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{{#Wiki_filter:PRECURSOR DESCRIPTION SHEET LER No.: | {{#Wiki_filter:PRECURSOR DESCRIPTION SHEET LER No.: | ||
249/86-013 Event | |||
== Description:== | == Description:== | ||
HPCI and one train of | HPCI and one train of the core spray and LPCI systems are inoperable Date of Event: | ||
the valve was in midposition. The 2/3 DG failed to close manually onto bus 33-1; however, the generator was able to be synchronized manually to bus 23-1 without incident. | August 27, 1986 Plant: | ||
Investigation revealed that valve 3-1042-4B (the "B" pump CSS full-flow-test valve) had a fractured motor-operator housing. | Dresden 3 EVENT DESCRIPTION Sequence Dresden 3 was in the run mode at 19% power with the HPCI system declared inoperable for repairs (reason not stated). | ||
Investigation revealed that the handwheel retaining-ring was dis-engaged and resting atop the handwheel bearing of the Limitorque motor-operator for the LPCI system minimum-flow valve (3-1501-13A). | At 0030 h during surveillance testing, the train B CSS full-flow-test valve (3-1042-4B) was discovered to be damaged, so the valve would not close; the B core spray subsystem was also unpressurized. | ||
Investigation revealed that DG 2/3 failed to close onto bus 33-1 because a terminal block screw was loose in junction box 3TB-187. | In addition, the LPCI system minimum-flow valve (3-1501-13A) showed a double position indication - | ||
Corrective Action The torque switch on valve 3-1042-4B (CSS full-flow-test valve) was installed correctly, and the motor housing was replaced. | the valve was in midposition. | ||
Event Identifier: | The 2/3 DG failed to close manually onto bus 33-1; however, the generator was able to be synchronized manually to bus 23-1 without incident. | ||
In the event of a LOCA, the DG would have closed automatically on bus 33-1. | |||
A unit shutdown was begun. | |||
Investigation revealed that valve 3-1042-4B (the "B" pump CSS full-flow-test valve) had a fractured motor-operator housing. | |||
The torque switch failed and allowed the motor to drive the valve disk into the valve seat until the motor housing was fractured. | |||
The torque switch was incorrectly installed in the reverse direction. | |||
Investigation revealed that the handwheel retaining-ring was dis-engaged and resting atop the handwheel bearing of the Limitorque motor-operator for the LPCI system minimum-flow valve (3-1501-13A). | |||
The valve was opened manually. | |||
Investigation revealed that DG 2/3 failed to close onto bus 33-1 because a terminal block screw was loose in junction box 3TB-187. | |||
Cold shutdown was achieved at 2007 h. | |||
Corrective Action The torque switch on valve 3-1042-4B (CSS full-flow-test valve) was installed correctly, and the motor housing was replaced. | |||
The handwheel retaining ring for the LPCI system minimum-flow valve (3-1501-13A) was correctly installed. | |||
The loose terminal block screw in the DG 2/3 junction box 3TB-187 was tightened. | |||
Event Identifier: | |||
249/86-013 D-16 | |||
Plant/Event Data Systems Involved: | Plant/Event Data Systems Involved: | ||
LPCI, core spray, | LPCI, core spray, emergency power, and HPCI Components and Failure Modes Involved: | ||
Pump B CSS full-flow-test valve - failed to close in test LPCI system minimum-flow valve - failed in midposition in test DG 2/3 - failed to close onto bus 33-1 in manual mode operation in test HPCI - inoperable (reason not stated) | Pump B CSS full-flow-test valve - | ||
Component Unavailability Duration: | failed to close in test LPCI system minimum-flow valve - | ||
Discovery Method: | failed in midposition in test DG 2/3 - | ||
MODELING CONSIDERATIONS AND DECISIONS Initiators | failed to close onto bus 33-1 in manual mode operation in test HPCI - | ||
inoperable (reason not stated) | |||
Component Unavailability Duration: | |||
15 d Plant Operating Mode: | |||
1 (19% power) | |||
Discovery Method: | |||
Testing Reactor Age: | |||
15.6 years Plant Type: | |||
BWR Comments Dresden station has three DGs. | |||
Each unit has one dedicated DG and the third is a swing DG (2/3) between both. | |||
One train of each unit's ECCS is supported by DG 2/3. | |||
Failure of DG 2/3 would prevent emergency power to one ECCS train. | |||
The SDC system is independent of LPCI so it was not affected. | |||
MODELING CONSIDERATIONS AND DECISIONS Initiators Modeled and Initiator Nonrecovery Estimate Postulated transient Postulated LOOP Postulated LOCA Base case nonrecovery Branches Impacted and Branch Nonrecovery Estimate HPC I LPCS LPCI 1.0 Base case Base case Out of service and assumed unavailable Assumed one of two trains fails in test Assumed one of two trains fails in test Plant Models Utilized BWR plant Class B Event Identifier: | |||
249/86-013 D-1 7 | |||
CONDITIONAL CORE DAMAGE PROBABILITY CALCULATIONS Event Identifier: | CONDITIONAL CORE DAMAGE PROBABILITY CALCULATIONS Event Identifier: | ||
249/86-013 Event | |||
== Description:== | == Description:== | ||
HPCI and One Train of LPCS and LPCI Are Inoperable Event Date: | HPCI and One Train of LPCS and LPCI Are Inoperable Event Date: | ||
8/27/86 Plant: | |||
Dresden 3 UNAVAILABILITY, DURATION= 360 NON-RECOVERABLE INITIATING EVENT PROBABILITIES TRANS LOOP LOCA SEQUENCE CONDITIONAL PROBABILITY SUMS 3.IE-01 2.OE-03 5.9E-04 End State/Initiator Probability CV TRANS LOOP LOCA Total I | |||
.4E-Ob | |||
: 6. | |||
1E-07 2.5E-09 2.OE-06 CD TRANS LOOP LOCA Total 6.8E-07 1.7E-06 3.4E-07 2.7E-06 ATWS TRANS LOOP LOCA Total O.OE+00 O0OE+00 O.OE+00 O.OE+00 DOMINANT SEQUENCES End State: CV Conditional Probability: | |||
9.2E-07 Event Identifier: 249/86-013 D-1 8 | |||
130 | 130 TRANS SCRAM -SLC.OR.RODS PCS/TRANS FW/PCS.TRANS HPCI -SRV.ADS -COND/FW.PCS -SDC End State: | ||
109 | CD Conditional Probability: | ||
1.3E-06 213 LOOP -EMERG.POWER | |||
* 2,2E-0I ADS -COND/FW.PCS -SDC 134 | -SCRAM SRV.CHALL/LOOP.-SCRAM SRV.CLOSE HPCI SRV.ADS SEQUENCE CONDITIONAL PROBABILITIES Sequence End State Prob N Rec** | ||
238 | 109 TRANS -SCRAM PCS/TRANS SRV.CHALL/TRANS.-SCRAM -SRV.CLOSE IS CD 1.8E-07 2.4E-01 OL.COND FW/PCS.TRANS HPCI CRD SRV.ADS 117 TRANS -SCRAM PCS/TRANS SRV.CHALL/TRANS.-SCRAM SRV.CLOSE FW CD 4.2E-07 2.4E-01 | ||
/PCS.LOCA HPCI SRVADS 130 TRANS SCRAM -SLC.OR.RODS PCS/TRANS FW/PCS.TRANS HPC! | |||
-SRV. | |||
SEQUENCE MODEL: | CV 9.2E-07 | ||
* 2,2E-0I ADS -COND/FW.PCS -SDC 134 TRANS SCRAM -SLC.OR.RODS PCS/TRANS FW/PCS.TRANS HPCI -SRV. | |||
CV 4.6E-07 1.,E-01 ADS COND/FW.PCS -LPCS | |||
-SDC 147 TRANS SCRAM -SLC.OR.RODS PCS/TRANS FW/PCS.TRANS HPCI SRV. | |||
CD 6.2E-0E 2.4E-01 ADS 207 LOOP -EMERG.POWER | |||
-SCRAM SRV.CHALL/LOOP.-SCRAM -SRV.CLOSE IS CD 7.9E-08 2.3E-01 OL.COND HPCI CRD SRV.ADS 212 LOOP -EMERG.POWER | |||
-SCRAM SRV.CHALL/LOOP.-SCRAM SRV.CLOSE HP CD 7.4E-08 7.7E-02 CI -SRV.ADS LPCS LPCI FIREWTR.OR.OTHER/LPCS.LPCI/LOOP 213 LOOP -EMERG.POWER | |||
-SCRAM SRV.CHALL/LOOP.-SCRAM SRV.CLOSE HP CD 1.3E-06 2.3E-01 CI SRVADS 222 LOOP -EMERG.POWER SCRAM -SLC.OR.RODS HPCI -SRV.A[D | |||
-LPCS -SD CV 5.9E-07 3.IE-01 C | |||
238 LOOP EMERG.POWER -SCRAM SRV.CHALL/LOOP.-SCRAM -SRV.CLOSE IS CD 8.6E-08 2.6E-01 OL.COND HPCI 240 LOOP EMERG.POWER -SCRAM SRV.CHALL/LOOPF.-SCRAM SRV.CLOSE HP CD 7.2E-08 2.6E-01 CI 309 LOCA -SCRAM PCS/LOCA FW/PCS.LOCA HPCI SRV.ADS CD 3.4E-07 1.2E-01 dominant sequence for end state | |||
** non-recovery credit for edited case Note: | |||
For unavailabilities, conditional probability values are differential values which reflect the added risk due to failures associated with an event. | |||
Parenthetical values indicate a reduction in risk compared to a similar period without the existing failures. | |||
SEQUENCE MODEL: | |||
c:\\asp\\newmodei\\bwrbtree.cmp BRANCH MODEL: | |||
c:\\asp\\newmodel\\dresden.txt PROBABILITY FILE: | |||
c:\\asp\\newmodel\\bwr-c.pro No Recovery Limit BRANCH FREQUENCIES/PROBABILITIES Event identifier: 249/86-013 D-19 | |||
Branch | Branch System Non-Recov Opr Fail TRANS LOOP LOCA SCRAM SLC.OR.RODS PCS/TRANS PCS/LOCA SRV.CHALL/TRANS.-SCRAM SRV.CHALL/TRANS.SCRAM SRV. CHALL/LOOP.-SCRAM SRV.CHALL/LOOP.SCRAM SRV.CLOSE EMERG.POWER FW/PCSTRANS FW/PCS.LOCA HPCI Branch Model: | ||
1.OF.1 Train I Cond Prob: | |||
ISOL.COND CRD SRV.ADS COND/FW.PCS LPCS Branch Model: | |||
1.OF.2 Train I Cond Prob: | |||
Train 2 Cond Prob: | |||
LPCI Branch Model: | |||
1.OF.2 Train I Cond Prob: | |||
Train 2 Cond Prob: | |||
FIREWTR.OR.OTHER/LPCS,.LPCI/TRA FIREWTR.OR.OTHER/LPCS.LPCI/LOO FIREWTR.OR.OTHER/LPCS.LPCI/LOC SrC LPCI (CC) | |||
LPCI (CC) /LPCI C.I.AND.V/LPCI | |||
* branch model file | * branch model file | ||
** forced Minarick 02-24-1988 12:02:05 Event Identifier:. 249/86-013 D-20}} | ** forced Minarick 02-24-1988 12:02:05 Event Identifier:. 249/86-013 8.6E-04 I.7E-05 3.3E-06 3.5E-04 I.OE-02 1.7E-01 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.6E-02 2.9E-03 2.9E-01 4.OE-02 2.9E-02 > 1.OE+00 2.9E-02 > Unavailable 2.OE-02 I.OE-02 3.7E-03 I.OE+00 2.OE-03 > 1.OE-01 2,0E-02 > Failed I.OE-0I I.OE-03 > I.OE-01 I.OE-02 > Failed I.OE-0I 1.OE+00 1.0E+00 I.OE+00 2.9E-03 I.OE-03 I.OE+00 I.OE+00 I | ||
.OE+00 3.2E-01 | |||
: 5. OE-0I I.OE+00 I | |||
.OE+00 I | |||
.OE+00 I.OE+00 I.OE+00 I | |||
.OE+00 I.(OE+00 IOE+00 I | |||
.OE+00 8.OE-01 3.4E-01 3.4E-01 7.OE-01 > I.OE+00 I.OE+00 I.OE+00 7.IE-01 3.4E-01 3.4E-01 7.1E-01 I.OE+00 I.OE+O0 I.OE+00 3.4E-01 3.4E-01 I.OE+00 3.4E-01 4.OE-02 4 | |||
.OE-02 4.OE-02 D-20}} |
Latest revision as of 13:52, 11 December 2024
ML20147A543 | |
Person / Time | |
---|---|
Site: | Dresden |
Issue date: | 05/26/2020 |
From: | Christopher Hunter NRC/RES/DRA/PRB |
To: | |
Littlejohn J (301) 415-0428 | |
References | |
LER 1986-013-00 | |
Download: ML20147A543 (5) | |
Text
PRECURSOR DESCRIPTION SHEET LER No.:
249/86-013 Event
Description:
HPCI and one train of the core spray and LPCI systems are inoperable Date of Event:
August 27, 1986 Plant:
Dresden 3 EVENT DESCRIPTION Sequence Dresden 3 was in the run mode at 19% power with the HPCI system declared inoperable for repairs (reason not stated).
At 0030 h during surveillance testing, the train B CSS full-flow-test valve (3-1042-4B) was discovered to be damaged, so the valve would not close; the B core spray subsystem was also unpressurized.
In addition, the LPCI system minimum-flow valve (3-1501-13A) showed a double position indication -
the valve was in midposition.
The 2/3 DG failed to close manually onto bus 33-1; however, the generator was able to be synchronized manually to bus 23-1 without incident.
In the event of a LOCA, the DG would have closed automatically on bus 33-1.
A unit shutdown was begun.
Investigation revealed that valve 3-1042-4B (the "B" pump CSS full-flow-test valve) had a fractured motor-operator housing.
The torque switch failed and allowed the motor to drive the valve disk into the valve seat until the motor housing was fractured.
The torque switch was incorrectly installed in the reverse direction.
Investigation revealed that the handwheel retaining-ring was dis-engaged and resting atop the handwheel bearing of the Limitorque motor-operator for the LPCI system minimum-flow valve (3-1501-13A).
The valve was opened manually.
Investigation revealed that DG 2/3 failed to close onto bus 33-1 because a terminal block screw was loose in junction box 3TB-187.
Cold shutdown was achieved at 2007 h.
Corrective Action The torque switch on valve 3-1042-4B (CSS full-flow-test valve) was installed correctly, and the motor housing was replaced.
The handwheel retaining ring for the LPCI system minimum-flow valve (3-1501-13A) was correctly installed.
The loose terminal block screw in the DG 2/3 junction box 3TB-187 was tightened.
Event Identifier:
249/86-013 D-16
Plant/Event Data Systems Involved:
LPCI, core spray, emergency power, and HPCI Components and Failure Modes Involved:
Pump B CSS full-flow-test valve -
failed to close in test LPCI system minimum-flow valve -
failed in midposition in test DG 2/3 -
failed to close onto bus 33-1 in manual mode operation in test HPCI -
inoperable (reason not stated)
Component Unavailability Duration:
15 d Plant Operating Mode:
1 (19% power)
Discovery Method:
Testing Reactor Age:
15.6 years Plant Type:
BWR Comments Dresden station has three DGs.
Each unit has one dedicated DG and the third is a swing DG (2/3) between both.
One train of each unit's ECCS is supported by DG 2/3.
Failure of DG 2/3 would prevent emergency power to one ECCS train.
The SDC system is independent of LPCI so it was not affected.
MODELING CONSIDERATIONS AND DECISIONS Initiators Modeled and Initiator Nonrecovery Estimate Postulated transient Postulated LOOP Postulated LOCA Base case nonrecovery Branches Impacted and Branch Nonrecovery Estimate HPC I LPCS LPCI 1.0 Base case Base case Out of service and assumed unavailable Assumed one of two trains fails in test Assumed one of two trains fails in test Plant Models Utilized BWR plant Class B Event Identifier:
249/86-013 D-1 7
CONDITIONAL CORE DAMAGE PROBABILITY CALCULATIONS Event Identifier:
249/86-013 Event
Description:
HPCI and One Train of LPCS and LPCI Are Inoperable Event Date:
8/27/86 Plant:
Dresden 3 UNAVAILABILITY, DURATION= 360 NON-RECOVERABLE INITIATING EVENT PROBABILITIES TRANS LOOP LOCA SEQUENCE CONDITIONAL PROBABILITY SUMS 3.IE-01 2.OE-03 5.9E-04 End State/Initiator Probability CV TRANS LOOP LOCA Total I
.4E-Ob
- 6.
1E-07 2.5E-09 2.OE-06 CD TRANS LOOP LOCA Total 6.8E-07 1.7E-06 3.4E-07 2.7E-06 ATWS TRANS LOOP LOCA Total O.OE+00 O0OE+00 O.OE+00 O.OE+00 DOMINANT SEQUENCES End State: CV Conditional Probability:
9.2E-07 Event Identifier: 249/86-013 D-1 8
130 TRANS SCRAM -SLC.OR.RODS PCS/TRANS FW/PCS.TRANS HPCI -SRV.ADS -COND/FW.PCS -SDC End State:
CD Conditional Probability:
1.3E-06 213 LOOP -EMERG.POWER
-SCRAM SRV.CHALL/LOOP.-SCRAM SRV.CLOSE HPCI SRV.ADS SEQUENCE CONDITIONAL PROBABILITIES Sequence End State Prob N Rec**
109 TRANS -SCRAM PCS/TRANS SRV.CHALL/TRANS.-SCRAM -SRV.CLOSE IS CD 1.8E-07 2.4E-01 OL.COND FW/PCS.TRANS HPCI CRD SRV.ADS 117 TRANS -SCRAM PCS/TRANS SRV.CHALL/TRANS.-SCRAM SRV.CLOSE FW CD 4.2E-07 2.4E-01
/PCS.LOCA HPCI SRVADS 130 TRANS SCRAM -SLC.OR.RODS PCS/TRANS FW/PCS.TRANS HPC!
-SRV.
CV 9.2E-07
CV 4.6E-07 1.,E-01 ADS COND/FW.PCS -LPCS
-SDC 147 TRANS SCRAM -SLC.OR.RODS PCS/TRANS FW/PCS.TRANS HPCI SRV.
CD 6.2E-0E 2.4E-01 ADS 207 LOOP -EMERG.POWER
-SCRAM SRV.CHALL/LOOP.-SCRAM -SRV.CLOSE IS CD 7.9E-08 2.3E-01 OL.COND HPCI CRD SRV.ADS 212 LOOP -EMERG.POWER
-SCRAM SRV.CHALL/LOOP.-SCRAM SRV.CLOSE HP CD 7.4E-08 7.7E-02 CI -SRV.ADS LPCS LPCI FIREWTR.OR.OTHER/LPCS.LPCI/LOOP 213 LOOP -EMERG.POWER
-SCRAM SRV.CHALL/LOOP.-SCRAM SRV.CLOSE HP CD 1.3E-06 2.3E-01 CI SRVADS 222 LOOP -EMERG.POWER SCRAM -SLC.OR.RODS HPCI -SRV.A[D
-LPCS -SD CV 5.9E-07 3.IE-01 C
238 LOOP EMERG.POWER -SCRAM SRV.CHALL/LOOP.-SCRAM -SRV.CLOSE IS CD 8.6E-08 2.6E-01 OL.COND HPCI 240 LOOP EMERG.POWER -SCRAM SRV.CHALL/LOOPF.-SCRAM SRV.CLOSE HP CD 7.2E-08 2.6E-01 CI 309 LOCA -SCRAM PCS/LOCA FW/PCS.LOCA HPCI SRV.ADS CD 3.4E-07 1.2E-01 dominant sequence for end state
- non-recovery credit for edited case Note:
For unavailabilities, conditional probability values are differential values which reflect the added risk due to failures associated with an event.
Parenthetical values indicate a reduction in risk compared to a similar period without the existing failures.
SEQUENCE MODEL:
c:\\asp\\newmodei\\bwrbtree.cmp BRANCH MODEL:
c:\\asp\\newmodel\\dresden.txt PROBABILITY FILE:
c:\\asp\\newmodel\\bwr-c.pro No Recovery Limit BRANCH FREQUENCIES/PROBABILITIES Event identifier: 249/86-013 D-19
Branch System Non-Recov Opr Fail TRANS LOOP LOCA SCRAM SLC.OR.RODS PCS/TRANS PCS/LOCA SRV.CHALL/TRANS.-SCRAM SRV.CHALL/TRANS.SCRAM SRV. CHALL/LOOP.-SCRAM SRV.CHALL/LOOP.SCRAM SRV.CLOSE EMERG.POWER FW/PCSTRANS FW/PCS.LOCA HPCI Branch Model:
1.OF.1 Train I Cond Prob:
ISOL.COND CRD SRV.ADS COND/FW.PCS LPCS Branch Model:
1.OF.2 Train I Cond Prob:
Train 2 Cond Prob:
LPCI Branch Model:
1.OF.2 Train I Cond Prob:
Train 2 Cond Prob:
FIREWTR.OR.OTHER/LPCS,.LPCI/TRA FIREWTR.OR.OTHER/LPCS.LPCI/LOO FIREWTR.OR.OTHER/LPCS.LPCI/LOC SrC LPCI (CC)
LPCI (CC) /LPCI C.I.AND.V/LPCI
- branch model file
- forced Minarick 02-24-1988 12:02:05 Event Identifier:. 249/86-013 8.6E-04 I.7E-05 3.3E-06 3.5E-04 I.OE-02 1.7E-01 I.OE+00 I.OE+00 I.OE+00 I.OE+00 I.OE+00 1.6E-02 2.9E-03 2.9E-01 4.OE-02 2.9E-02 > 1.OE+00 2.9E-02 > Unavailable 2.OE-02 I.OE-02 3.7E-03 I.OE+00 2.OE-03 > 1.OE-01 2,0E-02 > Failed I.OE-0I I.OE-03 > I.OE-01 I.OE-02 > Failed I.OE-0I 1.OE+00 1.0E+00 I.OE+00 2.9E-03 I.OE-03 I.OE+00 I.OE+00 I
.OE+00 3.2E-01
- 5. OE-0I I.OE+00 I
.OE+00 I
.OE+00 I.OE+00 I.OE+00 I
.OE+00 I.(OE+00 IOE+00 I
.OE+00 8.OE-01 3.4E-01 3.4E-01 7.OE-01 > I.OE+00 I.OE+00 I.OE+00 7.IE-01 3.4E-01 3.4E-01 7.1E-01 I.OE+00 I.OE+O0 I.OE+00 3.4E-01 3.4E-01 I.OE+00 3.4E-01 4.OE-02 4
.OE-02 4.OE-02 D-20