-002 SSGFP         ALIGN STANDBY SG PUMP TRAINS 3     76.72   2.97     1.348E-008         IE-LOMFW       LOSS OF MAIN FEEDWATER         1.OOOE-001 AFW-TDP-CF-       COMMON CAUSE FAILURE OF         2.696E-003 FRALL     TURBINE DRIVEN PUMPS TO RUN MFW-XHE-XL-     OPERATOR FAILS TO RECOVER       1.000E+000 MFWREC                     MFW PPR-SRV-CC-     PORV 2 (PCV-455C) FAILS TO     5.OOOE-003 455C             OPEN ON DEMAND SFP-XHE-XM-   OPERATOR FAILS TO START AND       1.OOOE-002 PTN-BFJR.06-CO1 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-6001 Rev.0 Page 14 of 30

_          Table (5): Top 10 cutsets from SPAR Model for LOMFW.

Cut       %      % Cut           ProbJ No.     Totai     Set       Frequency         Basic Event                   Description       Event Prob.

SSGFP             ALIGN STANDBY SG PUMP

      .                                          .                        .      TRAINS 4       78.01     1.29     5.831E-009           IE-LOMFW           LOSS OF MAIN FEEDWATER       1.000E-001

                                                . FW-TDP-FS-A A                    AFW TDP A FAILS TO START     7.OOOE-003

_                              AFW-TDP-FS-C         AFW TDP C FAILS TO START     7.OOOE-003 HPI-XHE-XM-FB       OPERATOR FAILS TO INITIATE   2.OOOE-002 FEED AND BLEED COOLING v                     :.  .            MFW-XHE-XL-       OPERATOR FAILS TO RECOVER     1.OOOE+000

_      .              .            MFWREC                         MFW SFP-XHE-XM-       OPERATOR FAILS TO START AND     5.950E-002 SSGFP1         . ALIGN STANDBY SG PUMP

                                                    ._                          TRAINS (DE 5     79.20       1.19     5.392E-009         IE-LOMFW           LOSS OF MAIN FEEDWATER     1.000E-001 AFW-TDP-CF-         COMMON CAUSE FAILURE OF       2.696E-003

              .__                                      FRALL       TURBINE DRIVEN PUMPS TO RUN HPI-XHE-XM-FB         OPERATOR FAILS TO INITIATE   2.OOOE-002 FEED AND BLEED COOLING MFW-XHE-XL-       OPERATOR FAILS TO RECOVER     1.OOOE+000 MFWREC                         MFW SFP-MOV-CC-       FAILURE OF SSGFP DISCHARGE     1.000E-003

_                                        3012                 PATH VALVE 3-012 6     80.19     0.99     4.470E-009           IE-LOMFW           LOSS OF MAIN FEEDWATER       1.OOOE-001

_              . AFW-TDP-FR-C             AFW TDP C FAILS TO RUN     5.366E-003 AFW-TDP-FS-A           AFW TDP A FAILS TO START     7.000E-003 HPI-XHE-XM-FB         OPERATOR FAILS TO INITIATE   2.OOOE-002 FEED AND BLEED COOLING MFW-XHE-XL-       OPERATOR FAILS TO RECOVER     1.OOOE+000 MFWREC                         MFW SFP-XHE-XM-       OPERATOR FAILS TO START AND     5.950E-002 SSGFP1           ALIGN STANDBY SG PUMP TRAINS (DE 7     81.18     0.99     4.470E-009           IE-LOMFW           LOSS OF MAIN FEEDWATER       1.000E-001 AFW-TDP-FR-A           AFW TDP A FAILS TO RUN     5.366E-003 l AFW-TDP-FS-C           AFW TDP C FAILS TO START     7.OOOE-003 HPI-XHE-XM-FB         OPERATOR FAILS TO INITIATE   2.OOOE-002

:  .FEED         AND BLEED COOLING MFW-XHE-XL-         OPERATOR FAILS TO RECOVER     1.OOOE+000

_        .                          MFWREC                         MFW SFP-XHE-XM-       OPERATOR FAILS TO START AND     5.950E-002 SSGFP1             ALIGN STANDBY SG PUMP TRAINS (DE 8     82.1D.     0.92     4.165E-009         IE-LOMFW           LOSS OF MAIN FEEDWATER       1.OOOE-001 AFW-TDP-FS-C           AFW TDP C FAILS TO START     7.OOOE-003 AFW-TDP-TM-A         AFW TDP A UNAVAILABLE DUE     5.000E-003 TO TEST AND MAINTENANCE

                                  .    .      HPI-XHE-XM-FB         OPERATOR FAILS TO INITIATE   2.000E-002 FEED AND BLEED COOLING MFW-XHE-XL-         OPERATOR FAILS TO RECOVER     1.OOOE+000

                            .                      MFWREC                         MFW SFP-XHE-XM-       OPERATOR FAILS TO START AND     5.950E-002

                                            .        SSGFP1             ALIGN STANDBY SG PUMP

__  :                                          .                TRAINS (DE PTN-BFJR-06-0)1 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev. 0 Page 15 of 30

__        Table (5): Top 10 cutsets from SPAR Model for LOMFW.

Cut       %    % cut         Probl No. Total     Set       Frequency       Basic Event           Description         Event Prob.

9     83.02   0.92       4.165E-009       IE-LOMFW     LOSS OF MAIN FEEDWATER       1.000E-001 AFW-TDP-FS-A     AFW TDP A FAILS TO START     7.000E-003 AFW-TDP-TM-C   AFW TDP C UNAVAILABLE DUE       5.OOOE-003

:_                                                TO TEST AND MAINTENANCE HPI-XHE-XM-FB   OPERATOR FAILS TO INITIATE     2.OOOE-002

                            .        _                      FEED AND BLEED COOLING MFW-XHE-XL-   OPERATOR FAILS TO RECOVER       1.OOOE+000 MFWREC                 MFW SFP-XHE-XM-   OPERATOR FAILS TO START AND     5.950E-002 SSGFP1       ALIGN STANDBY SG PUMP TRAINS (DE 10     83.87   0.85       3.840E-009       IE-LOMFW     LOSS OF MAIN FEEDWATER       1.000E-001 AFW-TDP-CF-     COMMON CAUSE FAILURE OF       4.610E-003 FRBC           TDP B & C TO RUN AFW-TDP-FS-A     AFW TDP A FAILS TO START     7.000E-003 HPI-XHE-XM-FB   OPERATOR FAILS TO INITIATE     2.000E-002

__                                      FEED AND BLEED COOLING MFW-XHE-XL-   OPERATOR FAILS TO RECOVER     1.000E+000 MFWREC                 MFW_                   _

SFP-XHE-XM-   OPERATOR FAILS TO START AND     5.950E-002 SSGFP1       ALIGN STANDBY SG PUMP

__                                                TRAINS (DE Similarly, the probability of cutsets for other sequences are reduced by a factor of 10 due to the following mitigating factors:

\\Ws0847E4\Max1 \PTNAFW, 7.0 RESULTS The CDF increase is estimated by combining the different CDF for the two different time windows, one for B AFW pump failing before one hour and the other B AFW pump failing after one hour. For the purpose of bounding evaluation, conservative values are used to simplify the calculation. A best-estimate based on the review of the NRC's phase 3 SDP and revised SPAR model yielcs the following:

Exposure Time           11 months             I month                 Delta CDF AFW Failure Time         after 1 hour       in the first hour I weighted by exposure time delta CDF             3.20E-07             1.60E-06                 4.27E-07 Additional sensitivity studies were performed by using the Turkey Point Rev 5B model with newer MS1I1 industry average failure data (Reference 6) for MOVs, Motor Driven Pumps, Turbine Driven Pumps, AOVs, EDGs, etc. Attachments 1 and 2 provide a list of dominant cutsets involving the B AFW pump, for failure probability of running set to 1.0 and 1.6E-2 respectively.

l Exposure Time I 11 months               I 1 month I       Delta CDF PTN-BFJR406-C1 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev.0 Page 17 of 30 AFW Failure                       in the first Time           after 1 hour     hour     weighted by exposure time SPAR Model                     delta CDF         3.20E-07     1.60E-06             4.27E-07 PTN Model with MSPI data                           delta CDF         2.79E-07     5.58E-07             3.02E-07 The increase in the CDF associated with the degraded B AFW pump is estimated to be lower than 4.3E-7/Yr.

PTN-BFJR-06-001 Rev. 0 Page 18 of 30 : Sensitivity Case, Using MSPI data, with AFW B failure to run set to 1.0 Cutsets with Descriotions Reoort PTNR5C10 = 6.21E-08 C:\2006MSPr\CAFTA Files Rev C\CutsVPTNRSC10AFWB.CUT   2115/2008 9:20 PM Cutset Prob Event Prob C       Rate     U Exposure    U     Event      Description 1         7.95E-08   3.50E-03 9                     3.50E-03         %ZZRU3C STEAM GENERATOR TUBE RUPTURE 3C GENERATOR 1.OOE+00 0                     .5               AHFPAFWPTRP            OPERATORS FAIL TO SHUT DOWN 1OF THE TRAIN 2 PUMPS 1.60E-02 3         6.73E-04 H 24         H     ATPFOAFWB               AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.OOE+00                        0.5              FHFPAFv'STM             OPERATING CREW FAILS TO SWITCH STEAM SUPPLY TO AFW TRAIN 1 GIVEN SGTR INSG 3C 1.00E+00 0                      .5                FHFPCD4-1 FAILURE TO RESET Si AND RESTART MFW FOLLOWING A REACTOR TRIP OR Si ACTUATION 1.00E+00 0                      .5                FHFPSSGFW               FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 6.40E.04 0                      8.4E-4            ZHF-C2-004             FAILURE TO RESET Si AND RESTORE MFW AFTER LOSS OF AFW AND FAILURE TO USE SSGFW AS A BACKUP SOURCE OF FEEDWATER (FHFPCD4-1VFHFPSSGFW) 5.OOE-01                        0.5              ZZAFWPUMPC             AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 7.10E02 0                      .071              ZZU400S UNIT 4 OUT OF SERVICE 2          7.63E.08 1.27E-01 9                        1.27E-01          %ZZT3CU3 LOSS OF MAIN FEEDWATER-NOT RECOVERABLE 1.OOE+00 0                      .5                AHFPAFWPvTRP           OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3          6.73E.04  H 24          H    ATPFOAFWA               AFW TURBINE-DRIVEN PUMP A FAILS TO RUN 1.60E.02 3          6.73E-04  H 24          H    ATPFOAFWB               AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.00E+00 0                      .5                FHFPSSGFW               FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00 0                      .5                GHFPOPPSI               OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                      .5                GHFPS2RCRC             OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 7.50E-05 0                      7.5E405          ZHF-C2-020             OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.OOE-01                        0.5              ZZAFWPUMPC             AFW PUMP C ISTHE WEAKER OF THE 2 PUMPS 3          6.72E-08 1.OOE+00 9                          1.0              %ZDC3A SPECIAL INITIATOR -LOSS OF 125VDC BUS 3A 1.00E+00 0                      .5              AHFPAFWPTRP             OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3          6.73E.04  H  24        H    ATPFOAFWB               AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 8.76E-04 3          1.00E-07  H  1          Y    EBDF33DO1I             125V DC BUS 3A FAILURE 1.WOE+00 0                      .5              FHFPT4CD4-1             FAILURE TO RECOVER MFW OPERATING FWBFCVs LOCALLY 1.40E-03 0                      1.4E403          ZHFPAFWPTRP             FAILURE TO TRIP AFW PUMP B OR C WHEN BOTH ARE RUNNING ON TRAIN 2 5.00E-01                        0.5              ZZAFWPUMPC             AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.10E-01 0                      0.1097          ZHFPTRNAMAN             OPERATORS FAIL TO MANUALLY ALIGN, START, AND RUN AFW TRAIN A GIVEN A LOSS OF DC BUS 3A 4          4.84E-08 5.30E-02 9                          5.30E-02        %ZZLOG LOSS OF GRID 1.00E+00 0                      .5              AHFPAFWPTRP             OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3          6.73E-04  H  24        H      ATPFOAFWB             AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 2.43E-02 3          1.03E-03  H  24                EDGF44A DIESEL GENERATOR 4A FAILS TO RUN 1.WOE+00 0                      .5                FHFPSSGFW               FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.W0E+00 0                      .5                GHFPOPPSI             OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                      .5                GHFPS2RCRC             OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.OOE+00 0                      .5                IHFPPORTFN             OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.OOE+00 0                      .5                RHFPSRHVAC             OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                      7.5E405          ZHF-C2-020             OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.OOE-01                        0.5              ZAFWPUMPC               AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.W0E+00                        1.0              ZZHVAC HVAC FLAG 5          3.97E-08 5.30E-02 9                        5.30E-02          %ZZLOG LOSS OF GRID 1.OOE+00 0                      .5                AHFPAFWPvTRP           OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3          6.73E-04 H  24        H      ATPFOAFWB               AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.WOE+00 0                      .5                EHFPCLR4KVS             OPERATOR FAILS TO MANUALLY OPEN BREAKER TO ALLOW BUS TO LOAD - SOFT BREAKER FAIL 2.OOE-02                        1.999E-02        EMM4ACLR               4160V BUS 4A BREAKERS FAIL TO OPEN -SOFT FAILURES 1.WE+00 0                        .5              FHFPSSGFW               FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.OOE+00 0                      .5              GHFPOPPSI               OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                      .5              GHFPS2RCRC             OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.W0E+00 0                      .5              IHFPPORTFN             OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.00E+00 0                      .5              RHFPSRHVAC             OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                      7.5E405          ZHF-C2-020             OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.OOE-01                        0.5              ZZAFWPUMPC             AFW PUMP C IS THE WEAKER OF THE 2 PUMPS PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev. 0 Page 19 of 30 1.OOE+00                               1.0               ZZHVAC HVAC FLAG 8       3.97E-08 1.27E-01 9                             1.27E-01         %ZZT3CU3 LOSS OF MAIN FEEDWJATER-NOT RECOVERABLE 1.00E+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3       6.73E-04 H           24       H       ATPFOAFWA           AFW TURBINE-DRIVEN PUMP A FAILS TO RUN 1.60E-02 3       6.73E-04 H           24       H       ATPFOAFWB           AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.OOE+00 0                             .5               GHFPBLFEEDL         OPERATING CREW FAILS TO IMPLEMENT BLEED-AND-FEED - LMFW W/LOW SG LEVEL 3.90E-05 0                             4.OE-5           ZHF-C3-007           FAILURE TO TRIP ONE OF THE TWO TRAIN 2 AFW PUMPS, FAILURE TO RESTORE SECONDARY COOLING USING SSGFW AFTER LOSS OF AFW, AND FAILURETO RESETSI AND INITIATE BLEED-AND-FEED COOLING (AHFPAFWPTRP-FHFPSSGF 5.OOE-01 .                            0.5               ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 7       3,31 E-08 5.30E-02 9                             5.30E-02         %ZZLOG LOSS OF GRID 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3       6.73E-04 H           24-       H       ATPFOAFWVB           AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.00E+00 0                             .5               EHFPDOSTXT           OPERATOR FAILS TO ATTEMPT DOSTXTIE 1.67E-02 3       210E-03 N           8         N       EMPA4P241A           DIESEL OIL TRANSFER PUMP4P241A FAILS TO START 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.OOE+00 0                             .5               GHFPOPPSI           OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT

: 1. 1E+00 0                             .5               GHFPS2RCRC           OPERATOR FAILS TO SW[TCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.00E+00 0                             .5               IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.OOE+00 0                             .5               RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                             7.5E-05           ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSD 5.OOE-01                               0.5               ZZAFWPUMPC           AFN PUMP C IS THE WEAKER OF THE 2 PUMPS 1.WOE+00                               1.0               ZZHVAC     HVAC FLAG 8       3.25E-08 1.27E4-1 9                             1.27E-01         %ZZT3CU3 LOSS OF MAIN FEEDWATER-NOT RECOVERABLE 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 8.83E-03 0                             6.825E-03         ATMOTRAIN1           AFW TRAIN 1 UNAVAILABLE DUE TO TEST OR MAINTENANCE 1.60E-02 3       6.73E-04 H           24       H       ATPFOAFWB           AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.OOE+00 0                             .5               GHFPOPPSI           OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                             .5               GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 7.50E-05 0                             7.5E-05           ZHF-C2-20           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.00E-1                               0.5               ZZAFWPUMPC           AFW PUMP C ISTHE WEAKER OF THE 2 PUMPS 9       3.24E-08 5.30E-02 9                             5.30E-02         %ZZLOG LOSS OF GRID 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3       6.73E-04 H           24       H       ATPFOAFWB           AFWTURBINE-DRIVEN PUMP B FAILS TO RUN 1.63E-02 0                             1.630E-02         ETM4AEDG EDG 4A INTEST OR MAINTENANCE 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.CoE+00 0                             .5               GHFPOPPSI           OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                             .5               GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.OOE+00 0                             .5               IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.W1E+00 0                             .5               RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                             7.5E-05           ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPS) 5.00E-1                               0.5               ZZAPWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.00E+00                               1.0               ZZHVAC     HVAC FLAG 10       3.19E-08 5.30E-02 9                             5.30E-02         %ZZLOG LOSSOFGRID 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3       6.73E-04 H           24       H       ATPFOAFWA           AFWTURBINE-DRIVENPUMPAFAILSTORUN 1.60E-02 3       8.73E-04 H           24       H       ATPFOAFWB           AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.00E+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.NE+00 0                             .5               GHFPOPPSI           OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+Q00                              .5               GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 7.50E-05' 0                           7.5E-45           ZHF-C2-20           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSD 5.OOE-01                               0.5               ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 11       3.17E-08 1.10E-1 9                               1,10E-1           %ZZT3AU3 LOSS OF MAIN FEEDWATER - RECOVERABLE 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3       6.73E-04 H           24       H       ATPFOAFWA           AFW TURBINE-DRIVEN PUMP A FAILS TO RUN 1.60E-02 3       6.73E-04 H           24       H       ATPFOAFWB           AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.OOE0+0 0                             .5         .      FHFPCD4-1 FAILURE TO RESET SI AND RESTART MFW FOLLOWING A REACTOR TRIP OR SI ACTUATION PTN-BFJR-0&001 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev. 0 Page 20 of 30 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.OOE+00 0                             .5               GHFPBLFEEDL         OPERATING CREW FAILS TO IMPLEMENT BLEED-AND-FEED - LMFW WILOW SG LEVEL 3.60E-05 0                             3.6E-05           ZHF-C3-006           FAILURE TO TRIP ONE OF THE TWO TRAIN 2 AFW PUMPS, FAILURE TO RESTORE MFW AFTER LOSS OF AFW. AND FAILUKE IO RESET SI ANU INITIATE BLEED-AND-FEED COOLING (AHFPAFWTRP-FHFPCD4.1-GHFPBLFEEDL) 5.OOE-01                               0.5               ZZAFWPUMPC         AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 12       3.1 5E-08 5.30E-02 9                             5.30E-02         %ZZLOG LOSSOFGRID 1.OOE+00 0                             :5               AHFPAFWNPTRP       OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3         e.73E-04 H         24         H     ATPFOAFWB           AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.59E-02 3         2.O0E-03 N         8         N     ESVN43434A         SOLENOID VALVE SV-4-3434A FAILS TO OPEN 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.OOE+00 0                             .5               GHFPOPPSI           OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                             .5               GHFPS2RCRC         OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.00E+00 0                             .5               IHFPPORTFN*         OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.00E+00 0                             .5               RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                             7.5E-05           ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI 5.00E-01                               0.5             ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.OOE+00                               1.0             ZZHVAC HVAC FLAG 13       3.02E-08 1.OOE+00 9                               1.00             %ZZIAU3 UNIT3LOSSOF IA 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3           6.73E-04 H       24         H     ATPFOAFWA           AFW TURBINE-DRIVEN PUMP A FAILS TO RUN 1.60E-02 3           0.73E-04 H         24       H     ATPFOAFWB           AFWTURBINE-DRIVEN PUMPBFAILSTORUN 1.001E+00 0                             .5               FHFPT4CD4-1         FAILURE TO RECOVER MFW OPERATING FWBFCVs LOCALLY 1.OOE+00 0                             .5               GHFPOPPSI           OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.00E+00 0                             .5               GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 5.02E-02 3           5.88E-06 H         1         Y       HADF33T9I AIR DRYER 3T9 FAILS TO DELIVER FLOW (1 YR EXPOSURE) 7.50E-05 0                             7.5E-05         ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSD 5.OOE-01                               0.5             ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 14       298E-08 3.50E-03 9                               3.50E-03         %ZZRU3A STEAM GENERATOR TUBE RUPTURE 3A GENERATOR 1.OOE+00 0                             .5               AHFPAFWFLO           OPERATOR FAILS TO THROTTLE UP AFW FLOW 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3         6.73E-04 H         24       H     ATPFOAFWB           AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.OOE+00 0                             .5               FHFPCD4-1 FAILURE TO RESET SI AND RESTART MFW FOLLOWING A REACTOR TRIP OR Si ACTUATION 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.70E-45 0                             1.7E-5           ZHF-C2-426           FAILURE TO THROTTLE UP AFW FLOW AND FAILURE TO USE SSGFW AS A BACKUP SOURCE OF FEEDWATER (AHFPAFWFLO

* FHFPSSGFW) 5.OOE-01                               0.5               ZZAFWPUMPC         AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 15       2.98E-08 3.50E-03 9                               3.50E-03         %ZZRU3B STEAM GENERATOR TUBE RUPTURE 3B GENERATOR 1.OOE+00 0                             .5               AHFPAFWFLO         OPERATOR FAILS TO THROTTLE UP AFW FLOW 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3         8.73E-04 H         24       H       ATPFOAFWB           AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.OOE+00 0                             .5               FHFPCD4-I FAILURE TO RESET SI AND RESTART MFW FOLLOWING A REACTOR TRIP OR SI ACTUATION 1.OOE+000                              .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.70E-05 0                             1.7E-5           ZHF-C2-028           FAILURE TO THROTTLE UP AFW FLOW AND FAILURE TO USE SSGFW AS A BACKUP SOURCE OF FEEDWATER (AHFPAFWFLO

* FHFPSSGFW) 5.O0E-1                               0.5               ZZAFWPUMPC         AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 16       2.98E-08 3.50E-03 9                               3.50E-03         %ZZRU3C STEAM GENERATOR TUBE RUPTURE 3C GENERATOR 1.OOE+00 0                             .5               AHFPAFWFLO         OPERATOR FAILS TO THROTTLE UP AFW FLOW 1.OOE+00 0                             .5               AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3         6.73E-04 H         24       H       ATPFOAFWB           AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.OOE+00 0                             .5               FHFPCD4-1 FAILURE TO RESET Si AND RESTART MFW FOLLOWING A REACTOR TRIP OR SI ACTUATION 1.OOE+00 0                             .5               FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.70E-45 0                             1.7E-5           ZHF-C2-026         FAILURE TO THROTTLE UP AFW FLOW AND FAILURE TO USE SSGFW AS A BACKUP SOURCE OF FEEDWATER (AHFPAFWFLO - FHFPSSGFW) 5.00E-1                               0.5               ZZAFWPUMPC         AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 17       2.58E408 8.94E-01 9                               8.94E-01         %ZZT1U3 REACTORTRIP 1.60E-02 3         e.73E-04 H         24       H       ATPFOAFWA           AFWTURBINE-DRIVENPUMPAFAILSTORUN 1.60E-02 3         6.73E-04 H         24       H       ATPFOAFWB           AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.80E-0   0                             1.80E-46         NRDFPHYSICAL       FAILURE OF CONTROL RODS TO INSERT WITH POWER REMOVED 1.OOE+00                               1.0             ZZATWS ATWS FLAG 18       2.58E-08 8.94E-01 9                               8.94E-01         %ZZTIU3 REACTORTRIP PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

Page 21 of 30 1.604-02 3  6.73E-04 H         24       H ATPF0AANB             AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.60E-02 3  6.73E-04 H         24       H ATPFOAFWC             AFW TURBINE-DRIVEN PUMP C FAILS TO RUN 1.80E-06 0                      1.80E-06    NRDFPHYSICAL         FAILURE OF CONTROL RODS TO INSERTWITH POWER REMOVED 1.00E+00                        1.0         ZZATWS ATWS FLAG 19        244E-08 1.27E-41 9                      1.27E-01   %ZZT3CU3 LOSS OF MAIN FEEDWATER-NOT RECOVERABLE 1.00E+00 0                      .5         AHFPAFWPTRP           OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 5,13E-03 3  5.14E-03 N         I         N ATPAOAFWA             AFWTURBINE-DRIVENPUMPAFAILSTOSTART 1.60E-02 3  6.73E-04 H         24       H ATPFOAFWB           AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.00E+00 0                      .5           FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00 0                    .5           GHFPOPPSI             OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                      .5         GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 7.50E-05 0                    7.5E-05     ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC GHFPOPPSQ 5.00E-01                        0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 20      2.23E-08 5.30E-02 9                      5.30E-02    %ZZLOG LOSS OF GRID 1.OOE+00 0                      .5         AHFPAFWPTRP           OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3  Q.73E-04 H         24       H ATPFOAFWB             AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.12E-02 3  1.13E-02 N         1         N EDGA44A DIESEL GENERATOR 4A FAILS TO START 1.OOE+00 0                      .S         FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00 0                      .5         GHFPOPPSI             OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.00E+00 0                      .5         GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.00E+00 0                      .5         IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.OOE+00 0                      .5         RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                    7.5E-05     ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSD 5.00E-01                      0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.OOE+00                        1.0         ZZHVAC     HVAC FLAG 21      2.19E-08 1.27E-01 9                      1.27E-01     %ZZT3CU3 LOSS OF MAIN FEEDWATER-NOT RECOVERABLE 1.57E-04                        1.569E-04   AMMOCCTPAAC           CCF (2t3) OF TURBINE-DRIVEN PUMP A,C TO START 1.60E-02 3  6.73E-04 H         24       H ATPFOAFWB             AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.00E+00 0                    .5           FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00 0                    .5           GHFPBLFEEDL           OPERATING CREW FAILS TO IMPLEMENT BLEED-AND-FEED -LMFW WILOW SG LEVEL 1.10E-03 0                    1.1E-3       ZHF-C2-028           OPERATORS FAIL TO RECOVER SEC COOLING USING SSGFW AND FAIL TO IMPLEMENT BLEED-AND-FEED COOLING (FHPSSGFW-GHFPBLFEEDL) 22      2.15E-08 1.OOE+00 9                      1.00        %ZZIA34 DUAL UNIT LOSS OF IA 1.00E+00 0                    .5           AHFPAFWPTRP           OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3  0.73E-04 H       24         H ATPFOAFWB             AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.OOE+00 0                    .5           FHFPT4CD4-1           FAILURE TO RECOVER MFW OPERATING FWBFCVs LOCALLY 1.00E+00 0                      .5         GHFPOPPSI             OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.00E+00 0                      .5         GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 3.72E-01                      3.717E-01   HMM3M3321             LOCAL FAULTS IN HEADER M 332 (1YR EXPOSURE) 3.09E-03                      3.086E-03   HMMCCFALLR           CCF TO RUN- 4/4 U3 & U4 IA COMPRESSORS (2DAY EXPOSURE) 1.OOE+00 0                      .5         XHFPRCPTRP           OPERATING CREW FAILS TO TRIP RCPs GIVEN DUAL-UNIT TRIP 7.50E-05 0                    7.5E-05     ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI 5.00E-01                      0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 5.OOE-01 0                    0.5         ZZIAU3     FLAG - 3CM RUNNING, 4CM IN STANDBY 23      2.15E-08 1.00E+00 9                      1.00        %ZZIA34 DUAL UNIT LOSS OF IA 1.00E+00 0                    .5           AHFPAFWPTRP           OPERATORS FAIL TO SHUT DOWN 1 OF THE TRAIN 2 PUMPS 1.60E-02 3  6.73E-04 H       24         H ATPFOAFWB             AFWTURBINE-DRIVENPUMPBFAILSTORUN 1.00E+00 0                    .5           FHFPT4CD4-1           FAILURE TO RECOVER MFW OPERATING FWBFCVs LOCALLY 1.00E+00 0                    .5           GHFPOPPSI             OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.OOE+00 0                      .5         GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 3.72E-01                        3.717E-01   HMM4M4321             LOCAL FAULTS IN HEADER M 432 (1 YR EXPOSURE) 3.09E-03                        3.086E-03   HMMCCFALLR           CCF TO RUN- 4/4 U3 & U4 IACOMPRESSORS (2 DAY EXPOSURE) 1.OOE+00 0                    .5           XHFPRCPTRP           OPERATING CREW FAILS TO TRIP RCPs GIVEN DUAL-UNIT TRIP 7.50E-05 0                      7.5E-05     ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI 5.00E-01                        0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 5.00E-01 0                      05          ZZIAU4     FLAG - 4CM RUNNING, 3CM INSTANDBY 24      2.15E-08 5.30E-02 9                      5.302-02     %ZZLOG LOSS OF GRID 1.00E+00 0                    .5           AHFPAFWPTRP           OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev. 0 Page 22 of 30 1.60E-02 3         6.73E-04   H       24       H ATPFOAFWB             AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.08E-02 2        3.00E-05    H        1        M EBSP46332A           BASKET STRAINER BS4-6332A PLUGS 1.00E+00 0                              .5        EHFPDOSTXT           OPERATOR FAILS TO ATTEMPT DOST XTIE 1.00E+00 0                              .5        FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.OOE+00 0                              .5        GHFPOPPSI             OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.00E+00 0                              .5        GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.OOE+.0  0                            .5        IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.OOE+00 0                              .5        RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                              7.5E405    ZHF-C2-020           OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.00E-01                                0.5        ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.00E+00                                1.0      ZZHVAC     HVAC FLAG 25        1.80E-08 3.50E-03 9                                  3.50E-03  %ZZRU3A STEAM GENERATOR TUBE RUPTURE 3A GENERATOR 1.00E+00 0                              .5        AHFPAFWNPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3        6.73E-04    H       24      H  ATPFOAFWA           AFW TURBINE-DRIVEN PUMP A FAILS TO RUN 1.60E-02 3        6.73E-04    H       24      H  ATPFOAFWB           AFW TURBINE-DRIVEN PUMP B FAILS TO RUN 1.00E+00 0                              .5        FHFPCD4-1 FAILURE TO RESET Si AND RESTART MFW FOLLOWING A REACTOR TRIP OR Si ACTUATION 1.00E+00 0                              .5        FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 6.40E-04 0                              6.4E-4    ZHF-C2-004           FAILURE TO RESET Si AND RESTORE MFW AFTER LOSS OF AFW AND FAILURE TO USE SSGFW AS A BACKUP SOURCE OF FEEDWATER (FHFPCD4-1-FHFPSSGFW) 5.0E2-01                                0.5      ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS Report Summary:

Filename: C:A2006MSPIACAFTA Files Rev C\CutslPTNR5C10AFWB.CUT Print date: 2/1 52006 9:20 PM Not sorted Printed the first 25 PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

                                                                                                                                                                                                  . Rev.0 Page 23 of 30 , Sensitivity Study: Base Case, Using MSPI data, Nominal AFW B failure to run Cutsets with DescrIptions Report PTNR5CI0 - 3.87E-06 C:\2OO6MSPI\CAFTAFiles RevC\Cuts\TNRSCI0.CUT       2V112006 9:30 PM N           Cutset Prob Event Prob C     Rate     U           Exposure U Event     Desciption I           I.27E-09     3.50E-03 9                           3.50E-03   %ZZRU3C STEAM GENERATOR TUBE RUPTURE 3C GENERATOR I.00E+00 0                           .5           AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3     6.73E-04 H           24         H ATPFOAFWB             AFWTURBINE-DRIVEN PUMP B FAILS TO RUN 1.00E+00                             0.5         FHFPAFWSTM           OPERATING CREW FAILS TO SWITCH STEAM SUPPLY TO AFW'TRAIN I GIVEN SGTR IN SG 3C I.OOE+00 0                           .5         FHFPCD4-1 FAILURE TO RESET Si AND RESTART MFW FOLLOWING A REACTOR TRIP IOR SI ACTUATION 1.00E+00 0                           .5         FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 6.40E-04 0                           6.4E-4     ZHF-C2-004 FAILURE TO RESET SI AND RESTORE MFW AFTER LOSS OF AFW AND FAI ULURE  TO USE SSGFW AS A BACKUP SOURCE OF FEEDWATER (FHFPCD4-lIFHFPSSGFW) 5.OOE-01                             0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 7.1OE-02 0                           .071       ZZU400S UNIT40UTOFSERVICE 2           1.22E-09     1.27E-01 9                         1.27E-01     %ZZT3CU3 LOSS OF MAIN FEEDWATER-NOTRECOVERABLE I.00E+00 0                           .5           AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OFTHE TRAIN 2 PUMPS 1.60E-02 3     6.73E-04 H           24       H ATPFOAFWA             AFWTURBINE-DRIVEN PUMPAFAILSTO RUN 1.60E-02 3     6.73E-04 H           24         H ATPFOAFWB             AFWTURBINE-DRIVEN PUMP B FAILS TO RUN I.00E+00 0                           .5         FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00 0                           .5         GHFPOPPSI OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.00E+00 0                           .5         GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 7.50E-05 0                           7.5E-05     ZHF-C2-020 OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC GHFPOPPSI) 5.00E-0I                             0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 3           1.08EE09     1.00E+00 9                           1.0         %ZZDC3A SPECIALINnITATOR-LOSSOF 125VDCBUS3A 1.OOE+00 0                           .5         AHFPAFWPTRP           OPERATORS FAILTO SHUT DOWN I OFTHE TRAIN 2 PUMPS 1.60E-02 3     6.73E-04 H           24       H ATPFOAFWB             AFWTURBINE-DRIVEN PUMP B FAILS TO RUN 8.76E-04 3     1.00E-07 H           I         Y EBDF33DOW1           125V DC BUS 3A FAILURE 1.00E+00 0 ,                         .5         FHFPT4CD4-1           FAILURE TO RECOVER MFW OPERATING FWBFCVs LOCALLY 1.40E-03 0                           I.AE-03     ZHFPAFWPTRP           FAILURE TO TRIP AFW PUMP B OR C WHEN BOTH ARE RUNNn NG ON TRAIN 2 5.00E-01                             0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.IOE-01 0                           0.1097     ZHFPTRNAMAN           OPERATORS FAILTO MANUALLY ALIGN, START, AND RUNAl FIVTRAIN A GIVEN A LOSS OF DC BUS 3A 4           7.76E-10     5.30E-02 9                           5.30E-02   */.ZZLOG LOSSOFGRID I.OOE+00 0                         .5           AHFPAFvVPTRP         OPERATORS FAILTOSHUr DOWN I OFTHETRANN2PUMPS 1.60E-02 3     6.73E-04 H           24         H ATPF0AFWB             AFWVTURBINE-DRIVENPUMPBFAILSTORUN 2.43E-02 3     1.03E-03 H           24           EDWF44A DIESEL GENERATOR 4A FAILS TO RUN I .00E+00 0                         .5           FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW I .OOE+00 0                           .5         GHFPOPPSI OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT 1.00E+00 0                         .5           GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG;RECIRC (SMALL LOCA) 1.00E+00 0                         .5           IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS 1.00E+00 0                           .5         RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                         7.5E-05     ZHF-C2-020 OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC GHFPOPPSI) 5.00E-01                             0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.00E+00                             1.0         ZZHVAC HVAC FLAG 5           6.37E.10     5.30E-02 9                         5.30E-02     %ZZLOG LOSS OF GRID 1.00E+00 0                           .5         AHFPAFWPTRP           OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02 3     6.73E-04 Hi         24         H ATPFOAFWB             AFWTURBINE-DRIVEN PUMP B FAILS TO RUN 1.00E+00 0                           .5         EHFPCLR4KVS           OPERATOR FAILS TO MANUALLY OPEN BREAKER TO ALLOW 'BUS TO LOAD - SOFT BREAKER FAIL 2.00E-02                             L.999E-02   EMM4ACLR             4160V BUS 4A BREAKERS FAIL TO OPEN - SOFT FAILURES 1.00E+00 0                         .5           FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00 0                           .5         GHFPOPPSI OPERATING CREW FAILS TO USE HIISI FROM OPPOSITE UNIT I.00E+00 0                         *5           GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LECI RECIRC (SMALL LOCA) 1.00E+00 0                           .5           IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS I. ODE+00 0                         .5           RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05 0                         7.5E-05     ZHF-C2-020 OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.00E-01                             0,5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS PTN-BFJR-0-01 Rev 0 PTN AFWp B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev. 0 Page 24 of 30 1.00E+00                                     1.0         ZZHVAC HVAC FLAG 6         6.36E-10     1.27E-01     9                               I.27E-01     /ZZT3CU3 LOSSOFMAINFEEDWATER-NOTRECOVERABLE 1.00E+00     0                             .5           AHFPAFWPTRP           OPERATORS FAIL TO SHUT DOWN I OFTHE TRAIN 2 PUMPS 1.60E-02     3       6.73E-04   H         24         H ATPFOAFWA           AFWTURBINE-DRIVENPUMPAFAILSTORUN 1.60E-02     3       6.73E-04   H         24         H ATPFOAFWB           AFWTURBINE-DRIVENPUMPBFAILSTO RUN I .OOE+00 0                                 .5           FHFPSSGFW             FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00     0                             .5           GHFPBLFEEDL         OPERATING CREW FAILS TO IMPLEMENT BLEED-AND-FEED -LMFW W/LOW SG LEVEL 3.90E-05     0                             4.0E-5       ZHF-C3-007 FAILURE TO TRIP ONE OF THE IWO TRAIN 2 AFW PUMPS, FAILURE TO RESTORE SECONDARY COOLING USING SSGFW AFTER LOSS OF AFW, AND FAILURE TO RESET SI AND INMATE BLEED-AND-FEED COOLING (AHFPAFM'P7W-FHFPSSGF 5.00E-01                                   0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 7         5.31E-10     5.30E-02     9                             5.30E.02     NZZLOG LOSS OF GRID I.OOE+00     0                             .5           AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02     3       6.73E-04   H         24         H ATPFOAFWB           AFWTURBINE-DRIVEN PUMP B FAILS TO RUN I .OOE+00 0                                 .5           EHFPDOSTXT           OPERATOR FAILS TO ATTEMPT DOST XllE 1.67E 02     3       2.10E-03   N         S         N EMPA4P241A           DIESELOILTRANSFER PUMP 4P241A FAILS TO START 1.00E+00     0                             .5           FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00     0                             .5           GHFPOPPSI OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT I.OOE+00 0                                 .5           GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 1.00E+00 0                                   .5         IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS I.OOE+00 0                                   .5         RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05     0                             7.5E-05     ZHF-C2-020 OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.00E-01                                   0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.00E+00                                     1.0         ZZHVAC HVAC FLAG 8         5.21E-10     1.27E-01     9                               1.27E-01   %ZZT3CU3 LOSSOFMAINFEEDWATER-NOTRECOVERABLE I.OOE+00     0                             .5           AHFPAFWPTRP         OPERATORS FAILTO SHUT DOWN I OFTHE TRAIN 2 PUMPS 6.83E-03     0                             6.825E-03   ATMOTRAINI           AFIWTRAIN I UNAVAILABLE DUETO TEST OR MAINTENANCE 1.60E-02     3       6.73E-04   H         24         H ATPFOAFWB           AFWTURBINE-DRIVEN PUMP B FAILS TO RUN I.OOE+00     0                             .5           FHFPSSGFW           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW 1.00E+00     0                             .5           GHFPOPPSI OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT I .OOE+00   0                             .5           GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 7.50E-05     0                             7.5E-05     ZHF-C2.020 OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.00E-01                                   0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 9         5.19E-10     5.30E-02     9                             5.30E-02     "ZZLOG     LOSS OF GRID I.OOE+00     0                             .5           AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02     3       6.73E-04   H         24         H ATPFOAFWB           AFW TURBINE-DRIVEN PUMP B FAILS TO RUN I.63E-02     0                               1.630E-02   ET`M4AED EDG 4A INTEST OR MAINTENANCE 1.00E+00     0                             .5           FHFPSSGFWV           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW I.OOE+00     0                             .5           GHFPOPPSI OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT I .OOE+00   0                             .5           GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA)

I.OOE+00     0                             .5           IHFPPORTFN           OPERATOR FAILS TO UTILIZE PORTABLE FANS I .OOE+00   0                             .5           RHFPSRHVAC           OPERATOR FAILURE TO START SR HVAC 7.50E-05     0                             7.5E-05     ZHF-C2.020 OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.00E-01                                   0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS 1.00E+00                                   1.0         ZZHVAC HVAC FLAG 10         5.11E510     5.30E-02     9                             5.30E-02     %ZZLOG LOSS OF GRID 1.00E+00     0                             .5           AHFPAFWPTRP         OPERATORS FAIL TO SHUT DOWN I OF THE TRAIN 2 PUMPS 1.60E-02     3       6.73E.04   H         24         H ATPFOAFWA           AFWTURBINE-DRIVENPUMPAFAILSTORUN 1.60E-02     3       6.73E.04   H         24         H ATPFOAFWB           AFWTURBINE-DRIVEN PUMP B FAILS TO RUN 1.00E+00     0                             .5           FHFPSSGFV           FAILURE TO RECOVER SECON. HEAT SINK BY SSGFW I.OOE+00     0                             .5           GHFPOPPSI OPERATING CREW FAILS TO USE HHSI FROM OPPOSITE UNIT I .OOE+00   0                             .5           GHFPS2RCRC           OPERATOR FAILS TO SWITCHOVER TO HIGH HEAD COLD LEG RECIRC (SMALL LOCA) 7.50E-05     0               .              7.5E-05     ZHF-C2-020 OPERATING CREW FAILS TO IMPLEMENT HHSR FOR A SMALL LOCA AND FAILS TO IMPLEMENT HHSI FROM OPPOSITE UNIT RWST (GHFPS2RCRC-GHFPOPPSI) 5.00E-01                                   0.5         ZZAFWPUMPC           AFW PUMP C IS THE WEAKER OF THE 2 PUMPS Report Sanmary:

Filename: C:A2006MSPI"CAFTA Files Rev C\Cuts\PTNR.5CIO.CUT Print date: 2/15/2006 9:30 PM Not sorted, Printed the first 10 PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

PTN-BFJR-06-001 Rev.0 Page 25 of 30 : Clarification of Loss of DC 3A Operator Recovery Action

FcM.aakded by Ching Averet     unt-.Nuclc^-I pl uc on     1 I     0         -

M~ark Avereft To:      ching guey@fpl.com 02/17/2006 07:44 AM cc:Brien VincentIJuno/Nuclear/FplNuc@FplNuc, Glen Blinde/Ptn/Nuclear/FplNuc@FplNuc, Mahmoud Heiba/Juno/Nuclear/FplNuc@FplNuc

Mark Ching Guey To:       Mark Averett/Juno/Nuclear/FplNuc@FplNuc 02/17/2006 07:31 AM cc:Brien VincentIJuno/Nuclear/FplNuc@FplNuc, Mahmoud Heiba/Juno/Nuclear/FplNuc, Glen Blinde/Ptn/Nuclear/FplNuc@FplNuc

PTN-BFJR-06-001 Rev. 0 Page 26 of 30 Mark Avereft To: ching gueyafpl.com 02/17/2006 07:10 AM cc: Brien VincentlJunolNuclear/FplNuc@FplNuc, Mahmoud HeibalJunolNuclearlFplNuc@FplNuc, glen blindeefpl.com

AHFPTRNAMAN Ching, I found the reference for the 0.11 probability for the recovery event AHFPTRNAMAN in the Rev. 4 update calculation.

PTN-03-068               Recovery for %ZZDC3A/B Sequences Descripio         Actual Change During the cutset review with the Licensed Operator       This recovery action was modeled In the HRA Toolbox as Instructors, it was pointed out that it did not appear   event AHFPTRNAMAN. The hardware portion of this recovery that the dependency of SSGFW on the feedwater             was determined by quantifying the gate A0003, giving a failure bypass valves (FCV-3-479, 489, and 499) was             probability of 0.1083, dwarfing the the human error part of the adequately modeled. This was discovered by noting       recovery of 1.4E-3.

that the loss of DC Bus 3A (power for these valves) was not resulting in a failure of SSGFW. This was         This recovery cannot easily be placed into the fault tree itself as corrected via change PTN-03-066. This change             it is very cutset-specific. Therefore, the recovery was applied brought a lot of loss of DC Bus 3A cutsets to the       using the recovery rule file to apply it to the individual cutsets.

top. The Licensed Operator Instructors also pointed     The probability of the recovery was set to the sum of the out that Train 1 of AFW which is lost due to the loss   hardware and human error probabilities, or 0.1097.

of DC Bus 3A due to steam admission valve not opening and the FCVs not opening could be               The addition to the recovery rule file is shown below:

recovered by manually opening these valves and manually controlling the FCVs using local Indication.     "CLEAR RECOVERY FLAGS**

                          *RECOVERY** ZHFPTRNAMAN 0.1 097

                          %ZZDC3A ATPFOAFWB ATPFOAFWC PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

                        ,6ZZDC3A ATPAOAFWB ATPFOAFWC

                          .77rflDe3A ATDn, F'."B ATPA^AA eF'

                        %ZZDC3A ATMOTRAIN2

                        %ZZDC3A AHFAOPUMPB ATPFOAFWC

                        %ZZDC3A AHFAOPUMPC ATPFOAFWB

                        %ZZDC3A AHFAOPUMPB ATPAOAFWC

                        %ZZDC3A AHFAOPUMPC ATPAOAFWB

                        %ZZDC3A AHFPAFWPTRP ATPFOAFWB       ZZAFWPUMPC

                        %ZZDC3A AHFPAFWPTRP ATPFOAFWC       ZZAFWPUMPB

                        %ZZDC3A AHFPAFWPTRP ATPAOAFWB       ZZAFWPUMPC

                        %ZZDC3A AHFPAFWPTRP ATPAOAFWC       ZZAFWPUMPB

                        %ZZDC3A AROPO-3418 ATPFOAFWC

                        %ZZDC3A ATPFOAFWB AROPO-3419

                        %ZZDC3A AROPO-3418 ATPAOAFWC

                        %ZZDC3A ATPAOAFWB AROPO-3419

                        %ZZDC3A AMMOCCFAVBD

                        %ZZDC3A AMMOCCFAVBF

                        %ZZDC3A AMMOCCFAVDF

                        %ZZDC3A AMM3SSHV2 ZZU400S

                        %ZZDC3A ACVNOPD243 ATPFOAFWC

                        %ZZDC3A ACVNOPD243 ATPFOAFWC

                        %ZZDC3A ACVNOS003B ATPFOAFWC

                        %ZZDC3A ACVNOS003C ATPFOAFWB

                        %ZZDC3A ACVNOPD243 ATPAOAFWC

                        %ZZDC3A ACVNOPD243 ATPAOAFWC

                        %ZZDC3A ACVNOS003B ATPAOAFWC

                        %ZZDC3A ACVNOS003C ATPAOAFWB Added ZHFPTRNAMAN to gate ZREC6 for placeholding.

PTN-BFJR-0MO1 Rev.0 Page 28 of 30 Attachment 4: Summary of Turkey Point Plant Response to Loss of AFW 1 Hour after a Loss of Feedwater MAAP File Name                     Event Description                     Results PTN_,AFWlHRLSGWR_2HHSI_2PORVSGL60                   Loss of feedwater           S/G dryout - none 86400 sec run                      Loss of AFW@ lhr           Core uncovery - none SSGFW available            Fuel damage - none Bleed & feed - none CL recirc - none PTN_LOHSlHRlHHSIlPORV_SGL6CHRA                      Loss of feedwater            S/G dryout - none 43200 sec run                Loss of AFW/SSGFW @ lhr        Core uncovery - none Bleed & feed initiated (1      Fuel damage - none HHSIP - 1 PORV) to avoid      Bleed & feed - 22596 sec core uncovery          CL recirc - > 43200 sec PTNLOHSlHR_2HHSIlPORV_SGL6CHRA                    Loss of feedwater            S/G dryout - none 43200 sec run                Loss of AFW/SSGFW @ lhr          Core uncovery - none Bleed & feed initiated (2      Fuel damage - none HHSIP - 1 PORV) to avoid      Bleed & feed - 23166 sec core uncovery          CL recirc - > 43200 sec PTN_LOHS1HR_2HHSI_2PORV_SGL6CHRA                  Loss of feedwater            S/G dryout - none 43200 sec run                Loss of AFW/SSGFW @ lhr          Core uncovery - none Bleed & feed initiated (2      Fuel damage - none HHSIP - 2 PORV) to avoid      Bleed & feed - 23746 sec core uncovery            CL recirc - 33132 sec PTNLOHSIHR_2HHSI_2PORV_SGL6CNOCD                    Loss of feedwater        S/G dryout - 26834 sec 36000 sec run                Loss of AFW/SSGFW @ lhr      Core uncovery - 28406 sec Bleed & feed initiated (2      Fuel damage - none HHSIP - 2 PORV) to avoid      Bleed & feed - 27646 sec core damage            CL recirc - 35861 sec PTN_LOHS1HR_NOF&B_NOCHG                      Loss of feedwater        S/G dryout - 25787 sec 36000 sec run                Loss of AFW/SSGFW @lhr      Core uncovery - 28221 sec No bleed & feed initiated    Fuel damage - 30657 sec No charging              Bleed & feed - n/a CL recirc - n/a PTNLOHSlHRNOF&BNOCHGAFWRESTHRA                        Loss of feedwater        S/G dryout - 25787 sec 43200 sec run                Loss of AFW/SSGFW @ lhr      Core uncovery - 28221 sec No bleed & feed initiated      Fuel damage - none No charging              Bleed & feed - n/a AFW restored to avoid core          CL recirc - n/a damage            AFW restored - 28746 sec PTN_LOOP_LOHS1HR_NOF&B_NOCHG                LOOP/Loss of feedwater        S/G dryout - 23810 sec 30000 sec                  Loss of AFW/SSGFW @ lhr      Core uncovery - 26186 sec No bleed & feed initiated    Fuel damage - 28580 sec No charging              Bleed & feed - n/a CL recirc - n/a PTN_2IN_S1LOCA_LOHS1HR_NOCHG                        2" SlLOCA                S/G dryout - none 86400 sec                  Loss of AFW/SSGFW @ lhr          Core uncovery - none Minimum SI @ 77 sec            Fuel damage - none No charging              Bleed & feed - none CL recirc - 78507 sec PTN_LOOP_AFW1HRLSGWR_2HHSI_2PORVSGL60                  Loss of feedwater            S/G dryout - none 86400 sec run                      Loss of AFW@ lhr          Core uncovery - none SSGFW available            Fuel damage - none Bleed & feed - none CL recirc - none PTN-BFJR46-001 Rev 0 PTN AFWP B SDP CalcFinal.doc

Project TKPTL3 Analysis: RANDOM                                                                                                   Units: Per Year Event       Sequence Curr Freq           Base fteq Per       Dillerence   Ratio       Curr   1329a     Differ*     End it       Ie               prYear     year                                           Cnt       Cnt     nce         State LOQHS 02-07-07             0.000E+00   0.0O0E+00           0.000NE00       O)U00Q&00   O         O         O LOCCW 18                 0.000E+00     0.000E+00           0.000E+00     0.000E+o0   0       0         0           GE)

LOCCW       17             3.738E-1 2 3.73SE-12               noooLNoo     1.OWEt00   3       3         0           CD LOCCW 15                 0.000E+00     0.0002E00           0.oooE+Do     0.000E400   0         I         .1         CO LOCCW 13                 0.000Eo00     0.000E+00           0.00000 O.OOO00Etoo       0         1           .1       CO OCCW       6-06 ,        O.000.E+00 0.000E+00           0.000E+00       O.o0 E+000   O         o     0           CD LOCHS       02-02             45 t.4622E-11                               .00WE+00     1S002E00   6     O           0           CD LOCCW 26-10               3.331 E-11     3.331 E-11         0000E*00         t           S   is            o         C LOCCW       aes9         0.000E400   0.000E+00           0.000oE00       0.0002E00 0           OQ     0           CD LOCHS 02-06-15           O.oooE400   0.000E+00             aOOCE.0     0.000E+00   0-       0       0           CD LOC 1HS 02-00-17         0.o00E+00     0                   0.0002E00     o.oOOE-0   0         0       0           CD LOCcW       26-12         2.331E-11       .832E-11         0.000E200       1.000E400 8           S     0             C6 LOCHS       02-06-18     0.000o+c0     0.000E+00             oooCE+00     0.000E*00 0           0       0           co LOCCW       26-08         0.000E+00     0.000E+00           0.000E+00     0.0o0E+O40 o         0                     co LOCHS       02-07403     0.0     0E+oo o0oE000+0o           .00CE400     0.000E+00 0             o     0           CD LOCHS       02o07-0       O.O000E+00   0.0000E+0           O000E400       0.000E400o 0         0       0           CO LOCHS       02-04-13       -. OOOE+00   0.000E+00           0.00oE+0O     0 00BE*00 0           0       0           CO LOOP       18-43-3     1.t7E2-11         iAW 11           5.310E-12       1.467Et00 3         5     .-    2     1CD LDC3A       15-11         7.286E-12   2.21lE-13           7.055E-12a      .153E01 o           14       -11         Co C6HW       13             1.0D6E-11   0.00oE+00           1.096E-1 1     0.000E400 3           0       3S LOMFW 1a               1217E-11     0.000E+o0           1t217E It       0.000E+00             O       3           CD LOOP , te                 i,403E-t1   0.000E 00             1.403E-1l     0.000C.00   e         0                   CO MLOCA 12           -    2.0311-11     238-E.11             .9482-11     3.91-8900 23         9         14         co LOCCW       25-11         9.s12E-11     2.313E-11           68s-9E-1I       4.026E+00 30         12         te       CD LOICW       26-11         9.312E-11         Z313E-11         6.99sE-11     4.02SEo00 30         12       18         CD SLOCA       19-11         9.312E-1 1   2.313E1             6.999E-11     4.02E*     30       12         18         CD LOOP       16-45         3.152E.10     2.0o5E21             1.0s7F-10       1.534E400 17         38       -21         CD LOOP       14           1.0282-1o     3.3062-1Z           1.092E-10o      .823E.01 28         2         26         CD LAC3A         4           4494E-10     5.OS21-12           4.444E-10       8.896E0   44       ,        0     O   CD LtIAs       19-11         1.392E-9     4.757E-10           1463E-09       4.076E400 48         T7         91 SLOCAK     18           T.6R52-09     3.B922-11           1.64-06Eg       429E1+oi   33       T13       20 LOOP       19-11         2.470E9       64252.10             1.s2sE40       s.844E400   15       30       -1S         CD TP.A4S     14           2.07E-09     1.7642--10     -    2.A312-09       1.4782.01   109     179       .70         CD LAOB.       -14           3.0022-09     8.1 202-11I            .0111-09     3.8082.01 27       109       -82         CD LAC3B       15-11         4.873E4-9     1227E-09           3.8646E09       3.0722.00   63       60         13         CD LAC3A     .15-11         4.873E-09     1227E-09           3.S46E-09       32.72E.00   63       SO so       13 sOIR         30           5.5BOE-09     1261E-10             5,4s2E49       4.356E+0- 255.     49       206         CD S~iR       32-11         932F.9         .3-060-to *   .      80.6092-0   3.004E401   s0                 32         CD LOC-S       15.11         2.195e-0a     5.710E-09           1.624E2-8     .3.844E400   72       104       -32       CD LOMFW       15-11         2.439E-08     6.344Es09           1.805E-08       3.845E+00   73       104       -31       CD 1.I         18           4.268E24)     1.32DEi9            4.1 36E-     -  3214E+01   173       88       87         CD TR1ANS     15-11         1.708E-07     4.449E-08           1263E-07.       3.839E400   95       135       -40       CD R

G1T      81            1.59aE-07     _6.30E-09           1.544E-07       2.943E401   434       163     271         CD LOOP       17           1.968E407     1.693E2-0           1.7sE4-07       1.162E601   471       299       172       Co LOCHS       14           3.870E-07     1.1 0C-08           3.760E-07       3.518E+01   3.41     214       127       CD LOMFW     14             4.300E-07     1225E-08             4.1704-07       3.6102.01   353       293       60         CD DC3A     14             1.867E-06     2.123E-08           1.8462-00       8 7942.Q   59       212       .153       Co TOTALS         5.6i56E-0     2.473E-06                           2287E400   5390     5010     380 200&'12121                                                 Page 22                                                         13:55:45 Modd Rev. 3.31 200511OM28 PTN-BFJR-06-001 Rev 0 PTN AFWP B SDP Calcdoc