ML12021A020: Difference between revisions
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{{#Wiki_filter:Dresden Generating Station ILT-N-1 CONTROL ROD RPIS FAILURE SERVICE WATER PUMP TRIP ISOLATION CONDENSER INADVERTENT | {{#Wiki_filter:Dresden Generating Station ILT-N-1 CONTROL ROD RPIS FAILURE SERVICE WATER PUMP TRIP ISOLATION CONDENSER INADVERTENT INITIATION SWAP RFP DUE TO OIL LEAK EARTHQUAKE / TORUS LEAK / MANUAL SCRAM EMERGENCY DEPRESSURIZE DUE TO LOWERING TORUS LEVEL Rev. 00 09/10 Developed By: | ||
/ TORUS LEAK | Exam Author Date Approved By: | ||
Facility Representative Date | |||
Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-1 Class ID: 10-01 (2011-301) | |||
Evaluators Operators / crew position | |||
/ ATC | |||
/ BOP | |||
Scenario Outline Station: Dresden Generating Station Scenario No.: | / CRS Initial Conditions: Initial Power = 75% | ||
ILT-N-1 | Turnover: | ||
-01 (2011-301) | Event Malf. Event Event No. No. Type* Description 1 RDFAILF5 I ATC CRD - RPIS failure for rod F-05. T 2 Q22 C BOP SERV WATER - Pump Trip. | ||
3 ICSPDFT I BOP ISO COND - Inadvertent Initiation. T 4 NONE C ATC RFP - 2B RFP Develops an Oil Leak / Must Swap. | |||
MANUAL SCRAM - Earthquake Causes Plant Damage and 5 CSBRKSEV M TEAM Subsequent Torus Leak. | |||
Turnover: | EMERGENCY DEPRESSURIZE - Torus ECCS Suction 6 CSBRKSEV M TEAM Line Break / ED due to Lowering Torus Level. | ||
-05. T 2 Q22 C BOP SERV WATER | * (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-1 Page 2 of 22 Rev. 00 (09/10) | ||
- Pump Trip. | |||
3 ICSPDFT I BOP ISO COND - Inadvertent Initiation. | |||
T 4 NONE | |||
- Earthquake Causes Plant Damage and Subsequent Torus Leak. | |||
- Torus ECCS Suction Line Break / ED due to Lowering Torus Level. | |||
Scenario Objective Evaluate the operators in using the Emergency Depressurization DEOP contingency procedure. | Scenario Objective Evaluate the operators in using the Emergency Depressurization DEOP contingency procedure. | ||
Scenario Summary Initial Conditions: | Scenario Summary Initial Conditions: | ||
: 1. Unit is at 75% power. 2. The following equipment is OOS: | : 1. Unit is at 75% power. | ||
: a. None 3. LCOs: a. None | : 2. The following equipment is OOS: | ||
: a. None | |||
Scenario Sequence Control rod F-05 loses all RPIS indication. The Team will insert the control rod, reference Tech Specs and direct taking it OOS. | : 3. LCOs: | ||
The 2B Service Water pump trips on overload. The Team will start a standby pump. | : a. None Scenario Sequence | ||
The Isolation Condenser initiates due to setpoint drift. The Team will stop operation of the Isolation Condenser and reference Tech Specs. | * Control rod F-05 loses all RPIS indication. The Team will insert the control rod, reference Tech Specs and direct taking it OOS. | ||
The Team receives a report from the field that 2B RFP has an oil leak. The Team starts | * The 2B Service Water pump trips on overload. The Team will start a standby pump. | ||
. Per DEOP 0200-01, Primary Containment Control, the Team should: | * The Isolation Condenser initiates due to setpoint drift. The Team will stop operation of the Isolation Condenser and reference Tech Specs. | ||
* The Team receives a report from the field that 2B RFP has an oil leak. The Team starts 2C RFP and secures 2B RFP. | |||
* Due to an earthquake, an ECCS suction line break occurs resulting in a lowering torus water level. Per DEOP 0200-01, Primary Containment Control, the Team should: | |||
Scram the reactor. | Scram the reactor. | ||
Prevent HPCI operation. | Prevent HPCI operation. | ||
Perform an emergency depressurization | Perform an emergency depressurization. (One ADSV fails to open. The Team will augment emergency depressurization with other systems.) | ||
. (One ADSV fails to open. The Team will augment emergency depressurization with other systems.) | Event One - Control Rod RPIS Failure | ||
Event One - Control Rod RPIS Failure Control rod F-05 will lose all RPIS indication | * Control rod F-05 will lose all RPIS indication. | ||
Malfunctions required: 1 | |||
* (Loss of Control Rod F-05 RPIS indication) | |||
Inserts Control Rod F | Success Path: | ||
-05 and references Tech Specs | * Inserts Control Rod F-05 and references Tech Specs SCENARIO ILT-N-1 Page 3 of 22 Rev. 00 (09/10) | ||
Event Two - Service Water Pump Trip | |||
* 2B Service Water pump trips on overload. | |||
Event Two - Service Water Pump Trip 2B Service Water pump trips on overload. | Malfunctions required: 1 | ||
Malfunctions required: | * (2B Service Water pump trip) | ||
Success Path: | Success Path: | ||
The Team starts a standby pump. | * The Team starts a standby pump. | ||
Event Three - Isolation Condenser Inadvertent Initiation The Isolation Condenser initiates due to setpoint drift. | Event Three - Isolation Condenser Inadvertent Initiation | ||
Malfunctions required: | * The Isolation Condenser initiates due to setpoint drift. | ||
Malfunctions required: 1 | |||
* (Isolation Condenser initiation setpoint drift) | |||
Success Path: | Success Path: | ||
The Team will stop operation of the Isolation Condenser and reference Tech Specs. | * The Team will stop operation of the Isolation Condenser and reference Tech Specs. | ||
Event Four | Event Four - 2B RFP develops an oil leak, must swap | ||
- 2B RFP develops an oil leak, must swap Report from the field of an oil leak on 2B RFP. | * Report from the field of an oil leak on 2B RFP. | ||
Malfunctions required: 1 | |||
Malfunctions required: | * 2B RFP oil leak Success Path: | ||
* The Team starts 2C RFP and secures 2B RFP. | |||
Event Five and Six - Torus Leak | |||
* The crew should recognize and respond to a lowering torus water level. If the Team does not prevent HPCI operation, a spurious HPCI initiation will occur while Torus level is dropping. | |||
Malfunctions required: 2 | |||
* (Torus Leak) | |||
* (ADSV fail to open) | |||
Success Path: | Success Path: | ||
* Perform manual Reactor scram. | |||
* Prevent HPCI operation. | |||
* Emergency Depressurize. | |||
SCENARIO ILT-N-1 Page 4 of 22 Rev. 00 (09/10) | |||
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ-JA-150-08, SIMULATOR EXAMINATION BRIEFING. | |||
2 Simulator Setup (the following steps can be done in any logical order) | |||
SCENARIO | |||
-scenario activities in accordance with TQ | |||
-JA-150-08, SIMULATOR EXAMINATION BRIEFING. 2 Simulator Setup (the following steps can be done in any logical order) | |||
: a. a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used) | : a. a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used) | ||
: 1) Reactor power at ~75% | : 1) Reactor power at ~75%. | ||
: 2) Generator at ~680 MWe. | |||
: b. Cut in/out Cond Demins as needed, to maintain DP within limits | : b. Cut in/out Cond Demins as needed, to maintain DP within limits. | ||
: c. Ensure running Condensate pump amps within limits. | |||
: d. Advance the chart recorders. | : d. Advance the chart recorders. | ||
3 Verify the following simulator conditions: | 3 Verify the following simulator conditions: | ||
: a. | : a. 2B and 3B Service Water pumps running. | ||
: b. 2A and 2B RFPs running with 2C RFP in STBY on Bus 22. | |||
4 Place the following equipment out of service: | : c. Verify Zinc Injection label in place for lined up to 2A RFP. | ||
: a. None | 4 Place the following equipment out of service: | ||
5 Run the initial setup CAEP file: | : a. None NOTE: Perform the above setup prior to running the setup CAEP file. | ||
-N-1.cae 6 Complete the Simulator Setup Checklist. | 5 Run the initial setup CAEP file: ILT-N-1.cae 6 Complete the Simulator Setup Checklist. | ||
Symbols are used throughout the text to identify specific items as indicated below: | Symbols are used throughout the text to identify specific items as indicated below: | ||
Critical Tasks Time Critical Tasks PRA Key Operator Actions Required Actions Optional Actions | Critical Tasks Time Critical Tasks PRA Key Operator Actions Required Actions Optional Actions SCENARIO ILT-N-1 Page 5 of 22 Rev. 00 (09/10) | ||
Event One - Control Rod RPIS Failure Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
1 At the direction of the Lead Examiner, activate trigger 1, RPIS failure for control rod F-05. | |||
Event One | ROLE PLAY: | ||
- Control Rod RPIS Failure Trigger Position | |||
At the direction of the Lead Examiner, activate trigger 1, RPIS failure for control | |||
Respond as Support Groups notified. | Respond as Support Groups notified. | ||
ATC Reports and responds to DANs 902 | ATC Reports and responds to DANs 902-5 A-3 ROD DRIFT, and B-3 ROD WORTH MIN BLOCK. | ||
-5 A-3 ROD DRIFT, and B | Views Full Core Display and identifies CRD with Rod Drift light. | ||
-3 ROD WORTH MIN BLOCK. Views Full Core Display and identifies CRD with Rod Drift light. | Selects Control Rod F-05 and reports no indication on Four Rod Display. | ||
Selects Control Rod F | ATC Recognizes loss of control rod F-05 position indication on Full Core Display, Four Rod Display, RWM, and/or Process Computer. | ||
-05 and reports no indication on Four Rod Display. | CRS Enters DOA 0300-06, RPIS Failure, and directs its actions. | ||
ATC Recognizes loss of control rod F | ATC Performs subsequent actions of DOA 0300-06, RPIS Failure: | ||
-05 position indication on Full Core Display, Four Rod Display, RWM, and/or Process Computer. | May insert Rod F-05 to 00 prior to entering DOA 0300-06. | ||
CRS Enters DOA 0300-06, RPIS Failure, and directs its actions. | Enters substitute position of 48 for F-05. | ||
ATC Performs subsequent actions of DOA 0300 | Inserts control rod F-05 one notch. | ||
-06, RPIS Failure: | |||
May insert Rod F | |||
-05 to 00 prior to entering DOA 0300 | |||
-06. Enters substitute position of 48 for F | |||
-05. Inserts control rod F | |||
-05 one notch. | |||
Determines no control rod position indication at alternate position. | Determines no control rod position indication at alternate position. | ||
Selects rod F | Selects rod F-05. | ||
-05. Drives rod F-05 to fully inserted position. | Drives rod F-05 to fully inserted position. | ||
Calls WEC to electrically or hydraulically isolate the control rod F | Calls WEC to electrically or hydraulically isolate the control rod F-05 HCU. | ||
-05 HCU. May enter a substitute position and take OOS on the RWM per DOP 0400 | May enter a substitute position and take OOS on the RWM per DOP 0400-02, Rod Worth Minimizer. | ||
-02, Rod Worth Minimizer. | CRS References appropriate plant licensing documents and determines: | ||
CRS References appropriate plant licensing documents and determines: | |||
TS 3.1.3, condition C, required actions: | TS 3.1.3, condition C, required actions: | ||
C.1 Fully insert inoperable control rod within 3 hours; AND, | C.1 Fully insert inoperable control rod within 3 hours; AND, C.2. Disarm the associated CRD within 4 hours. | ||
Directs electrically or hydraulically isolating control rod F | Directs electrically or hydraulically isolating control rod F-05 HCU. | ||
-05 HCU. ROLE PLAY As QNE acknowledge reports. If concurrence is requested for any action, report | ROLE PLAY As QNE acknowledge reports. If concurrence is requested for any action, report I concur with (insert requested action here) | ||
BOP | BOP Monitors panel, provides assistance as directed. | ||
TEAM | TEAM May enter DOA 0300-12, Mispositioned Control Rod. | ||
Notifies the Shift Manager, QNE, Work Week Manager, Fin team, IMD, OR EMD. | Notifies the Shift Manager, QNE, Work Week Manager, Fin team, IMD, OR EMD. | ||
SCENARIO ILT-N-1 Page 6 of 22 Rev. 00 (09/10) | |||
Event One - Control Rod RPIS Failure Trigger Position Crew Actions or Behavior ROLE PLAY: | |||
When NLO directed to disarm control rod F-05, report: Ill disarm F-05 after I receive a pre-job brief (it is not intended for this to be completed). | |||
Event One | ATC Records failed RPIS indication per DOS 0300-06, CRD Abnormality Record. | ||
- Control Rod RPIS Failure Trigger | |||
When NLO directed to disarm control rod F | |||
-05, report: | |||
-05 after I receive a pre-job brief | |||
ATC | |||
-06, CRD Abnormality Record. | |||
Event 1 Completion Criteria: | Event 1 Completion Criteria: | ||
DOA 0300-06 actions have been taken, | * DOA 0300-06 actions have been taken, | ||
* Technical Specifications have been referenced, AND/OR, | |||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-1 Page 7 of 22 Rev. 00 (09/10) | |||
Event Two - Service Water Pump Trip Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
2 At the discretion of the Lead Examiner, activate trigger 2, which trips the 2B Service Water Pump. | |||
Event Two | ROLE PLAY: | ||
- Service Water Pump Trip Trigger | EO at Service Water Pump just started (wait 2 min.): | ||
At the discretion of the Lead Examiner, activate trigger 2, which trips the 2B Service Water Pump. | Report: The Service Water Pump is operating normally and 2B Service Water Pump shows no sign of damage. | ||
ROLE PLAY: EO at Service Water Pump just started (wait 2 min.): | |||
Report: | |||
EO at 2B Service Water Pump at Bus 24 (wait 2 min.): | EO at 2B Service Water Pump at Bus 24 (wait 2 min.): | ||
Report: | Report: 2B Service Water Pump Breaker has overcurrent targets up. | ||
EMD Acknowledges need to go to Bus 24 and troubleshoot overcurrent flag at 2B Service Water Pump breaker. | EMD Acknowledges need to go to Bus 24 and troubleshoot overcurrent flag at 2B Service Water Pump breaker. | ||
SIMULATOR OPERATOR: | |||
After a standby Service Water Pump is started, activate trigger 3, which returns the Remote for stopping the DFP to normal. | 3 After a standby Service Water Pump is started, activate trigger 3, which returns the Remote for stopping the DFP to normal. | ||
BOP | BOP Announces 2B Service Water Pump trip. | ||
Refers to DAN 923-1 C-3, U2 OR U3 SERV WATER PP TRIP. Starts an available Service Water Pump. | Refers to DAN 923-1 C-3, U2 OR U3 SERV WATER PP TRIP. | ||
Refers to DOA 6500 | Starts an available Service Water Pump. | ||
-10, | Refers to DOA 6500-10, 4KV Circuit Breaker Trip and: | ||
Directs an EO to the Cribhouse to check the Service Water Pump just started and inspect 2B Service Water Pump. | Directs an EO to the Cribhouse to check the Service Water Pump just started and inspect 2B Service Water Pump. | ||
Direct an EO to check the breaker of 2B Service Water Pump. | Direct an EO to check the breaker of 2B Service Water Pump. | ||
Line 182: | Line 156: | ||
Notifies Ops Shift Supervisor. | Notifies Ops Shift Supervisor. | ||
Requests EMD to troubleshoot. | Requests EMD to troubleshoot. | ||
CRS | CRS Notifies Shift Manager and EMD. | ||
Enters DOA 3900 | Enters DOA 3900-01, Loss of Cooling by Service Water System. | ||
-01, Loss of Cooling by Service Water System. | Enters DOA 6500-10, 4KV Circuit Breaker Trip. | ||
Enters DOA 6500 | ATC Assists as directed. | ||
-10, | |||
ATC | |||
Event 2 Completion Criteria: | Event 2 Completion Criteria: | ||
An available Service Water pump is started, AND / OR, | * An available Service Water pump is started, AND / OR, | ||
* At the discretion of the Lead Examiner. | |||
SCENARIO ILT-N-1 Page 8 of 22 Rev. 00 (09/10) | |||
Event Three - Isolation Condenser Inadvertent Initiation Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
4 At the direction of the Lead Examiner, activate trigger 4, which drifts the Isolation Condenser Initiation setpoint. | |||
Event Three - Isolation Condenser Inadvertent Initiation Trigger | |||
At the direction of the Lead Examiner, activate trigger 4, which drifts the Isolation Condenser Initiation setpoint. | |||
ROLE PLAY: | ROLE PLAY: | ||
Respond as Support Groups notified. BOP Reports and responds to DANs: | Respond as Support Groups notified. | ||
BOP Reports and responds to DANs: | |||
902-3 B-4, ISOL CONDR VLVS OFF NORM. | 902-3 B-4, ISOL CONDR VLVS OFF NORM. | ||
902-3 C-4, ISOL CONDR TEMP HI. | 902-3 C-4, ISOL CONDR TEMP HI. | ||
902-4 A-15, ISOL CONDR CH A/B INITIATION. | 902-4 A-15, ISOL CONDR CH A/B INITIATION. | ||
Determines Isolation Condenser in operation due to MO 2 | Determines Isolation Condenser in operation due to MO 2-1301-3 valve open. | ||
-1301-3 valve open. | TEAM Determines Isolation Condenser initiation spurious due to RPV pressure in normal band. | ||
TEAM | CRS Directs removing the Isolation Condenser from service. | ||
BOP | BOP Places MO 2-1301-3 in PTL. | ||
-1301-3 in PTL. When MO 2-1301-3 indicates closed, reports that the Isolation Condenser is removed from service. | When MO 2-1301-3 indicates closed, reports that the Isolation Condenser is removed from service. | ||
ATC | ATC Monitors reactor water level, pressure, and power. | ||
TEAM | TEAM May enter DGA 07, Unpredicted Reactivity Addition. | ||
CRS References appropriate plant licensing documents and determines: | CRS References appropriate plant licensing documents and determines: | ||
TS 3.5.3, condition A. required actions: | TS 3.5.3, condition A. required actions: | ||
A.1 Verify by administrative means High Pressure Coolant Injection System is OPERABLE immediately, AND, | A.1 Verify by administrative means High Pressure Coolant Injection System is OPERABLE immediately, AND, A.2 Restore IC System to OPERABLE status within 14 days. | ||
TS 3.3.5.2, condition A. required actions: (May wait for IMD investigation) | TS 3.3.5.2, condition A. required actions: (May wait for IMD investigation) | ||
A.1 Declare IC System inoperable within 1 hour; | A.1 Declare IC System inoperable within 1 hour; AND, A.2 Place channel(s) in trip within 24 hours. | ||
TEAM | TEAM Notifies Security to limit access to area under Isolation Condenser vent. | ||
Notifies Radiation Protection to survey under the Isolation Condenser vent. | Notifies Radiation Protection to survey under the Isolation Condenser vent. | ||
SCENARIO ILT-N-1 Page 9 of 22 Rev. 00 (09/10) | |||
Event Three - Isolation Condenser Inadvertent Initiation Trigger Position Crew Actions or Behavior Event 3 Completion Criteria: | |||
* Isolation Condenser removed from operation, | |||
Event Three - Isolation Condenser Inadvertent Initiation Trigger | * Technical Specifications have been referenced, AND/OR, | ||
Isolation Condenser removed from operation, | * At the direction of the Lead Examiner. | ||
SCENARIO ILT-N-1 Page 10 of 22 Rev. 00 (09/10) | |||
Event Four - 2B RFP develops an oil leak, requiring it to be secured Trigger Position Actions or Behavior Role Play: | |||
Call the control room as the U-2 NLO and report, While I was on rounds, I found 2B RFP has an oil leak on a line to the speed changer. It cannot be stopped. | |||
Event Four - 2B RFP develops an oil leak, requiring it to be secured Trigger | If asked the oil is contained on the bed plate and I plugged the drain before the oil reached it. | ||
Call the control room as the U | If asked, The oil level is below the sight glass. | ||
-2 NLO and report, | If asked, I recommend securing 2B RFP as soon as possible. | ||
If asked | If asked, Zinc injection is lined up to 2A RFP". | ||
If asked, | ATC Acknowledges report from the field and relays it to the CRS. | ||
If asked, | CRS May enter DOA 0600-01, Transient Level Control. | ||
If asked, | Directs ATC to start 2C RFP and secure 2B RFP. | ||
CRS | ATC Starts 2C RFP per DOA 0600-01, Transient Level Control, OR DOP 3200-03, Startup Of Second Or Third Reactor Feed Pump Or Shifting To Alternate Reactor Feed Pump. | ||
-01, Transient Level Control. | |||
Directs ATC to start | |||
ATC Starts | |||
-01, Transient Level Control, OR DOP 3200-03, Startup Of Second Or Third Reactor Feed Pump Or Shifting To Alternate Reactor Feed Pump. | |||
Places RFPs Standby Selector switch, STBY PP SELECT in OFF position. | Places RFPs Standby Selector switch, STBY PP SELECT in OFF position. | ||
Closes MO 2 | Closes MO 2-3201C, Opens 2C RFP RECIRC VLV PCV 2-3201C by placing control switch in OPEN. | ||
- | |||
- | |||
Verifies reactor water level is stable. | Verifies reactor water level is stable. | ||
Verifies sufficient system pressures. | Verifies sufficient system pressures. | ||
If previously closed, places MO 2 | If previously closed, places MO 2-3201C, 2C PP DISCH VLV control switch to OPEN position. | ||
- | Starts 2C RFP. | ||
Verifies reactor water level is stable. | |||
Verify RFP Auxiliary Oil Pump AUTO stops. | Verify RFP Auxiliary Oil Pump AUTO stops. | ||
WHEN MO 2- | WHEN MO 2-3201C, 2C PP DISCH VLV, is fully open (the RED valve position indicating light is extinguished), THEN places 2C RFP RECIRC VLV PCV 2-3201A control switch in AUTO. | ||
-3201A control switch in AUTO. | Directs NLO to perform checks on 2C RFP. | ||
Directs NLO to perform checks on | SCENARIO ILT-N-1 Page 11 of 22 Rev. 00 (09/10) | ||
SCENARIO ILT | |||
-N-1 Page | Event Four - 2B RFP develops an oil leak, requiring it to be secured Trigger Position Actions or Behavior ATC Secures 2B RFP per DOP 3200-05, Reactor Feed Pump Shutdown. | ||
Event Four - 2B RFP develops an oil leak, requiring it to be secured Trigger | |||
-05, Reactor Feed Pump Shutdown. | |||
Places RFPs standby selector switch, STBY PP SELECT, in OFF. | Places RFPs standby selector switch, STBY PP SELECT, in OFF. | ||
Verifies the 2B AUX OIL PP control switch in AUTO. | Verifies the 2B AUX OIL PP control switch in AUTO. | ||
Opens 2B RFP recirculation valve, by placing 2B RFP RECIRC VLV PCV 2 | Opens 2B RFP recirculation valve, by placing 2B RFP RECIRC VLV PCV 2-3201B control switch in OPEN position. | ||
-3201B control switch in OPEN position. | |||
Verifies reactor water level is stable. | Verifies reactor water level is stable. | ||
Closes MO 2 | Closes MO 2-3201B, 2B RFP DISCH VLV. | ||
-3201B, 2B RFP DISCH VLV. | Verifies reactor water level remains stable. | ||
Verifies reactor water level remains stable. Stops 2B RFP. | Stops 2B RFP. | ||
As the RFP slows down, verifies the associated auxiliary oil pump automatically starts. | As the RFP slows down, verifies the associated auxiliary oil pump automatically starts. | ||
Close 2B RFP recirculation valve, by placing 2B RFP RECIRC VLV control switch in AUTO position. | Close 2B RFP recirculation valve, by placing 2B RFP RECIRC VLV control switch in AUTO position. | ||
Direct a NLO to verify the 2B RFP has come to rest. | Direct a NLO to verify the 2B RFP has come to rest. | ||
WHEN 2B RFP has come to rest, THEN opens MO 2 | WHEN 2B RFP has come to rest, THEN opens MO 2- 3201B, 2B RFP DISCH VLV. | ||
- 3201B, 2B RFP DISCH VLV. | |||
Directs NLO to perform remaining in plant steps for securing 2B RFP. | Directs NLO to perform remaining in plant steps for securing 2B RFP. | ||
Role Play: | Role Play: | ||
NLO to verify 2B RFP is at rest: Wait 1 min, then report, | NLO to verify 2B RFP is at rest: Wait 1 min, then report, 2B RFP is at rest. | ||
Acknowledge request to perform procedural steps for 2A and 2B RFPs. After a few minutes, report that the steps are completed. | Acknowledge request to perform procedural steps for 2A and 2B RFPs. After a few minutes, report that the steps are completed. | ||
CRS | CRS Directs 2B RFP Aux Oil PP secured to stop leak. | ||
ATC | ATC Places 2B RFP Aux Oil PP in PTL. | ||
Role Play: | Role Play: | ||
If asked after 2B RFP Aux Oil PP is placed in PTL: Report, the oil leak on 2B RFP has stopped. Event 4 Completion Criteria: | If asked after 2B RFP Aux Oil PP is placed in PTL: Report, the oil leak on 2B RFP has stopped. | ||
Event 4 Completion Criteria: | |||
* 2C RFP started and 2B RFP secured AND/OR, | |||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-1 Page 12 of 22 Rev. 00 (09/10) | |||
Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level. | |||
Trigger Position Crew Actions or Behavior Simulator Operator: | |||
Event Five and Six | 5 At the discretion of the Lead Examiner, activate trigger 5 which starts an ECCS suction line break in the torus basement. | ||
- An ECCS suction line break occurs resulting in a lowering torus water level. Trigger Position Crew Actions or Behavior | Note: | ||
It takes about 20 minutes for torus level to reach 11 feet. At the discretion of the lead examiner, use the cues in this event to jump ahead in time to expedite level drop if desired. | |||
Note: | |||
Role Play: | Role Play: | ||
After inserting the above trigger call the Control Room, as Security and report there has been a confirmed earthquake felt throughout the plant. | After inserting the above trigger call the Control Room, as Security and report there has been a confirmed earthquake felt throughout the plant. | ||
BOP | BOP Reports the following alarms: | ||
Directs NLO to perform DOS | * 923 A-3 (B-2), U2 E(W) RBFD SUMP LVL HI-HI | ||
Verifies proper operation of the RBFD Sump pumps. (Will require resetting the Group 2 isolation at both the 902 | * 902-4 C-23, Torus Narrow Range Wtr Lvl Lo Checks the torus narrow range level indicator. Reports level dropping. | ||
-5 panel and the 923 | Directs NLO to perform DOS 1600-02, Torus Level Verification Using Local Sight Glass. | ||
-4 panel for the sump pumps to operate if a Group 2 Isolation occurs). | Directs NLO to investigate leakage to torus basement. | ||
Role Play: As the NLO sent to verify Torus level locally using sight glass (wait 4 min), then report: | Verifies proper operation of the RBFD Sump pumps. (Will require resetting the Group 2 isolation at both the 902-5 panel and the 923-4 panel for the sump pumps to operate if a Group 2 Isolation occurs). | ||
As the NLO sent to investigate leakage (wait 2 min) or if not sent, then as the NLO on his round, report: | Role Play: | ||
As the NLO sent to report LPCI corner status (wait 2 min), then report: | As the NLO sent to verify Torus level locally using sight glass (wait 4 min), then report: | ||
As Maintenance sent to determine if the leak can be stopped (wait 3 min), then report: | Local Torus level is (use value from variable ppc232, unless it is <20, then report it is below the sightglass). | ||
As the NLO sent to check the seismic monitor, report: | As the NLO sent to investigate leakage (wait 2 min) or if not sent, then as the NLO on his round, report: there is a large rupture from a pipe attached between the Torus shell and the Torus suction ring header near the East LPCI Corner room. The Torus basement floor is covered with water. There is no valve on the line. | ||
) | As the NLO sent to report LPCI corner status (wait 2 min), then report: there is no water in either LPCI corner room. | ||
CRS | As Maintenance sent to determine if the leak can be stopped (wait 3 min), then report: | ||
-02, Localized Flooding in Plant. | Maintenance cannot stop the leak. | ||
May reference DOA 0010 | As the NLO sent to check the seismic monitor, report: the seismic monitor has been activated (red light lit). | ||
-03, Earthquakes | If contacted as any outside agencies, regarding the earthquake, confirm there has been an earthquake in the area but there is no more information at this time. | ||
. | CRS May enter DOA 0040-02, Localized Flooding in Plant. | ||
SCENARIO ILT | May reference DOA 0010-03, Earthquakes. | ||
-N-1 Page | SCENARIO ILT-N-1 Page 13 of 22 Rev. 00 (09/10) | ||
Event Five and Six | |||
- An ECCS suction line break occurs resulting in a lowering torus water level. Trigger Position Crew Actions or Behavior BOP Performs the following actions per DOA 0040 | Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level. | ||
-02, Localized Flooding in Plant, as directed: | Trigger Position Crew Actions or Behavior BOP Performs the following actions per DOA 0040-02, Localized Flooding in Plant, as directed: | ||
Makes PA announcement. | Makes PA announcement. | ||
Directs NLO to investigate leakage to torus basement. | Directs NLO to investigate leakage to torus basement. | ||
Notifies Radiation Protection and Security as time permits. | Notifies Radiation Protection and Security as time permits. | ||
Cue: (if desired for time compression) | Cue: (if desired for time compression) | ||
When torus level is < 14.5 feet and/or at the discretion of the lead examiner, cue the crew that we are taking a time jump and that both torus wide range level meters indicate 12.5 feet and are dropping at about 1 foot per 10 minutes | When torus level is < 14.5 feet and/or at the discretion of the lead examiner, cue the crew that we are taking a time jump and that both torus wide range level meters indicate 12.5 feet and are dropping at about 1 foot per 10 minutes. | ||
CRS Enters and directs performance of DEOP 0200-01, Primary Containment Control: | |||
-01, Primary Containment Control: | May attempt to add water to the Torus per DOP 1600-02. | ||
May attempt to add water to the Torus per DOP 1600 | Directs BOP to prevent HPCI from operating before torus level reaches 12 feet. | ||
-02. Directs BOP to prevent HPCI from operating before torus level reaches 12 feet. | May direct scram preparatory actions per DGP 02-03, Reactor Scram. | ||
May direct scram preparatory actions per DGP 02 | |||
-03, Reactor Scram. | |||
Directs Team to perform a manual reactor scram before torus level reaches 11 feet. | Directs Team to perform a manual reactor scram before torus level reaches 11 feet. | ||
ATC / | ATC / Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed. | ||
-03, Reactor Scram, as directed. | BOP o IF FCL > 93%, THEN reduce FCL to < 93% by inserting CRAM rods per DGP 03-04 OR in sequence rods per DGP 03-04. | ||
o IF FCL > 93%, THEN reduce FCL to < 93% by inserting CRAM rods per DGP 03-04 OR in sequence rods per DGP 03 | o Reduce power with Recirc flow to 56 Mlbm/hr core flow. | ||
-04. o Reduce power with Recirc flow to 56 Mlbm/hr core flow | o Start the motor suction pump AND turning gear oil pump. | ||
o Trip hydrogen addition. | |||
o Trip hydrogen addition. | ATC / Performs manual scram per DGP 02-03, Reactor Scram, as directed. | ||
ATC / | BOP | ||
-03, Reactor Scram, as directed. | * Depresses BOTH Scram buttons. | ||
* Places RX MODE SW in SHUTDOWN. | |||
o Verifies Recirc pumps run back to minimum. | |||
o Verifies Recirc pumps run back to minimum. | o Inserts SRMs and IRMs. | ||
o | o Controls reactor water level +25 to +35 inches or as directed by the Unit Supervisor. | ||
o | o Verifies turbine tripped. | ||
o Verifies turbine tripped. | o Verifies generator tripped. | ||
o Verifies generator tripped. | o Verifies aux power transfers. | ||
o Verifies aux power transfers. | BOP Performs the following actions per DEOP 200-01, Primary Containment Control, as directed: | ||
BOP Performs the following actions per DEOP 200 | May attempt to add water to the torus by opening the HPCI 14 valve. | ||
-01, Primary Containment Control, as directed: | Monitors/Reports DEOP 200-01 entry parameters. | ||
Monitors/Reports DEOP 200 | |||
-01 entry parameters. | |||
Prevents HPCI from operating. | Prevents HPCI from operating. | ||
SCENARIO ILT-N-1 Page 14 of 22 Rev. 00 (09/10) | |||
Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level. | |||
Trigger Position Crew Actions or Behavior CRS May decide to anticipate RPV Blowdown: | |||
Event Five and Six | |||
- An ECCS suction line break occurs resulting in a lowering torus water level. Trigger Position Crew Actions or Behavior CRS | |||
Directs opening turbine bypass valves. | Directs opening turbine bypass valves. | ||
BOP | BOP Opens turbine bypass valves. (If directed to anticipating Blowdown) | ||
CRS Enters DEOP 0300 | CRS Enters DEOP 0300-01, Secondary Containment Control, and directs: | ||
-01, Secondary Containment Control, and directs: | |||
If Reactor Building Ventilation isolates when unit is scrammed, directs restarting Reactor Building Ventilation. | If Reactor Building Ventilation isolates when unit is scrammed, directs restarting Reactor Building Ventilation. | ||
BOP Performs DEOP 300 | BOP Performs DEOP 300-01, Secondary Control, as directed: | ||
-01, Secondary Control, as directed: | |||
Time permitting, restarts Reactor Building Ventilation (if it isolates when the reactor is scrammed). | Time permitting, restarts Reactor Building Ventilation (if it isolates when the reactor is scrammed). | ||
Cue: (if time compression was used above) 10 minutes after the initial time compression cue was given and/or at the discretion of the lead examiner, cue the crew that both the Torus wide range level meters indicate 11.5 feet and are dropping at a rate of about 1 foot per 10 minutes. CRS When informed that torus level is approaching 11 feet: | Cue: (if time compression was used above) 10 minutes after the initial time compression cue was given and/or at the discretion of the lead examiner, cue the crew that both the Torus wide range level meters indicate 11.5 feet and are dropping at a rate of about 1 foot per 10 minutes. | ||
Enters DEOP 0400 | CRS When informed that torus level is approaching 11 feet: | ||
-02, Emergency Depressurization, and directs: | Enters DEOP 0400-02, Emergency Depressurization, and directs: | ||
Initiation of Isolation Condenser to maximum flow | Initiation of Isolation Condenser to maximum flow. | ||
Verification that SP/L >6 feet. | |||
Opening all ADS valves. | |||
Verification relief valves are open. | Verification relief valves are open. | ||
Due to less than 5 ADSVs open, directs other Emergency Depressurization systems initiated: | Due to less than 5 ADSVs open, directs other Emergency Depressurization systems initiated: | ||
Directs turbine bypass valves opened. (May already be open for anticipation of Emergency Depressurization) | * Directs turbine bypass valves opened. (May already be open for anticipation of Emergency Depressurization) | ||
BOP Performs DEOP 0400 | BOP Performs DEOP 0400-02, Emergency Depressurization, actions as directed: | ||
-02, Emergency Depressurization, actions as directed: | |||
Initiates Isolation Condenser to maximum flow Verifies that SP/L >6 feet. | Initiates Isolation Condenser to maximum flow Verifies that SP/L >6 feet. | ||
Opens ADS valves. | Opens ADS valves. | ||
Verifies all relief valves are open. | * Verifies all relief valves are open. Determines and announces E ADSV did not open. | ||
Determines and announces | BOP Opens turbine bypass valves. (May already be open due to anticipating Blowdown) | ||
SCENARIO ILT-N-1 Page 15 of 22 Rev. 00 (09/10) | |||
Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level. | |||
Trigger Position Crew Actions or Behavior Events 5 and 6 / Scenario Completion Criteria: | |||
Event Five and Six | * Reactor Scrammed, | ||
- An ECCS suction line break occurs resulting in a lowering torus water level. Trigger Position Crew Actions or Behavior Events 5 and 6 / Scenario Completion Criteria: | * HPCI operation prevented, | ||
Reactor Scrammed, | * RPV depressurization in progress, AND/OR, | ||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-1 Page 16 of 22 Rev. 00 (09/10) | |||
Critical Tasks: | |||
With the Reactor at power and it is determined that suppression pool water (PC-3.1) level cannot be held above 11 feet wide range, Manually Scram the Reactor. | |||
Critical Tasks | When suppression pool level cannot be maintained above top elevation of (PC-3.2) the HPCI Exhaust (12), TRIP AND PREVENT HPCI operation irrespective of adequate core cooling. | ||
When it is determined that suppression pool water level cannot be held (PC-3.3) above 11 feet wide range, INITIATE emergency depressurization SCENARIO ILT-N-1 Page 17 of 22 Rev. 00 (09/10) | |||
REFERENCES PROCEDURE TITLE DAN 902-3 B-4 ISOL CONDR VLVS OFF NORM DAN 902-3 C-4 ISOL CONDR TEMP HI DAN 902-4 A-15 ISOL CONDR CH A/B INITIATION DAN 902-4 C-23 TORUS NARROW RANGE WTR LVL LO DAN 902-5 A-3 ROD DRIFT ALARM DAN 902-5 B-3 ROD WORTH MIN BLOCK DAN 902-5 C-3 ROD OUT BLOCK DAN 923-1 C-3 U2 OR U3 SERV WATER PP TRIP DAN 923-4 A-3 (B-2) U2 E(W) RBFD SUMP LVL HI-HI DEOP 0100-00 RPV CONTROL DEOP 0200-01 PRIMARY CONTAINMENT CONTROL DEOP 0300-01 SECONDARY CONTAINMENT CONTROL DEOP 0400-02 EMERGENCY DEPRESSURIZATION DGA 07 UNPREDICTED REACTIVITY ADDITION DGP 02-03 REACTOR SCRAM DGP 03-04 CONTROL ROD MOVEMENTS DOA 0010-03 EARTHQUAKES DOA 0040-02 LOCALIZED FLOODING IN PLANT DOA 0300-06 RPIS FAILURE DOA 0300-12 MISPOSITIONED CONTROL ROD DOA 0600-01 TRANSIENT LEVEL CONTROL DOA 3900-01 LOSS OF COOLING BY SERVICE WATER SYSTEM DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0400-02 ROD WORTH MINIMIZER STARTUP OF SECOND OR THIRD REACTOR FEED PUMP OR SHIFTING TO DOP 3200-03 ALTERNATE REACTOR FEED PUMP DOS 0300-06 CRD ABNORMALITY RECORD DOS 1600-02 TORUS LEVEL VERIFICATION USING LOCAL SIGHT GLASS T.S. 3.1.3 CONTROL ROD OPERABILITY T.S. 3.5.3 IC SYSTEM SCENARIO ILT-N-1 Page 18 of 22 Rev. 00 (09/10) | |||
EXAM ILT-N-1 QUANTITATIVE ATTRIBUTES 6 Total malfunctions (5-8) 1 Malfunctions after EOP entry (1-2) 3 Abnormal events (2-4) 2 Major transients (1-2) 2 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 3 Critical tasks (2-3) | |||
SCENARIO ILT-N-1 Page 19 of 22 Rev. 00 (09/10) | |||
Computer Aided Exercise Programs | Computer Aided Exercise Programs | ||
# NRC Exam ILT 10-1 | |||
-1 # SCENARIO ILT | # SCENARIO ILT-N-1.cae | ||
-N-1.cae # Written by DREFV | # Written by DREFV | ||
# Rev 00 | |||
# Date 09/10 | |||
# INITIAL CONDITIONS | # INITIAL CONDITIONS | ||
# Prevents the 2/3 DFP from starting. | # Prevents the 2/3 DFP from starting. | ||
irf w14 true | irf w14 true imf ser1792 off | ||
imf ser1792 off | |||
# Binds 'E' ADSV full closed. | # Binds 'E' ADSV full closed. | ||
imf ads3ebn 0.0 | imf ads3ebn 0.0 | ||
# EVENT TRIGGERS | |||
# Event Trigger 1 Fails all control rod F-05 RPIS indications. | |||
# Event Trigger 1 Fails all control rod F | |||
-05 RPIS indications. | |||
trgset 1 "0" imf rdfailf5 (1)l2 imf cr043s (1) badl2 | trgset 1 "0" imf rdfailf5 (1)l2 imf cr043s (1) badl2 | ||
# Event Trigger 2 inserts a trip of the 2B service water pump. (takes several seconds to occur) trgset 2 "0"l2 imf q22 (2)l2 | |||
# Event Trigger 2 inserts a trip of the 2B service water pump. (takes several seconds to occur) trgset 2 "0"l2 | |||
imf q22 (2)l2 | |||
# Event Trigger 3 Returns the Remote for stopping the 2/3 DFP back to normal. | # Event Trigger 3 Returns the Remote for stopping the 2/3 DFP back to normal. | ||
trgset 3 "0"l4 | trgset 3 "0"l4 irf w14 (3) false"l4 imf ser1792 (3 2) normall4 | ||
# Event Trigger 4 Drifts the Iso Cond Initiation setpoint. | |||
irf w14 (3) false"l4 imf ser1792 (3 2) normall4 | |||
trgset 4 "0"l4 imf icspdft (4) 0.0l6 | trgset 4 "0"l4 imf icspdft (4) 0.0l6 | ||
# Event Trigger 5 Inserts an ECCS suction line break. | # Event Trigger 5 Inserts an ECCS suction line break. | ||
trgset 5 "0"l6 | trgset 5 "0"l6 trg 5 "ramp wamwlps 200.0 201.0 1:00:00"l6 imf csbrksev (5) 100.0l6 imf csppbbrk (5 4:00) 100.0l8 | ||
# END SCENARIO ILT-N-1 Page 20 of 22 Rev. 00 (09/10) | |||
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 1 at 695 MWe, Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: MFLCPR @ 0.881 Leading Thermal Limit: MAPRAT @ 0.819 Action limit: 0.980 Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements None LCO Started: LCO Expires: | |||
TS Cause: | |||
Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Seperator Pit as required. Outside operator monitor and pump as necessary. | |||
Today Chem Cleaning ventilation status: | |||
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746. | |||
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150. | |||
HVAC -1 ON. | |||
HV-2 running. | |||
Switchyard Status Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 KV Yard due to excavation being performed in the area. | |||
Marv Evans reports holes being dug near manual switch disconnects 345KV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood. | |||
SSC called from the 345KV yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful. | |||
SCENARIO ILT-N-1 Page 21 of 22 Rev. 00 (09/10) | |||
Unit 2 Plant Status Today Unit 2 Activities | |||
**** Shift 1 Activities **** | |||
| |||
| |||
**** Shift 2 Activities **** | |||
Load was dropped last shift per TSO. Load pickup expected next shift. | |||
Maintain current load. | |||
**** Shift 3 Activities **** | |||
| |||
| |||
Today **** Unit 2 Procedures In-Progress **** Do Not Delete **** | |||
| |||
| |||
SCENARIO ILT-N-1 Page 22 of 22 Rev. 00 (09/10) | |||
Dresden Generating Station ILT-N-2 LOWER REACTOR POWER USING RECIRCULATION FLOW SPURIOUS HPCI INITIATION INDIVIDUAL RECIRC PUMP CONTROLLER SIGNAL FAILS DOWNSCALE SWAP REACTOR BUILDING SUPPLY FANS FWLC CONTROLLER SETPOINT DRIFTS HIGH STEAM LEAK IN THE DRYWELL / MANUAL SCRAM LOSS OF BUS 23-1 AND 28 / EMERGENCY DEPRESSURIZATION Rev. 00 09/10 Developed By: | |||
-N-1 | Exam Author Date Approved By: | ||
Facility Representative Date | |||
Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-2 Class ID: 2011-301 Evaluators Operators / crew position | |||
/ ATC | |||
/ BOP | |||
/ CRS Initial Conditions: | |||
Initial Power = 80% | |||
- | Turnover: Lower Reactor Power with Recirc Event Malf. Event Event No. No. Type* Description NONE RECIRC - Lower Reactor Power using Recirculation 1 R ATC Flow. | ||
- | T 2 HPINIT I BOP HPCI - Spurious HPCI Initiation. | ||
RECIRC - Individual Pump Controller Signal Fails 3 RRMBBIAS I ATC Downscale. T 4 None N BOP HVAC - Swap Reactor Building Supply Fans. | |||
5 RLLMLS I ATC FW - FWLC Controller Drifts High. | |||
6 I21 M TEAM Manual Scram - Steam Leak in the Drywell. | |||
I21 EMERGENCY DEPRESSURIZE - Steam Leak inside 7 K23 M TEAM the Drywell / Loss of Bus 23-1 & 28 / ED due to K40 Exceeding Primary Containment Pressure. | |||
* (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-2 Page 2 of 24 Rev. 00 (09/10) | |||
Scenario Objective Evaluate the Teams ability to operate the plant with a Drywell Steam Leak requiring Emergency Depressurization. | |||
Scenario Summary | |||
: 1. Unit is at 80% power. | |||
: 2. The following equipment is OOS: | |||
: a. None | |||
: 3. LCOs: | |||
: a. None Scenario Sequence | |||
* The Team continues reactor power reduction using recirculation flow. | |||
* A spurious HPCI initiation occurs. The team will take action to stop HPCI and address Tech Spec requirements. | |||
* The 2B Recirc Pump Speed Controller fails downscale. The NSO will lockout 2B Recirc Pump scoop tube. | |||
(May lockout both recirc scoop tubes) | |||
* The Team swaps Reactor Building Supply Fans. | |||
* The FWLC setpoint drifts high. The Team will take manual control of the FWLC system. | |||
* A small steam leak in the Drywell begins. The Team will scram the reactor due to the rising Drywell pressure. | |||
* Shortly after the reactor scram, the leak will increase enough that Containment sprays are required. When the Team attempts to spray the Drywell, Bus 23-1 and 28 trip resulting in a loss of one Division of Drywell Spray. | |||
The leak worsens and Primary Containment pressure will exceed the PSP limit and require the Team to Emergency Depressurize. | |||
Event One - Lower Reactor Power Using Recirculation Flow | |||
* The Team continues reactor power reduction using recirculation flow. | |||
Malfunctions required: 0 | |||
* (None) | |||
Success Path: | |||
* The Team continues reactor power reduction using recirculation flow. | |||
SCENARIO ILT-N-2 Page 3 of 24 Rev. 00 (09/10) | |||
Event Two - Spurious HPCI Initiation | |||
* A Spurious HPCI Initiation occurs. | |||
**** | Malfunctions required: 1 | ||
* Spurious HPCI Initiation Success Path: | |||
* The Team isolates the HPCI steam supply. | |||
Event Three - 2B Recirc Speed Controller Failure | |||
* The 2B Recirc Speed Controller fails downscale. | |||
Malfunctions required: 1 | |||
* (2B Recirc Speed Controller output fails down) | |||
Success Path: | |||
* Locks out 2B (Or both) scoop tube(s). | |||
* Performs DOA 0202-03, Reactor Recirc System Flow Control Failure. | |||
Event Four - Swap Reactor Building Supply Fans | |||
* When directed, swaps Reactor Building Supply Fans. | |||
Malfunctions required: 0 | |||
* (None) | |||
Success Path: | |||
* Swaps Reactor Building Supply Fans. | |||
Event Five - FWLC Setpoint Drifts High | |||
* The FWLC setpoint will drift high. | |||
Malfunctions required: 1 | |||
* (FWLC setpoint failure) | |||
Success Path: | |||
* The Team performs DOA 0600-01, Transient Level Control, and takes manual control of FWLC. | |||
SCENARIO ILT-N-2 Page 4 of 24 Rev. 00 (09/10) | |||
Event Six - Steam Leak in the Drywell / Manual Scram A small steam leak develops in the Drywell. | |||
Malfunctions required: 1 | |||
* (Steam Leak in the Drywell) | |||
Success Path: | |||
* Performs a manual scram. | |||
- Steam Leak in | |||
Performs a manual scram. | |||
Event Seven - Loss of Bus 23-1 and 28 / Emergency Depressurization The steam leak in the Drywell increases enough to require Containment sprays. When the Team attempts to spray the Drywell, Bus 23-1 and 28 trip on overcurrent. The leak worsens and Primary Containment pressure exceeds the PSP limit. The Team performs an Emergency Depressurization. | Event Seven - Loss of Bus 23-1 and 28 / Emergency Depressurization The steam leak in the Drywell increases enough to require Containment sprays. When the Team attempts to spray the Drywell, Bus 23-1 and 28 trip on overcurrent. The leak worsens and Primary Containment pressure exceeds the PSP limit. The Team performs an Emergency Depressurization. | ||
Malfunctions required: | Malfunctions required: 2 | ||
(Bus 23-1 and 28 overcurrent trips | * (Steam leak in the Drywell). | ||
). Success Path: | * (Bus 23-1 and 28 overcurrent trips). | ||
The Team performs an Emergency Depressurization. | Success Path: | ||
* The Team performs an Emergency Depressurization. | |||
SCENARIO ILT-N-2 Page 5 of 24 Rev. 00 (09/10) | |||
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ-JA-150-08, SIMULATOR EXAMINATION BRIEFING. | |||
: a. Direct the crew to perform their briefs prior to entering the simulator. | |||
: b. Provide the Team with a copy of DGP 03-01, Power Changes, marked up for load drop through inserting control rods to reduce FCL prior to reducing recirc flow. | |||
1 If applicable, conduct pre | : c. Provide a marked up CRSP for the rod insertion including a REMA for routine load drop. | ||
-scenario activities in accordance with TQ | : d. Provide the Team with a clean copy of DOP 5750-02, Reactor Building Ventilation. | ||
-JA-150-08, SIMULATOR EXAMINATION BRIEFING. a. Direct the crew to perform their briefs prior to entering the simulator. b. Provide the Team with a copy of DGP 03-01 , Power Changes, marked up for load drop through inserting control rods to reduce FCL prior to reducing recirc flow. c. Provide a marked up CRSP for the rod insertion including a REMA for routine load drop. | 2 Simulator Setup (the following steps can be done in any logical order) | ||
: d. Provide the Team with a clean copy of DOP 5750 | : a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used) | ||
-02, Reactor Building Ventilation | : 1) Adjust control rods to establish FCL @ ~95%. | ||
: 2) Adjust Recirc flow to establish ~730 MWe. | |||
: a. Initialize simulator in an IC which allows establishing the following | : b. Cut in/out Cond Demins as needed to establish DP high in normal band in preparation for load drop. | ||
: (Jump Drive IC 156 can be used) | : c. Ensure running Condensate pump amps within limits. | ||
: 1) Adjust control rods to establish FCL @ ~95%. 2) Adjust Recirc flow to establish | |||
~ | |||
: d. Advance the chart recorders. | : d. Advance the chart recorders. | ||
3 Verify the following simulator conditions: | 3 Verify the following simulator conditions: | ||
: a. 2B Recirc M/A Controller Bias RRMBBIAS is at 0.0 to -0.01. Adjust the bias pot as necessary. | : a. 2B Recirc M/A Controller Bias RRMBBIAS is at 0.0 to -0.01. Adjust the bias pot as necessary. | ||
: b. 2A and 2B Reactor Building Vent Fans running with 2C Reactor Building Vent Fan off. c. TR 86 LTC in AUTO. NOTE: Do NOT 4 Run the initial setup CAEP file: | : b. 2A and 2B Reactor Building Vent Fans running with 2C Reactor Building Vent Fan off. | ||
-N-2.cae | : c. TR 86 LTC in AUTO. | ||
NOTE: Some analog overrides do not load correctly from a CAEP file. (See SWR #8652) Therefore it is necessary to setup override RRMBBIAS manually. | NOTE: Do NOT run the initial setup CAEP file until the above setup is completed. | ||
4 Run the initial setup CAEP file: ILT-N-2.cae NOTE: Some analog overrides do not load correctly from a CAEP file. (See SWR #8652) Therefore it is necessary to setup override RRMBBIAS manually. | |||
: a. Open the ACTION Program and perform the following: | : a. Open the ACTION Program and perform the following: | ||
: 1) Select tab OVERRIDE | : 1) Select tab OVERRIDE AI | ||
: 3) Set Ramp Start Value to -0.001 4) Set Ramp time to 4:00 5) Set Delay Time to 0:00 | : 2) Locate override RRMBBIAS and open it. | ||
: 6) Set Analog Value to | : 3) Set Ramp Start Value to -0.001 | ||
-0.1 7) Set Event Trigger to 3 8) Click Insert. | : 4) Set Ramp time to 4:00 | ||
: 5) Set Delay Time to 0:00 | |||
5 Place the following equipment out of service: | : 6) Set Analog Value to -0.1 | ||
: a. None SCENARIO ILT | : 7) Set Event Trigger to 3 | ||
-N-2 Page | : 8) Click Insert. | ||
5 Place the following equipment out of service: | |||
: a. None SCENARIO ILT-N-2 Page 6 of 24 Rev. 00 (09/10) | |||
6 Complete the Simulator Setup Checklist. | |||
Symbols are used throughout the text to identify specific items as indicated below: | Symbols are used throughout the text to identify specific items as indicated below: | ||
Critical Tasks Required Actions Optional Actions | Critical Tasks Required Actions Optional Actions SCENARIO ILT-N-2 Page 7 of 24 Rev. 00 (09/10) | ||
Event One - Lower Reactor Power Using Recirculation Flow Trigger Position Crew Actions or Behavior NOTE: | |||
The turnover directs the crew to reduce load using recirc flow to 58 Mlbm/hr core flow. | |||
- Lower Reactor Power Using Recirculation Flow Trigger | FLOOR INSTRUCTOR / SIMULATOR OPERATOR / ROLE PLAY: | ||
If the team announces that they will adjust gains, inform them an extra NSO will perform 1 | |||
the adjustment. Then: | |||
Tell the team you are time compressing. | |||
Direct the SIMULATOR OPERATOR to activate trigger 1 and verify gains within limits. | Direct the SIMULATOR OPERATOR to activate trigger 1 and verify gains within limits. | ||
Inform the team the gains are adjusted. | Inform the team the gains are adjusted. | ||
(NOTE: trigger 1 can be toggled OFF, then back ON as many times as necessary to adjust gains) | (NOTE: trigger 1 can be toggled OFF, then back ON as many times as necessary to adjust gains) | ||
-01, Power Changes, and DOP 0202 | CRS Directs NSO to reduce load to 58 Mlbm/hr core flow using recirculation flow. | ||
-03, Reactor Recirculation Flow Control System Operation, as directed: | ATC Performs the following actions per DGP 03-01, Power Changes, and DOP 0202-03, Reactor Recirculation Flow Control System Operation, as directed: | ||
Uses MASTER RECIRC FLOW CONTLR, 2(3) | Uses MASTER RECIRC FLOW CONTLR, 2(3)-262-22, potentiometer to reduce flow AND control reactor power. | ||
-262-22, potentiometer to reduce flow AND control reactor power. | Notifies CRS when at 58 Mlbm/hr core flow. | ||
Notifies CRS when at 58 Mlbm/hr core flow | BOP Monitors Panels. | ||
Event 1 Completion Criteria: | |||
, | * Core Flow dropped to 58 Mlbm/hr, AND / OR, | ||
AND / OR, | * At the discretion of the Lead Examiner. | ||
SCENARIO ILT-N-2 Page 8 of 24 Rev. 00 (09/10) | |||
Event Two - Spurious HPCI Initiation Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
At the discretion of the Lead examiner, activate trigger 2, which causes a Spurious HPCI 2 | |||
- Spurious HPCI Initiation Trigger | Initiation. | ||
BOP Announces initiation of HPCI. | |||
TEAM | TEAM Determines and announces HPCI injection not needed. | ||
BOP | BOP May place HPCI Flow Controller to MAN and adjust demand to 0 to stop injection. | ||
CRS | CRS Directs ANSO to shutdown HPCI either per DOP 2300-04, High Pressure Coolant Injection System (HPCI) Shutdown, or its Hard Card. | ||
-04, High Pressure Coolant Injection System (HPCI) Shutdown, or its Hard Card. | BOP Shuts HPCI down as directed: | ||
BOP | Places MO 2-2301-4 valve control switch in Pull-To-Lock. | ||
Places MO 2 | Places MO 2-2301-14 valve control switch in Pull-To-Lock. | ||
-2301-4 valve control switch in Pull | Places HPCI on the turning gear. | ||
-To-Lock. Places MO 2 | NOTE: | ||
-2301-14 valve control switch in Pull | If the HPCI Trip push button is used to stop HPCI, releasing the push button allows HPCI to restart. | ||
-To-Lock. Places HPCI on the turning gear. | CRS May enter DGA 07, Unpredicted Reactivity Addition. | ||
Notifies Shift Manager and IMD of Event. | Notifies Shift Manager and IMD of Event. | ||
ROLE | ROLE PLAY: | ||
Respond as individual notified. | |||
ATC | QNE to evaluate effect of transient on the RX: wait 2 min, and then report RX parameters are within their limits. | ||
CRS | ATC Monitors panels and assists as directed. | ||
CRS References Technical Specifications and determines: | |||
TS 3.5.1 Action G applies. Verify Isolation Condenser is OPERABLE immediately AND restore HPCI System to OPERABLE status within 14 days. | TS 3.5.1 Action G applies. Verify Isolation Condenser is OPERABLE immediately AND restore HPCI System to OPERABLE status within 14 days. | ||
Actions taken to shutdown HPCI, | Event 2 Completion Criteria: | ||
Tech Specs addressed, AND / OR, | * Actions taken to shutdown HPCI, | ||
* Tech Specs addressed, AND / OR, | |||
* At the discretion of the Lead Examiner. | |||
SCENARIO ILT-N-2 Page 9 of 24 Rev. 00 (09/10) | |||
Event Three - 2B Recirc Speed Controller Failure Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
3 When the BOP is NOT near the 902-4 panel and at the discretion of the Lead Examiner, activate trigger 3, which will cause 2B Recirc Speed Controller to slowly fail downscale. | |||
- 2B Recirc Speed Controller Failure | ATC Determines and announces Recirculation Flow transient occurring by observing any of the following: | ||
-4 panel and at the discretion of the Lead Examiner, activate trigger 3, which will cause 2B Recirc Speed Controller to slowly fail downscale. | o Decrease in Recirc Loop Flow as indicated on FR 2-260-7. | ||
o Decrease in Rx Power indicated on WI 2-6040-59. | |||
ATC | o Decrease in Core Flow and DP on DPR/FR 2-263-110. | ||
o Decrease in Recirc Loop Flow as indicated on FR 2 | o Decrease in Total Stm Flow on UR 2-640-27. | ||
-260-7. o Decrease in Rx Power indicated on WI 2 | o Decrease in Rx Pressure on P/FR 2-640-28. | ||
-6040-59. o Decrease in Core Flow and DP on DPR/FR 2 | o Decrease in Total Feedwater Flow on UR 2-640-26. | ||
-263-110. o Decrease in Total Stm Flow on UR 2 | o Decrease in Power Level on RR 2-750-10A/D, & RR 2-750-10B/C. | ||
-640-27. o Decrease in Rx Pressure on P/FR 2 | o Alarm 902-4 E-6, 2A/B RECIRC PPS SPEED MISMATCH. | ||
-640-28. o Decrease in Total Feedwater Flow on UR 2 | CRS Enters DOA 0202-03, Reactor Recirc System Flow Control Failure. | ||
-640-26. o Decrease in Power Level on RR 2 | |||
-750-10A/D, & RR 2 | |||
-750-10B/C. o Alarm 902-4 E-6, 2A/B RECIRC PPS SPEED MISMATCH. | |||
CRS | |||
-03, Reactor Recirc System Flow Control Failure. | |||
May enter DGA 07, Unpredicted Reactivity Addition. | May enter DGA 07, Unpredicted Reactivity Addition. | ||
NOTE: | NOTE: The operator should lockout 2B Recirc M-G scoop tube. The operators may lockout BOTH scoop tubes although ONLY 2B Recirc M-G is changing speed. | ||
-G scoop tube. The operators may lockout BOTH scoop tubes although ONLY 2B Recirc M-G is changing speed. | ATC Performs the following actions per DOA 0202-03, Reactor Recirc System Flow Control Failure: | ||
ATC Performs the following actions per DOA 0202 | Places 2B M-G Set Scoop Tube Power Lockout Reset Switch in the Lockout position. | ||
-03, Reactor Recirc System Flow Control Failure: | May also place 2A M-G Set Scoop Tube Power Lockout Reset Switch in the Lockout position. | ||
May also place 2A M | Verifies Core thermal power <2957 MWt. | ||
-G Set Scoop Tube Power Lockout Reset Switch in the Lockout position. Verifies Core thermal power <2957 MWt. Verifies Recirc Pump NOT operating in the instability region of the MG Set voltage regulator AND uncontrolled pump flow AND speed oscillations are NOT occurring. | Verifies Recirc Pump NOT operating in the instability region of the MG Set voltage regulator AND uncontrolled pump flow AND speed oscillations are NOT occurring. | ||
Verifies NOT operating in the unstable region of the Power / Flow Map. | Verifies NOT operating in the unstable region of the Power / Flow Map. | ||
SCENARIO ILT-N-2 Page 10 of 24 Rev. 00 (09/10) | |||
Event Three - 2B Recirc Speed Controller Failure Trigger Position Crew Actions or Behavior ATC Completes actions of Recirc M-G Lockout in DOP 0202-12, Recirculation Pump Motor Generator Set Scoop Tube Operation. | |||
Verifies alarm is received on annunciator 902-4 C-5 (1), 2B (2A) RECIRC M-G SCOOP TUBE PWR FAILURE. | |||
- 2B Recirc Speed Controller Failure | Places 2B (& 2A) recirc pump speed control transfer stations in manual (MAN) at panel 902-4: | ||
-G Lockout in DOP 0202 | * 2B (& 2A) RECIRC PP SPEED CONTLR, 2-262-25B (& 2A) | ||
-12, Recirculation Pump Motor Generator Set Scoop Tube Operation. | Verify MASTER RECIRC FLOW CONTLR, 2-262-22, is in manual (MAN). | ||
Verifies alarm is received on annunciator 902 | At the recirc pump speed control transfer station with the locked out scoop tube, rotate the potentiometer counterclockwise to set speed demand to minimum (30%): | ||
-4 C-5 (1), | * 2B (& 2A) RECIRC PP SPEED CONTLR, 2-262-25B (& 2A) | ||
-G SCOOP TUBE PWR FAILURE. | At panel 902-4, place an Equipment Status Tag on 2B (& 2A) M-G SET SCOOP TUBE POWER LOCKOUT RESET switch stating the reason the recirc MG set scoop tube is locked out. | ||
Places 2B (& 2A) recirc pump speed control transfer stations in manual (MAN) at panel 902-4: | BOP Assist ATC as directed. | ||
-262- | CRS Verifies actions of DOA 0202-03 and DOP 0202-12 are carried out. | ||
-262-22, is in manual (MAN). | May reference DOA 0500-01, Inadvertent Entry into the Unstable Region of the Power to Flow Map. | ||
At the recirc pump speed control transfer station with the locked out scoop tube, rotate the potentiometer counterclockwise to set speed demand to minimum (30%): | TEAM Performs DOS 0202-02. Jet Pump Operability and Degradation, step I.5 to verify Recirc Loop flow mismatch within limits. | ||
-262- | NOTE: The operators may lockout the scoop tube(s) before the Tech Spec limit (Jet pump loop flow mismatch 10% of rated core flow when operating at < 70% of rated core flow) is reached. If that occurs, the Examiners can pose a follow up question to the CRS on requirements if the Jet pump loop flow mismatch is exceeded. | ||
-4, place an Equipment Status Tag on | CRS References Technical Specifications and determines: | ||
BOP | TS 3.4.1 Action B.1 may apply. If Jet pump loop flow mismatch is exceeded, declare the recirculation loop with lower flow to be "not in operation within 2 hrs. | ||
CRS | Event 3 Completion Criteria: | ||
-03 and DOP 0202 | * 2A (& 2B) Recirc Scoop Tubes locked out, AND/OR, | ||
-12 are carried out. | * At the discretion of the Lead Examiner. | ||
May reference DOA 0500 | SCENARIO ILT-N-2 Page 11 of 24 Rev. 00 (09/10) | ||
-01, Inadvertent Entry into the Unstable Region of the Power to Flow Map. | |||
TEAM | |||
-02. Jet Pump Operability and Degradation, step I.5 to verify Recirc Loop flow mismatch within limits | |||
CRS | |||
TS 3.4.1 Action B.1 may | |||
2A (& 2B) Recirc Scoop Tubes locked out, | |||
AND/OR, | |||
Event Four - Swap Reactor Building Supply Fans Trigger Position Crew Actions or Behavior ROLE PLAY: | |||
At the direction of the Lead Examiner, call as the Shift Manager and direct the Team to start 2C Reactor Building Vent Fan and secure 2B Reactor Building Vent Fan. | |||
NLO stationed at Reactor Building Vent Fans: If asked, report that the Reactor Building Vent Fans operated as expected. | |||
CRS Directs starting 2C Reactor Building Vent Fan and securing 2B Reactor Building Vent Fan per DOP 5750-02, Reactor Building Ventilation. | |||
BOP Performs DOP 5750-02, Reactor Building Ventilation, as follows. | |||
Places switch 2B RBX vent fan C/S in TRIP. | |||
IMMEDIATELY places switch for 2C RBX vent fan C/S in CLOSE. | |||
ATC Monitors panel, provides assistance as directed. | |||
Reactor Building Vent Fans swapped | Event 4 Completion Criteria: | ||
, | * Reactor Building Vent Fans swapped, AND/OR, | ||
AND/OR, | * At the direction of the Lead Examiner. | ||
SCENARIO ILT-N-2 Page 12 of 24 Rev. 00 (09/10) | |||
Event Five - FWLC Controller Setpoint Drifts High Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
4 At the discretion of the Lead Examiner, activate trigger 4, which causes the FWLC setpoint to drift high. | |||
ROLE PLAY: | |||
Support Personnel: respond that you will assist as directed. | |||
TEAM Determines RPV level is increasing. | |||
CRS | CRS Enters DOA 0600-01, Transient Level Control. | ||
-01, Transient Level Control. | Directs ATC to control RPV level manually. | ||
Directs ATC to control RPV level | ATC Places FWLC in MAN and manually controls RPV level. | ||
BOP Assists as directed. | |||
BOP | TEAM May enter DGA 07, Unpredicted Reactivity Addition. | ||
TEAM | CRS Contacts support personnel for assistance. | ||
CRS | |||
SIMULATOR OPERATOR: | SIMULATOR OPERATOR: | ||
CRS | When RPV water level is stabilized, and at the discretion of the Lead Examiner, delete the FWLC malfunction and report, as the Shift Manager, that IMD has replaced a FWLC card, and the team is directed to transfer the FWRVs to Master Auto from Master Manual. | ||
-06. Match Master Control Station setpoint to actual RPV water level. | CRS Directs the team to transfer FWRVs to Master Auto from Master Manual, per DOP 0600-06. | ||
TEAM Places FWRVs to Master Auto from Master Manual, per DOP 0600-06. | |||
Match Master Control Station setpoint to actual RPV water level. | |||
Place Master Control Station in Auto. | Place Master Control Station in Auto. | ||
Adjust Master Control Station setpoint to desired RPV water level. | Adjust Master Control Station setpoint to desired RPV water level. | ||
Place Rx Lo Flow Control Station in Auto. | Place Rx Lo Flow Control Station in Auto. | ||
Event 5 Completion Criteria: | |||
AND/OR, | * RPV level stabilized, AND/OR, | ||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-2 Page 13 of 24 Rev. 00 (09/10) | |||
Event Six - Small Steam Leak in Drywell / Manual Scram Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
5 At the discretion of the Lead examiner, activate trigger 5, which causes a small Main Steam line leak to develop in the Drywell. | |||
Role Play: | |||
U-3 NSO to report Drywell pressure status: Report | U-3 NSO to report Drywell pressure status: Report U-3 Drywell pressure is 1.2 psig and steady. | ||
-3 Drywell pressure is 1.2 psig and steady | TEAM Recognizes and announces that Drywell pressure is slowly rising. | ||
TEAM | ATC Performs the following actions per DOA 0040-01, Slow Leak, as directed: | ||
ATC Performs the following actions per DOA 0040 | |||
-01 , Slow Leak, as directed: | |||
Maintain Level with FWLCS (immediate action). | Maintain Level with FWLCS (immediate action). | ||
Monitors leakage rate, reactor water level, and Drywell pressure. | Monitors leakage rate, reactor water level, and Drywell pressure. | ||
Inserts manual reactor scram prior to 1.5 psig DW pressure BOP Performs the following actions per DOA 0040 | Inserts manual reactor scram prior to 1.5 psig DW pressure BOP Performs the following actions per DOA 0040-01 Slow Leak, as directed: | ||
-01 Slow Leak, as directed: | |||
Notifies Shift Supervisor and Rad Protection. | Notifies Shift Supervisor and Rad Protection. | ||
Monitors for EP conditions. | Monitors for EP conditions. | ||
Directs search for leak. | Directs search for leak. | ||
Shutdown | Shutdown H2 Addition. | ||
Makes PA announcement. | |||
o Verify Crib House inlet temperature is <95 F. | |||
Initiates Torus cooling per Hard Card. | |||
Role Play: | |||
NLO to check Drywell CAM: (wait 2 min.) | NLO to check Drywell CAM: (wait 2 min.) | ||
Report, The Drywell CAM is trending up. | |||
Report, | NLO to search for leak Report, I am on my way out to check for leaks. | ||
NLO to check Cribhouse inlet temperature: (wait 5 min.) | |||
Report, | o Report, Cribhouse inlet temp is 70 F. | ||
-01, Slow Leak. | CRS Enters and directs performance of DOA 0040-01, Slow Leak. | ||
Set Scram contingency of 1.5 psig DW pressure. | Set Scram contingency of 1.5 psig DW pressure. | ||
May enter DGP 02 | May enter DGP 02-03, Reactor Scram, and direct taking scram preparatory actions. | ||
-03, Reactor Scram, and direct taking scram preparatory actions. | Prior to reaching the Drywell Pressure scram setpoint, directs a manual reactor scram per DGP 02-03, Reactor Scram. | ||
Prior to reaching the Drywell Pressure scram setpoint, directs a manual reactor scram per DGP 02 | ATC / Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed. | ||
-03, Reactor Scram. | BOP Starts MSP and TGOP. | ||
ATC / | Trips H2 addition. | ||
-03, Reactor Scram, as directed. | SCENARIO ILT-N-2 Page 14 of 24 Rev. 00 (09/10) | ||
Starts MSP and TGOP. Trips | |||
SCENARIO ILT | Event Six - Small Steam Leak in Drywell / Manual Scram Trigger Position Crew Actions or Behavior ATC Performs the following actions per DGP 02-03, Reactor Scram, as directed: | ||
-N-2 Page | |||
-03, Reactor Scram, as directed: | |||
Presses scram pushbuttons Places mode switch in shutdown Check rods inserted. | Presses scram pushbuttons Places mode switch in shutdown Check rods inserted. | ||
Verifies Recirc Pumps run back. | Verifies Recirc Pumps run back. | ||
Maintains RPV/L between +25 and +35 inches or as directed by Unit Supervisor. | Maintains RPV/L between +25 and +35 inches or as directed by Unit Supervisor. | ||
Inserts SRM/IRMs. | Inserts SRM/IRMs. | ||
BOP | BOP Verifies Turbine and Generator tripped. | ||
Check auxiliary power transferred to RAT. | Check auxiliary power transferred to RAT. | ||
May start maximum Torus cooling per DGP 02 | May start maximum Torus cooling per DGP 02-03 Hardcard. | ||
-03 Hardcard. | TEAM Verifies the following as time allows: | ||
TEAM Verifies the following as time allows: | |||
Group Isolations Automatic start of ECCS systems Automatic start of EDGs. | Group Isolations Automatic start of ECCS systems Automatic start of EDGs. | ||
CRS | CRS Enters DEOP 100, RPV Control, due to high Drywell Pressure and/or low Reactor water level. | ||
Event 6 Completion Criteria: | Event 6 Completion Criteria: | ||
AND/OR, | * Reactor scrammed. | ||
SCENARIO ILT | AND/OR, | ||
-N-2 Page | * Or at the discretion of the Lead Examiner. | ||
-1 and 28 / Emergency Depressurization Trigger Position | SCENARIO ILT-N-2 Page 15 of 24 Rev. 00 (09/10) | ||
Event Seven -Loss Of Bus 23-1 and 28 / Emergency Depressurization Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
CRS Enters DEOP 0200 | 6 At the discretion of the Lead Evaluator, activate trigger 6, which increases the steam leak in the DW enough to require initiating Drywell sprays. | ||
-01, Primary Containment Control, when Drywell pressure reaches 2 psig and performs/directs: | TEAM Recognizes and announces that Drywell pressure is rising rapidly. | ||
CRS Enters DEOP 0200-01, Primary Containment Control, when Drywell pressure reaches 2 psig and performs/directs: | |||
Verifying of Torus water level <27.5 ft. | Verifying of Torus water level <27.5 ft. | ||
Initiation of Torus sprays. | Initiation of Torus sprays. | ||
Monitoring of Drywell temperature (Drywell sprays may be initiated for temperature control) | Monitoring of Drywell temperature (Drywell sprays may be initiated for temperature control) | ||
Monitoring Torus Temperature. | |||
Monitors Torus level. | Monitors Torus level. | ||
EO to check operation of the EDGs after auto start: Wait 3 minutes and then report | ROLE PLAY: | ||
EO to check operation of the EDGs after auto start: Wait 3 minutes and then report the EDGs are operating normally. | |||
-01, Primary Containment Control, when Drywell pressure reaches 9 psig directs: | CRS Per DEOP 0200-01, Primary Containment Control, when Drywell pressure reaches 9 psig directs: | ||
Verifying Recirc Pumps and Drywell Coolers tripped. | |||
Verifies the Drywell spray initiation curve prior to the operator manually opening any of the Drywell spray valves. Then directs the Operator to initiate Drywell Sprays. | Verifies the Drywell spray initiation curve prior to the operator manually opening any of the Drywell spray valves. Then directs the Operator to initiate Drywell Sprays. | ||
Initiation of Drywell sprays. | Initiation of Drywell sprays. | ||
BOP Performs DEOP 0200 | BOP Performs DEOP 0200-1, Primary Containment Control, actions as directed: | ||
-1, Primary Containment Control, actions as directed: | |||
Monitors Drywell temperature and pressure and attempts to initiate torus sprays and drywell sprays pre Hard Card LPCI/CCSW OPERATION, as directed. | Monitors Drywell temperature and pressure and attempts to initiate torus sprays and drywell sprays pre Hard Card LPCI/CCSW OPERATION, as directed. | ||
7 | SIMULATOR OPERATOR: | ||
-27A begins to open. This trips Bus 23-1 and 28 on overcurrent. As a result, Div. I of Drywell sprays cannot be initiated. | 7 Verify trigger 7 automatically activates when MO 1501-27A begins to open. This trips Bus 23-1 and 28 on overcurrent. As a result, Div. I of Drywell sprays cannot be initiated. | ||
ATC / Initiates Drywell Sprays. | |||
BOP Notices and reports the loss of ECCS equipment powered from Bus 23-1. | |||
-1. | Reports the loss of Bus 23-1 and 28. | ||
-1 and 28. Reports the | Reports the B LOOP of Drywell Spray is initiated, but A LOOP could not be initiated. | ||
US | US Directs Operators to investigate the loss of Bus 23-1 and 28. Directs entry into DGA-12 for Partial Loss of AC Power. | ||
-1 and 28. Directs entry into DGA | SCENARIO ILT-N-2 Page 16 of 24 Rev. 00 (09/10) | ||
-12 for Partial Loss of AC Power. | |||
Event Seven -Loss Of Bus 23-1 and 28 / Emergency Depressurization Trigger Position Crew Actions or Behavior BOP Refers to DAN 902-8 F-5, 4KV Bus 23-1 Overcurrent. | |||
As directed, Performs DGA-12, Partial or Complete Loss of AC power: | |||
-1 and 28 / Emergency Depressurization Trigger Position | |||
-8 F-5, 4KV Bus 23 | |||
-1 Overcurrent | |||
-12, Partial or Complete Loss of AC power: | |||
Takes actions per DGA 12 for any faulted buses. | Takes actions per DGA 12 for any faulted buses. | ||
Recognizes the loss of Bus 28. | Recognizes the loss of Bus 28. | ||
Dispatches EO to Bus 23-1 to investigate the loss of Bus 23 | Dispatches EO to Bus 23-1 to investigate the loss of Bus 23-1. | ||
-1. May enter DOA 6500 | May enter DOA 6500-01, 4kV Breaker Trip. | ||
-01 , 4kV Breaker Trip. | NOTE: | ||
If team crossties Bus 28 and 29 and Bus 29 trips, allow the team to re | If team crossties Bus 28 and 29 and Bus 29 trips, allow the team to re-energize Bus 29 from Bus 24-1. | ||
-energize Bus 29 from Bus 24 | ROLE PLAY: | ||
-1. | EO to bus 23-1: Wait 2 min. then report The feed breaker to Bus 23-1 from Bus 23 has an overcurrent flag up on it and will not reset. | ||
-1 from Bus 23 has an overcurrent flag up on it and will not reset | EO to Bus 28: Wait 2 min. then report Bus 28 has an overcurrent flag up and will not reset ROLE PLAY: | ||
If contacted as EMD Foreman: Respond, I will report to Bus 23-1. | |||
NOTE: EMD personnel will not report back. | |||
-1 | |||
DO NOT REPORT BACK ON ATTEMPTS TO OPEN DW SPRAY VALVE UNTIL after Torus bottom pressure is > 20 #. | DO NOT REPORT BACK ON ATTEMPTS TO OPEN DW SPRAY VALVE UNTIL after Torus bottom pressure is > 20 #. | ||
ATC / | ATC / May dispatch an Operator to attempt to manually open A LOOP of drywell spray. | ||
EO to open | BOP ROLE PLAY: | ||
-1501-28A will not engage | EO to open A LOOP of drywell spray: Wait 2 min, then report The handwheel for MO 2-1501-28A will not engage. | ||
SIMULATOR OPERATOR: | |||
8 After the Team has attempted to put on Drywell Sprays and at the discretion of the Lead Evaluator, activate trigger 8, which increases the Main Steam line leak enough to require the Team to Emergency Depressurize due to exceeding PSP curve. | |||
CRS May anticipate Emergency Depressurization and direct opening turbine bypass valves. | |||
BOP | BOP If directed, opens turbine bypass valves. | ||
SCENARIO ILT-N-2 Page 17 of 24 Rev. 00 (09/10) | |||
Event Seven -Loss Of Bus 23-1 and 28 / Emergency Depressurization Trigger Position Crew Actions or Behavior CRS Recognizes that Emergency Depressurization per DEOP 0400-02 is necessary due to one of the below: | |||
o o Drywell temperature cannot be maintained below 281 F. | |||
-1 and 28 / Emergency Depressurization Trigger | o Exceeding the PSP. | ||
-02 is necessary due to one of the below: | Enters DEOP 400-02, Emergency Depressurization, and directs: | ||
o Drywell temperature cannot be maintained below 281 | If Drywell pressure >2 psig, prevention of injection from LPCI/CS pumps not needed for core cooling. | ||
Enters DEOP 400 | |||
-02, Emergency Depressurization, and directs | |||
Initiation of Iso Condenser to maximum flow. | Initiation of Iso Condenser to maximum flow. | ||
Verification of Torus level > 6ft. Opening all ADS valves. | Verification of Torus level > 6ft. | ||
Opening all ADS valves. | |||
Verifying all relief valves open. | Verifying all relief valves open. | ||
BOP | BOP Performs DEOP 400-02, Emergency Depressurization, as directed. | ||
-02, Emergency Depressurization, as directed. | |||
If Drywell pressure is greater than +2 psig, prevents injection from LPCI/CS pumps not needed for Core cooling per Hard Card, LPCI INJ/CC CONTROL/SHUTDOWN. | If Drywell pressure is greater than +2 psig, prevents injection from LPCI/CS pumps not needed for Core cooling per Hard Card, LPCI INJ/CC CONTROL/SHUTDOWN. | ||
Initiates Iso Condenser to maximum flow per Hard Card, ISOLATION CONDENSER. | Initiates Iso Condenser to maximum flow per Hard Card, ISOLATION CONDENSER. | ||
Verifies Torus level >6 feet. | Verifies Torus level >6 feet. | ||
Opens all ADS valves Verifies all relief valves open. | |||
Event 7 / Scenario Completion Criteria: | Event 7 / Scenario Completion Criteria: | ||
AND/OR | * Emergency depressurization in progress. | ||
AND/OR | |||
* Or at the discretion of the Lead Evaluator. | |||
SCENARIO ILT-N-2 Page 18 of 24 Rev. 00 (09/10) | |||
Critical Tasks (RPV-5.1) When drywell pressure exceeds the suppression chamber spray initiation pressure or before containment pressure exceeds the Pressure Suppression Pressure, INITIATE drywell/containment sprays, while in the safe region of the drywell spray initiation limit or above the containment spray initiation pressure. | |||
(PC-6.1) When suppression chamber pressure cannot be maintained below the pressure suppression pressure limit, INITIATE emergency depressurization before drywell design pressure is exceeded. | |||
SCENARIO ILT-N-2 Page 19 of 24 Rev. 00 (09/10) | |||
REFERENCES PROCEDURE TITLE DAN 902-3 C-5(1) 2B(A) RECIRC M-G SCOOP TUBE PWR FAILURE DAN 902-3 D-12 HPCI PP FLOW LOW DAN 902-4 E-6 2A/B RECIRC PPS SPEED MISMATCH DAN 902-8 F-5 4KV BUS 23-1 OVERCURRENT DEOP 0100 RPV CONTROL DEOP 0200-01 PRIMARY CONTAINMENT CONTROL DEOP 0400-02 EMERGENCY DEPRESSURIZATION DGA 07 UNPREDICTED REACTIVITY ADDITION DGA 12 PARTIAL OR COMPLETE LOSS OF AC POWER DGP 02-03 REACTOR SCRAM DGP 03-01 POWER CHANGES DOA 0040-01 SLOW LEAK DOA 0202-03 REACTOR RECIRC SYSTEM FLOW CONTROL FAILURE DOA 0500-01 INADVERTENT ENTRY INTO THE UNSTABLE REGION OF THE POWER TO FLOW MAP DOA 0600-01 TRANSIENT LEVEL CONTROL DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0202-03 REACTOR RECIRCULATION FLOW CONTROL SYSTEM OPERATION DOP 0202-12 RECIRCULATION PUMP MOTOR GENERATOR SET SCOOP TUBE OPERATION DOP 0400-02 ROD WORTH MINIMIZER DOP 0600-06 FEEDWATER REGULATING VALVE (FWRV) OPERATION DOP 2300-04 HIGH PRESSURE COOLANT INJECTION SYSTEM (HPCI) SHUTDOWN DOP 4700-03 U2/3 IA CROSS-CONNECT OPERATION DOP 5750-02 REACTOR BUILDING VENTILATION DOS 0202-02 JET PUMP OPERABILITY AND DEGRADATION TS 3.5.1 ECCS OPERATING TS 3.4.1 RECIRCULATION LOOPS OPERATING SCENARIO ILT-N-2 Page 20 of 24 Rev. 00 (09/10) | |||
-G SCOOP TUBE PWR | |||
-1 OVERCURRENT | |||
-CONNECT OPERATION DOP 5750-02 REACTOR BUILDING VENTILATION DOS 0202-02 JET PUMP OPERABILITY AND DEGRADATION TS 3.5.1 ECCS OPERATING TS 3.4.1 RECIRCULATION LOOPS OPERATING | |||
ILT-N-2 Quantitative Attributes 6 Total malfunctions (5-8) 2 Malfunctions after EOP entry (1-2) 3 Abnormal events (2-4) 2 Major transients (1-2) 2 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 2 Critical tasks (2-3) | |||
SCENARIO ILT-N-2 Page 21 of 24 Rev. 00 (09/10) | |||
-8) 2 Malfunctions after EOP entry (1 | |||
-2) 3 Abnormal events (2 | |||
-4) 2 Major transients (1 | |||
-2) 2 EOPs entered/requiring substantive actions (1 | |||
-2) 1 EOP contingencies requiring substantive actions (0 | |||
-2) 2 Critical tasks (2 | |||
-3) | |||
SCENARIO ILT | |||
-N-2 Page | |||
CAEP Files | |||
# ILT-N-2.cae | |||
# For ILT Class 10-1 NRC Exam | |||
# Written by DREFV | |||
# Rev 00 | |||
# Date 09/10 | |||
# INITIAL CONDITIONS | # INITIAL CONDITIONS | ||
# Sets APRM Master Gain pot to 1.0 irf niagain 1.0 | |||
# Sets APRM Master Gain pot to 1.0 | # EVENT TRIGGERS | ||
# Event Trigger 1 sets gain for all 6 APRMs. | |||
irf niagain 1.0 | trgset 1 "0" trg 1 "irf niagainf true" | ||
# Event Trigger 2 Inserts a spurious HPCI initiation. | |||
trgset 1 "0" trg 1 "irf niagainf true" | |||
trgset 2 "0"l2 imf hpinit (2)l2 | trgset 2 "0"l2 imf hpinit (2)l2 | ||
# Event Trigger 3 Drifts the 2B Recirc PP speed controller bias to cause speed to drop. | |||
# Event Trigger 3 Drifts the 2B Recirc PP speed controller bias to cause speed to | trgset 3 "0"l2 ior rrmbbias (3) -0.1 4:00l2 | ||
ior rrmbbias (3) | |||
-0.1 4:00l2 | |||
# Event Trigger 4 Drifts the FWLCS setpoint. | # Event Trigger 4 Drifts the FWLCS setpoint. | ||
trgset 4 "0"l4 | trgset 4 "0"l4 irf rllmls (4) 40.0 5:00l4 | ||
irf rllmls (4) 40.0 5:00l4 | |||
# Event Trigger 5 Inserts a steam leak upstream of the restrictors. | # Event Trigger 5 Inserts a steam leak upstream of the restrictors. | ||
trgset 5 "0"l4 | trgset 5 "0"l4 imf i21 (5) 0.002 5:00 0.0025l4 | ||
imf i21 (5) 0.002 5:00 0.0025l4 | |||
# Event Trigger 6 Increases DW MSL leak to 0.4%. | # Event Trigger 6 Increases DW MSL leak to 0.4%. | ||
trgset 6 "0"l6 trg 6 "mmf i21 0.4"l6 | trgset 6 "0"l6 trg 6 "mmf i21 0.4"l6 | ||
# Event Trigger 7 Activates when DW Spray valve MO 1501-27A starts to open. | |||
# Event Trigger 7 Activates when DW Spray valve MO 1501 | # Trips Bus 23-1 and Bus 28 on overcurrent. | ||
-27A starts to open. | trgset 7 "lpv27a .gt. 0.01"l6 imf k23 (7)l6 imf k40 (7)l8 | ||
-1 and Bus 28 on overcurrent. | |||
trgset 7 "lpv27a .gt. 0.01"l6 | |||
imf k23 (7)l6 | |||
imf k40 (7)l8 | |||
# Event Trigger 8 Increases the steam leak from 2.0% to 6.0% over 5 minutes. | # Event Trigger 8 Increases the steam leak from 2.0% to 6.0% over 5 minutes. | ||
trgset 8 "0"l8 | trgset 8 "0"l8 trg 8 "mmf i21 6.0 5:00 2.0"l8 | ||
# END SCENARIO ILT-N-2 Page 22 of 24 Rev. 00 (09/10) | |||
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 1 at 730 MWe, Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: MFLCPR @ 0.881 Leading Thermal Limit: MAPRAT @ 0.819 Action limit: 0.980 Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements None LCO Started: LCO Expires: | |||
TS Cause: | |||
Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Seperator Pit as required. Outside operator monitor and pump as necessary. | |||
Today Chem Cleaning ventilation status: | |||
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746. | |||
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150. | |||
HVAC -1 ON. | |||
HV-2 running. | |||
Switchyard Status Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area. | |||
Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood. | |||
SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful. | |||
SCENARIO ILT-N-2 Page 23 of 24 Rev. 00 (09/10) | |||
Unit 2 Plant Status Today Unit 2 Activities | |||
**** Shift 1 Activities **** | |||
| |||
| |||
**** Shift 2 Activities **** | |||
Load was dropped last shift for the TSO. The TSO requests load dropped at beginning of shift. Drop power to 58 Mlbm/hr core flow using recirc flow . Do not secure additional RFPs or Condensate/booster pumps. Load is expected to be picked up early next shift. | |||
When directed by the Shift Manager, swap Reactor Building Supply Fans to support Maintenance. Start 2C and secure 2B Reactor Building Supply Fans. | |||
**** Shift 3 Activities **** | |||
| |||
| |||
Today **** Unit 2 Procedures In-Progress **** Do Not Delete **** | |||
DGP 03-01, Power Changes. | |||
| |||
SCENARIO ILT-N-2 Page 24 of 24 Rev. 00 (09/10) | |||
Dresden Generating Station ILT-N-3 SHUTDOWN U2 EDG FOLLOWING SURVEILLANCE TESTING SPURIOUS ERV OPENING INDICATED FLOW TO CRD FLOW CONTROLLER FAILS HIGH B MED RANGE LEVEL INSTRUMENT FAILS LOW WITH A PARTIAL HALF SCRAM CRD PUMP TRIP LOSS OF SERVICE WATER / MANUAL REACTOR SCRAM LOSS OF RPV WATER LEVEL INDICATION / RPV FLOODING Rev. 00 09/10 Developed By: | |||
Exam Author Date Approved By: | |||
Facility Representative Date | |||
SCENARIO ILT | Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-3 Class ID: 10-01 (2011-301) | ||
-N-2 | Evaluators Operators / crew position | ||
/ ATC | |||
/ BOP | |||
/ CRS Initial Conditions: Initial Power = 5% | |||
Turnover: Shutdown the U2 EDG per DOS 6600-01 Event Malf. Event Event No. No. Type* Description EDG - Shutdown the U2 EDG Following Surveillance 1 NONE N BOP Testing. | |||
ADS3CBN 2 C BOP ERV - Spurious ERV Opening. T ADS3CSD 3 RDFCFHI C ATC CRD - Indicated Flow to CRD Flow Controller Fails High. | |||
B15 NBI - B Med Range Level Inst Fails Low with Partial Half 4 I ATC NVM100BP Scram. T 5 RDPPATRP C ATC CRD - CRD Pump 2A Trip. | |||
6 Q31 M TEAM Manual Scram - Loss of all Service Water. | |||
AT5 NVM100BP FLOODING - Loss of RPV Level Indication Due to Loss of 7 NVML29AP M TEAM Instrument Power And Transmitter Failures NVML29BP NVML112P | |||
* (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-3 Page 2 of 27 Rev. 00 09/10 | |||
Scenario Objective Evaluate the crews ability to perform during a loss of RPV water level instrumentation. | |||
Scenario Summary | Scenario Summary | ||
: 1. Unit is at 5% power. 2. Startup in progress | : 1. Unit is at 5% power. | ||
. On hold for Steam Tunnel Entry. | : 2. Startup in progress. On hold for Steam Tunnel Entry. | ||
: 3. The following equipment is OOS: | : 3. The following equipment is OOS: | ||
: a. None 4. LCOs: a. TS 3.8.1 for EDG 2 surveillance. | : a. None | ||
Scenario Sequence The Team shuts down the U2 EDG following surveillance completion. | : 4. LCOs: | ||
An ERV spuriously opens due to an electrical failure. Pulling its fuses closes the ERV | : a. TS 3.8.1 for EDG 2 surveillance. | ||
Scenario Sequence | |||
Medium Range B RPV level instrument | * The Team shuts down the U2 EDG following surveillance completion. | ||
* An ERV spuriously opens due to an electrical failure. Pulling its fuses closes the ERV. | |||
A large leak occurs downstream of the Service Water strainers. The Team performs a manual Reactor scram due to loss of cooling to critical plant equipment. | * The indicated flow to the CRD Flow Controller fails high. This causes the controller demand to the CRD FCV to fail low. If the team does not recognize the failure quickly and restore CRD cooling flow, the ROD DRVE HI TEMP alarm comes up. The Team takes manual control of the CRD Flow Controller to restore system parameters to normal. | ||
After the Team has the plant stabilized, RPV level indication will fail. The following failures are simulated: | * Medium Range B RPV level instrument fails low. A partial half scram occurs requiring the Team to insert a manual half scram on the B RPS channel. The SRO will reference Tech Specs for failed level instrument and partial half scram. | ||
ATS feed from MCC 29 | * 2A CRD pump begins to degrade as evidenced by changing CRD system parameters and an accumulator charging water low pressure alarm. When sent to check, the NLO reports that the 2A CRD pump is making a loud grinding noise. The NSO will swap CRD pumps, placing 2B CRD pump in service. If the operators do not swap CRD pumps in a timely manner, 2A CRD pump eventually trips. | ||
-1 trips causing loss of MR A and FZ B. | * A large leak occurs downstream of the Service Water strainers. The Team performs a manual Reactor scram due to loss of cooling to critical plant equipment. | ||
Common sensing leg leak for the 2202 | * After the Team has the plant stabilized, RPV level indication will fail. The following failures are simulated: | ||
-5 instrument rack (MR B, NR A & WR) causing them to ramp downscale. | ATS feed from MCC 29-1 trips causing loss of MR A and FZ B. | ||
Common sensing leg leak for the 2202-5 instrument rack (MR B, NR A & WR) causing them to ramp downscale. | |||
Bailey System NR B circuit card fails causing it to ramp upscale. | Bailey System NR B circuit card fails causing it to ramp upscale. | ||
The Team will perform RPV flooding. LPCI injections valves will fail to open from the control room. The Team sends an operator to open one of them locally. | * The Team will perform RPV flooding. LPCI injections valves will fail to open from the control room. The Team sends an operator to open one of them locally. | ||
SCENARIO ILT-N-3 Page 3 of 27 Rev. 00 09/10 | |||
Event One - Shutdown U2 EDG Following Surveillance Testing | |||
* The crew shuts down the U2 EDG following surveillance testing. | |||
. | Malfunctions required: 0 | ||
* None. | |||
Performs | Success Path: | ||
- Spurious ERV Opening Malfunctions Required: | * Performs DOS 6600-01, Diesel Generator Surveillance Tests Event Two - Spurious ERV Opening | ||
* An ERV spuriously opens. | |||
Performs DOA 0250-01 , Relief Valve Failure, and pulls the | Malfunctions Required: 1 | ||
Indicated flow to the CRD Flow Controller fails high. This causes the controller demand to the CRD FCV to fail low. | * (ERV fails open) | ||
Success Path: | |||
* Performs DOA 0250-01, Relief Valve Failure, and pulls the ERVs control power fuses. | |||
Event Three - Indicated Flow to CRD Flow Controller Fails High | |||
* Indicated flow to the CRD Flow Controller fails high. This causes the controller demand to the CRD FCV to fail low. | |||
Malfunctions required: 1 | |||
* (Indicated flow to the CRD Flow Controller fails high) | |||
Success Path: | |||
* The crew takes manual control of the CRD Flow Controller. | |||
Event Four - B Med Range Level Instrument Fails Low with a Partial Half Scram | |||
* B Medium Range Level Instrument fails low and a partial half scram occurs. | |||
Malfunctions required: 2 | |||
* (Failure of Medium Range B level Instrument) | |||
* (Partial Half Scram on the B channel) | |||
Success Path: | Success Path: | ||
* Manually inserts a B RPS channel half scram. | |||
* References the Tech Specs for an inoperable level instrument and the partial half scram. | |||
SCENARIO ILT-N-3 Page 4 of 27 Rev. 00 09/10 | |||
Manually | |||
Event Five - Loss of CRD Pump | |||
- | * 2A CRD pump begins to degrade as evidenced by changing CRD system parameters and an accumulator charging water low pressure alarm. When sent to check, the NLO reports that the 2A CRD pump is making a loud grinding noise. The NSO will swap CRD pumps, placing 2B CRD pump in service. If the operators do not swap CRD pumps in a timely manner, 2A CRD pump eventually trips. | ||
Malfunctions required: 1 | |||
* CRD pump binding (Trip if NSO does not swap pumps in a timely manner) | |||
Success Path: | Success Path: | ||
NSO swaps running CRD pumps. | * NSO swaps running CRD pumps. | ||
Event Six - Loss of Service Water / Manual Reactor Scram | |||
* A large leak occurs at the discharge of the Service Water strainers. | |||
Malfunctions required: 1 | |||
* (Service Water Leak) | |||
Success Path: | |||
* Manually scram the Reactor. | |||
Event Seven - Loss of RPV Water Level Indication / RPV Flooding | |||
* The Team recognizes and responds to loss of RPV level indication. LPCI injections valves fail to open from the control room. | |||
Malfunctions required: 2 | |||
* Failure Of RPV Level Indication | |||
* LPCI injection valves fail to open Success Path: | |||
* The Team performs RPV Flooding. | |||
* The Team sends an operator to locally open the LPCI injection valves. | |||
SCENARIO ILT-N-3 Page 5 of 27 Rev. 00 09/10 | |||
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ- JA-150-08, SIMULATOR EXAMINATION BRIEFING. | |||
: a. Inform the crew that the QNE (Floor Instructor) is present in the Control Room. | |||
: b. Direct the crew to perform their briefs prior to entering the simulator. | |||
1 If applicable, conduct pre | |||
-scenario activities in accordance with TQ | |||
- JA-150-08, SIMULATOR EXAMINATION BRIEFING. a. Inform the crew that the QNE (Floor Instructor) is present in the Control Room. b. Direct the crew to perform their briefs prior to entering the simulator. | |||
: c. Provide the crew with a copy of applicable procedure(s) marked up and completed through the appropriate steps: | : c. Provide the crew with a copy of applicable procedure(s) marked up and completed through the appropriate steps: | ||
: 1) DGP | : 1) DGP 01-01, Unit Startup, marked up for Reactor at 5% power. | ||
: 2) DOP 0400-01, Reactor Manual Control System Operation. | |||
: 3) DOP 0400-02, Rod Worth Minimizer. | |||
: 4) DOP 5600-06, Unit 2 Turbine Startup. | |||
: 5) DOS 6600-01, Diesel Generator Surveillance Tests (Ready to shutdown U2 EDG) 2 Simulator Setup (the following steps can be done in any logical order) | |||
) | : a. Initialize simulator in an IC with ~5% power (IC 149 on the jump drive can be used) and perform the following before continuing below: | ||
: a. Initialize simulator in an IC with ~ | : 1) Verify control rod sequence XI.1.0 with step 21 withdrawn through control rod E-09. | ||
5% power | : 2) Verify Reactor power ~5%. | ||
: 1) Verify control rod sequence | : 3) Verify TR 86 LTC in MANUAL. | ||
-09. 2) Verify Reactor power ~5%. 3) Verify TR 86 LTC in MANUAL. | : b. Run the initial setup CAEP file: ILT-N-3.cae | ||
: b. Run the initial setup CAEP file: | : c. Verify Torus to Drywell dP within limits (vent Torus as needed). | ||
: d. Cut in/out Cond Demins as needed, to maintain DP within limits. | : d. Cut in/out Cond Demins as needed, to maintain DP within limits. | ||
: e. Ensure running Condensate pump amps within | : e. Ensure running Condensate pump amps within limits. | ||
: | : f. Advance the chart recorders. | ||
3 Verify all the following completed (completed in snapped IC 149 setup) | 3 Verify all the following completed (completed in snapped IC 149 setup): | ||
: a. Verify CRD drive water pressure ~260 psid. | : a. Verify CRD drive water pressure ~260 psid. | ||
: b. Verify 2A CRD pump running. | : b. Verify 2A CRD pump running. | ||
: c. Start and load U2 EDG per DOS 6600 | : c. Start and load U2 EDG per DOS 6600-01: | ||
-01: 1) At the instructor station, set the U2 EDG droop to 55. (irf t02 true) 2) At the instructor station, acknowledge the local U2 EDG annunciator panel. (irf t20 acknowledge) | : 1) At the instructor station, set the U2 EDG droop to 55. (irf t02 true) | ||
: 3) Reset the U2 EDG Trouble alarm on the 902 | : 2) At the instructor station, acknowledge the local U2 EDG annunciator panel. (irf t20 acknowledge) | ||
-8 panel. 4) Place the U2 EDG control switch to START. | : 3) Reset the U2 EDG Trouble alarm on the 902-8 panel. | ||
: 5) Turn the Synchroscope for the U2 EDG output breaker ON | : 4) Place the U2 EDG control switch to START. | ||
: 5) Turn the Synchroscope for the U2 EDG output breaker ON. | |||
: 6) Adjust the U2 EDG voltage and frequency for synchronization. | |||
: 7) Close the U2 EDG output breaker. | : 7) Close the U2 EDG output breaker. | ||
: 8) Adjust the U2 EDG load and frequency to the values directed by DOS 6600 | : 8) Adjust the U2 EDG load and frequency to the values directed by DOS 6600-01. | ||
-01. 9) Turn the Synchroscope for the U2 EDG output breaker OFF. | : 9) Turn the Synchroscope for the U2 EDG output breaker OFF. | ||
SCENARIO ILT-N-3 Page 6 of 27 Rev. 00 09/10 | |||
4 Place the following equipment out of service: | |||
: a. None 5 Complete the Simulator Setup Checklist. | |||
: a. None | Symbols are used throughout the text to identify specific items as indicated below: | ||
Critical Tasks Time Critical Tasks PRA Key Operator Actions Required Actions Optional Actions SCENARIO ILT-N-3 Page 7 of 27 Rev. 00 09/10 | |||
Event One - Shutdown U2 EDG Following Surveillance Testing Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY: | |||
2 NLO to set U2 EDG droop to 5: Wait 1 min, activate trigger 2 which sets the droop to 5 and forces up alarm 902-8 A-7, U2 Diesel Gen Trouble. | |||
Verify trigger 3 activates automatically when alarm 902-8 A-7 comes in. This returns the 3 alarm to normal after 10 seconds. | |||
-8 A-7, U2 Diesel Gen Trouble. | Then report The U2 EDG droop is set to 5. | ||
Role Play: | |||
Verify trigger 3 activates automatically when alarm 902 | NLO to check the lubrication oil level with the dipstick: wait 1 min, and then report the U2 EDG oil level is midway between the FULL and LOW marks. | ||
-8 A-7 comes in. This returns the alarm to normal after 10 seconds. | |||
Then report | |||
NLO to check the lubrication oil level with the dipstick: wait 1 min, and then report | |||
For other operator direction, respond as needed. | For other operator direction, respond as needed. | ||
CRS | CRS Directs the BOP to Shutdown U2 EDG per DOS 6600-01, Diesel Generator Surveillance Tests. | ||
-01, Diesel Generator Surveillance Tests. | BOP Performs DOS 6600-01, Diesel Generator Surveillance Tests. | ||
BOP Performs DOS 6600 | Reduces the D/G load to less than 100 kW using the GOVERNOR control switch. | ||
-01, Diesel Generator Surveillance Tests. | Opens the circuit breaker from the D/G 2 to 4 kV Bus 24-1 and records time. | ||
Directs the NLO at the D/G governor to set the droop setting to 5 and reset the local annunciator. | |||
Resets annunciator 902-8 A-7, U2 DIESEL GEN TROUBLE. | |||
Adjusts D/G speed to 60 Hz with the GOVERNOR control switch. | |||
-8 A-7, U2 DIESEL GEN TROUBLE. | Adjusts D/G voltage to 4160 volts with the VOLTAGE REG control switch. | ||
Moves the D/G control switch to the STOP position momentarily, then moves the switch to the AUTO position and records time. | Moves the D/G control switch to the STOP position momentarily, then moves the switch to the AUTO position and records time. | ||
Floor Instructor Role Play: | |||
When the NSO moves the D/G control switch to the AUTO position, notify him that as the U3 ANSO, you have been directed to complete the surveillance. | When the NSO moves the D/G control switch to the AUTO position, notify him that as the U3 ANSO, you have been directed to complete the surveillance. | ||
When the U2 D/G stops, acknowledge, announce and reset expected alarms: | When the U2 D/G stops, acknowledge, announce and reset expected alarms: | ||
902-7 G-8, U2 Diesel Gen Clg Wtr PP Trip/Lockout. | 902-7 G-8, U2 Diesel Gen Clg Wtr PP Trip/Lockout. | ||
902-8 A-7, U2 Diesel Gen Trouble. | 902-8 A-7, U2 Diesel Gen Trouble. | ||
U2 EDG shutdown, (Or in the cooldown period | Event 1 Completion Criteria: | ||
AND/OR, | * U2 EDG shutdown, (Or in the cooldown period AND/OR, | ||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-3 Page 8 of 27 Rev. 00 09/10 | |||
Event Two - Spurious ERV Opening. | |||
Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY: | |||
Trigger Position | 4 At the discretion of the Lead Examiner, activate trigger 4, which causes E ERV to spuriously open due to an electrical failure. | ||
E | As the NLO sent to pull control power fuses for the E ERV (wait 3 min) activate trigger 5 5, which removes control power fuses for the E ERV, then call the control room on the phone and report: I have pulled the E ERV fuses. | ||
As the QNE called to evaluate core parameters (wait 2 min) then report: core parameters are within limits. | |||
As the NLO sent to pull control power fuses for the | BOP Determines/announces that E ERV is open. Performs DOA 0250-01, Relief Valve Failure, immediate actions: | ||
E | Places the C ERV control switch to OFF. | ||
E | ATC Verifies FWLCS has stabilized level. | ||
E | CRS Enters DOA 0250-01, Relief Valve Failure, and directs actions. | ||
As the QNE called to evaluate core parameters (wait 2 min) then report: | BOP Determines that E ERV is still open and performs subsequent actions of DOA 0250-01: | ||
BOP Determines/announces that | Cycles E ERV control switch to MAN and OFF twice. | ||
-01, Relief Valve Failure, immediate actions: | Cycles the ADS INHIBIT switch from NORMAL to INHIBIT to NORMAL several times. | ||
Places the | Directs E ERV control power fuses pulled. | ||
ATC | |||
CRS | |||
-01, Relief Valve Failure, and directs actions. | |||
BOP Determines that | |||
Cycles the ADS INHIBIT switch from NORMAL to INHIBIT to NORMAL several times. Directs | |||
When torus temp is greater than circulating water inlet temperature, starts torus cooling as directed. | When torus temp is greater than circulating water inlet temperature, starts torus cooling as directed. | ||
Reports when > 95° and DEOP 0200 | Reports when > 95° and DEOP 0200-01, Primary Containment Control, entry is required. | ||
-01, Primary Containment Control, entry is required. Monitors Turbine Bypass Valve Operation. | Monitors Turbine Bypass Valve Operation. | ||
May check hydrogen addition operation. | May check hydrogen addition operation. | ||
May monitor torus temp per DOS 1600 | May monitor torus temp per DOS 1600-20, Suppression Pool Temp Monitoring. | ||
-20, Suppression Pool Temp Monitoring. | |||
Resets the acoustic monitor. | Resets the acoustic monitor. | ||
CRS | CRS May direct scram preparatory actions per DGP 02-03, Reactor Scram. | ||
-03, Reactor Scram. | May enter DEOP 200-01, Primary Containment Control, for high Torus level. | ||
May enter DEOP 200 | If Torus temperature reaches 95°F, then enters DEOP 200-1, Primary Containment Control, and performs/directs: | ||
-01, Primary Containment Control, for high Torus level. | Monitoring of PC/P Initiation of torus cooling. (May already be started per DOA 0250-01) | ||
If Torus temperature reaches | Monitoring of Torus level. | ||
-1, Primary Containment Control, and performs/directs: | Verifying initiation of drywell and torus H2/O2 monitors. | ||
Monitoring of PC/P Initiation of torus cooling. (May already be started per DOA 0250 | ATC Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed. | ||
-01) | o Scram preparatory conditions already exist. | ||
Verifying initiation of drywell and torus | SCENARIO ILT-N-3 Page 9 of 27 Rev. 00 09/10 | ||
-03, Reactor Scram, as directed. | |||
o Scram preparatory conditions already exist. | |||
Event Two - Spurious ERV Opening. | |||
Trigger Position Crew Actions or Behavior BOP Determines/announces that C ERV closed when fuses pulled. | |||
Trigger | CRS Declares E ERV inoperable. | ||
CRS | |||
Determines following Technical Specifications apply: | Determines following Technical Specifications apply: | ||
3.4.3, Safety and Relief Valves, Condition A.1: Restore the relief valve to OPERABLE status within 14 days. | * 3.4.3, Safety and Relief Valves, Condition A.1: Restore the relief valve to OPERABLE status within 14 days. | ||
3.5.1, ECCS Operating, Condition G.1: Restore ADS valve to OPERABLE status within 14 days. | * 3.5.1, ECCS Operating, Condition G.1: Restore ADS valve to OPERABLE status within 14 days. | ||
3.6.1.8, Suppression Chamber | * 3.6.1.8, Suppression Chamber-to-Drywell Vacuum Breaker, SR 3.6.1.8.2: | ||
-to-Drywell Vacuum Breaker, SR 3.6.1.8.2: Perform a functional test of each required vacuum breaker within 12 hours. | Perform a functional test of each required vacuum breaker within 12 hours. | ||
CRS | CRS Directs performance of Suppression Chamber-to-Drywell Vacuum Breaker testing. | ||
-to-Drywell Vacuum Breaker testing. | TEAM May enter and perform DGA 7, Unpredicted Reactivity Addition Event 2 Completion Criteria: | ||
TEAM | * The failed ERV is closed, | ||
* Technical Specification determination completed, AND/OR, | |||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-3 Page 10 of 27 Rev. 00 09/10 | |||
Event Three - Indicated Flow to CRD Flow Controller Fails High Trigger Position Applicants Actions or Behavior Simulator Operator: | |||
At the discretion of the Lead Examiner, activate trigger 6, which causes the indicated 6 | |||
- Indicated Flow to CRD Flow Controller Fails High Trigger Position | flow to the CRD Flow Controller to fail high. This causes the controller demand to the CRD FCV to fail low. | ||
NOTE: If the team does not recognize the failure quickly and restore CRD cooling flow, the ROD DRIVE HI TEMP alarm comes up after ~ 5 min. | NOTE: If the team does not recognize the failure quickly and restore CRD cooling flow, the ROD DRIVE HI TEMP alarm comes up after ~ 5 min. | ||
Simulator Operator: | Simulator Operator: | ||
Trigger 7: automatically activates when variable rdgtemp(21) is >250.0 deg. F. Forces up alarm 902 | If CRD Temperature variable rdgtemp(21) reaches 250.0 deg. F, verify the following automatic triggers: | ||
-5 F-3, ROD DRIVE HI TEMP. | 7 Trigger 7: automatically activates when variable rdgtemp(21) is >250.0 deg. F. | ||
Trigger 8: automatically activates alarm 902 | Forces up alarm 902-5 F-3, ROD DRIVE HI TEMP. | ||
-5 F-3 is up and variable rdgtemp(21) is <245.0 deg. F. Returns alarm 902 | 8 Trigger 8: automatically activates alarm 902-5 F-3 is up and variable rdgtemp(21) is | ||
-5 F-3, ROD DRIVE HI TEMP, TO NORMAL. ATC | <245.0 deg. F. Returns alarm 902-5 F-3, ROD DRIVE HI TEMP, TO NORMAL. | ||
-5 F-3, ROD DRIVE HI TEMP, notices and announces loss of CRD system flow. | ATC From panel monitoring or alarm 902-5 F-3, ROD DRIVE HI TEMP, notices and announces loss of CRD system flow. | ||
Diagnoses failure of the CRD Flow Controller. | Diagnoses failure of the CRD Flow Controller. | ||
Performs DOA 0300 | Performs DOA 0300-01, Control Rod Drive System Failure, actions as directed by the CRS. | ||
-01, Control Rod Drive System Failure, actions as directed by | Restores CRD system flows and pressures to normal. | ||
Places CRD Flow Controller in manual and adjusting as needed. | Places CRD Flow Controller in manual and adjusting as needed. | ||
CRS | CRS Directs entering and performing actions of DOA 0300-01, Control Rod Drive System Failure. | ||
-01, Control Rod Drive System Failure. Notifies Shift Manager and IMD of CRD Flow Controller | Notifies Shift Manager and IMD of CRD Flow Controller failure. | ||
Role Play; NLO to check CRD FCV operation: (wait 2 min) | |||
Report, the CRD FCV appears to be operating normally and is at position is: | |||
NLO to check CRD system flow locally (FI 2 | (Use position displayed on Instructor Station drawing RD2; report as percent). | ||
-302-56); (wait 1 min) | NLO to check CRD system flow locally (FI 2-302-56); (wait 1 min) | ||
Report | Report CRD system flow indicates >100 gpm (pegged high). | ||
NLO to check drive water flow locally (FI 2 | NLO to check drive water flow locally (FI 2-302-64): (wait 1 min) | ||
-302-64): (wait 1 min) | Report, CRD drive water flow indicates (same as control room meter). | ||
Report, | NLO to check cooling water flow locally (FI 2-302-65): (wait 1 min) | ||
NLO to check cooling water flow locally (FI 2 | Report, CRD cooling water flow indicates (same as control room meter). | ||
-302-65): (wait 1 min) | |||
Report, | |||
NLO to check CRD pumps locally: (wait 1 min) | NLO to check CRD pumps locally: (wait 1 min) | ||
Report, | Report, CRD Pumps appear to be operating normally. | ||
Respond as groups notified. | Respond as groups notified. | ||
BOP Monitors panels and assists as directed. | |||
SCENARIO ILT-N-3 Page 11 of 27 Rev. 00 09/10 | |||
Event Three - Indicated Flow to CRD Flow Controller Fails High Event 3 Completion Criteria: | |||
* Team has taken manual control of the CRD Flow Controller, AND/OR | |||
- Indicated Flow to CRD Flow Controller Fails High Event 3 Completion Criteria Team has taken manual control of the CRD Flow Controller, | * At the discretion of the Lead Examiner. | ||
SCENARIO ILT-N-3 Page 12 of 27 Rev. 00 09/10 | |||
Event Four - B Med Range Level Instrument Fails Low with a Partial Half Scram Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY: | |||
At the discretion of the Lead Examiner, activate trigger 9, which fails B medium range 9 | |||
- B Med Range Level Instrument Fails Low with a Partial Half Scram | downscale and inserts B RPS partial half scram. | ||
ATC Notices and reports the B Medium Range level instrument trending down. | |||
ATC | |||
Announces: | Announces: | ||
The partial half scram condition on the B RPS channel. | The partial half scram condition on the B RPS channel. | ||
Scram Solenoid Group lights B2 and B3 did NOT extinguish. | Scram Solenoid Group lights B2 and B3 did NOT extinguish. | ||
Refers to DOA 0500 | Refers to DOA 0500-02, Partial 1/2 or Full Scram Actuation. (May insert the manual half scram as an immediate action of DOA 0500-02 then refer to the procedure). | ||
-02, Partial 1/2 or Full Scram Actuation. (May insert the manual half scram as an immediate action of DOA 0500 | |||
-02 then refer to the procedure). | |||
Depresses RPS Channel B Manual Scram pushbutton. | Depresses RPS Channel B Manual Scram pushbutton. | ||
Acknowledges appropriate annunciators. | Acknowledges appropriate annunciators. | ||
SIMULATOR OPERATOR / ROLE PLAY: | SIMULATOR OPERATOR / ROLE PLAY: | ||
As the EO sent to the MCC 28 | As the EO sent to the ATS Panel (wait 2 min AND the 902-4 G-20 alarm is up), then report: The B medium range level instrument MTU LIS 2-263-140B is reading full downscale and its gross failure light is lit. | ||
-1 circuit 15 and/or 125vdc Bus 2A | As the EO sent to the MCC 28-1 circuit 15 and/or 125vdc Bus 2A-1 Dist Panel, circuit 27 (wait 3 min), then report: The breaker is NOT tripped and looks normal. | ||
-1 Dist Panel, circuit 27 (wait 3 min), then report: | IF asked: The Yarway LI-2(3)-263-59A on the 2202-5 rack is indicating 30 inches and steady. | ||
IF asked: | ATC / Refers to DAN 902-4 G-20: | ||
-2(3)-263-59A on the 2202 | BOP Dispatches an operator to inspect the Div 1 ATS panel 2202-73A Notifies the Unit Supervisor of inspection results. | ||
-5 rack is indicating 30 inches and steady. | CRS Announces entry into DOA 0500-02, Partial 1/2 or Full Scram Actuation and performs/directs: | ||
-4 G-20: | |||
-73A | |||
CRS Announces entry into DOA 0500 | |||
-02, Partial 1/2 or Full Scram Actuation and performs/directs: | |||
Directs NSO to insert manual scram on RPS Channel A. | Directs NSO to insert manual scram on RPS Channel A. | ||
May refer to DOP 0010 | May refer to DOP 0010-10, Unit 2(3) Technical Specification Instrumentation Operability Manual. | ||
-10, Unit 2(3) Technical Specification Instrumentation Operability Manual. | CRS References Technical Specifications and determines: | ||
CRS | * TS 3.3.1.1 Action A1 or A2 apply. | ||
TS 3.3.1.1 Action A1 or A2 apply. TS 3.3.3.1 Action A1. Restore required channel to OPERABLE status within 30 days. TS 3.3.6.1 Condition A1. Place channel in trip within 12 hours. | * TS 3.3.3.1 Action A1. Restore required channel to OPERABLE status within 30 days. | ||
TS 3.3.6.2 Condition A1. Place channel in trip within 12 hours | * TS 3.3.6.1 Condition A1. Place channel in trip within 12 hours. | ||
. | * TS 3.3.6.2 Condition A1. Place channel in trip within 12 hours. | ||
SCENARIO ILT | SCENARIO ILT-N-3 Page 13 of 27 Rev. 00 09/10 | ||
-N-3 Page | |||
SCENARIO ILT | Event Four - B Med Range Level Instrument Fails Low with a Partial Half Scram Trigger Position Crew Actions or Behavior Event 4 Completion Criteria: | ||
-N-3 Page | * Half Scram inserted, and | ||
* Appropriate Tech Specs referenced, AND/OR | |||
Verify trigger 11 automatically activates when the | * At the direction of the Lead Examiner. | ||
SCENARIO ILT-N-3 Page 14 of 27 Rev. 00 09/10 | |||
Event Five - Loss of CRD Pump Trigger Position Crew Actions or Behavior Simulator Operator: | |||
10 At the discretion of the Lead Examiner, activate trigger 10. This will cause a simulated binding of the 2A CRD pump over a nine minute period, and finally trip the pump on overcurrent if amps get too high and the crew has not swapped the pump yet. | |||
11 Verify trigger 11 automatically activates when the 2A CRD pump breaker opens. This stops the pump binding simulation. | |||
Role Play: | Role Play: | ||
NSO may follow DOP 0300 | As the NLO, if asked, wait 2 min. and then report: The 2A CRD pump is making a loud metallic grinding noise, I cannot see any oil in the pump, smoke is starting to come from the pump, and it is very hot. | ||
-01 and have the NLO vent the pump. Wait 1 min, then report: | NSO may follow DOP 0300-01 and have the NLO vent the pump. Wait 1 min, then report: | ||
ATC | 2B CRD pump has been vented. | ||
-5 F-2, ACCUMULATOR CHARGING WTR PRESS LO, and / or degrading CRD system parameters. | ATC Announces alarm 902-5 F-2, ACCUMULATOR CHARGING WTR PRESS LO, and / | ||
Carries out actions of DOA 0300 | or degrading CRD system parameters. | ||
-01, Control Rod Drive System Failure: | Carries out actions of DOA 0300-01, Control Rod Drive System Failure: | ||
Stops any rod motion or power changes. | Stops any rod motion or power changes. | ||
Starts | Starts 2B CRD pump. | ||
Secures 2A CRD pump. | |||
Verifies normal CRD system pressures and flow. | |||
Identifies and reports increasing CRD pump amps. | Identifies and reports increasing CRD pump amps. | ||
Role Play: | Role Play: | ||
CRS | As the NLO, if asked, report: 2B CRD pump is operating normally. | ||
-01, Control Rod Drive System Failure, due to failure of | CRS Enters DOA 0300-01, Control Rod Drive System Failure, due to failure of 2A CRD pump. | ||
-01, Control Rod Drive System Start Up and Operation, for swap of CRD pumps. | TEAM May reference/perform DOP 0300-01, Control Rod Drive System Start Up and Operation, for swap of CRD pumps. | ||
BOP Monitors panels and assists as directed. | BOP Monitors panels and assists as directed. | ||
If the Team swaps CRD pumps before the | Note: | ||
If the Team swaps CRD pumps before the 2A CRD pump trips, the following actions do NOT apply: | |||
Per immediate action of DOA 0300 | ATC Announces 2A CRD pump trip. | ||
-01, Control Rod Drive System Failure, starts the standby CRD pump | Per immediate action of DOA 0300-01, Control Rod Drive System Failure, starts the standby CRD pump. | ||
CRS Enters DOA 6500-10, 4KV Circuit Breaker Trip, due to trip of 2A CRD pump. | |||
-10, 4KV Circuit Breaker Trip, due to trip of | SCENARIO ILT-N-3 Page 15 of 27 Rev. 00 09/10 | ||
SCENARIO ILT | |||
-N-3 Page | |||
SCENARIO ILT | Event Five - Loss of CRD Pump Trigger Position Crew Actions or Behavior Event 5 Completion Criteria: | ||
-N-3 Page | * 2B CRD pump has been started and the immediate actions of DOA 300-01 are complete, AND / OR, | ||
* At the discretion of the Lead Examiner. | |||
SCENARIO ILT-N-3 Page 16 of 27 Rev. 00 09/10 | |||
923-1 G-4, U2/3 DIESEL FIRE PP RUNNING. | |||
923-1 D-3, U2/3 SERV WTR HDR PRESS LO. | Event Six - Loss of Service Water / Manual Reactor Scram Trigger Position Crew Actions or Behavior Simulator Operator: | ||
Many other alarms will come in as equipment loses cooling. | At the discretion of the Lead Evaluator, activate trigger 12. This inserts a large leak on 12 the discharge side of the Service Water strainers. The leak results in a loss of Service Water sufficient enough to cause loss of plant equipment. | ||
CRS | BOP Announces following alarms as they come up: | ||
-01, Loss of Cooling by Service Water System. | * 923-1 G-4, U2/3 DIESEL FIRE PP RUNNING. | ||
Notifies Shift Manager and EMD | * 923-1 D-3, U2/3 SERV WTR HDR PRESS LO. | ||
* Many other alarms will come in as equipment loses cooling. | |||
-01, LOSS OF COOLING BY SERVICE WATER SYSTEM May start available Service Water Pumps. | CRS Enters DOA 3900-01, Loss of Cooling by Service Water System. | ||
Notifies Shift Manager and EMD. | |||
BOP Performs DOA 3900-01, LOSS OF COOLING BY SERVICE WATER SYSTEM May start available Service Water Pumps. | |||
Directs an EO to the Cribhouse to check the Service Water System. | Directs an EO to the Cribhouse to check the Service Water System. | ||
May direct NLO to isolate the leak. | May direct NLO to isolate the leak. | ||
Role | Role Play: | ||
EO to check Service Water System (wait 2 min.): | |||
Report: "There is a very large leak downstream of the Service Water Strainers". | |||
EO to isolate the Service Water System leak: | EO to isolate the Service Water System leak: | ||
Report: "The leak cannot be isolated". | Report: "The leak cannot be isolated". | ||
CRS | CRS Due to loss of cooling to equipment, directs a manual reactor scram per DGP 02-03, Reactor Scram. | ||
-03, Reactor Scram | ATC Performs a manual reactor scram per DGP 02-03, Reactor Scram: | ||
-03, Reactor Scram: | |||
Depresses BOTH Scram buttons. | Depresses BOTH Scram buttons. | ||
Places RX MODE SW in SHUTDOWN. | Places RX MODE SW in SHUTDOWN. | ||
Inserts SRMs. | Inserts SRMs. | ||
Controls reactor water level +25 to +35 inches or as directed by the Unit Supervisor. | Controls reactor water level +25 to +35 inches or as directed by the Unit Supervisor. | ||
CRS Enters DEOP 0100, RPV Control, due to RPV low level and directs: | CRS Enters DEOP 0100, RPV Control, due to RPV low level and directs: | ||
Verifying Isolations and Actuations. | Verifying Isolations and Actuations. | ||
Maintaining RPV level +8 to +48 inches. | Maintaining RPV level +8 to +48 inches. | ||
Maintaining RPV Pressure <1060 psig. | Maintaining RPV Pressure <1060 psig. | ||
CRS | CRS Begins to assess the affect the loss of Service Water has on stabilizing the plant. | ||
SCENARIO ILT-N-3 Page 17 of 27 Rev. 00 09/10 | |||
Event Six - Loss of Service Water / Manual Reactor Scram Trigger Position Crew Actions or Behavior Event 6 Completion Criteria: | |||
* Manual Scram performed, | |||
* Team addresses affect on plant of loss of Service Water, AND / OR, | |||
Team addresses affect on plant of loss of Service Water, | * At the discretion of the Lead Examiner. | ||
SCENARIO ILT-N-3 Page 18 of 27 Rev. 00 09/10 | |||
Event Seven - Loss of RPV Level Indication / RPV Flooding Trigger Position Crew Actions or Behavior Simulator Operator: | |||
After the team has stabilized the unit following the reactor scram, and at the discretion of 13 the Lead Evaluator, activate trigger 13, which: | |||
Simulates a trip of the MCC 29-1 supply to ATS Panel 2202 | * Simulates a trip of the MCC 29-1 supply to ATS Panel 2202-73B which causes loss of MR A and FZ B RPV level instruments. | ||
-73B which causes loss of MR A and FZ B RPV level instruments. | * After 2 min, fails the remaining RPV level instruments in a way that simulates a leak in the common sensing leg for the 2202-5 instrument rack (MR B, NR A & WR) causing them to ramp downscale. Bailey System NR B circuit card fails causing it to ramp upscale. | ||
After 2 min, fails the remaining RPV level instruments in a way that simulates a leak in the common sensing leg for | |||
Simulator Operator / Role Play: | Simulator Operator / Role Play: | ||
NLO to open/close the CRD 2-0301-25 valve: On Instructor Station drawing RD2, change the CRD 2-0301-25 valve position to the requested position and then report its position. | |||
Role Play: | Role Play: | ||
NLO sent to MCC 29 | When dispatched to the ATS Panel, wait a few minutes, and then report that all instruments in the top row of panel 2202-73B are downscale and no indicating lights on the top row are lit. All other indications are normal. | ||
-1. Wait two minutes then report from MCC 29 | NLO sent to MCC 29-1. Wait two minutes then report from MCC 29-1 that the breaker for circuit 4 is tripped. | ||
-1 that | If sent to 125 VDC Main Bus Dist. Panel 2B-1 to check breaker 17, report that it is closed. | ||
If sent to 125 VDC Main Bus Dist. Panel 2B | |||
-1 to check breaker 17, report that it is closed. | |||
When/if directed to close the ATS Panel supply breaker, wait ~20 seconds, then report that you attempted to reclose the breaker and it immediately tripped again. | When/if directed to close the ATS Panel supply breaker, wait ~20 seconds, then report that you attempted to reclose the breaker and it immediately tripped again. | ||
BOP | BOP Reports annunciator 902-4 H-20, ATS Div 2 2202-73B Trouble, in alarm and references DAN. | ||
-4 H-20, ATS Div 2 2202 | Sends an NLO to inspect ATS panel 2202-73B. | ||
-73B Trouble, in alarm and references DAN. | May direct an NLO to MCC 29-1 to check the feed breaker (circuit 4) to ATS. | ||
Sends an NLO to inspect ATS panel 2202 | |||
-73B. May direct an NLO to MCC 29 | |||
-1 to check the feed breaker (circuit 4) to ATS. | |||
May direct the closure of the ATS Panel power supply breaker. | May direct the closure of the ATS Panel power supply breaker. | ||
TEAM | TEAM Begins to determine the equipment affected by loss of the ATS feed. | ||
CRS | CRS May refer to DOP 6800-05, Power Restoration to Analog Trip System Feeds to check for restoration requirements. | ||
-05, Power Restoration to Analog Trip System Feeds to check for restoration requirements. | TEAM Determines that RPV level indications are diverging. | ||
TEAM | TEAM May send operators to local instrument panels. | ||
TEAM | |||
Role Play: | Role Play: | ||
NLO to Reactor Bldg to get local RPV level indication: wait 2 min, and then report there is steam around all the instrument racks and I am unable to get local RPV level readings. | |||
SCENARIO ILT-N-3 Page 19 of 27 Rev. 00 09/10 | |||
Event Seven - Loss of RPV Level Indication / RPV Flooding Trigger Position Crew Actions or Behavior CRS Based on diverging RPV level indication, exits DEOP 0100 and enters DEOP 0400-01, RPV Flooding, and performs / directs: | |||
-01, RPV Flooding, and performs / directs: | |||
Verifying Torus level above 6 feet. | Verifying Torus level above 6 feet. | ||
Opening all 5 ADSVs. | Opening all 5 ADSVs. | ||
Isolating the following steam lines: | Isolating the following steam lines: | ||
MSIVs. Main Steam line drains. | MSIVs. | ||
IC. HPCI. Flooding the RPV to the Main Steam lines. | Main Steam line drains. | ||
IC. | |||
HPCI. | |||
Flooding the RPV to the Main Steam lines. | |||
Directs defeating the RFP trips. | Directs defeating the RFP trips. | ||
Keeping the RPV flooded to the Main Steam lines with injection flow as low as possible. | Keeping the RPV flooded to the Main Steam lines with injection flow as low as possible. | ||
ATC / | Simulator Operator / Role Play: | ||
-01, RPV Flooding, as directed: | 14 Operator to defeat RFP trips: wait 2 min, activate Trigger 14 and then report that the RFP trips are defeated ATC / Performs DEOP 0400-01, RPV Flooding, as directed: | ||
Verifies Torus level above 6 feet. | BOP Verifies Torus level above 6 feet. | ||
Opens all 5 ADSVs (only 4 open, since fuses pulled for one) | Opens all 5 ADSVs (only 4 open, since fuses pulled for one). | ||
Isolates the following steam lines: | |||
MSIVs. Main Steam line drains. | MSIVs. | ||
IC. HPCI. Floods the RPV to the Main Steam lines. | Main Steam line drains. | ||
IC. | |||
HPCI. | |||
Floods the RPV to the Main Steam lines. | |||
Keeps the RPV flooded to the Main Steam lines with injection flow as low as possible. | Keeps the RPV flooded to the Main Steam lines with injection flow as low as possible. | ||
ATC / | ATC / Slows down RPV injection once ERV tailpipe temperatures drop below saturation and BOP pressure is steady. | ||
CRS | CRS Requests IMD to restore RPV level instruments. | ||
Event 7 / Scenario Completion Criteria: | |||
AND / OR, | * RPV has been flooded AND / OR, | ||
* At the discretion of the Lead Examiner. | |||
SCENARIO ILT-N-3 Page 20 of 27 Rev. 00 09/10 | |||
Critical Tasks When RPV water level cannot be determined, INITIATE emergency (RPV 2.1) depressurization. | |||
When reactor water level cannot be determined, INJECT into the RPV to (RPV 2.2) flood up to the Main Steam Lines. | |||
SCENARIO ILT-N-3 Page 21 of 27 Rev. 00 09/10 | |||
REFERENCES PROCEDURE TITLE DAN 902-4 G-20 ATS DIV 1 2202-73A TROUBLE DAN 902-5 F-2 ACCUMULATOR CHARGING WTR PRESS LO DAN 902-5 F-3 ROD DRIVE HI TEMP DAN 902-8 A-7 U2 DIESEL GEN TROUBLE DAN 923-1 D-3 U2/3 SERV WTR HDR PRESS LO DAN 923-1 G-4 U2/3 DIESEL FIRE PP RUNNING DEOP 0100 RPV CONTROL DEOP 0400-01 RPV FLOODING DEOP 0500-02 BYPASSING INTERLOCKS AND ISOLATIONS DGP 01-01 UNIT STARTUP DGP 02-03 REACTOR SCRAM DOA 0250-01 RELIEF VALVE FAILURE DOA 0300-01 CONTROL ROD DRIVE SYSTEM FAILURE DOA 0500-02 PARTIAL 1/2 OR FULL SCRAM ACTUATION DOA 3900-01 LOSS OF COOLING BY SERVICE WATER SYSTEM DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0010-10 UNIT 2(3) TECHNICAL SPECIFICATION INSTRUMENTATION OPERABILITY MANUAL DOP 0300-01 CONTROL ROD DRIVE SYSTEM START UP AND OPERATION DOP 6800-05 POWER RESTORATION TO ANALOG TRIP SYSTEM FEEDS DOS 6600-01 DIESEL GENERATOR SURVEILLANCE TESTS TS 3.3.1.1 REACTOR PROTECTION SYSTEM (RPS) INSTRUMENTATION TS 3.3.3.1 POST ACCIDENT MONITORING (PAM) INSTRUMENTATION TS 3.3.6.1 PRIMARY CONTAINMENT ISOLATION INSTRUMENTATION TS 3.3.6.2 SECONDARY CONTAINMENT ISOLATION INSTRUMENTATION TS 3.4.3 SAFETY AND RELIEF VALVES TS 3.5.1 ECCS OPERATINGTS 3.6.1.6LOW SET RELIEF VALVES TS 3.6.1.8.2 SUPPRESSION CHAMBER-TO-DRYWELL VACUUM BREAKERS SCENARIO ILT-N-3 Page 22 of 27 Rev. 00 09/10 | |||
-73A TROUBLE DAN 902-5 F-2 ACCUMULATOR CHARGING WTR PRESS LO DAN 902-5 F-3 ROD DRIVE HI TEMP DAN 902-8 A-7 U2 DIESEL GEN TROUBLE DAN 923-1 D-3 U2/3 SERV WTR HDR PRESS LO DAN 923-1 G-4 U2/3 DIESEL FIRE PP RUNNING DEOP 0100 RPV CONTROL DEOP 0400-01 RPV FLOODING DEOP 0500-02 BYPASSING INTERLOCKS AND ISOLATIONS DGP 01-01 UNIT STARTUP DGP 02-03 REACTOR SCRAM DOA 0250-01 RELIEF VALVE FAILURE DOA 0300-01 CONTROL ROD DRIVE SYSTEM FAILURE DOA 0500-02 PARTIAL 1/2 OR FULL SCRAM ACTUATION DOA 3900-01 LOSS OF COOLING BY SERVICE WATER SYSTEM DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0010-10 UNIT 2(3) TECHNICAL SPECIFICATION INSTRUMENTATION OPERABILITY MANUAL DOP 0300-01 CONTROL ROD DRIVE SYSTEM START UP AND OPERATION DOP 6800-05 POWER RESTORATION TO ANALOG TRIP SYSTEM FEEDS DOS 6600-01 DIESEL GENERATOR SURVEILLANCE TESTS TS 3.3.1.1 REACTOR PROTECTION SYSTEM (RPS) INSTRUMENTATION TS 3.3.3.1 POST ACCIDENT MONITORING (PAM) INSTRUMENTATION TS 3.3.6.1 PRIMARY CONTAINMENT ISOLATION INSTRUMENTATION TS 3.3.6.2 SECONDARY CONTAINMENT ISOLATION INSTRUMENTATION TS 3.4.3 SAFETY AND RELIEF VALVES TS 3.5.1 ECCS OPERATINGTS 3.6.1.6LOW SET RELIEF VALVES TS 3.6.1.8.2 SUPPRESSION CHAMBER | |||
-TO-DRYWELL VACUUM BREAKERS | |||
ILT-N-3 Quantitative Attributes 8 Total malfunctions (5-8) 2 Malfunctions after EOP entry (1-2) 4 Abnormal events (2-4) 2 Major transients (1-2) 1 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 2 Critical tasks (2-3) | |||
SCENARIO ILT-N-3 Page 23 of 27 Rev. 00 09/10 | |||
-8) 2 Malfunctions after EOP entry (1 | |||
-2) 4 Abnormal events (2 | |||
-4) 2 Major transients (1 | |||
-2) 1 EOPs entered/requiring substantive actions (1 | |||
-2) 1 EOP contingencies requiring substantive actions (0 | |||
-2) 2 Critical tasks (2 | |||
-3) | |||
SCENARIO ILT | |||
-N-3 Page | |||
CAEP File(s): | |||
# ILT-N-3.cae | |||
# For ILT Class 10-1 NRC Exam | |||
# Written by DREFV | |||
# Rev 00 | |||
# Date 09/10 | |||
# INITIAL CONDITIONS | # INITIAL CONDITIONS | ||
# Sets APRM Master Gain pot to 1.0l4 irf niagain 1.0 | |||
# Sets APRM Master Gain pot to 1.0l4 | |||
irf niagain 1.0 | |||
# Inserts CH B RPS partial half scram. | # Inserts CH B RPS partial half scram. | ||
imf b15 | imf b15 | ||
# IC 149 was snapped with 2/3 DFP remote for locally stopping it TRUE. | |||
# This puts it back to desired state of FALSE. | |||
irf w14 false | irf w14 false | ||
# IC 149 was snapped with IRM 11/APRM 1 select switch override to IRM 11 inserted. | |||
# This deletes it. | |||
dor nidichsl1 | dor nidichsl1 | ||
#EVENT TRIGGERS | |||
# Event Trigger 1 sets gain for all 6 APRMs to 1.0l2 trgset 1 "0"l2 trg 1 "irf niagainf true"l2 | |||
# Event Trigger 2 Sets U2 EDG droop to 5 and forces up alarm 902-8 A-7, U2 Diesel Gen Trouble. | |||
# Event Trigger 1 sets gain for all 6 APRMs to 1.0l2 | |||
trgset 1 "0"l2 trg 1 "irf niagainf true"l2 | |||
# Event Trigger 2 Sets U2 EDG droop to 5 and forces up alarm 902 | |||
-8 A-7, U2 Diesel Gen Trouble. | |||
trgset 2 "0"l2 irf t02 (2) falsel2 imf ser1589 (2) onl2 | trgset 2 "0"l2 irf t02 (2) falsel2 imf ser1589 (2) onl2 | ||
# Event Trigger 3 clears alarm 902-8 A-7. | |||
# Event Trigger 3 clears alarm 902 | trgset 3 "sezpoint(1589)"l4 trg 3 "imf ser1589 (0 10) normal"l4 | ||
-8 A-7. trgset 3 "sezpoint(1589)"l4 trg 3 "imf ser1589 (0 10) normal"l4 | |||
# Event trigger 4 causes the E ERV setpoint to drift to fail it open. | # Event trigger 4 causes the E ERV setpoint to drift to fail it open. | ||
# E ERV bind malfunction is set to 25% | |||
Trgset 4 "0"l4 | Trgset 4 "0"l4 imf ads3esd (4) 75.0l4 imf ads3ebn (4) 25.0l4 | ||
# Event Trigger 5 Deletes e ERV binding malfunction so valve will close and removes fuses for the E ERV. | |||
imf ads3esd (4) 75.0l4 | Trgset 5 "0"l6 trg 5 "dmf ads3ebn"l6 irf adsrfe (5) pulledl6 | ||
imf ads3ebn (4) 25.0l4 | |||
trg 5 "dmf ads3ebn"l6 irf adsrfe (5) pulledl6 | |||
# Event Trigger 6 inserts a failure high of the indicated flow to the CRD flow controller. | # Event Trigger 6 inserts a failure high of the indicated flow to the CRD flow controller. | ||
# Sets one of the CRD's enthalpy higher, so alarm 902-5 F-3 comes up sooner. | |||
-5 F-3 comes up sooner. | trgset 6 "0"l6 imf rdfcfhi (6)l8 trg 6 "set rdhmech(21) = 190.0"l8 | ||
trgset 6 "0"l6 | # Event trigger 7 Activates when CRD temp high is reached. | ||
# Forces alarm 902-5 F-3 up. | |||
imf rdfcfhi (6)l8 trg 6 "set rdhmech(21) = 190.0"l8 | trgset 7 "rdgtemp(21) .gt. 250.0"l8 SCENARIO ILT-N-3 Page 24 of 27 Rev. 00 09/10 | ||
-5 F-3 up. trgset 7 "rdgtemp(21) .gt. 250.0"l8 | |||
SCENARIO ILT | |||
-N-3 Page | |||
imf ser0973 (7) onl8 | |||
# Event trigger 8 Returns alarm 902-5 F-3 to normal. | |||
trgset 8 "sezpoint(973) .and. (rdgtemp(21) .lt. 245.0)"l10 trg 8 "imf ser0973 normal"l10 | |||
# Event Trigger 9 fails B medium range downscale. | # Event Trigger 9 fails B medium range downscale. | ||
trgset 9 "0"l10 imf nvm100bp (9) | trgset 9 "0"l10 imf nvm100bp (9) -120.0 4:00l10 | ||
-120.0 4:00l10 | # Event Trigger 10 ramps 2A CRD PP speed lower over 9:00 min. | ||
# This simulates binding of the pump and will result in the pump tripping on overcurrent. | |||
trgset 10 "0"l12 trg 10 "ramp rdnpump(1) 0.95 0.87 9:00"l12 imf rdppatrp (10 8:58)l12 | trgset 10 "0"l12 trg 10 "ramp rdnpump(1) 0.95 0.87 9:00"l12 imf rdppatrp (10 8:58)l12 | ||
# Trigger 11 Stops the 2A CRD PP speed ramp when the pump breaker opens. | |||
trgset 11 "et_array(10) .and. (.not. rdrpump(1))"l12 trg 11 "ramp rdnpump(1) 0.87 0.10 2"l12 | trgset 11 "et_array(10) .and. (.not. rdrpump(1))"l12 trg 11 "ramp rdnpump(1) 0.87 0.10 2"l12 | ||
# Event Trigger 12 inserts a Service Water strainer leak. | |||
trgset 12 "0"l14 imf q31 (12) 100.0 5:00l14 | trgset 12 "0"l14 imf q31 (12) 100.0 5:00l14 | ||
# Event Trigger 13 Blows the fuse for the MCC 29-1 feed to ATS panel 2202-73B. | |||
-1 feed to ATS panel 2202 | # This causes a loss of RPV MR A and FZ B. | ||
-73B. # This causes a loss of RPV MR A and FZ B. | # After 2 min, fails RPV MR B level instrument downscale on 5 min. ramp. | ||
# After 2 min, fails RPV NR A level instrument to downscale on 5 min. ramp. | |||
# After 2 min, fails RPV NR B level instrument to upscale on 5 min. ramp. | |||
# After 2 min, fails RPV Wide Range level instrument to downscale on 5 min. ramp. | |||
trgset 13 "0"l14 imf at5 (13)l14 imf nvml57ap (13 2:00) -120.0 5:00l14 imf nvml23ap (13 2:00) -120.0 5:00l16 imf nvml23cp (13 2:00) -120.0 5:00l16 imf nvml29ap (13 2:00) -75.0 5:00l16 imf nvml29bp (13 2:00) 75.0 5:00l16 imf nvml112p (13 2:00) -400.0 5:00l18 | |||
# Event Trigger 14 bypasses the RFP high level trip. | |||
trgset 14 "0"l18 irf fwknife (14) openl18 | |||
# END SCENARIO ILT-N-3 Page 25 of 27 Rev. 00 09/10 | |||
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 2 at 5% power Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: NA Leading Thermal Limit: MAPRAT @ 0.819 Action limit: NA Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements U2 EDG LCO Started: 1.5 hours ago LCO Expires: In 7 days TS 3.8.1 Cause: Monthly Surveillance Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Seperator Pit as required. Outside operator monitor and pump as necessary. | |||
Today Chem Cleaning ventilation status: | |||
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746. | |||
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150. | |||
HVAC -1 ON. | |||
HV-2 running. | |||
Switchyard Status Today TSO notified of oil leaks on 345 Kv BT 2-3 CB (IR 810135) ComEd WO 6396128 Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area. | |||
In 7 days TS | |||
Today Chem Cleaning ventilation status: | |||
HV-1A/EF-1A are secured due to HV | |||
-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746. HV-1B/EF-1B are secured due to HV | |||
-1B throwing its belts. WO 1156150. | |||
HVAC -1 ON. HV-2 running. | |||
Switchyard Status Today TSO notified of oil leaks on 345 Kv BT 2 | |||
-3 CB (IR 810135) ComEd WO 6396128 Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area. | |||
Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood. | Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood. | ||
SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful. | SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful. | ||
SCENARIO ILT-N-3 Page 26 of 27 Rev. 00 09/10 | |||
Unit 2 Plant Status Today Unit 2 Activities | |||
**** Shift 1 Activities **** | |||
| |||
| |||
**** Shift 2 Activities **** | |||
Startup in progress. On hold for Steam Tunnel inspection. | |||
After Steam Tunnel Inspection, resume the startup per DGP 01-01. | |||
U2 EDG loaded run is complete, shutdown U2 EDG immediately following shift change. | |||
**** Shift 3 Activities **** | |||
| |||
| |||
Today **** Unit 2 Procedures In-Progress **** Do Not Delete **** | |||
DGP 01-01 | |||
DOS 6600-01 SCENARIO ILT-N-3 Page 27 of 27 Rev. 00 09/10 | |||
Dresden Generating Station ILT-N-4 TRANSFER MCC 28 7/29 7 FROM BUS 28 TO BUS 29 CONTROL ROD DRIFTS IN RECIRCULATION MASTER FLOW CONTROLLER FAILS UPSCALE CORE SPRAY SYSTEM LOW PRESSURE HIGH FEEDWATER SYSTEM VIBRATIONS / MANUAL SCRAM ELECTRICAL ATWS / ARI UNSUCCESSFUL Rev. 00 09/10 Developed By: | |||
Exam Author Date Approved By: | |||
Facility Representative Date | |||
Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-4 Class ID: 10-01 (2011-301) | |||
Evaluators Operators / crew position | |||
/ ATC | |||
/ BOP | |||
/ CRS Initial Conditions: Initial Power = 75% | |||
Turnover: Transfer MCC 28-7/29-7 from Bus 28 to Bus 29 Event Malf. Event Event No. No. Type* Description 480 VAC - Transfer MCC 28-7/29-7 From Bus 28 To 1 NONE N BOP Bus 29. | |||
2 RODL06DI C ATC CRD - Control Rod Drift In. T RECIRC - Master Recirc Flow Controller Fails 3 RRMASUPD I ATC Upscale. | |||
CSV4A 4 C BOP CORE SPRAY - A CS System Low Pressure. T SCAFILOF SER1361 SER1363 5 SER1397 M TEAM Manual Scram - High Feedwater System Vibrations. | |||
FWV3206A(1) | |||
FWV3206A(2) | |||
Scenario Outline Station: Dresden Generating Station Scenario No.: | B12 SER1026 ATWS - Electric, ARI Unsuccessful / Team Takes 6 M TEAM SER1060 Actions To Insert Rods. | ||
ILT-N-4 | AW4 | ||
* (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-4 Page 2 of 28 Rev. 00 (09/10) | |||
Turnover: | |||
-7/29-7 | |||
-7/29-7 From Bus 28 To Bus 29. 2 RODL06DI | |||
T | |||
- | |||
T | |||
FWV3206A(2) | |||
SCENARIO ILT | Scenario Objective Evaluate the Teams ability to operate the plant with an electrical ATWS. | ||
-N-4 Page 3 of 28 Rev. 00 (09/10) | Scenario Summary | ||
: 1. Unit is at 75% power. | |||
: 2. The following equipment is OOS: | |||
: a. None | |||
: 3. LCOs: | |||
: a. T.S. 3.5.1 for LPCI components being powered from Bus 28. | |||
Scenario Sequence | |||
* The Team transfers MCC 28-7/29-7 from Bus 28 to Bus 29. | |||
* Control rod L06 will begin drifting in. The Team will manually insert the rod and reference Tech Specs. | |||
* The recirculation master speed controller will slowly fail upscale. The team will lock out the recirculation MG set scoop tubes to stop the power excursion. | |||
* A Core Spray System low-pressure alarm is received and the CRS must review Tech Specs and declare the loop INOP. | |||
* Feedwater System high vibrations occur. The Team will manually scram the reactor. After filling the RPV with Feedwater for one minute or RPV level is restored to above +15 inches, RFPs will be tripped. | |||
* An electrical ATWS occurs when the reactor is scrammed. ARI is unsuccessful. The SBLC system fails to inject boron. The Team inserts control rods by pulling scram fuses, venting the scram air header, and / or driving control rods. | |||
Event One - Transfer MCC 28-7/29-7 from Bus 28 to Bus 29 | |||
* When directed, the Team transfers MCC 28-7/29-7 from Bus 28 to Bus 29. | |||
Malfunctions required: 0 | |||
* (None) | |||
Success Path: | |||
* The team transfers MCC 28-7/29-7 from Bus 28 to Bus 29. | |||
SCENARIO ILT-N-4 Page 3 of 28 Rev. 00 (09/10) | |||
Event Two - Control Rod Begins to drift in | |||
* Control rod L-06 will begin drifting in. | |||
Malfunctions required: 1 | |||
* (Rod L-06 Drifts In) | |||
- | Success Path: | ||
Control rod | * Executes DOA 0300-05, Inoperable or Failed CRDs. | ||
* Executes DOA 0300-12, Mispositioned CRD. | |||
* CRS references Tech Specs and determines the control rod must be inserted and disarmed. | |||
Event Three - Recirculation Master Flow Controller Fails Upscale | |||
- | * Master Recirc Flow Controller fails upscale. | ||
Malfunctions required: 1 | |||
* (Master Recirc Flow Controller fails upscale) | |||
Success Path: | |||
* The NSO will lock out scoop tubes. | |||
Event Four - Core Spray System Low Pressure | |||
* B Core Spray System low-pressure alarm is received. | |||
The | Malfunctions required: 1 | ||
* (B Core Spray System low-pressure) | |||
- | |||
Success Path: | Success Path: | ||
* CRS declares the system INOP and references Tech Specs. | |||
Event Five - High Feedwater System Vibrations / Manual Scram | |||
* High Vibrations develop in Feedwater System. | |||
Malfunctions required: 1 | |||
CRS references Tech Specs | * (High Feedwater System Vibrations) | ||
Success Path: | Success Path: | ||
The | * The team performs DOA 3200-01, Feedwater System High Vibration. | ||
* Performs a manual scram. | |||
SCENARIO ILT-N-4 Page 4 of 28 Rev. 00 (09/10) | |||
Event Six - Electrical ATWS / ARI Unsuccessful | |||
* An electrical ATWS occurs when the reactor is scrammed. ARI is unsuccessful. The SBLC system fails to inject boron. | |||
Malfunctions required: 2 | |||
* (Electrical ATWS) | |||
* (Failure of SBLC system) | |||
Event | |||
The SBLC system fails to inject boron. | |||
Malfunctions required: | |||
Success Path: | Success Path: | ||
The Team inserts control rods by pulling scram fuses, venting the scram air header, and / or driving control rods. | * The Team inserts control rods by pulling scram fuses, venting the scram air header, and / or driving control rods. | ||
SCENARIO ILT-N-4 Page 5 of 28 Rev. 00 (09/10) | |||
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ-JA-150-08, SIMULATOR EXAMINATION BRIEFING. | |||
: a. Direct the crew to perform their briefs prior to entering the simulator. | |||
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre | : b. Provide the Team a marked up copy of DOP 6700-18, Bus 28 Outage. Mark steps G.5.b & c as CM. | ||
-scenario activities in accordance with TQ | 2 Simulator Setup (the following steps can be done in any logical order) | ||
-JA-150-08, SIMULATOR EXAMINATION BRIEFING. a. Direct the crew to perform their briefs prior to entering the simulator. | |||
: b. Provide the Team a marked up copy of DOP 6700 | |||
-18, Bus 28 Outage. | |||
Mark steps G.5.b & c as CM. | |||
2 Simulator Setup (the following steps can be done in any logical order) | |||
: a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used) | : a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used) | ||
: 1) Reactor power at ~75% | : 1) Reactor power at ~75%. | ||
: 2) Generator at ~680 MWe. | |||
: b. Cut in/out Cond Demins as needed to establish DP within limits low in the band | : b. Cut in/out Cond Demins as needed to establish DP within limits low in the band. (For Recirc run up Event) | ||
. (For Recirc run up Event) | |||
: c. Ensure running Condensate pump amps within limits. | : c. Ensure running Condensate pump amps within limits. | ||
: d. Advance the chart recorders. | : d. Advance the chart recorders. | ||
3 Verify the following simulator conditions: | 3 Verify the following simulator conditions: | ||
: a. Verify control rod L | : a. Verify control rod L-06 at position 48. | ||
-06 at position 48. | |||
: b. Verify 2A & 2B RFPs running with 2C RFP in STBY on Bus 22. | : b. Verify 2A & 2B RFPs running with 2C RFP in STBY on Bus 22. | ||
: c. Verify TR 86 LTC in AUTO. d. Transfer MCC 28 | : c. Verify TR 86 LTC in AUTO. | ||
-7/29-7 to Bus 28 4 Run the initial setup CAEP file: | : d. Transfer MCC 28-7/29-7 to Bus 28 4 Run the initial setup CAEP file: ILT-N-4.cae 5 OPEN but DO NOT RUN yet CAEP file: ILT-N-4 fw_osc.cae 6 Place the following equipment out of service: | ||
-N-4 fw_osc.cae | : a. None 7 Complete the Simulator Setup Checklist. | ||
6 Place the following equipment out of service: | |||
: a. None | |||
Symbols are used throughout the text to identify specific items as indicated below: | Symbols are used throughout the text to identify specific items as indicated below: | ||
Critical Tasks Required Actions Optional Actions | Critical Tasks Required Actions Optional Actions SCENARIO ILT-N-4 Page 6 of 28 Rev. 00 (09/10) | ||
Event One - Transfer MCC 28-7/29-7 from Bus 28 to Bus 29 Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY: | |||
1 If requested to set gains to 1, (wait 3 min) activate trigger 1, then report: gains set to 1. | |||
Event | (This trigger can be toggled OFF, then back ON to adjust the gains more than once). | ||
- Transfer MCC 28-7/29-7 from Bus 28 to Bus 29 Trigger | ROLE PLAY: | ||
As Shift Manager: | |||
Acknowledge report that the Team is ready to transfer MCC 28-7/29-7 from Bus 28 to Bus 29. Report that the appropriate Tech Spec LCO requirements are completed. | |||
As Shift Manager | Acknowledge report that the transfer is complete. Report that the Tech Spec LCO has been exited. | ||
CRS Declares both LPCI subsystems inoperable and notifies Shift Manager that the Team is ready to transfer MCC 28-7/29-7 from Bus 28 to Bus 29. | |||
Acknowledge report that the Team is ready to transfer MCC 28 | Directs NSO to transfer MCC 28-7/29-7 from Bus 28 to Bus 29. | ||
-7/29-7 from Bus 28 to Bus 29. Report that | BOP Performs DOP 6700-18, Bus 28 Outage, steps G.5.d through G.5.f: | ||
CRS | HOLD MCC 29-7/28-7 FEED from BUS 28 in TRIP. | ||
Close MCC 29-7/28-7 FEED from BUS 29. | |||
-7/28-7 FEED from BUS | Release MCC 29-7/28-7 FEED FROM BUS 28. | ||
MCC 29-7/28-7 FEED from BUS | ATC Assists as directed. | ||
Release MCC 29 | CRS Declares both LPCI subsystems operable and notifies Shift Manager that the Team completed transferring MCC 28-7/29-7 from Bus 28 to Bus 29. | ||
-7/28-7 FEED FROM BUS 28. | Event 1 Completion Criteria: | ||
ATC Assists as directed. | * MCC 28-7/29-7 transferred from Bus 28 to Bus 29, AND/OR, | ||
CRS | * At the discretion of the Lead Examiner. | ||
, | SCENARIO ILT-N-4 Page 7 of 28 Rev. 00 (09/10) | ||
AND/OR, | |||
Event Two - Control Rod Begins to drift in. | |||
Trigger Position Crew Actions or Behavior Simulator Operator: | |||
Event Two | 2 At the discretion of the Lead Examiner, activate trigger 2, which initiates Control Rod L-06 to drift in. | ||
- Control Rod Begins to drift in. | |||
Trigger Position | |||
Role Play: | Role Play: | ||
If asked Temp: 240 | As the NLO sent to investigate CRD L-06: (wait 3 min.) then report: the lines with the 102 and 112 valves for the HCU are hot to the touch. Everything else appears normal. | ||
ATC Announces alarms for the Control Rod L | o If asked Temp: 240 F with heat gun. | ||
-06 and refers to the following DANs: | ATC Announces alarms for the Control Rod L-06 and refers to the following DANs: | ||
902-5 A-3, Rod Drift alarm. | 902-5 A-3, Rod Drift alarm. | ||
Views Full Core Display AND identifies CRD with Rod Drift light illuminated. | Views Full Core Display AND identifies CRD with Rod Drift light illuminated. | ||
Selects drifting control rod. Observes selected CRD position on four rod display. | Selects drifting control rod. | ||
CRS | Observes selected CRD position on four rod display. | ||
-05, Inoperable or Failed CRDs, and directs NSO actions. | CRS Enters DOA 0300-05, Inoperable or Failed CRDs, and directs NSO actions. | ||
Enters DOA 0300 | Enters DOA 0300-12 and contacts QNE to evaluate core. | ||
-12 and contacts QNE to evaluate core. | |||
May enter DGA 07, Unpredicted Reactivity Addition. | May enter DGA 07, Unpredicted Reactivity Addition. | ||
ATC Performs actions of DOA 0300 | ATC Performs actions of DOA 0300-05, Inoperable or Failed CRDs Takes the RWM switch to Bypass. | ||
-05, Inoperable or Failed CRDs Takes the RWM switch to Bypass. | |||
Inserts the rod to 00 using Emergency Rod In switch. | Inserts the rod to 00 using Emergency Rod In switch. | ||
ATC After rod L | ATC After rod L-06 has been fully inserted, may take rod L-06 out of service on RWM per DOP 0400-02, Rod Worth Minimizer, as directed by Unit Supervisor: | ||
-06 has been fully inserted, may take rod L | |||
-06 out of service on RWM per DOP 0400-02, Rod Worth Minimizer , as directed by Unit Supervisor: | |||
On RWM, select SECONDARY FUNCTION. | On RWM, select SECONDARY FUNCTION. | ||
On RWM, select ROD OUT OF SERVICE On RWM, select inoperable CRD On RWM, verify correct inoperable CRD selected, and then select ENTER REQUEST. Continuously insert inoperable CRD to | On RWM, select ROD OUT OF SERVICE On RWM, select inoperable CRD On RWM, verify correct inoperable CRD selected, and then select ENTER REQUEST. | ||
ATC | Continuously insert inoperable CRD to 00. | ||
On RWM, select EXIT FUNCTION. | |||
ATC Dispatches an Operator to investigate the cause of the drifting control rod. | |||
Dispatches an operator to hydraulically isolate and electrically disarm the CRD per DOP 0300-08, CRD System HCU isolation. | Dispatches an operator to hydraulically isolate and electrically disarm the CRD per DOP 0300-08, CRD System HCU isolation. | ||
SCENARIO ILT-N-4 Page 8 of 28 Rev. 00 (09/10) | |||
Event Two - Control Rod Begins to drift in. | |||
Trigger Position Crew Actions or Behavior CRS References appropriate plant licensing documents and determines : | |||
Event Two | |||
- Control Rod Begins to drift in. | |||
Trigger | |||
TS 3.1.3 condition C, required action: | TS 3.1.3 condition C, required action: | ||
C.1, Fully insert inoperable control rod within 3 hrs; AND C.2, Disarm the associated CRD within 4 hrs. | C.1, Fully insert inoperable control rod within 3 hrs; AND C.2, Disarm the associated CRD within 4 hrs. | ||
Directs/verifies Operators take action per DOA 0300 | Directs/verifies Operators take action per DOA 0300-12. | ||
-12. ATC Performs actions of DOA 0300 | ATC Performs actions of DOA 0300-12, Mispositioned CRD: | ||
-12, Mispositioned CRD: | |||
Discontinues reactivity changes. | Discontinues reactivity changes. | ||
Compares Off | Compares Off-Gas readings. | ||
-Gas readings. | |||
Refers to DGA 07, Unpredicted Reactivity Addition, as directed. | Refers to DGA 07, Unpredicted Reactivity Addition, as directed. | ||
Refers to DOA 0500 | Refers to DOA 0500-04, Thermal Limits and Fuel Conditioning Violation, and DGA 16, Coolant Activity/ Fuel Element Failure. | ||
-04, Thermal Limits and Fuel Conditioning Violation, and DGA 16, Coolant Activity/ Fuel Element Failure. | BOP Monitors panels and assists as directed. | ||
BOP | |||
Event 2 Completion Criteria: | Event 2 Completion Criteria: | ||
AND/OR, | * Applicable TS has been referenced. | ||
AND/OR, | |||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-4 Page 9 of 28 Rev. 00 (09/10) | |||
Event Three - Recirculation Master Flow Controller Fails Upscale Trigger Position Crew Actions or Behavior Simulator Operator: | |||
3 When the BOP operator is NOT near the 902-4 panel and at the discretion of the Lead Examiner, activate trigger 3, which will cause Master Recirc Flow Controller to fail upscale. | |||
Event Three | |||
- Recirculation Master Flow Controller Fails Upscale Trigger Position | |||
NOT | |||
-4 panel and at the discretion of the Lead Examiner, activate trigger 3, which will cause Master Recirc Flow Controller to fail upscale | |||
Role Play: | Role Play: | ||
ATC | QNE to check core parameters: Wait 5 min, and then report all core parameters are within limits. | ||
o Increase in Recirc Loop Flow as indicated on FR 2 | ATC Determines and announces Recirculation Flow transient occurring by observing any of the following: | ||
-260-7. o Increase in Rx Power indicated on WI 2 | o Increase in Recirc Loop Flow as indicated on FR 2-260-7. | ||
-6040-59. o Increase in Core Flow and DP on DPR/FR 2 | o Increase in Rx Power indicated on WI 2-6040-59. | ||
-263-110. o Increase in Total Stm Flow on UR 2 | o Increase in Core Flow and DP on DPR/FR 2-263-110. | ||
-640-27. o Increase in Rx Pressure on P/FR 2 | o Increase in Total Stm Flow on UR 2-640-27. | ||
-640-28. o Increase in Total Feedwater Flow on UR 2-640-26. o Increase in Power Level on RR 2 | o Increase in Rx Pressure on P/FR 2-640-28. | ||
-750-10A/D, & RR 2 | o Increase in Total Feedwater Flow on UR 2-640-26. | ||
-750-10B/C. CRS | o Increase in Power Level on RR 2-750-10A/D, & RR 2-750-10B/C. | ||
-03 Reactor Recirc System Flow Control Failure. | CRS Enters DOA 0202-03 Reactor Recirc System Flow Control Failure. | ||
May enter DGA 07, Unpredicted Reactivity Addition. | May enter DGA 07, Unpredicted Reactivity Addition. | ||
ATC Performs the following actions per DOA 0202 | ATC Performs the following actions per DOA 0202-03, Reactor Recirc System Flow Control Failure: | ||
-03, Reactor Recirc System Flow Control Failure: | Places 2A & B M-G Set Scoop Tube Power Lockout Reset Switches in the Lockout position. | ||
-G Set Scoop Tube Power Lockout Reset Switches in the Lockout position. Verifies Core thermal power <2957 MWt. | Verifies Core thermal power <2957 MWt. | ||
Verifies Recirc Pump NOT operating in the instability region of the MG Set voltage regulator AND uncontrolled pump flow AND speed oscillations are NOT occurring. | Verifies Recirc Pump NOT operating in the instability region of the MG Set voltage regulator AND uncontrolled pump flow AND speed oscillations are NOT occurring. | ||
Verifies NOT operating in the unstable region of the Power / Flow Map. | Verifies NOT operating in the unstable region of the Power / Flow Map. | ||
SCENARIO ILT-N-4 Page 10 of 28 Rev. 00 (09/10) | |||
Event Three - Recirculation Master Flow Controller Fails Upscale Trigger Position Crew Actions or Behavior ATC Completes actions of Recirc M-G Lockout in DOP 0202-12, Recirculation Pump Motor Generator Set Scoop Tube Operation. | |||
Verifies alarm is received on annunciator 902-4 C-1(5), 2A(B) RECIRC M-G SCOOP TUBE PWR FAILURE. | |||
Event Three | Places BOTH recirc pump speed control transfer stations in manual (MAN) at panel 902-4: | ||
- Recirculation Master Flow Controller Fails Upscale Trigger | * 2A RECIRC PP SPEED CONTLR, 2-262-25A | ||
-G Lockout in DOP 0202 | * 2B RECIRC PP SPEED CONTLR, 2-262-25B Verify MASTER RECIRC FLOW CONTLR, 2-262-22, is in manual (MAN). | ||
-12, Recirculation Pump Motor Generator Set Scoop Tube | |||
-4 C-1(5), 2A(B) RECIRC M | |||
-G SCOOP TUBE PWR FAILURE. | |||
Places BOTH recirc pump speed control transfer stations in manual (MAN) at panel 902-4: | |||
-262-25A | |||
- | |||
-262-22, is in manual (MAN). | |||
At the recirc pump speed control transfer station with the locked out scoop tube, rotate the potentiometer counterclockwise to set speed demand to minimum (30%): | At the recirc pump speed control transfer station with the locked out scoop tube, rotate the potentiometer counterclockwise to set speed demand to minimum (30%): | ||
2A RECIRC PP SPEED CONTLR, 2-262-25A | * 2A RECIRC PP SPEED CONTLR, 2-262-25A | ||
-262-25B | * 2B RECIRC PP SPEED CONTLR, 2-262-25B At panel 902-4, place an Equipment Status Tag on 2A & B M-G SET SCOOP TUBE POWER LOCKOUT RESET switches stating the reason the recirc MG set scoop tube is locked out. | ||
-4, place an Equipment Status Tag on 2A & B M | BOP Assists NSO as directed. | ||
-G SET SCOOP TUBE POWER LOCKOUT RESET switches stating the reason the recirc MG set scoop tube is locked out. | CRS Verifies actions of DOA 0202-03 and DOP 0202-12 carried out. | ||
BOP | CRS May contact any/all of the following to inform of situation or request assistance: | ||
CRS | Shift Manager WEC Supervisor Operations Manager Shift Operating Supervisor Duty Maintenance Supervisor Duty Engineering Manager Work Week Manager Event 3 Completion Criteria: | ||
-03 and DOP 0202 | * 2A & 2B Recirc Scoop Tubes locked out AND / OR, | ||
-12 carried out. | * At the discretion of the Lead Examiner. | ||
CRS May contact any/all of the following to inform of situation or request assistance: | SCENARIO ILT-N-4 Page 11 of 28 Rev. 00 (09/10) | ||
Shift Manager WEC Supervisor Operations Manager Shift Operating Supervisor Duty Maintenance Supervisor Duty Engineering Manager Work Week Manager 2A & 2B Recirc Scoop Tubes locked out | |||
AND / OR, | |||
Event Four- Core Spray System Low Pressure Alarm Trigger Position Crew Actions or Behavior Simulator Operator: | |||
4 At the discretion of the Lead Examiner, activate trigger 4, which closes ECCS Keep Fill to 2B Core Spray loop and cracks open Core Spray 4B valve to bleed the pressure down. | |||
Event Four | Role Play: | ||
- Core Spray System Low Pressure Alarm Trigger Position | |||
NLO to investigate ECCS Jockey pump, (wait 3 min.): | NLO to investigate ECCS Jockey pump, (wait 3 min.): | ||
Report, the ECCS jockey pump is operating normally. | |||
Report, | |||
NLO to check 2B Core Spray system, wait 2 minutes: | NLO to check 2B Core Spray system, wait 2 minutes: | ||
Report, | Report, Water is spraying onto the 2B Core Spray motor from the flange of relief valve RV 2-1402-28B. | ||
If asked if the leak can be isolated: | |||
Report, the leak cannot be isolated. | |||
If asked if the leak can be isolated by closing the pump suction valve: | If asked if the leak can be isolated by closing the pump suction valve: | ||
Report, | Report, closing the pump suction valve will isolate the leak. | ||
If asked about the status of the sump, wait 1 minute: | If asked about the status of the sump, wait 1 minute: | ||
Report, | Report, the sump pumps are keeping up with the leak. | ||
If asked local 2B Core Spray system pressure, wait 1 minute: | If asked local 2B Core Spray system pressure, wait 1 minute: | ||
Report, | Report, Local 2B Core Spray system pressure is approximately (Use pressure from instructor station drawing CS1) psig. | ||
If sent to vent 2B Core Spray system: | If sent to vent 2B Core Spray system: | ||
Report, | Report, No water is coming out the vent. | ||
If calling radwaste to ask about RBEDT levels: | If calling radwaste to ask about RBEDT levels: | ||
Report, | Report, The rate of input into the Unit 2 RBEDT has increased, the level is currently 60%. | ||
If the 2B Core Spray pump suction valve is open, report, | If asked the status of the leak, respond as follows: | ||
If the 2B Core Spray pump suction valve is closed, report | * If the 2B Core Spray pump suction valve is open, report, the leak rate is unchanged. | ||
* If the 2B Core Spray pump suction valve is closed, report the leak rate is slowing and is no longer spraying on the 2B Core Spray pump motor. | |||
SCENARIO ILT-N-4 Page 12 of 28 Rev. 00 (09/10) | |||
Event Four- Core Spray System Low Pressure Alarm Trigger Position Crew Actions or Behavior BOP Reports alarm to CRS. | |||
Event Four | |||
- Core Spray System Low Pressure Alarm Trigger | |||
Carries out actions of DAN 902-3 D-7, 2A/B CORE SPRAY HDR PRESS LO: | Carries out actions of DAN 902-3 D-7, 2A/B CORE SPRAY HDR PRESS LO: | ||
Verify FLOW TEST VLV MO 2 | Verify FLOW TEST VLV MO 2-1402-4B is fully closed. | ||
-1402-4B is fully closed. | Verify PP DISCH VLV MO 2-1402-24B is fully open. | ||
Verify PP DISCH VLV MO 2 | Check for relief valve RV 2-1402-28B 2B CORE SPRAY PMP DISCH HDR RV leaking to Reactor Building Equipment Drain Tank OR valves leaking into Torus. | ||
-1402-24B is fully open. | |||
Check for relief valve RV 2 | |||
-1402-28B 2B CORE SPRAY PMP DISCH HDR RV leaking to Reactor Building Equipment Drain Tank OR valves leaking into Torus. | |||
Notify Operations Shift Supervisor. | Notify Operations Shift Supervisor. | ||
Directs WEC to send Operators out to investigate. | Directs WEC to send Operators out to investigate. | ||
Line 1,724: | Line 1,519: | ||
Places 2B Core Spray pump in PTL. | Places 2B Core Spray pump in PTL. | ||
May direct 2B Core Spray pump discharge valve and / or suction valve closed. | May direct 2B Core Spray pump discharge valve and / or suction valve closed. | ||
ATC | ATC Assists BOP with carrying out actions of DAN as necessary. | ||
CRS | CRS Directs carrying out actions of the DAN. | ||
References Tech Spec 3.5.1 Condition B1. | References Tech Spec 3.5.1 Condition B1. | ||
Required action, restore Low pressure ECCS injection/spray subsystem to OPERABLE status within 7 days. (Surveillance Requirement SR 3.5.1.1.) | Required action, restore Low pressure ECCS injection/spray subsystem to OPERABLE status within 7 days. (Surveillance Requirement SR 3.5.1.1.) | ||
Orders 2B Core Spray pump placed in PTL. | Orders 2B Core Spray pump placed in PTL. | ||
May direct closing keepfill to 2B Core Spray system. (2 | May direct closing keepfill to 2B Core Spray system. (2-1402-37B) | ||
-1402-37B) OR | OR May direct closing keepfill to 2B Core Spray system. (2-1402-36B) | ||
May direct 2B Core Spray pump discharge valve and / or suction valve closed. | |||
Notifies Shift manager Notifies maintenance groups. | Notifies Shift manager Notifies maintenance groups. | ||
2B Core Spray system declared inoperable, | Event 4 Completion Criteria: | ||
AND/OR, | * 2B Core Spray system declared inoperable, AND/OR, | ||
* At the discretion of the Lead Examiner. | |||
SCENARIO ILT-N-4 Page 13 of 28 Rev. 00 (09/10) | |||
SCENARIO ILT | Event Five - High Feedwater System Vibrations / Reactor Scram Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | ||
-N-4 Page 14 of 28 Rev. 00 (09/10) | At the discretion of the Lead Examiner, simulate a Feedwater System high vibration by performing the following: | ||
Activate trigger 5 which sequentially forces up Feedwater System high vibration 5 alarms. | |||
RUN CAEP file ILT-N-4 fw_osc.cae which causes Feedwater System parameters to oscillate by varying MO 3206A & B valve positions. | |||
SIMULATOR OPERATOR: | |||
When the Team scrams the reactor, PAUSE AND EXIT CAEP file ILT-N-4 fw_osc.cae which stops varying MO 3206A & B valve positions to stop the Feedwater System high vibration. | |||
ROLE PLAY: | |||
As the NLO sent to Feedwater Regulating Valve station: (wait 2 min) then report: | |||
Feedwater Regulating Valve pipes are swinging. | |||
As the NLO sent to Feedwater Pump room: (wait 2 min) then report: Feedwater System pipes are swinging outside the RFP room. | |||
ATC / Announces following alarms: | |||
BOP | |||
* 902-6 E-12, FEEDWATER REG STATION VIBRATION HI. | |||
* 902-6 F-12, 2A RFP VIBRATION HI. | |||
* 902-6 G-12, 2B RFP VIBRATION HI. | |||
* Refers to DANs and performs actions. | |||
CRS Enters DOA 3200-01, Feedwater System High Vibration, and directs actions. | |||
ATC / Observes and announces Feedwater parameters are swinging. | |||
BOP Dispatches NLO to check Feedwater System. | |||
CRS May direct scram preparatory actions per DGP 02-03, Reactor Scram. | |||
ATC / Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed. | |||
BOP o Inserts control rods to reduce FCL to <93%. | |||
o Start the motor suction pump and turning gear oil pump. | |||
o Trip hydrogen addition. | |||
CRS Directs manual scram per DGP 02-03, Reactor Scram. | |||
Tripping RFPs when DOA 3200-01 requirements met. | |||
SCENARIO ILT-N-4 Page 14 of 28 Rev. 00 (09/10) | |||
Event Five - High Feedwater System | Event Five - High Feedwater System Vibrations / Reactor Scram Trigger Position Crew Actions or Behavior ATC / Performs manual scram per DGP 02-03, Reactor Scram. (Go to next Event for BOP actions) | ||
Trips RFPs when RPV time/level directions of DOA 3200-01 are met. | |||
Event 5 Completion Criteria: | |||
* Reactor scrammed, AND/OR, | |||
* At the direction of the Lead Examiner. | |||
SCENARIO ILT-N-4 Page 15 of 28 Rev. 00 (09/10) | |||
ATC / | |||
-03, Reactor Scram | |||
-01 are met. | |||
AND/OR , | |||
Event Six - Electrical ATWS / ARI Unsuccessful Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR: | |||
6 Verify trigger 6 automatically activates when the Mode SW is placed to S/D. This pulls some of the scram fuses so some of the control rods insert. Fails 2A FRV open and 2B FRV closed. This allows RPV level to recover. | |||
Event Six - Electrical ATWS / ARI Unsuccessful | SIMULATOR OPERATOR / ROLE PLAY: | ||
. Fails 2A FRV open and 2B FRV closed. This allows RPV level to recover | 7 Operator to pull scram fuses: wait 4 min, then activate trigger 7. This sequentially pulls the scram fuses. | ||
Operator to vent the scram air header: wait 5 min, the activate trigger 8. This vents the 8 | |||
7 | scram air header. | ||
SIMULATOR OPERATOR / ROLE PLAY: | |||
9 Operator to install GP 1 -59 in. and Off Gas Hi Hi Rad jumpers: wait 3 min, activate trigger 9, and then report the GP 1 -59 in. and Off Gas Hi Hi Rad jumpers are installed. | |||
9 | SIMULATOR OPERATOR: | ||
-59 in. and Off Gas Hi Hi Rad jumpers: wait 3 min, activate trigger 9 , and then report | 10 Verify trigger 10 automatically activates when the Mode SW is placed to S/D and RPV level is >35 in. This fails 2A FRV closed to prevent overfilling and tripping the RFPs. | ||
-59 in. and Off Gas Hi Hi Rad jumpers are installed | ATC Performs the following actions per DGP 02-03, Reactor Scram, as directed: | ||
SIMULATOR OPERATOR | Presses scram pushbuttons Places mode switch in shutdown Check rods inserted / Determines control rods did not insert. | ||
Initiates ARI / Determines ARI did not insert control rods. | |||
-03, Reactor Scram, as directed: | |||
Initiates ARI | |||
Announces ATWS condition and RX power is >6%. | Announces ATWS condition and RX power is >6%. | ||
May resets scoop tubes so Recirc Pumps run back | May resets scoop tubes so Recirc Pumps run back / trips recirc pumps Initiates SBLC. Announces failure to inject. | ||
Announces failure to inject. | |||
Maintains RPV/L between +8 and +48 inches or as directed by Unit Supervisor. | Maintains RPV/L between +8 and +48 inches or as directed by Unit Supervisor. | ||
(HPCI is available) | (HPCI is available) | ||
BOP | BOP Performs DGP 02-03, Reactor Scram, as directed. | ||
-03, Reactor Scram, as directed. | SCENARIO ILT-N-4 Page 16 of 28 Rev. 00 (09/10) | ||
Event Six - Electrical ATWS / ARI Unsuccessful Trigger Position Crew Actions or Behavior CRS Enters DEOP 100, RPV Control, and directs actions. | |||
Due to report of ATWS condition, exits DEOP 100 AND enters DEOP 0400-05, Failure to Scram, and directs/performs: | |||
Event Six - Electrical ATWS / ARI Unsuccessful | |||
Due to report of ATWS condition, exits DEOP 100 AND enters DEOP 0400 | |||
-05, Failure to Scram, and directs/performs: | |||
Placing ADS to inhibit. (Not expected to be a Critical Task for this scenario) | Placing ADS to inhibit. (Not expected to be a Critical Task for this scenario) | ||
Placing Core Spray pumps in PTL. Inserting control rods using Alternate Rod Insertion. | Placing Core Spray pumps in PTL. | ||
Inserting control rods using Alternate Rod Insertion. | |||
Directs driving control rods. | Directs driving control rods. | ||
Directs pulling scram fuses. | Directs pulling scram fuses. | ||
Line 1,815: | Line 1,599: | ||
Installing of the jumpers for the MSIV low level isolations and the Off Gas high Rad isolations. | Installing of the jumpers for the MSIV low level isolations and the Off Gas high Rad isolations. | ||
If RX power >6%, terminating and preventing all injection except boron and CRD until RPV level 35 inches. | If RX power >6%, terminating and preventing all injection except boron and CRD until RPV level 35 inches. | ||
Holding RPV level between | Holding RPV level between -164 inches and the level lowered to. | ||
-164 inches and the level lowered to. | |||
Stabilizing RPV pressure below 1060 psig. | Stabilizing RPV pressure below 1060 psig. | ||
CRS | CRS Based on report that SBLC failed, directs DEOP 0500-01, Alternate Boron Injection, performed. | ||
-01, Alternate Boron Injection , performed. | ATC Terminates and prevents all injection except boron and CRD at the 902-5 panel in automatic as follows: | ||
ATC | Using the RX LOW FLOW CONTROL STATION, 2(3)-640-20, lowers FWLC SETPOINT to -40 inches. | ||
-5 panel in automatic as follows: | BOP Terminates and prevents all injection except boron and CRD at the 902-3 panel as follows: | ||
Using the RX LOW FLOW CONTROL STATION, 2(3) | Place HPCI Aux Oil Pump AND HPCI 14 valve in PTL. | ||
-640-20, lowers FWLC SETPOINT to | |||
-40 inches. | |||
BOP | |||
-3 panel as follows: | |||
Verify HPCI flow controller in AUTO AND reduce setpoint to 2000 gpm. | Verify HPCI flow controller in AUTO AND reduce setpoint to 2000 gpm. | ||
PLACES LPCI 22 valves in Pull | PLACES LPCI 22 valves in Pull-to-Close. | ||
-to-Close. CRS | CRS When RPV level reaches -35 inches, directs holding RPV water level between -164 in. and the level lowered to using CRD and HPCI. | ||
-35 inches, directs holding RPV water level between | ATC / Injects with CRD and HPCI to hold RPV level between -164 in. and the level BOP lowered to. | ||
NOTE: | |||
If scram fuses are not pulled soon enough, the SDV may fill enough that not all rods will insert when the fuses are pulled. | |||
SCENARIO ILT-N-4 Page 17 of 28 Rev. 00 (09/10) | |||
. | |||
SCENARIO ILT | Event Six - Electrical ATWS / ARI Unsuccessful Trigger Position Crew Actions or Behavior ATC Inserts control rods per DEOP 500-05, Alternate Insertion Of Control Rods, as follows: (RPV-6.1) | ||
-N-4 Page | Pulling scram fuses. | ||
Event Six - Electrical ATWS / ARI Unsuccessful | |||
-05, Alternate Insertion Of Control Rods, as follows: (RPV | |||
-6.1) | |||
Venting scram air header. | Venting scram air header. | ||
Drives rods by: | Drives rods by: | ||
Bypassing the RWM. Maximizing CRD drive water pressure. | Bypassing the RWM. | ||
Maximizing CRD drive water pressure. | |||
Uses either the ROD MOVEMENT CONTROL switch or the EMERG ROD IN position of the ROD OUT NOTCH OVERRIDE switch. | Uses either the ROD MOVEMENT CONTROL switch or the EMERG ROD IN position of the ROD OUT NOTCH OVERRIDE switch. | ||
CRS | CRS Based on report that all control rods are inserted, exits DEOP 0400-05 and enters DEOP 0100. | ||
, exits DEOP 0400 | |||
-05 and enters DEOP 0100. | |||
Directs securing SBLC. | Directs securing SBLC. | ||
ATC | ATC Performs as directed: | ||
Secures SBLC. | Secures SBLC. | ||
ATC / | ATC / Performs as directed: | ||
Re-establishes injection using available injection systems to MAINTAIN RPV water level above | BOP Re-establishes injection using available injection systems to MAINTAIN RPV water level above -143 (in band directed by Unit Supervisor). | ||
- | Event 6 / Scenario Completion Criteria: | ||
Control rods inserted, (Or in progress) | * Control rods inserted, (Or in progress) | ||
AND / OR, | |||
AND / OR, | * At the discretion of the Lead Examiner. | ||
SCENARIO ILT-N-4 Page 18 of 28 Rev. 00 (09/10) | |||
Critical Tasks (RPV-6.1) With a reactor scram required and the reactor not shutdown, TAKE ACTION TO REDUCE POWER by injecting boron and/or inserting control rods, to prevent exceeding the primary containment design limits. | Critical Tasks (RPV-6.1) With a reactor scram required and the reactor not shutdown, TAKE ACTION TO REDUCE POWER by injecting boron and/or inserting control rods, to prevent exceeding the primary containment design limits. | ||
(RPV-6.2) With a reactor scram required, reactor not shutdown, and conditions for ADS blowdown are met, INHIBIT ADS to prevent an uncontrolled RPV depressurization, to prevent causing a significant power excursion. | (RPV-6.2) With a reactor scram required, reactor not shutdown, and conditions for ADS blowdown are met, INHIBIT ADS to prevent an uncontrolled RPV depressurization, to prevent causing a significant power excursion. | ||
(Conditions may not occur to cause this to be critical for this scenario) | (Conditions may not occur to cause this to be critical for this scenario) | ||
(RPV-6.3) During an ATWS with conditions met to perform power/level control TERMINATE AND PREVENT INJECTION, with exception of boron and CRD, into the RPV until conditions are met to re | (RPV-6.3) During an ATWS with conditions met to perform power/level control TERMINATE AND PREVENT INJECTION, with exception of boron and CRD, into the RPV until conditions are met to re-establish injection. | ||
-establish injection. | (RPV-6.4) When conditions are met to re-establish injection use available injection systems to MAINTAIN RPV water level above -164. | ||
(RPV-6.4) When conditions are met to re | SCENARIO ILT-N-4 Page 19 of 28 Rev. 00 (09/10) | ||
-establish injection use available injection systems to MAINTAIN RPV water level above | |||
-164 | REFERENCES PROCEDURE TITLE DAN 902-3 D-7 2A/B CORE SPRAY HDR PRESS LO DAN 902-4 C-1(5) 2A(B) RECIRC M-G SCOOP TUBE PWR FAILURE DAN 902-5 A-3 ROD DRIFT ALARM DAN 902-6 E-12 FEEDWATER REG STATION VIBRATION HI DAN 902-6 F-12 2A RFP VIBRATION HI DAN 902-6 G-12 2B RFP VIBRATION HI DEOP 0100 RPV CONTROL DEOP 0400-05 FAILURE TO SCRAM DEOP 0500-05 ALTERNATE INSERTION OF CONTROL RODS DGA 07 UNPREDICTED REACTIVITY ADDITION DGP 02-03 REACTOR SCRAM DOA 0202-03 REACTOR RECIRC SYSTEM FLOW CONTROL FAILURE DOA 0300-05 INOPERABLE OR FAILED CRDS DOA 0300-12 MISPOSITIONED CONTROL ROD DOA 0500-04 THERMAL LIMITS AND FUEL CONDITIONING VIOLATION DOA 3200-01 FEEDWATER SYSTEM HIGH VIBRATION DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0202-12 RECIRCULATION PUMP MOTOR GENERATOR SET SCOOP TUBE OPERATION DOP 0300-08 CRD SYSTEM HCU ISOLATION DOP 0400-02 ROD WORTH MINIMIZER DOP 6700-18 BUS 28 OUTAGE TS 3.1.3 CONTROL ROD OPERABILITY TS 3.5.1 ECCS OPERATING SCENARIO ILT-N-4 Page 20 of 28 Rev. 00 (09/10) | ||
SCENARIO ILT | |||
-N-4 Page | |||
REFERENCES PROCEDURE TITLE DAN 902-3 D-7 2A/B CORE SPRAY HDR PRESS LO DAN 902-4 C-1(5) 2A(B) RECIRC M | |||
-G SCOOP TUBE PWR FAILURE DAN 902-5 A-3 ROD DRIFT ALARM DAN 902-6 E-12 FEEDWATER REG STATION VIBRATION HI DAN 902-6 F-12 2A RFP VIBRATION HI DAN 902-6 G-12 2B RFP VIBRATION HI DEOP 0100 RPV CONTROL DEOP 0400-05 FAILURE TO SCRAM DEOP 0500-05 ALTERNATE INSERTION OF CONTROL RODS DGA 07 UNPREDICTED REACTIVITY ADDITION DGP 02-03 REACTOR SCRAM DOA 0202-03 REACTOR RECIRC SYSTEM FLOW CONTROL FAILURE DOA 0300-05 INOPERABLE OR FAILED CRDS DOA 0300-12 MISPOSITIONED CONTROL ROD DOA 0500-04 THERMAL LIMITS AND FUEL CONDITIONING VIOLATION DOA 3200-01 FEEDWATER SYSTEM HIGH VIBRATION DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0202-12 RECIRCULATION PUMP MOTOR GENERATOR SET SCOOP TUBE OPERATION DOP 0300-08 CRD SYSTEM HCU ISOLATION DOP 0400-02 ROD WORTH MINIMIZER DOP 6700-18 BUS 28 OUTAGE TS 3.1.3 CONTROL ROD OPERABILITY TS 3.5.1 ECCS OPERATING | |||
ILT-N-4 Quantitative Attributes 6 Total malfunctions (5-8) 2 Malfunctions after EOP entry (1-2) 3 Abnormal events (2-4) 2 Major transients (1-2) 1 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 3 Critical tasks (2-3) | |||
SCENARIO ILT-N-4 Page 21 of 28 Rev. 00 (09/10) | |||
ILT-N-4 | |||
-8) 2 Malfunctions after EOP entry (1 | CAEP Files | ||
-2) 3 Abnormal events (2 | # NRC Exam ILT 10-1 | ||
-4) 2 Major transients (1 | # SCENARIO ILT-N-4.cae | ||
-2) 1 EOPs entered/requiring substantive actions (1 | # Written by DREFV | ||
-2) 1 EOP contingencies requiring substantive actions (0 | # Rev 00 | ||
-2) 3 Critical tasks (2 | # Date 09/10 | ||
-3) | # INITIAL CONDITIONS | ||
SCENARIO ILT | # Sets APRM Master Gain pot to 1.0 irf niagain 1.0 | ||
-N-4 Page | # Inserts an Electrical ATWS. | ||
CAEP Files | imf b12 | ||
-1 # SCENARIO ILT | # Overrides Panel 2202-70A(B) Trouble alarm points OFF so pulling ARI fuses does not cause alarm. | ||
-N-4.cae # Written by DREFV | # Pulls ARI fuses. | ||
imf b12 | |||
-70A(B) Trouble alarm points OFF so pulling ARI fuses does not cause alarm. | |||
Imf ser1026 off imf ser1060 off irf aw4 pulledl4 | Imf ser1026 off imf ser1060 off irf aw4 pulledl4 | ||
# Inserts trip of 2A SBLC pump. | |||
imf scpmpocal2 | imf scpmpocal2 | ||
# Sets 2B SBLC Relief valve setpoint to 100.0 psig imf scrlfvbd 100.0l2 | |||
# Overrides MO 3206A & B Closed light OFF. Valve positions are varied to simulate FW Sys Vibes. | |||
ior fwl32061 offl2 ior fwl32062 offl2 | ior fwl32061 offl2 ior fwl32062 offl2 | ||
# EVENT TRIGGERS | |||
# Event Trigger 1 sets gain for all 6 APRMs. | |||
trgset 1 "0"l4 trg 1 "irf niagainf true"l4 | trgset 1 "0"l4 trg 1 "irf niagainf true"l4 | ||
# Event Trigger 2 Drifts CRD L-06 into the core. | |||
-06 into the core. | |||
Trgset 2 "0"l6 imf rodl06di (2)l6 | Trgset 2 "0"l6 imf rodl06di (2)l6 | ||
# Event Trigger 3 fails master recirc flow controller upscale. | # Event Trigger 3 fails master recirc flow controller upscale. | ||
trgset 3 "0"l6 imf rrmasupd (3) 0.85 4:00 0.64l6 | trgset 3 "0"l6 imf rrmasupd (3) 0.85 4:00 0.64l6 | ||
# Event Trigger 4 causes 2A/B Core System Low Pressure Alarm (902-3 D-7) | |||
-3 D-7) # Cracks open 4B VLV and isolates Keep Fill to 2B Loop trgset 4 "0"l8 trg 4 "set csv4b = 0.002"l8 irf csbfilof (4) closedl8 | # Cracks open 4B VLV and isolates Keep Fill to 2B Loop trgset 4 "0"l8 trg 4 "set csv4b = 0.002"l8 irf csbfilof (4) closedl8 | ||
# Event Trigger 5 Sequentially forces up the following alarms to simulate FW Sys Hi Vibes. | |||
# 902-6 E-12, FEEDWATER REG STATION VIBRATION HI. | |||
# 902-6 F-12, 2A RFP VIBRATION HI. | |||
# 902-6 G-12, 2B RFP VIBRATION HI. | |||
Trgset 5 "0"l10 imf ser1361 (5) onl10 | Trgset 5 "0"l10 imf ser1361 (5) onl10 SCENARIO ILT-N-4 Page 22 of 28 Rev. 00 (09/10) | ||
imf ser1363 (5 1:00) onl10 imf ser1397 (5 1:30) onl10 | |||
# Event trigger 6 Activates when the Mode SW is placed to S/D. | |||
# Simulates partial electrical ATWS by pulling some RPS scram fuses. | |||
# Fails 2A FRV open and 2B FRV closed. This allows RPV level to restore to above Setpoint Setdown. | |||
Trgset 6 "rpdmode4_drw"l12 irf rpfusea4 (6) pulledl12 irf rpfuseb1 (6) pulledl12 irf rpfuseb2 (6) pulledl12 irf rpfuseb3 (6) pulledl14 irf rpfuseb4 (6) pulledl14 imf rlmfafo (6)l14 imf rlmfbfc (6)l14 | Trgset 6 "rpdmode4_drw"l12 irf rpfusea4 (6) pulledl12 irf rpfuseb1 (6) pulledl12 irf rpfuseb2 (6) pulledl12 irf rpfuseb3 (6) pulledl14 irf rpfuseb4 (6) pulledl14 imf rlmfafo (6)l14 imf rlmfbfc (6)l14 | ||
# Event trigger 7 Simulates pulling RPS scram fuses. | |||
Trgset 7 "0"l16 irf rpfusea1 (7 0) pulledl16 irf rpfusea2 (7 20) pulledl16 irf rpfusea3 (7 40) pulledl16 | Trgset 7 "0"l16 irf rpfusea1 (7 0) pulledl16 irf rpfusea2 (7 20) pulledl16 irf rpfusea3 (7 40) pulledl16 | ||
# Event trigger 8 Simulates venting scram air header. | # Event trigger 8 Simulates venting scram air header. | ||
trgset 8 "0"l18 irf rdscrair (8) openl18 | trgset 8 "0"l18 irf rdscrair (8) openl18 | ||
# Event Trigger 9 installs MSL Group 1 RPV level byp and Offgas High Rad byp jumpers. | |||
trgset 9 "0"l18 irf ci59jp (9) inl20 irf ogogjp (9) inl20 | trgset 9 "0"l18 irf ci59jp (9) inl20 irf ogogjp (9) inl20 | ||
# Event trigger 10 Activates when the Mode SW is placed to S/D and RPV level > 35 in. | |||
# Fails 2A FRV closed. This prevents overfilling so RFPs trip on high RPV level. | |||
Trgset 10 "rpdmode4_drw .and. (ppc209 .gt. 35.0)"l22 Trg 10 "dmf rlmfafo"l20 imf rlmfafc (10 2)l20 | Trgset 10 "rpdmode4_drw .and. (ppc209 .gt. 35.0)"l22 Trg 10 "dmf rlmfafo"l20 imf rlmfafc (10 2)l20 | ||
# END | |||
# ILT-N-4 fw_osc.cae | |||
set fwv3206a(1) = | # by DREFV | ||
# 09/10 | |||
# The following cycles MO 3206A & B valve positions to simulate FW Sys Hi Vibes. | |||
set fwv3206a(1) = 0.4 set fwv3206a(2) = 0.4 set fwv3206a(1) = 0.6l3 set fwv3206a(2) = 0.6l3 set fwv3206a(1) = 0.4l6 set fwv3206a(2) = 0.4l6 set fwv3206a(1) = 0.6l9 set fwv3206a(2) = 0.6l9 set fwv3206a(1) = 0.4l12 set fwv3206a(2) = 0.4l12 set fwv3206a(1) = 0.6l15 set fwv3206a(2) = 0.6l15 SCENARIO ILT-N-4 Page 23 of 28 Rev. 00 (09/10) | |||
set fwv3206a(1) = | set fwv3206a(1) = 0.4l18 set fwv3206a(2) = 0.4l18 set fwv3206a(1) = 0.6l21 set fwv3206a(2) = 0.6l21 set fwv3206a(1) = 0.4l24 set fwv3206a(2) = 0.4l24 set fwv3206a(1) = 0.6l27 set fwv3206a(2) = 0.6l27 set fwv3206a(1) = 0.4l30 set fwv3206a(2) = 0.4l30 set fwv3206a(1) = 0.6l33 set fwv3206a(2) = 0.6l33 set fwv3206a(1) = 0.4l36 set fwv3206a(2) = 0.4l36 set fwv3206a(1) = 0.6l39 set fwv3206a(2) = 0.6l39 set fwv3206a(1) = 0.4l42 set fwv3206a(2) = 0.4l42 set fwv3206a(1) = 0.6l45 set fwv3206a(2) = 0.6l45 set fwv3206a(1) = 0.4l48 set fwv3206a(2) = 0.4l48 set fwv3206a(1) = 0.6l51 set fwv3206a(2) = 0.6l51 set fwv3206a(1) = 0.4l54 set fwv3206a(2) = 0.4l54 set fwv3206a(1) = 0.6l57 set fwv3206a(2) = 0.6l57 set fwv3206a(1) = 0.4l60 set fwv3206a(2) = 0.4l60 set fwv3206a(1) = 0.65l63 set fwv3206a(2) = 0.65l63 set fwv3206a(1) = 0.25l66 set fwv3206a(2) = 0.25l66 set fwv3206a(1) = 0.65l69 set fwv3206a(2) = 0.65l69 set fwv3206a(1) = 0.25l72 set fwv3206a(2) = 0.25l72 set fwv3206a(1) = 0.65l75 set fwv3206a(2) = 0.65l75 set fwv3206a(1) = 0.25l78 set fwv3206a(2) = 0.25l78 set fwv3206a(1) = 0.65l81 set fwv3206a(2) = 0.65l81 set fwv3206a(1) = 0.25l84 set fwv3206a(2) = 0.25l84 set fwv3206a(1) = 0.65l87 set fwv3206a(2) = 0.65l87 SCENARIO ILT-N-4 Page 24 of 28 Rev. 00 (09/10) | ||
set fwv3206a(1) = 0.25l90 set fwv3206a(2) = 0.25l90 set fwv3206a(1) = 0.65l93 set fwv3206a(2) = 0.65l93 set fwv3206a(1) = 0.25l96 set fwv3206a(2) = 0.25l96 set fwv3206a(1) = 0.65l99 set fwv3206a(2) = 0.65l99 set fwv3206a(1) = 0.25l102 set fwv3206a(2) = 0.25l102 set fwv3206a(1) = 0.65l105 set fwv3206a(2) = 0.65l105 set fwv3206a(1) = 0.25l108 set fwv3206a(2) = 0.25l108 set fwv3206a(1) = 0.65l111 set fwv3206a(2) = 0.65l111 set fwv3206a(1) = 0.25l114 set fwv3206a(2) = 0.25l114 set fwv3206a(1) = 0.65l117 set fwv3206a(2) = 0.65l117 set fwv3206a(1) = 0.25l120 set fwv3206a(2) = 0.25l120 set fwv3206a(1) = 0.7l123 set fwv3206a(2) = 0.7l123 set fwv3206a(1) = 0.3l126 set fwv3206a(2) = 0.3l126 set fwv3206a(1) = 0.7l129 set fwv3206a(2) = 0.7l129 set fwv3206a(1) = 0.3l132 set fwv3206a(2) = 0.3l132 set fwv3206a(1) = 0.7l135 set fwv3206a(2) = 0.7l135 set fwv3206a(1) = 0.3l138 set fwv3206a(2) = 0.3l138 set fwv3206a(1) = 0.7l141 set fwv3206a(2) = 0.7l141 set fwv3206a(1) = 0.3l144 set fwv3206a(2) = 0.3l144 set fwv3206a(1) = 0.7l147 set fwv3206a(2) = 0.7l147 set fwv3206a(1) = 0.3l150 set fwv3206a(2) = 0.3l150 set fwv3206a(1) = 0.7l153 set fwv3206a(2) = 0.7l153 set fwv3206a(1) = 0.3l156 set fwv3206a(2) = 0.3l156 set fwv3206a(1) = 0.7l159 set fwv3206a(2) = 0.7l159 SCENARIO ILT-N-4 Page 25 of 28 Rev. 00 (09/10) | |||
0. | |||
set fwv3206a(1) = | set fwv3206a(1) = 0.3l162 set fwv3206a(2) = 0.3l162 set fwv3206a(1) = 0.7l165 set fwv3206a(2) = 0.7l165 set fwv3206a(1) = 0.3l168 set fwv3206a(2) = 0.3l168 set fwv3206a(1) = 0.7l171 set fwv3206a(2) = 0.7l171 set fwv3206a(1) = 0.25l174 set fwv3206a(2) = 0.25l174 set fwv3206a(1) = 0.75l177 set fwv3206a(2) = 0.75l177 set fwv3206a(1) = 0.25l180 set fwv3206a(2) = 0.25l180 set fwv3206a(1) = 0.75l183 set fwv3206a(2) = 0.75l183 set fwv3206a(1) = 0.25l186 set fwv3206a(2) = 0.25l186 set fwv3206a(1) = 0.75l189 set fwv3206a(2) = 0.75l189 set fwv3206a(1) = 0.25l192 set fwv3206a(2) = 0.25l192 set fwv3206a(1) = 0.75l195 set fwv3206a(2) = 0.75l195 set fwv3206a(1) = 0.25l198 set fwv3206a(2) = 0.25l198 set fwv3206a(1) = 0.75l201 set fwv3206a(2) = 0.75l201 set fwv3206a(1) = 0.25l204 set fwv3206a(2) = 0.25l204 set fwv3206a(1) = 0.75l207 set fwv3206a(2) = 0.75l207 set fwv3206a(1) = 0.25l210 set fwv3206a(2) = 0.25l210 set fwv3206a(1) = 0.75l213 set fwv3206a(2) = 0.75l213 set fwv3206a(1) = 0.25l216 set fwv3206a(2) = 0.25l216 set fwv3206a(1) = 0.75l219 set fwv3206a(2) = 0.75l219 imf rlmfafol222 imf rlmfblal222 | ||
# END SCENARIO ILT-N-4 Page 26 of 28 Rev. 00 (09/10) | |||
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 1 at 680 MWe, Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: MFLCPR @ 0.881 Leading Thermal Limit: MAPRAT @ 0.819 Action limit: 0.980 Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements LCO Started: 2.0 hours ago LCO Expires: 7 days TS 3.5.1 Cause: LPCI inop Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Separator Pit as required. Outside operator monitor and pump as necessary. | |||
Today Chem Cleaning ventilation status: | |||
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746. | |||
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150. | |||
HVAC -1 ON. | |||
HV-2 running. | |||
Switchyard Status Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area. | |||
Unit 2 Risk: | |||
7 days TS | |||
Today Chem Cleaning ventilation status: | |||
HV-1A/EF-1A are secured due to HV | |||
-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746. HV-1B/EF-1B are secured due to HV | |||
-1B throwing its belts. WO 1156150. | |||
HVAC -1 ON. HV-2 running. | |||
Switchyard Status Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area. | |||
Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood. | Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood. | ||
SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful. | SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful. | ||
SCENARIO ILT-N-4 Page 27 of 28 Rev. 00 (09/10) | |||
Unit 2 Plant Status Today Unit 2 Activities | |||
**** Shift 1 Activities **** | |||
Unit 2 Plant Status Today Unit 2 Activities | | ||
| |||
**** Shift 2 Activities **** | |||
MCC 28-7/29-7 was transferred to Bus 28 two hours ago for EMD to take readings on the Bus 28 feed to MCC 28-7/29-7. EMD is done taking readings. Immediately after taking the shift, transfer MCC 28 | MCC 28-7/29-7 was transferred to Bus 28 two hours ago for EMD to take readings on the Bus 28 feed to MCC 28-7/29-7. EMD is done taking readings. Immediately after taking the shift, transfer MCC 28-7/29-7 back to Bus 29. | ||
-7/29-7 back to Bus 29. | Notify the Shift Manager just prior to transferring MCC 28-7/29-7. The Shift Manager and U-3 Unit Supervisor will handle the Tech Spec requirements. | ||
Notify the Shift Manager just prior to transferring MCC 28 | **** Shift 3 Activities **** | ||
-7/29-7. The Shift Manager and U | | ||
-3 Unit Supervisor will handle the Tech Spec requirements. | | ||
Today **** Unit 2 Procedures In-Progress **** Do Not Delete **** | |||
**** Shift 3 Activities **** | None | ||
Today **** Unit 2 Procedures In | | ||
-Progress **** Do Not Delete **** | SCENARIO ILT-N-4 Page 28 of 28 Rev. 00 (09/10)}} | ||
None}} |
Latest revision as of 10:28, 12 November 2019
ML12021A020 | |
Person / Time | |
---|---|
Site: | Dresden |
Issue date: | 03/29/2011 |
From: | NRC/RGN-III |
To: | Exelon Generation Co |
Shared Package | |
ML11104A073 | List: |
References | |
Download: ML12021A020 (101) | |
Text
Dresden Generating Station ILT-N-1 CONTROL ROD RPIS FAILURE SERVICE WATER PUMP TRIP ISOLATION CONDENSER INADVERTENT INITIATION SWAP RFP DUE TO OIL LEAK EARTHQUAKE / TORUS LEAK / MANUAL SCRAM EMERGENCY DEPRESSURIZE DUE TO LOWERING TORUS LEVEL Rev. 00 09/10 Developed By:
Exam Author Date Approved By:
Facility Representative Date
Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-1 Class ID: 10-01 (2011-301)
Evaluators Operators / crew position
/ ATC
/ BOP
/ CRS Initial Conditions: Initial Power = 75%
Turnover:
Event Malf. Event Event No. No. Type* Description 1 RDFAILF5 I ATC CRD - RPIS failure for rod F-05. T 2 Q22 C BOP SERV WATER - Pump Trip.
3 ICSPDFT I BOP ISO COND - Inadvertent Initiation. T 4 NONE C ATC RFP - 2B RFP Develops an Oil Leak / Must Swap.
MANUAL SCRAM - Earthquake Causes Plant Damage and 5 CSBRKSEV M TEAM Subsequent Torus Leak.
EMERGENCY DEPRESSURIZE - Torus ECCS Suction 6 CSBRKSEV M TEAM Line Break / ED due to Lowering Torus Level.
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-1 Page 2 of 22 Rev. 00 (09/10)
Scenario Objective Evaluate the operators in using the Emergency Depressurization DEOP contingency procedure.
Scenario Summary Initial Conditions:
- 1. Unit is at 75% power.
- 2. The following equipment is OOS:
- a. None
- 3. LCOs:
- a. None Scenario Sequence
- Control rod F-05 loses all RPIS indication. The Team will insert the control rod, reference Tech Specs and direct taking it OOS.
- The 2B Service Water pump trips on overload. The Team will start a standby pump.
- The Isolation Condenser initiates due to setpoint drift. The Team will stop operation of the Isolation Condenser and reference Tech Specs.
- The Team receives a report from the field that 2B RFP has an oil leak. The Team starts 2C RFP and secures 2B RFP.
- Due to an earthquake, an ECCS suction line break occurs resulting in a lowering torus water level. Per DEOP 0200-01, Primary Containment Control, the Team should:
Scram the reactor.
Prevent HPCI operation.
Perform an emergency depressurization. (One ADSV fails to open. The Team will augment emergency depressurization with other systems.)
Event One - Control Rod RPIS Failure
- Control rod F-05 will lose all RPIS indication.
Malfunctions required: 1
- (Loss of Control Rod F-05 RPIS indication)
Success Path:
- Inserts Control Rod F-05 and references Tech Specs SCENARIO ILT-N-1 Page 3 of 22 Rev. 00 (09/10)
Event Two - Service Water Pump Trip
- 2B Service Water pump trips on overload.
Malfunctions required: 1
- (2B Service Water pump trip)
Success Path:
- The Team starts a standby pump.
Event Three - Isolation Condenser Inadvertent Initiation
- The Isolation Condenser initiates due to setpoint drift.
Malfunctions required: 1
- (Isolation Condenser initiation setpoint drift)
Success Path:
- The Team will stop operation of the Isolation Condenser and reference Tech Specs.
Event Four - 2B RFP develops an oil leak, must swap
- Report from the field of an oil leak on 2B RFP.
Malfunctions required: 1
- 2B RFP oil leak Success Path:
Event Five and Six - Torus Leak
- The crew should recognize and respond to a lowering torus water level. If the Team does not prevent HPCI operation, a spurious HPCI initiation will occur while Torus level is dropping.
Malfunctions required: 2
- (Torus Leak)
- (ADSV fail to open)
Success Path:
- Perform manual Reactor scram.
- Prevent HPCI operation.
- Emergency Depressurize.
SCENARIO ILT-N-1 Page 4 of 22 Rev. 00 (09/10)
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ-JA-150-08, SIMULATOR EXAMINATION BRIEFING.
2 Simulator Setup (the following steps can be done in any logical order)
- a. a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used)
- 1) Reactor power at ~75%.
- 2) Generator at ~680 MWe.
- b. Cut in/out Cond Demins as needed, to maintain DP within limits.
- c. Ensure running Condensate pump amps within limits.
- d. Advance the chart recorders.
3 Verify the following simulator conditions:
- a. 2B and 3B Service Water pumps running.
- c. Verify Zinc Injection label in place for lined up to 2A RFP.
4 Place the following equipment out of service:
- a. None NOTE: Perform the above setup prior to running the setup CAEP file.
5 Run the initial setup CAEP file: ILT-N-1.cae 6 Complete the Simulator Setup Checklist.
Symbols are used throughout the text to identify specific items as indicated below:
Critical Tasks Time Critical Tasks PRA Key Operator Actions Required Actions Optional Actions SCENARIO ILT-N-1 Page 5 of 22 Rev. 00 (09/10)
Event One - Control Rod RPIS Failure Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
1 At the direction of the Lead Examiner, activate trigger 1, RPIS failure for control rod F-05.
ROLE PLAY:
Respond as Support Groups notified.
ATC Reports and responds to DANs 902-5 A-3 ROD DRIFT, and B-3 ROD WORTH MIN BLOCK.
Views Full Core Display and identifies CRD with Rod Drift light.
Selects Control Rod F-05 and reports no indication on Four Rod Display.
ATC Recognizes loss of control rod F-05 position indication on Full Core Display, Four Rod Display, RWM, and/or Process Computer.
CRS Enters DOA 0300-06, RPIS Failure, and directs its actions.
ATC Performs subsequent actions of DOA 0300-06, RPIS Failure:
May insert Rod F-05 to 00 prior to entering DOA 0300-06.
Enters substitute position of 48 for F-05.
Inserts control rod F-05 one notch.
Determines no control rod position indication at alternate position.
Selects rod F-05.
Drives rod F-05 to fully inserted position.
Calls WEC to electrically or hydraulically isolate the control rod F-05 HCU.
May enter a substitute position and take OOS on the RWM per DOP 0400-02, Rod Worth Minimizer.
CRS References appropriate plant licensing documents and determines:
TS 3.1.3, condition C, required actions:
C.1 Fully insert inoperable control rod within 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br />; AND, C.2. Disarm the associated CRD within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.
Directs electrically or hydraulically isolating control rod F-05 HCU.
ROLE PLAY As QNE acknowledge reports. If concurrence is requested for any action, report I concur with (insert requested action here)
BOP Monitors panel, provides assistance as directed.
TEAM May enter DOA 0300-12, Mispositioned Control Rod.
Notifies the Shift Manager, QNE, Work Week Manager, Fin team, IMD, OR EMD.
SCENARIO ILT-N-1 Page 6 of 22 Rev. 00 (09/10)
Event One - Control Rod RPIS Failure Trigger Position Crew Actions or Behavior ROLE PLAY:
When NLO directed to disarm control rod F-05, report: Ill disarm F-05 after I receive a pre-job brief (it is not intended for this to be completed).
ATC Records failed RPIS indication per DOS 0300-06, CRD Abnormality Record.
Event 1 Completion Criteria:
- DOA 0300-06 actions have been taken,
- Technical Specifications have been referenced, AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-1 Page 7 of 22 Rev. 00 (09/10)
Event Two - Service Water Pump Trip Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
2 At the discretion of the Lead Examiner, activate trigger 2, which trips the 2B Service Water Pump.
ROLE PLAY:
EO at Service Water Pump just started (wait 2 min.):
Report: The Service Water Pump is operating normally and 2B Service Water Pump shows no sign of damage.
EO at 2B Service Water Pump at Bus 24 (wait 2 min.):
Report: 2B Service Water Pump Breaker has overcurrent targets up.
EMD Acknowledges need to go to Bus 24 and troubleshoot overcurrent flag at 2B Service Water Pump breaker.
SIMULATOR OPERATOR:
3 After a standby Service Water Pump is started, activate trigger 3, which returns the Remote for stopping the DFP to normal.
BOP Announces 2B Service Water Pump trip.
Refers to DAN 923-1 C-3, U2 OR U3 SERV WATER PP TRIP.
Starts an available Service Water Pump.
Refers to DOA 6500-10, 4KV Circuit Breaker Trip and:
Directs an EO to the Cribhouse to check the Service Water Pump just started and inspect 2B Service Water Pump.
Direct an EO to check the breaker of 2B Service Water Pump.
Places 2B Service Water Pump control switch in Pull to Lock.
Notifies Ops Shift Supervisor.
Requests EMD to troubleshoot.
CRS Notifies Shift Manager and EMD.
Enters DOA 3900-01, Loss of Cooling by Service Water System.
Enters DOA 6500-10, 4KV Circuit Breaker Trip.
ATC Assists as directed.
Event 2 Completion Criteria:
- An available Service Water pump is started, AND / OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-1 Page 8 of 22 Rev. 00 (09/10)
Event Three - Isolation Condenser Inadvertent Initiation Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
4 At the direction of the Lead Examiner, activate trigger 4, which drifts the Isolation Condenser Initiation setpoint.
ROLE PLAY:
Respond as Support Groups notified.
BOP Reports and responds to DANs:
902-3 B-4, ISOL CONDR VLVS OFF NORM.
902-3 C-4, ISOL CONDR TEMP HI.
902-4 A-15, ISOL CONDR CH A/B INITIATION.
Determines Isolation Condenser in operation due to MO 2-1301-3 valve open.
TEAM Determines Isolation Condenser initiation spurious due to RPV pressure in normal band.
CRS Directs removing the Isolation Condenser from service.
BOP Places MO 2-1301-3 in PTL.
When MO 2-1301-3 indicates closed, reports that the Isolation Condenser is removed from service.
ATC Monitors reactor water level, pressure, and power.
TEAM May enter DGA 07, Unpredicted Reactivity Addition.
CRS References appropriate plant licensing documents and determines:
TS 3.5.3, condition A. required actions:
A.1 Verify by administrative means High Pressure Coolant Injection System is OPERABLE immediately, AND, A.2 Restore IC System to OPERABLE status within 14 days.
TS 3.3.5.2, condition A. required actions: (May wait for IMD investigation)
A.1 Declare IC System inoperable within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />; AND, A.2 Place channel(s) in trip within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
TEAM Notifies Security to limit access to area under Isolation Condenser vent.
Notifies Radiation Protection to survey under the Isolation Condenser vent.
SCENARIO ILT-N-1 Page 9 of 22 Rev. 00 (09/10)
Event Three - Isolation Condenser Inadvertent Initiation Trigger Position Crew Actions or Behavior Event 3 Completion Criteria:
- Isolation Condenser removed from operation,
- Technical Specifications have been referenced, AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-1 Page 10 of 22 Rev. 00 (09/10)
Event Four - 2B RFP develops an oil leak, requiring it to be secured Trigger Position Actions or Behavior Role Play:
Call the control room as the U-2 NLO and report, While I was on rounds, I found 2B RFP has an oil leak on a line to the speed changer. It cannot be stopped.
If asked the oil is contained on the bed plate and I plugged the drain before the oil reached it.
If asked, The oil level is below the sight glass.
If asked, I recommend securing 2B RFP as soon as possible.
If asked, Zinc injection is lined up to 2A RFP".
ATC Acknowledges report from the field and relays it to the CRS.
CRS May enter DOA 0600-01, Transient Level Control.
Directs ATC to start 2C RFP and secure 2B RFP.
ATC Starts 2C RFP per DOA 0600-01, Transient Level Control, OR DOP 3200-03, Startup Of Second Or Third Reactor Feed Pump Or Shifting To Alternate Reactor Feed Pump.
Places RFPs Standby Selector switch, STBY PP SELECT in OFF position.
Closes MO 2-3201C, Opens 2C RFP RECIRC VLV PCV 2-3201C by placing control switch in OPEN.
Verifies reactor water level is stable.
Verifies sufficient system pressures.
If previously closed, places MO 2-3201C, 2C PP DISCH VLV control switch to OPEN position.
Starts 2C RFP.
Verifies reactor water level is stable.
Verify RFP Auxiliary Oil Pump AUTO stops.
WHEN MO 2-3201C, 2C PP DISCH VLV, is fully open (the RED valve position indicating light is extinguished), THEN places 2C RFP RECIRC VLV PCV 2-3201A control switch in AUTO.
Directs NLO to perform checks on 2C RFP.
SCENARIO ILT-N-1 Page 11 of 22 Rev. 00 (09/10)
Event Four - 2B RFP develops an oil leak, requiring it to be secured Trigger Position Actions or Behavior ATC Secures 2B RFP per DOP 3200-05, Reactor Feed Pump Shutdown.
Places RFPs standby selector switch, STBY PP SELECT, in OFF.
Verifies the 2B AUX OIL PP control switch in AUTO.
Opens 2B RFP recirculation valve, by placing 2B RFP RECIRC VLV PCV 2-3201B control switch in OPEN position.
Verifies reactor water level is stable.
Closes MO 2-3201B, 2B RFP DISCH VLV.
Verifies reactor water level remains stable.
Stops 2B RFP.
As the RFP slows down, verifies the associated auxiliary oil pump automatically starts.
Close 2B RFP recirculation valve, by placing 2B RFP RECIRC VLV control switch in AUTO position.
Direct a NLO to verify the 2B RFP has come to rest.
WHEN 2B RFP has come to rest, THEN opens MO 2- 3201B, 2B RFP DISCH VLV.
Directs NLO to perform remaining in plant steps for securing 2B RFP.
Role Play:
NLO to verify 2B RFP is at rest: Wait 1 min, then report, 2B RFP is at rest.
Acknowledge request to perform procedural steps for 2A and 2B RFPs. After a few minutes, report that the steps are completed.
CRS Directs 2B RFP Aux Oil PP secured to stop leak.
ATC Places 2B RFP Aux Oil PP in PTL.
Role Play:
If asked after 2B RFP Aux Oil PP is placed in PTL: Report, the oil leak on 2B RFP has stopped.
Event 4 Completion Criteria:
- At the direction of the Lead Examiner.
SCENARIO ILT-N-1 Page 12 of 22 Rev. 00 (09/10)
Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level.
Trigger Position Crew Actions or Behavior Simulator Operator:
5 At the discretion of the Lead Examiner, activate trigger 5 which starts an ECCS suction line break in the torus basement.
Note:
It takes about 20 minutes for torus level to reach 11 feet. At the discretion of the lead examiner, use the cues in this event to jump ahead in time to expedite level drop if desired.
Role Play:
After inserting the above trigger call the Control Room, as Security and report there has been a confirmed earthquake felt throughout the plant.
BOP Reports the following alarms:
- 902-4 C-23, Torus Narrow Range Wtr Lvl Lo Checks the torus narrow range level indicator. Reports level dropping.
Directs NLO to perform DOS 1600-02, Torus Level Verification Using Local Sight Glass.
Directs NLO to investigate leakage to torus basement.
Verifies proper operation of the RBFD Sump pumps. (Will require resetting the Group 2 isolation at both the 902-5 panel and the 923-4 panel for the sump pumps to operate if a Group 2 Isolation occurs).
Role Play:
As the NLO sent to verify Torus level locally using sight glass (wait 4 min), then report:
Local Torus level is (use value from variable ppc232, unless it is <20, then report it is below the sightglass).
As the NLO sent to investigate leakage (wait 2 min) or if not sent, then as the NLO on his round, report: there is a large rupture from a pipe attached between the Torus shell and the Torus suction ring header near the East LPCI Corner room. The Torus basement floor is covered with water. There is no valve on the line.
As the NLO sent to report LPCI corner status (wait 2 min), then report: there is no water in either LPCI corner room.
As Maintenance sent to determine if the leak can be stopped (wait 3 min), then report:
Maintenance cannot stop the leak.
As the NLO sent to check the seismic monitor, report: the seismic monitor has been activated (red light lit).
If contacted as any outside agencies, regarding the earthquake, confirm there has been an earthquake in the area but there is no more information at this time.
CRS May enter DOA 0040-02, Localized Flooding in Plant.
May reference DOA 0010-03, Earthquakes.
SCENARIO ILT-N-1 Page 13 of 22 Rev. 00 (09/10)
Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level.
Trigger Position Crew Actions or Behavior BOP Performs the following actions per DOA 0040-02, Localized Flooding in Plant, as directed:
Makes PA announcement.
Directs NLO to investigate leakage to torus basement.
Notifies Radiation Protection and Security as time permits.
Cue: (if desired for time compression)
When torus level is < 14.5 feet and/or at the discretion of the lead examiner, cue the crew that we are taking a time jump and that both torus wide range level meters indicate 12.5 feet and are dropping at about 1 foot per 10 minutes.
CRS Enters and directs performance of DEOP 0200-01, Primary Containment Control:
May attempt to add water to the Torus per DOP 1600-02.
Directs BOP to prevent HPCI from operating before torus level reaches 12 feet.
May direct scram preparatory actions per DGP 02-03, Reactor Scram.
Directs Team to perform a manual reactor scram before torus level reaches 11 feet.
ATC / Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed.
BOP o IF FCL > 93%, THEN reduce FCL to < 93% by inserting CRAM rods per DGP 03-04 OR in sequence rods per DGP 03-04.
o Reduce power with Recirc flow to 56 Mlbm/hr core flow.
o Start the motor suction pump AND turning gear oil pump.
o Trip hydrogen addition.
ATC / Performs manual scram per DGP 02-03, Reactor Scram, as directed.
- Depresses BOTH Scram buttons.
- Places RX MODE SW in SHUTDOWN.
o Verifies Recirc pumps run back to minimum.
o Controls reactor water level +25 to +35 inches or as directed by the Unit Supervisor.
o Verifies turbine tripped.
o Verifies generator tripped.
o Verifies aux power transfers.
BOP Performs the following actions per DEOP 200-01, Primary Containment Control, as directed:
May attempt to add water to the torus by opening the HPCI 14 valve.
Monitors/Reports DEOP 200-01 entry parameters.
Prevents HPCI from operating.
SCENARIO ILT-N-1 Page 14 of 22 Rev. 00 (09/10)
Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level.
Trigger Position Crew Actions or Behavior CRS May decide to anticipate RPV Blowdown:
Directs opening turbine bypass valves.
BOP Opens turbine bypass valves. (If directed to anticipating Blowdown)
CRS Enters DEOP 0300-01, Secondary Containment Control, and directs:
If Reactor Building Ventilation isolates when unit is scrammed, directs restarting Reactor Building Ventilation.
BOP Performs DEOP 300-01, Secondary Control, as directed:
Time permitting, restarts Reactor Building Ventilation (if it isolates when the reactor is scrammed).
Cue: (if time compression was used above) 10 minutes after the initial time compression cue was given and/or at the discretion of the lead examiner, cue the crew that both the Torus wide range level meters indicate 11.5 feet and are dropping at a rate of about 1 foot per 10 minutes.
CRS When informed that torus level is approaching 11 feet:
Enters DEOP 0400-02, Emergency Depressurization, and directs:
Initiation of Isolation Condenser to maximum flow.
Verification that SP/L >6 feet.
Opening all ADS valves.
Verification relief valves are open.
Due to less than 5 ADSVs open, directs other Emergency Depressurization systems initiated:
- Directs turbine bypass valves opened. (May already be open for anticipation of Emergency Depressurization)
BOP Performs DEOP 0400-02, Emergency Depressurization, actions as directed:
Initiates Isolation Condenser to maximum flow Verifies that SP/L >6 feet.
Opens ADS valves.
- Verifies all relief valves are open. Determines and announces E ADSV did not open.
BOP Opens turbine bypass valves. (May already be open due to anticipating Blowdown)
SCENARIO ILT-N-1 Page 15 of 22 Rev. 00 (09/10)
Event Five and Six- An ECCS suction line break occurs resulting in a lowering torus water level.
Trigger Position Crew Actions or Behavior Events 5 and 6 / Scenario Completion Criteria:
- Reactor Scrammed,
- HPCI operation prevented,
- RPV depressurization in progress, AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-1 Page 16 of 22 Rev. 00 (09/10)
Critical Tasks:
With the Reactor at power and it is determined that suppression pool water (PC-3.1) level cannot be held above 11 feet wide range, Manually Scram the Reactor.
When suppression pool level cannot be maintained above top elevation of (PC-3.2) the HPCI Exhaust (12), TRIP AND PREVENT HPCI operation irrespective of adequate core cooling.
When it is determined that suppression pool water level cannot be held (PC-3.3) above 11 feet wide range, INITIATE emergency depressurization SCENARIO ILT-N-1 Page 17 of 22 Rev. 00 (09/10)
REFERENCES PROCEDURE TITLE DAN 902-3 B-4 ISOL CONDR VLVS OFF NORM DAN 902-3 C-4 ISOL CONDR TEMP HI DAN 902-4 A-15 ISOL CONDR CH A/B INITIATION DAN 902-4 C-23 TORUS NARROW RANGE WTR LVL LO DAN 902-5 A-3 ROD DRIFT ALARM DAN 902-5 B-3 ROD WORTH MIN BLOCK DAN 902-5 C-3 ROD OUT BLOCK DAN 923-1 C-3 U2 OR U3 SERV WATER PP TRIP DAN 923-4 A-3 (B-2) U2 E(W) RBFD SUMP LVL HI-HI DEOP 0100-00 RPV CONTROL DEOP 0200-01 PRIMARY CONTAINMENT CONTROL DEOP 0300-01 SECONDARY CONTAINMENT CONTROL DEOP 0400-02 EMERGENCY DEPRESSURIZATION DGA 07 UNPREDICTED REACTIVITY ADDITION DGP 02-03 REACTOR SCRAM DGP 03-04 CONTROL ROD MOVEMENTS DOA 0010-03 EARTHQUAKES DOA 0040-02 LOCALIZED FLOODING IN PLANT DOA 0300-06 RPIS FAILURE DOA 0300-12 MISPOSITIONED CONTROL ROD DOA 0600-01 TRANSIENT LEVEL CONTROL DOA 3900-01 LOSS OF COOLING BY SERVICE WATER SYSTEM DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0400-02 ROD WORTH MINIMIZER STARTUP OF SECOND OR THIRD REACTOR FEED PUMP OR SHIFTING TO DOP 3200-03 ALTERNATE REACTOR FEED PUMP DOS 0300-06 CRD ABNORMALITY RECORD DOS 1600-02 TORUS LEVEL VERIFICATION USING LOCAL SIGHT GLASS T.S. 3.1.3 CONTROL ROD OPERABILITY T.S. 3.5.3 IC SYSTEM SCENARIO ILT-N-1 Page 18 of 22 Rev. 00 (09/10)
EXAM ILT-N-1 QUANTITATIVE ATTRIBUTES 6 Total malfunctions (5-8) 1 Malfunctions after EOP entry (1-2) 3 Abnormal events (2-4) 2 Major transients (1-2) 2 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 3 Critical tasks (2-3)
SCENARIO ILT-N-1 Page 19 of 22 Rev. 00 (09/10)
Computer Aided Exercise Programs
- NRC Exam ILT 10-1
- SCENARIO ILT-N-1.cae
- Written by DREFV
- Rev 00
- Date 09/10
- INITIAL CONDITIONS
- Prevents the 2/3 DFP from starting.
irf w14 true imf ser1792 off
- Binds 'E' ADSV full closed.
imf ads3ebn 0.0
- EVENT TRIGGERS
- Event Trigger 1 Fails all control rod F-05 RPIS indications.
trgset 1 "0" imf rdfailf5 (1)l2 imf cr043s (1) badl2
- Event Trigger 2 inserts a trip of the 2B service water pump. (takes several seconds to occur) trgset 2 "0"l2 imf q22 (2)l2
- Event Trigger 3 Returns the Remote for stopping the 2/3 DFP back to normal.
trgset 3 "0"l4 irf w14 (3) false"l4 imf ser1792 (3 2) normall4
- Event Trigger 4 Drifts the Iso Cond Initiation setpoint.
trgset 4 "0"l4 imf icspdft (4) 0.0l6
- Event Trigger 5 Inserts an ECCS suction line break.
trgset 5 "0"l6 trg 5 "ramp wamwlps 200.0 201.0 1:00:00"l6 imf csbrksev (5) 100.0l6 imf csppbbrk (5 4:00) 100.0l8
- END SCENARIO ILT-N-1 Page 20 of 22 Rev. 00 (09/10)
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 1 at 695 MWe, Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: MFLCPR @ 0.881 Leading Thermal Limit: MAPRAT @ 0.819 Action limit: 0.980 Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements None LCO Started: LCO Expires:
TS Cause:
Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Seperator Pit as required. Outside operator monitor and pump as necessary.
Today Chem Cleaning ventilation status:
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746.
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150.
HVAC -1 ON.
HV-2 running.
Switchyard Status Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 KV Yard due to excavation being performed in the area.
Marv Evans reports holes being dug near manual switch disconnects 345KV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood.
SSC called from the 345KV yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful.
SCENARIO ILT-N-1 Page 21 of 22 Rev. 00 (09/10)
Unit 2 Plant Status Today Unit 2 Activities
- Shift 1 Activities ****
?
?
- Shift 2 Activities ****
? Load was dropped last shift per TSO. Load pickup expected next shift.
? Maintain current load.
- Shift 3 Activities ****
?
?
Today **** Unit 2 Procedures In-Progress **** Do Not Delete ****
?
?
SCENARIO ILT-N-1 Page 22 of 22 Rev. 00 (09/10)
Dresden Generating Station ILT-N-2 LOWER REACTOR POWER USING RECIRCULATION FLOW SPURIOUS HPCI INITIATION INDIVIDUAL RECIRC PUMP CONTROLLER SIGNAL FAILS DOWNSCALE SWAP REACTOR BUILDING SUPPLY FANS FWLC CONTROLLER SETPOINT DRIFTS HIGH STEAM LEAK IN THE DRYWELL / MANUAL SCRAM LOSS OF BUS 23-1 AND 28 / EMERGENCY DEPRESSURIZATION Rev. 00 09/10 Developed By:
Exam Author Date Approved By:
Facility Representative Date
Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-2 Class ID: 2011-301 Evaluators Operators / crew position
/ ATC
/ BOP
/ CRS Initial Conditions:
Initial Power = 80%
Turnover: Lower Reactor Power with Recirc Event Malf. Event Event No. No. Type* Description NONE RECIRC - Lower Reactor Power using Recirculation 1 R ATC Flow.
T 2 HPINIT I BOP HPCI - Spurious HPCI Initiation.
RECIRC - Individual Pump Controller Signal Fails 3 RRMBBIAS I ATC Downscale. T 4 None N BOP HVAC - Swap Reactor Building Supply Fans.
5 RLLMLS I ATC FW - FWLC Controller Drifts High.
6 I21 M TEAM Manual Scram - Steam Leak in the Drywell.
I21 EMERGENCY DEPRESSURIZE - Steam Leak inside 7 K23 M TEAM the Drywell / Loss of Bus 23-1 & 28 / ED due to K40 Exceeding Primary Containment Pressure.
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-2 Page 2 of 24 Rev. 00 (09/10)
Scenario Objective Evaluate the Teams ability to operate the plant with a Drywell Steam Leak requiring Emergency Depressurization.
Scenario Summary
- 1. Unit is at 80% power.
- 2. The following equipment is OOS:
- a. None
- 3. LCOs:
- a. None Scenario Sequence
- The Team continues reactor power reduction using recirculation flow.
- A spurious HPCI initiation occurs. The team will take action to stop HPCI and address Tech Spec requirements.
- The 2B Recirc Pump Speed Controller fails downscale. The NSO will lockout 2B Recirc Pump scoop tube.
(May lockout both recirc scoop tubes)
- The Team swaps Reactor Building Supply Fans.
- A small steam leak in the Drywell begins. The Team will scram the reactor due to the rising Drywell pressure.
- Shortly after the reactor scram, the leak will increase enough that Containment sprays are required. When the Team attempts to spray the Drywell, Bus 23-1 and 28 trip resulting in a loss of one Division of Drywell Spray.
The leak worsens and Primary Containment pressure will exceed the PSP limit and require the Team to Emergency Depressurize.
Event One - Lower Reactor Power Using Recirculation Flow
- The Team continues reactor power reduction using recirculation flow.
Malfunctions required: 0
- (None)
Success Path:
- The Team continues reactor power reduction using recirculation flow.
SCENARIO ILT-N-2 Page 3 of 24 Rev. 00 (09/10)
Event Two - Spurious HPCI Initiation
- A Spurious HPCI Initiation occurs.
Malfunctions required: 1
- Spurious HPCI Initiation Success Path:
- The Team isolates the HPCI steam supply.
Event Three - 2B Recirc Speed Controller Failure
- The 2B Recirc Speed Controller fails downscale.
Malfunctions required: 1
- (2B Recirc Speed Controller output fails down)
Success Path:
- Locks out 2B (Or both) scoop tube(s).
- Performs DOA 0202-03, Reactor Recirc System Flow Control Failure.
Event Four - Swap Reactor Building Supply Fans
- When directed, swaps Reactor Building Supply Fans.
Malfunctions required: 0
- (None)
Success Path:
- Swaps Reactor Building Supply Fans.
Event Five - FWLC Setpoint Drifts High
- The FWLC setpoint will drift high.
Malfunctions required: 1
- (FWLC setpoint failure)
Success Path:
SCENARIO ILT-N-2 Page 4 of 24 Rev. 00 (09/10)
Event Six - Steam Leak in the Drywell / Manual Scram A small steam leak develops in the Drywell.
Malfunctions required: 1
- (Steam Leak in the Drywell)
Success Path:
- Performs a manual scram.
Event Seven - Loss of Bus 23-1 and 28 / Emergency Depressurization The steam leak in the Drywell increases enough to require Containment sprays. When the Team attempts to spray the Drywell, Bus 23-1 and 28 trip on overcurrent. The leak worsens and Primary Containment pressure exceeds the PSP limit. The Team performs an Emergency Depressurization.
Malfunctions required: 2
- (Steam leak in the Drywell).
- (Bus 23-1 and 28 overcurrent trips).
Success Path:
- The Team performs an Emergency Depressurization.
SCENARIO ILT-N-2 Page 5 of 24 Rev. 00 (09/10)
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ-JA-150-08, SIMULATOR EXAMINATION BRIEFING.
- a. Direct the crew to perform their briefs prior to entering the simulator.
- b. Provide the Team with a copy of DGP 03-01, Power Changes, marked up for load drop through inserting control rods to reduce FCL prior to reducing recirc flow.
- c. Provide a marked up CRSP for the rod insertion including a REMA for routine load drop.
- d. Provide the Team with a clean copy of DOP 5750-02, Reactor Building Ventilation.
2 Simulator Setup (the following steps can be done in any logical order)
- a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used)
- 1) Adjust control rods to establish FCL @ ~95%.
- 2) Adjust Recirc flow to establish ~730 MWe.
- b. Cut in/out Cond Demins as needed to establish DP high in normal band in preparation for load drop.
- c. Ensure running Condensate pump amps within limits.
- d. Advance the chart recorders.
3 Verify the following simulator conditions:
- a. 2B Recirc M/A Controller Bias RRMBBIAS is at 0.0 to -0.01. Adjust the bias pot as necessary.
- b. 2A and 2B Reactor Building Vent Fans running with 2C Reactor Building Vent Fan off.
NOTE: Do NOT run the initial setup CAEP file until the above setup is completed.
4 Run the initial setup CAEP file: ILT-N-2.cae NOTE: Some analog overrides do not load correctly from a CAEP file. (See SWR #8652) Therefore it is necessary to setup override RRMBBIAS manually.
- a. Open the ACTION Program and perform the following:
- 1) Select tab OVERRIDE AI
- 2) Locate override RRMBBIAS and open it.
- 3) Set Ramp Start Value to -0.001
- 4) Set Ramp time to 4:00
- 5) Set Delay Time to 0:00
- 6) Set Analog Value to -0.1
- 7) Set Event Trigger to 3
- 8) Click Insert.
5 Place the following equipment out of service:
- a. None SCENARIO ILT-N-2 Page 6 of 24 Rev. 00 (09/10)
6 Complete the Simulator Setup Checklist.
Symbols are used throughout the text to identify specific items as indicated below:
Critical Tasks Required Actions Optional Actions SCENARIO ILT-N-2 Page 7 of 24 Rev. 00 (09/10)
Event One - Lower Reactor Power Using Recirculation Flow Trigger Position Crew Actions or Behavior NOTE:
The turnover directs the crew to reduce load using recirc flow to 58 Mlbm/hr core flow.
FLOOR INSTRUCTOR / SIMULATOR OPERATOR / ROLE PLAY:
If the team announces that they will adjust gains, inform them an extra NSO will perform 1
the adjustment. Then:
Tell the team you are time compressing.
Direct the SIMULATOR OPERATOR to activate trigger 1 and verify gains within limits.
Inform the team the gains are adjusted.
(NOTE: trigger 1 can be toggled OFF, then back ON as many times as necessary to adjust gains)
CRS Directs NSO to reduce load to 58 Mlbm/hr core flow using recirculation flow.
ATC Performs the following actions per DGP 03-01, Power Changes, and DOP 0202-03, Reactor Recirculation Flow Control System Operation, as directed:
Uses MASTER RECIRC FLOW CONTLR, 2(3)-262-22, potentiometer to reduce flow AND control reactor power.
Notifies CRS when at 58 Mlbm/hr core flow.
BOP Monitors Panels.
Event 1 Completion Criteria:
- Core Flow dropped to 58 Mlbm/hr, AND / OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-2 Page 8 of 24 Rev. 00 (09/10)
Event Two - Spurious HPCI Initiation Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
At the discretion of the Lead examiner, activate trigger 2, which causes a Spurious HPCI 2
Initiation.
BOP Announces initiation of HPCI.
TEAM Determines and announces HPCI injection not needed.
BOP May place HPCI Flow Controller to MAN and adjust demand to 0 to stop injection.
CRS Directs ANSO to shutdown HPCI either per DOP 2300-04, High Pressure Coolant Injection System (HPCI) Shutdown, or its Hard Card.
BOP Shuts HPCI down as directed:
Places MO 2-2301-4 valve control switch in Pull-To-Lock.
Places MO 2-2301-14 valve control switch in Pull-To-Lock.
Places HPCI on the turning gear.
NOTE:
If the HPCI Trip push button is used to stop HPCI, releasing the push button allows HPCI to restart.
CRS May enter DGA 07, Unpredicted Reactivity Addition.
Notifies Shift Manager and IMD of Event.
ROLE PLAY:
Respond as individual notified.
QNE to evaluate effect of transient on the RX: wait 2 min, and then report RX parameters are within their limits.
ATC Monitors panels and assists as directed.
CRS References Technical Specifications and determines:
TS 3.5.1 Action G applies. Verify Isolation Condenser is OPERABLE immediately AND restore HPCI System to OPERABLE status within 14 days.
Event 2 Completion Criteria:
- Actions taken to shutdown HPCI,
- Tech Specs addressed, AND / OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-2 Page 9 of 24 Rev. 00 (09/10)
Event Three - 2B Recirc Speed Controller Failure Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
3 When the BOP is NOT near the 902-4 panel and at the discretion of the Lead Examiner, activate trigger 3, which will cause 2B Recirc Speed Controller to slowly fail downscale.
ATC Determines and announces Recirculation Flow transient occurring by observing any of the following:
o Decrease in Recirc Loop Flow as indicated on FR 2-260-7.
o Decrease in Rx Power indicated on WI 2-6040-59.
o Decrease in Core Flow and DP on DPR/FR 2-263-110.
o Decrease in Total Stm Flow on UR 2-640-27.
o Decrease in Rx Pressure on P/FR 2-640-28.
o Decrease in Total Feedwater Flow on UR 2-640-26.
o Decrease in Power Level on RR 2-750-10A/D, & RR 2-750-10B/C.
o Alarm 902-4 E-6, 2A/B RECIRC PPS SPEED MISMATCH.
CRS Enters DOA 0202-03, Reactor Recirc System Flow Control Failure.
May enter DGA 07, Unpredicted Reactivity Addition.
NOTE: The operator should lockout 2B Recirc M-G scoop tube. The operators may lockout BOTH scoop tubes although ONLY 2B Recirc M-G is changing speed.
ATC Performs the following actions per DOA 0202-03, Reactor Recirc System Flow Control Failure:
Places 2B M-G Set Scoop Tube Power Lockout Reset Switch in the Lockout position.
May also place 2A M-G Set Scoop Tube Power Lockout Reset Switch in the Lockout position.
Verifies Core thermal power <2957 MWt.
Verifies Recirc Pump NOT operating in the instability region of the MG Set voltage regulator AND uncontrolled pump flow AND speed oscillations are NOT occurring.
Verifies NOT operating in the unstable region of the Power / Flow Map.
SCENARIO ILT-N-2 Page 10 of 24 Rev. 00 (09/10)
Event Three - 2B Recirc Speed Controller Failure Trigger Position Crew Actions or Behavior ATC Completes actions of Recirc M-G Lockout in DOP 0202-12, Recirculation Pump Motor Generator Set Scoop Tube Operation.
Verifies alarm is received on annunciator 902-4 C-5 (1), 2B (2A) RECIRC M-G SCOOP TUBE PWR FAILURE.
Places 2B (& 2A) recirc pump speed control transfer stations in manual (MAN) at panel 902-4:
- 2B (& 2A) RECIRC PP SPEED CONTLR, 2-262-25B (& 2A)
Verify MASTER RECIRC FLOW CONTLR, 2-262-22, is in manual (MAN).
At the recirc pump speed control transfer station with the locked out scoop tube, rotate the potentiometer counterclockwise to set speed demand to minimum (30%):
- 2B (& 2A) RECIRC PP SPEED CONTLR, 2-262-25B (& 2A)
At panel 902-4, place an Equipment Status Tag on 2B (& 2A) M-G SET SCOOP TUBE POWER LOCKOUT RESET switch stating the reason the recirc MG set scoop tube is locked out.
CRS Verifies actions of DOA 0202-03 and DOP 0202-12 are carried out.
May reference DOA 0500-01, Inadvertent Entry into the Unstable Region of the Power to Flow Map.
TEAM Performs DOS 0202-02. Jet Pump Operability and Degradation, step I.5 to verify Recirc Loop flow mismatch within limits.
NOTE: The operators may lockout the scoop tube(s) before the Tech Spec limit (Jet pump loop flow mismatch 10% of rated core flow when operating at < 70% of rated core flow) is reached. If that occurs, the Examiners can pose a follow up question to the CRS on requirements if the Jet pump loop flow mismatch is exceeded.
CRS References Technical Specifications and determines:
TS 3.4.1 Action B.1 may apply. If Jet pump loop flow mismatch is exceeded, declare the recirculation loop with lower flow to be "not in operation within 2 hrs.
Event 3 Completion Criteria:
- 2A (& 2B) Recirc Scoop Tubes locked out, AND/OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-2 Page 11 of 24 Rev. 00 (09/10)
Event Four - Swap Reactor Building Supply Fans Trigger Position Crew Actions or Behavior ROLE PLAY:
At the direction of the Lead Examiner, call as the Shift Manager and direct the Team to start 2C Reactor Building Vent Fan and secure 2B Reactor Building Vent Fan.
NLO stationed at Reactor Building Vent Fans: If asked, report that the Reactor Building Vent Fans operated as expected.
CRS Directs starting 2C Reactor Building Vent Fan and securing 2B Reactor Building Vent Fan per DOP 5750-02, Reactor Building Ventilation.
BOP Performs DOP 5750-02, Reactor Building Ventilation, as follows.
Places switch 2B RBX vent fan C/S in TRIP.
IMMEDIATELY places switch for 2C RBX vent fan C/S in CLOSE.
ATC Monitors panel, provides assistance as directed.
Event 4 Completion Criteria:
- Reactor Building Vent Fans swapped, AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-2 Page 12 of 24 Rev. 00 (09/10)
Event Five - FWLC Controller Setpoint Drifts High Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
4 At the discretion of the Lead Examiner, activate trigger 4, which causes the FWLC setpoint to drift high.
ROLE PLAY:
Support Personnel: respond that you will assist as directed.
TEAM Determines RPV level is increasing.
CRS Enters DOA 0600-01, Transient Level Control.
Directs ATC to control RPV level manually.
ATC Places FWLC in MAN and manually controls RPV level.
BOP Assists as directed.
TEAM May enter DGA 07, Unpredicted Reactivity Addition.
CRS Contacts support personnel for assistance.
SIMULATOR OPERATOR:
When RPV water level is stabilized, and at the discretion of the Lead Examiner, delete the FWLC malfunction and report, as the Shift Manager, that IMD has replaced a FWLC card, and the team is directed to transfer the FWRVs to Master Auto from Master Manual.
CRS Directs the team to transfer FWRVs to Master Auto from Master Manual, per DOP 0600-06.
TEAM Places FWRVs to Master Auto from Master Manual, per DOP 0600-06.
Match Master Control Station setpoint to actual RPV water level.
Place Master Control Station in Auto.
Adjust Master Control Station setpoint to desired RPV water level.
Place Rx Lo Flow Control Station in Auto.
Event 5 Completion Criteria:
- RPV level stabilized, AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-2 Page 13 of 24 Rev. 00 (09/10)
Event Six - Small Steam Leak in Drywell / Manual Scram Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
5 At the discretion of the Lead examiner, activate trigger 5, which causes a small Main Steam line leak to develop in the Drywell.
Role Play:
U-3 NSO to report Drywell pressure status: Report U-3 Drywell pressure is 1.2 psig and steady.
TEAM Recognizes and announces that Drywell pressure is slowly rising.
ATC Performs the following actions per DOA 0040-01, Slow Leak, as directed:
Maintain Level with FWLCS (immediate action).
Monitors leakage rate, reactor water level, and Drywell pressure.
Inserts manual reactor scram prior to 1.5 psig DW pressure BOP Performs the following actions per DOA 0040-01 Slow Leak, as directed:
Notifies Shift Supervisor and Rad Protection.
Monitors for EP conditions.
Directs search for leak.
Shutdown H2 Addition.
Makes PA announcement.
o Verify Crib House inlet temperature is <95 F.
Initiates Torus cooling per Hard Card.
Role Play:
NLO to check Drywell CAM: (wait 2 min.)
Report, The Drywell CAM is trending up.
NLO to search for leak Report, I am on my way out to check for leaks.
NLO to check Cribhouse inlet temperature: (wait 5 min.)
o Report, Cribhouse inlet temp is 70 F.
CRS Enters and directs performance of DOA 0040-01, Slow Leak.
Set Scram contingency of 1.5 psig DW pressure.
May enter DGP 02-03, Reactor Scram, and direct taking scram preparatory actions.
Prior to reaching the Drywell Pressure scram setpoint, directs a manual reactor scram per DGP 02-03, Reactor Scram.
ATC / Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed.
BOP Starts MSP and TGOP.
Trips H2 addition.
SCENARIO ILT-N-2 Page 14 of 24 Rev. 00 (09/10)
Event Six - Small Steam Leak in Drywell / Manual Scram Trigger Position Crew Actions or Behavior ATC Performs the following actions per DGP 02-03, Reactor Scram, as directed:
Presses scram pushbuttons Places mode switch in shutdown Check rods inserted.
Verifies Recirc Pumps run back.
Maintains RPV/L between +25 and +35 inches or as directed by Unit Supervisor.
Inserts SRM/IRMs.
BOP Verifies Turbine and Generator tripped.
Check auxiliary power transferred to RAT.
May start maximum Torus cooling per DGP 02-03 Hardcard.
TEAM Verifies the following as time allows:
Group Isolations Automatic start of ECCS systems Automatic start of EDGs.
CRS Enters DEOP 100, RPV Control, due to high Drywell Pressure and/or low Reactor water level.
Event 6 Completion Criteria:
- Reactor scrammed.
AND/OR,
- Or at the discretion of the Lead Examiner.
SCENARIO ILT-N-2 Page 15 of 24 Rev. 00 (09/10)
Event Seven -Loss Of Bus 23-1 and 28 / Emergency Depressurization Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
6 At the discretion of the Lead Evaluator, activate trigger 6, which increases the steam leak in the DW enough to require initiating Drywell sprays.
TEAM Recognizes and announces that Drywell pressure is rising rapidly.
CRS Enters DEOP 0200-01, Primary Containment Control, when Drywell pressure reaches 2 psig and performs/directs:
Verifying of Torus water level <27.5 ft.
Initiation of Torus sprays.
Monitoring of Drywell temperature (Drywell sprays may be initiated for temperature control)
Monitoring Torus Temperature.
Monitors Torus level.
ROLE PLAY:
EO to check operation of the EDGs after auto start: Wait 3 minutes and then report the EDGs are operating normally.
CRS Per DEOP 0200-01, Primary Containment Control, when Drywell pressure reaches 9 psig directs:
Verifying Recirc Pumps and Drywell Coolers tripped.
Verifies the Drywell spray initiation curve prior to the operator manually opening any of the Drywell spray valves. Then directs the Operator to initiate Drywell Sprays.
Initiation of Drywell sprays.
BOP Performs DEOP 0200-1, Primary Containment Control, actions as directed:
Monitors Drywell temperature and pressure and attempts to initiate torus sprays and drywell sprays pre Hard Card LPCI/CCSW OPERATION, as directed.
SIMULATOR OPERATOR:
7 Verify trigger 7 automatically activates when MO 1501-27A begins to open. This trips Bus 23-1 and 28 on overcurrent. As a result, Div. I of Drywell sprays cannot be initiated.
ATC / Initiates Drywell Sprays.
BOP Notices and reports the loss of ECCS equipment powered from Bus 23-1.
Reports the loss of Bus 23-1 and 28.
Reports the B LOOP of Drywell Spray is initiated, but A LOOP could not be initiated.
US Directs Operators to investigate the loss of Bus 23-1 and 28. Directs entry into DGA-12 for Partial Loss of AC Power.
SCENARIO ILT-N-2 Page 16 of 24 Rev. 00 (09/10)
Event Seven -Loss Of Bus 23-1 and 28 / Emergency Depressurization Trigger Position Crew Actions or Behavior BOP Refers to DAN 902-8 F-5, 4KV Bus 23-1 Overcurrent.
As directed, Performs DGA-12, Partial or Complete Loss of AC power:
Takes actions per DGA 12 for any faulted buses.
Recognizes the loss of Bus 28.
Dispatches EO to Bus 23-1 to investigate the loss of Bus 23-1.
May enter DOA 6500-01, 4kV Breaker Trip.
NOTE:
If team crossties Bus 28 and 29 and Bus 29 trips, allow the team to re-energize Bus 29 from Bus 24-1.
ROLE PLAY:
EO to bus 23-1: Wait 2 min. then report The feed breaker to Bus 23-1 from Bus 23 has an overcurrent flag up on it and will not reset.
EO to Bus 28: Wait 2 min. then report Bus 28 has an overcurrent flag up and will not reset ROLE PLAY:
If contacted as EMD Foreman: Respond, I will report to Bus 23-1.
NOTE: EMD personnel will not report back.
DO NOT REPORT BACK ON ATTEMPTS TO OPEN DW SPRAY VALVE UNTIL after Torus bottom pressure is > 20 #.
ATC / May dispatch an Operator to attempt to manually open A LOOP of drywell spray.
BOP ROLE PLAY:
EO to open A LOOP of drywell spray: Wait 2 min, then report The handwheel for MO 2-1501-28A will not engage.
SIMULATOR OPERATOR:
8 After the Team has attempted to put on Drywell Sprays and at the discretion of the Lead Evaluator, activate trigger 8, which increases the Main Steam line leak enough to require the Team to Emergency Depressurize due to exceeding PSP curve.
CRS May anticipate Emergency Depressurization and direct opening turbine bypass valves.
BOP If directed, opens turbine bypass valves.
SCENARIO ILT-N-2 Page 17 of 24 Rev. 00 (09/10)
Event Seven -Loss Of Bus 23-1 and 28 / Emergency Depressurization Trigger Position Crew Actions or Behavior CRS Recognizes that Emergency Depressurization per DEOP 0400-02 is necessary due to one of the below:
o o Drywell temperature cannot be maintained below 281 F.
o Exceeding the PSP.
Enters DEOP 400-02, Emergency Depressurization, and directs:
If Drywell pressure >2 psig, prevention of injection from LPCI/CS pumps not needed for core cooling.
Initiation of Iso Condenser to maximum flow.
Verification of Torus level > 6ft.
Opening all ADS valves.
Verifying all relief valves open.
BOP Performs DEOP 400-02, Emergency Depressurization, as directed.
If Drywell pressure is greater than +2 psig, prevents injection from LPCI/CS pumps not needed for Core cooling per Hard Card, LPCI INJ/CC CONTROL/SHUTDOWN.
Initiates Iso Condenser to maximum flow per Hard Card, ISOLATION CONDENSER.
Verifies Torus level >6 feet.
Opens all ADS valves Verifies all relief valves open.
Event 7 / Scenario Completion Criteria:
- Emergency depressurization in progress.
AND/OR
- Or at the discretion of the Lead Evaluator.
SCENARIO ILT-N-2 Page 18 of 24 Rev. 00 (09/10)
Critical Tasks (RPV-5.1) When drywell pressure exceeds the suppression chamber spray initiation pressure or before containment pressure exceeds the Pressure Suppression Pressure, INITIATE drywell/containment sprays, while in the safe region of the drywell spray initiation limit or above the containment spray initiation pressure.
(PC-6.1) When suppression chamber pressure cannot be maintained below the pressure suppression pressure limit, INITIATE emergency depressurization before drywell design pressure is exceeded.
SCENARIO ILT-N-2 Page 19 of 24 Rev. 00 (09/10)
REFERENCES PROCEDURE TITLE DAN 902-3 C-5(1) 2B(A) RECIRC M-G SCOOP TUBE PWR FAILURE DAN 902-3 D-12 HPCI PP FLOW LOW DAN 902-4 E-6 2A/B RECIRC PPS SPEED MISMATCH DAN 902-8 F-5 4KV BUS 23-1 OVERCURRENT DEOP 0100 RPV CONTROL DEOP 0200-01 PRIMARY CONTAINMENT CONTROL DEOP 0400-02 EMERGENCY DEPRESSURIZATION DGA 07 UNPREDICTED REACTIVITY ADDITION DGA 12 PARTIAL OR COMPLETE LOSS OF AC POWER DGP 02-03 REACTOR SCRAM DGP 03-01 POWER CHANGES DOA 0040-01 SLOW LEAK DOA 0202-03 REACTOR RECIRC SYSTEM FLOW CONTROL FAILURE DOA 0500-01 INADVERTENT ENTRY INTO THE UNSTABLE REGION OF THE POWER TO FLOW MAP DOA 0600-01 TRANSIENT LEVEL CONTROL DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0202-03 REACTOR RECIRCULATION FLOW CONTROL SYSTEM OPERATION DOP 0202-12 RECIRCULATION PUMP MOTOR GENERATOR SET SCOOP TUBE OPERATION DOP 0400-02 ROD WORTH MINIMIZER DOP 0600-06 FEEDWATER REGULATING VALVE (FWRV) OPERATION DOP 2300-04 HIGH PRESSURE COOLANT INJECTION SYSTEM (HPCI) SHUTDOWN DOP 4700-03 U2/3 IA CROSS-CONNECT OPERATION DOP 5750-02 REACTOR BUILDING VENTILATION DOS 0202-02 JET PUMP OPERABILITY AND DEGRADATION TS 3.5.1 ECCS OPERATING TS 3.4.1 RECIRCULATION LOOPS OPERATING SCENARIO ILT-N-2 Page 20 of 24 Rev. 00 (09/10)
ILT-N-2 Quantitative Attributes 6 Total malfunctions (5-8) 2 Malfunctions after EOP entry (1-2) 3 Abnormal events (2-4) 2 Major transients (1-2) 2 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 2 Critical tasks (2-3)
SCENARIO ILT-N-2 Page 21 of 24 Rev. 00 (09/10)
CAEP Files
- ILT-N-2.cae
- For ILT Class 10-1 NRC Exam
- Written by DREFV
- Rev 00
- Date 09/10
- INITIAL CONDITIONS
- Sets APRM Master Gain pot to 1.0 irf niagain 1.0
- EVENT TRIGGERS
- Event Trigger 1 sets gain for all 6 APRMs.
trgset 1 "0" trg 1 "irf niagainf true"
- Event Trigger 2 Inserts a spurious HPCI initiation.
trgset 2 "0"l2 imf hpinit (2)l2
- Event Trigger 3 Drifts the 2B Recirc PP speed controller bias to cause speed to drop.
trgset 3 "0"l2 ior rrmbbias (3) -0.1 4:00l2
- Event Trigger 4 Drifts the FWLCS setpoint.
trgset 4 "0"l4 irf rllmls (4) 40.0 5:00l4
- Event Trigger 5 Inserts a steam leak upstream of the restrictors.
trgset 5 "0"l4 imf i21 (5) 0.002 5:00 0.0025l4
trgset 6 "0"l6 trg 6 "mmf i21 0.4"l6
- Event Trigger 7 Activates when DW Spray valve MO 1501-27A starts to open.
- Trips Bus 23-1 and Bus 28 on overcurrent.
trgset 7 "lpv27a .gt. 0.01"l6 imf k23 (7)l6 imf k40 (7)l8
- Event Trigger 8 Increases the steam leak from 2.0% to 6.0% over 5 minutes.
trgset 8 "0"l8 trg 8 "mmf i21 6.0 5:00 2.0"l8
- END SCENARIO ILT-N-2 Page 22 of 24 Rev. 00 (09/10)
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 1 at 730 MWe, Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: MFLCPR @ 0.881 Leading Thermal Limit: MAPRAT @ 0.819 Action limit: 0.980 Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements None LCO Started: LCO Expires:
TS Cause:
Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Seperator Pit as required. Outside operator monitor and pump as necessary.
Today Chem Cleaning ventilation status:
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746.
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150.
HVAC -1 ON.
HV-2 running.
Switchyard Status Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area.
Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood.
SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful.
SCENARIO ILT-N-2 Page 23 of 24 Rev. 00 (09/10)
Unit 2 Plant Status Today Unit 2 Activities
- Shift 1 Activities ****
?
?
- Shift 2 Activities ****
? Load was dropped last shift for the TSO. The TSO requests load dropped at beginning of shift. Drop power to 58 Mlbm/hr core flow using recirc flow . Do not secure additional RFPs or Condensate/booster pumps. Load is expected to be picked up early next shift.
? When directed by the Shift Manager, swap Reactor Building Supply Fans to support Maintenance. Start 2C and secure 2B Reactor Building Supply Fans.
- Shift 3 Activities ****
?
?
Today **** Unit 2 Procedures In-Progress **** Do Not Delete ****
? DGP 03-01, Power Changes.
?
SCENARIO ILT-N-2 Page 24 of 24 Rev. 00 (09/10)
Dresden Generating Station ILT-N-3 SHUTDOWN U2 EDG FOLLOWING SURVEILLANCE TESTING SPURIOUS ERV OPENING INDICATED FLOW TO CRD FLOW CONTROLLER FAILS HIGH B MED RANGE LEVEL INSTRUMENT FAILS LOW WITH A PARTIAL HALF SCRAM CRD PUMP TRIP LOSS OF SERVICE WATER / MANUAL REACTOR SCRAM LOSS OF RPV WATER LEVEL INDICATION / RPV FLOODING Rev. 00 09/10 Developed By:
Exam Author Date Approved By:
Facility Representative Date
Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-3 Class ID: 10-01 (2011-301)
Evaluators Operators / crew position
/ ATC
/ BOP
/ CRS Initial Conditions: Initial Power = 5%
Turnover: Shutdown the U2 EDG per DOS 6600-01 Event Malf. Event Event No. No. Type* Description EDG - Shutdown the U2 EDG Following Surveillance 1 NONE N BOP Testing.
ADS3CBN 2 C BOP ERV - Spurious ERV Opening. T ADS3CSD 3 RDFCFHI C ATC CRD - Indicated Flow to CRD Flow Controller Fails High.
B15 NBI - B Med Range Level Inst Fails Low with Partial Half 4 I ATC NVM100BP Scram. T 5 RDPPATRP C ATC CRD - CRD Pump 2A Trip.
6 Q31 M TEAM Manual Scram - Loss of all Service Water.
AT5 NVM100BP FLOODING - Loss of RPV Level Indication Due to Loss of 7 NVML29AP M TEAM Instrument Power And Transmitter Failures NVML29BP NVML112P
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-3 Page 2 of 27 Rev. 00 09/10
Scenario Objective Evaluate the crews ability to perform during a loss of RPV water level instrumentation.
Scenario Summary
- 1. Unit is at 5% power.
- 2. Startup in progress. On hold for Steam Tunnel Entry.
- 3. The following equipment is OOS:
- a. None
- 4. LCOs:
Scenario Sequence
- The Team shuts down the U2 EDG following surveillance completion.
- The indicated flow to the CRD Flow Controller fails high. This causes the controller demand to the CRD FCV to fail low. If the team does not recognize the failure quickly and restore CRD cooling flow, the ROD DRVE HI TEMP alarm comes up. The Team takes manual control of the CRD Flow Controller to restore system parameters to normal.
- Medium Range B RPV level instrument fails low. A partial half scram occurs requiring the Team to insert a manual half scram on the B RPS channel. The SRO will reference Tech Specs for failed level instrument and partial half scram.
- 2A CRD pump begins to degrade as evidenced by changing CRD system parameters and an accumulator charging water low pressure alarm. When sent to check, the NLO reports that the 2A CRD pump is making a loud grinding noise. The NSO will swap CRD pumps, placing 2B CRD pump in service. If the operators do not swap CRD pumps in a timely manner, 2A CRD pump eventually trips.
- A large leak occurs downstream of the Service Water strainers. The Team performs a manual Reactor scram due to loss of cooling to critical plant equipment.
- After the Team has the plant stabilized, RPV level indication will fail. The following failures are simulated:
ATS feed from MCC 29-1 trips causing loss of MR A and FZ B.
Common sensing leg leak for the 2202-5 instrument rack (MR B, NR A & WR) causing them to ramp downscale.
Bailey System NR B circuit card fails causing it to ramp upscale.
- The Team will perform RPV flooding. LPCI injections valves will fail to open from the control room. The Team sends an operator to open one of them locally.
SCENARIO ILT-N-3 Page 3 of 27 Rev. 00 09/10
Event One - Shutdown U2 EDG Following Surveillance Testing
- The crew shuts down the U2 EDG following surveillance testing.
Malfunctions required: 0
- None.
Success Path:
- An ERV spuriously opens.
Malfunctions Required: 1
- (ERV fails open)
Success Path:
- Performs DOA 0250-01, Relief Valve Failure, and pulls the ERVs control power fuses.
Event Three - Indicated Flow to CRD Flow Controller Fails High
- Indicated flow to the CRD Flow Controller fails high. This causes the controller demand to the CRD FCV to fail low.
Malfunctions required: 1
- (Indicated flow to the CRD Flow Controller fails high)
Success Path:
- The crew takes manual control of the CRD Flow Controller.
Event Four - B Med Range Level Instrument Fails Low with a Partial Half Scram
- B Medium Range Level Instrument fails low and a partial half scram occurs.
Malfunctions required: 2
- (Failure of Medium Range B level Instrument)
- (Partial Half Scram on the B channel)
Success Path:
- Manually inserts a B RPS channel half scram.
- References the Tech Specs for an inoperable level instrument and the partial half scram.
SCENARIO ILT-N-3 Page 4 of 27 Rev. 00 09/10
Event Five - Loss of CRD Pump
- 2A CRD pump begins to degrade as evidenced by changing CRD system parameters and an accumulator charging water low pressure alarm. When sent to check, the NLO reports that the 2A CRD pump is making a loud grinding noise. The NSO will swap CRD pumps, placing 2B CRD pump in service. If the operators do not swap CRD pumps in a timely manner, 2A CRD pump eventually trips.
Malfunctions required: 1
- CRD pump binding (Trip if NSO does not swap pumps in a timely manner)
Success Path:
- NSO swaps running CRD pumps.
Event Six - Loss of Service Water / Manual Reactor Scram
- A large leak occurs at the discharge of the Service Water strainers.
Malfunctions required: 1
- (Service Water Leak)
Success Path:
- Manually scram the Reactor.
Event Seven - Loss of RPV Water Level Indication / RPV Flooding
- The Team recognizes and responds to loss of RPV level indication. LPCI injections valves fail to open from the control room.
Malfunctions required: 2
- Failure Of RPV Level Indication
- LPCI injection valves fail to open Success Path:
- The Team performs RPV Flooding.
- The Team sends an operator to locally open the LPCI injection valves.
SCENARIO ILT-N-3 Page 5 of 27 Rev. 00 09/10
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ- JA-150-08, SIMULATOR EXAMINATION BRIEFING.
- a. Inform the crew that the QNE (Floor Instructor) is present in the Control Room.
- b. Direct the crew to perform their briefs prior to entering the simulator.
- c. Provide the crew with a copy of applicable procedure(s) marked up and completed through the appropriate steps:
- 1) DGP 01-01, Unit Startup, marked up for Reactor at 5% power.
- 2) DOP 0400-01, Reactor Manual Control System Operation.
- 3) DOP 0400-02, Rod Worth Minimizer.
- 4) DOP 5600-06, Unit 2 Turbine Startup.
- 5) DOS 6600-01, Diesel Generator Surveillance Tests (Ready to shutdown U2 EDG) 2 Simulator Setup (the following steps can be done in any logical order)
- a. Initialize simulator in an IC with ~5% power (IC 149 on the jump drive can be used) and perform the following before continuing below:
- 1) Verify control rod sequence XI.1.0 with step 21 withdrawn through control rod E-09.
- 2) Verify Reactor power ~5%.
- b. Run the initial setup CAEP file: ILT-N-3.cae
- c. Verify Torus to Drywell dP within limits (vent Torus as needed).
- d. Cut in/out Cond Demins as needed, to maintain DP within limits.
- e. Ensure running Condensate pump amps within limits.
- f. Advance the chart recorders.
3 Verify all the following completed (completed in snapped IC 149 setup):
- a. Verify CRD drive water pressure ~260 psid.
- b. Verify 2A CRD pump running.
- 1) At the instructor station, set the U2 EDG droop to 55. (irf t02 true)
- 2) At the instructor station, acknowledge the local U2 EDG annunciator panel. (irf t20 acknowledge)
- 3) Reset the U2 EDG Trouble alarm on the 902-8 panel.
- 4) Place the U2 EDG control switch to START.
- 5) Turn the Synchroscope for the U2 EDG output breaker ON.
- 6) Adjust the U2 EDG voltage and frequency for synchronization.
- 7) Close the U2 EDG output breaker.
- 9) Turn the Synchroscope for the U2 EDG output breaker OFF.
SCENARIO ILT-N-3 Page 6 of 27 Rev. 00 09/10
4 Place the following equipment out of service:
- a. None 5 Complete the Simulator Setup Checklist.
Symbols are used throughout the text to identify specific items as indicated below:
Critical Tasks Time Critical Tasks PRA Key Operator Actions Required Actions Optional Actions SCENARIO ILT-N-3 Page 7 of 27 Rev. 00 09/10
Event One - Shutdown U2 EDG Following Surveillance Testing Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY:
2 NLO to set U2 EDG droop to 5: Wait 1 min, activate trigger 2 which sets the droop to 5 and forces up alarm 902-8 A-7, U2 Diesel Gen Trouble.
Verify trigger 3 activates automatically when alarm 902-8 A-7 comes in. This returns the 3 alarm to normal after 10 seconds.
Then report The U2 EDG droop is set to 5.
Role Play:
NLO to check the lubrication oil level with the dipstick: wait 1 min, and then report the U2 EDG oil level is midway between the FULL and LOW marks.
For other operator direction, respond as needed.
CRS Directs the BOP to Shutdown U2 EDG per DOS 6600-01, Diesel Generator Surveillance Tests.
BOP Performs DOS 6600-01, Diesel Generator Surveillance Tests.
Reduces the D/G load to less than 100 kW using the GOVERNOR control switch.
Opens the circuit breaker from the D/G 2 to 4 kV Bus 24-1 and records time.
Directs the NLO at the D/G governor to set the droop setting to 5 and reset the local annunciator.
Resets annunciator 902-8 A-7, U2 DIESEL GEN TROUBLE.
Adjusts D/G speed to 60 Hz with the GOVERNOR control switch.
Adjusts D/G voltage to 4160 volts with the VOLTAGE REG control switch.
Moves the D/G control switch to the STOP position momentarily, then moves the switch to the AUTO position and records time.
Floor Instructor Role Play:
When the NSO moves the D/G control switch to the AUTO position, notify him that as the U3 ANSO, you have been directed to complete the surveillance.
When the U2 D/G stops, acknowledge, announce and reset expected alarms:
902-7 G-8, U2 Diesel Gen Clg Wtr PP Trip/Lockout.
902-8 A-7, U2 Diesel Gen Trouble.
Event 1 Completion Criteria:
- U2 EDG shutdown, (Or in the cooldown period AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-3 Page 8 of 27 Rev. 00 09/10
Event Two - Spurious ERV Opening.
Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY:
4 At the discretion of the Lead Examiner, activate trigger 4, which causes E ERV to spuriously open due to an electrical failure.
As the NLO sent to pull control power fuses for the E ERV (wait 3 min) activate trigger 5 5, which removes control power fuses for the E ERV, then call the control room on the phone and report: I have pulled the E ERV fuses.
As the QNE called to evaluate core parameters (wait 2 min) then report: core parameters are within limits.
BOP Determines/announces that E ERV is open. Performs DOA 0250-01, Relief Valve Failure, immediate actions:
Places the C ERV control switch to OFF.
ATC Verifies FWLCS has stabilized level.
CRS Enters DOA 0250-01, Relief Valve Failure, and directs actions.
BOP Determines that E ERV is still open and performs subsequent actions of DOA 0250-01:
Cycles E ERV control switch to MAN and OFF twice.
Cycles the ADS INHIBIT switch from NORMAL to INHIBIT to NORMAL several times.
Directs E ERV control power fuses pulled.
When torus temp is greater than circulating water inlet temperature, starts torus cooling as directed.
Reports when > 95° and DEOP 0200-01, Primary Containment Control, entry is required.
Monitors Turbine Bypass Valve Operation.
May check hydrogen addition operation.
May monitor torus temp per DOS 1600-20, Suppression Pool Temp Monitoring.
Resets the acoustic monitor.
CRS May direct scram preparatory actions per DGP 02-03, Reactor Scram.
May enter DEOP 200-01, Primary Containment Control, for high Torus level.
If Torus temperature reaches 95°F, then enters DEOP 200-1, Primary Containment Control, and performs/directs:
Monitoring of PC/P Initiation of torus cooling. (May already be started per DOA 0250-01)
Monitoring of Torus level.
Verifying initiation of drywell and torus H2/O2 monitors.
ATC Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed.
o Scram preparatory conditions already exist.
SCENARIO ILT-N-3 Page 9 of 27 Rev. 00 09/10
Event Two - Spurious ERV Opening.
Trigger Position Crew Actions or Behavior BOP Determines/announces that C ERV closed when fuses pulled.
CRS Declares E ERV inoperable.
Determines following Technical Specifications apply:
- 3.4.3, Safety and Relief Valves, Condition A.1: Restore the relief valve to OPERABLE status within 14 days.
- 3.6.1.8, Suppression Chamber-to-Drywell Vacuum Breaker, SR 3.6.1.8.2:
Perform a functional test of each required vacuum breaker within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.
CRS Directs performance of Suppression Chamber-to-Drywell Vacuum Breaker testing.
TEAM May enter and perform DGA 7, Unpredicted Reactivity Addition Event 2 Completion Criteria:
- The failed ERV is closed,
- Technical Specification determination completed, AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-3 Page 10 of 27 Rev. 00 09/10
Event Three - Indicated Flow to CRD Flow Controller Fails High Trigger Position Applicants Actions or Behavior Simulator Operator:
At the discretion of the Lead Examiner, activate trigger 6, which causes the indicated 6
flow to the CRD Flow Controller to fail high. This causes the controller demand to the CRD FCV to fail low.
NOTE: If the team does not recognize the failure quickly and restore CRD cooling flow, the ROD DRIVE HI TEMP alarm comes up after ~ 5 min.
Simulator Operator:
If CRD Temperature variable rdgtemp(21) reaches 250.0 deg. F, verify the following automatic triggers:
7 Trigger 7: automatically activates when variable rdgtemp(21) is >250.0 deg. F.
Forces up alarm 902-5 F-3, ROD DRIVE HI TEMP.
8 Trigger 8: automatically activates alarm 902-5 F-3 is up and variable rdgtemp(21) is
<245.0 deg. F. Returns alarm 902-5 F-3, ROD DRIVE HI TEMP, TO NORMAL.
ATC From panel monitoring or alarm 902-5 F-3, ROD DRIVE HI TEMP, notices and announces loss of CRD system flow.
Diagnoses failure of the CRD Flow Controller.
Performs DOA 0300-01, Control Rod Drive System Failure, actions as directed by the CRS.
Restores CRD system flows and pressures to normal.
Places CRD Flow Controller in manual and adjusting as needed.
CRS Directs entering and performing actions of DOA 0300-01, Control Rod Drive System Failure.
Notifies Shift Manager and IMD of CRD Flow Controller failure.
Role Play; NLO to check CRD FCV operation: (wait 2 min)
Report, the CRD FCV appears to be operating normally and is at position is:
(Use position displayed on Instructor Station drawing RD2; report as percent).
NLO to check CRD system flow locally (FI 2-302-56); (wait 1 min)
Report CRD system flow indicates >100 gpm (pegged high).
NLO to check drive water flow locally (FI 2-302-64): (wait 1 min)
Report, CRD drive water flow indicates (same as control room meter).
NLO to check cooling water flow locally (FI 2-302-65): (wait 1 min)
Report, CRD cooling water flow indicates (same as control room meter).
NLO to check CRD pumps locally: (wait 1 min)
Report, CRD Pumps appear to be operating normally.
Respond as groups notified.
BOP Monitors panels and assists as directed.
SCENARIO ILT-N-3 Page 11 of 27 Rev. 00 09/10
Event Three - Indicated Flow to CRD Flow Controller Fails High Event 3 Completion Criteria:
- Team has taken manual control of the CRD Flow Controller, AND/OR
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-3 Page 12 of 27 Rev. 00 09/10
Event Four - B Med Range Level Instrument Fails Low with a Partial Half Scram Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY:
At the discretion of the Lead Examiner, activate trigger 9, which fails B medium range 9
downscale and inserts B RPS partial half scram.
ATC Notices and reports the B Medium Range level instrument trending down.
Announces:
The partial half scram condition on the B RPS channel.
Scram Solenoid Group lights B2 and B3 did NOT extinguish.
Refers to DOA 0500-02, Partial 1/2 or Full Scram Actuation. (May insert the manual half scram as an immediate action of DOA 0500-02 then refer to the procedure).
Depresses RPS Channel B Manual Scram pushbutton.
Acknowledges appropriate annunciators.
SIMULATOR OPERATOR / ROLE PLAY:
As the EO sent to the ATS Panel (wait 2 min AND the 902-4 G-20 alarm is up), then report: The B medium range level instrument MTU LIS 2-263-140B is reading full downscale and its gross failure light is lit.
As the EO sent to the MCC 28-1 circuit 15 and/or 125vdc Bus 2A-1 Dist Panel, circuit 27 (wait 3 min), then report: The breaker is NOT tripped and looks normal.
IF asked: The Yarway LI-2(3)-263-59A on the 2202-5 rack is indicating 30 inches and steady.
ATC / Refers to DAN 902-4 G-20:
BOP Dispatches an operator to inspect the Div 1 ATS panel 2202-73A Notifies the Unit Supervisor of inspection results.
CRS Announces entry into DOA 0500-02, Partial 1/2 or Full Scram Actuation and performs/directs:
Directs NSO to insert manual scram on RPS Channel A.
May refer to DOP 0010-10, Unit 2(3) Technical Specification Instrumentation Operability Manual.
CRS References Technical Specifications and determines:
- TS 3.3.1.1 Action A1 or A2 apply.
- TS 3.3.3.1 Action A1. Restore required channel to OPERABLE status within 30 days.
- TS 3.3.6.1 Condition A1. Place channel in trip within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.
- TS 3.3.6.2 Condition A1. Place channel in trip within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.
SCENARIO ILT-N-3 Page 13 of 27 Rev. 00 09/10
Event Four - B Med Range Level Instrument Fails Low with a Partial Half Scram Trigger Position Crew Actions or Behavior Event 4 Completion Criteria:
- Half Scram inserted, and
- Appropriate Tech Specs referenced, AND/OR
- At the direction of the Lead Examiner.
SCENARIO ILT-N-3 Page 14 of 27 Rev. 00 09/10
Event Five - Loss of CRD Pump Trigger Position Crew Actions or Behavior Simulator Operator:
10 At the discretion of the Lead Examiner, activate trigger 10. This will cause a simulated binding of the 2A CRD pump over a nine minute period, and finally trip the pump on overcurrent if amps get too high and the crew has not swapped the pump yet.
11 Verify trigger 11 automatically activates when the 2A CRD pump breaker opens. This stops the pump binding simulation.
Role Play:
As the NLO, if asked, wait 2 min. and then report: The 2A CRD pump is making a loud metallic grinding noise, I cannot see any oil in the pump, smoke is starting to come from the pump, and it is very hot.
NSO may follow DOP 0300-01 and have the NLO vent the pump. Wait 1 min, then report:
2B CRD pump has been vented.
ATC Announces alarm 902-5 F-2, ACCUMULATOR CHARGING WTR PRESS LO, and /
or degrading CRD system parameters.
Carries out actions of DOA 0300-01, Control Rod Drive System Failure:
Stops any rod motion or power changes.
Starts 2B CRD pump.
Secures 2A CRD pump.
Verifies normal CRD system pressures and flow.
Identifies and reports increasing CRD pump amps.
Role Play:
As the NLO, if asked, report: 2B CRD pump is operating normally.
CRS Enters DOA 0300-01, Control Rod Drive System Failure, due to failure of 2A CRD pump.
TEAM May reference/perform DOP 0300-01, Control Rod Drive System Start Up and Operation, for swap of CRD pumps.
BOP Monitors panels and assists as directed.
Note:
If the Team swaps CRD pumps before the 2A CRD pump trips, the following actions do NOT apply:
ATC Announces 2A CRD pump trip.
Per immediate action of DOA 0300-01, Control Rod Drive System Failure, starts the standby CRD pump.
CRS Enters DOA 6500-10, 4KV Circuit Breaker Trip, due to trip of 2A CRD pump.
SCENARIO ILT-N-3 Page 15 of 27 Rev. 00 09/10
Event Five - Loss of CRD Pump Trigger Position Crew Actions or Behavior Event 5 Completion Criteria:
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-3 Page 16 of 27 Rev. 00 09/10
Event Six - Loss of Service Water / Manual Reactor Scram Trigger Position Crew Actions or Behavior Simulator Operator:
At the discretion of the Lead Evaluator, activate trigger 12. This inserts a large leak on 12 the discharge side of the Service Water strainers. The leak results in a loss of Service Water sufficient enough to cause loss of plant equipment.
BOP Announces following alarms as they come up:
- 923-1 G-4, U2/3 DIESEL FIRE PP RUNNING.
- Many other alarms will come in as equipment loses cooling.
CRS Enters DOA 3900-01, Loss of Cooling by Service Water System.
Notifies Shift Manager and EMD.
BOP Performs DOA 3900-01, LOSS OF COOLING BY SERVICE WATER SYSTEM May start available Service Water Pumps.
Directs an EO to the Cribhouse to check the Service Water System.
May direct NLO to isolate the leak.
Role Play:
EO to check Service Water System (wait 2 min.):
Report: "There is a very large leak downstream of the Service Water Strainers".
EO to isolate the Service Water System leak:
Report: "The leak cannot be isolated".
CRS Due to loss of cooling to equipment, directs a manual reactor scram per DGP 02-03, Reactor Scram.
ATC Performs a manual reactor scram per DGP 02-03, Reactor Scram:
Depresses BOTH Scram buttons.
Places RX MODE SW in SHUTDOWN.
Inserts SRMs.
Controls reactor water level +25 to +35 inches or as directed by the Unit Supervisor.
CRS Enters DEOP 0100, RPV Control, due to RPV low level and directs:
Verifying Isolations and Actuations.
Maintaining RPV level +8 to +48 inches.
Maintaining RPV Pressure <1060 psig.
CRS Begins to assess the affect the loss of Service Water has on stabilizing the plant.
SCENARIO ILT-N-3 Page 17 of 27 Rev. 00 09/10
Event Six - Loss of Service Water / Manual Reactor Scram Trigger Position Crew Actions or Behavior Event 6 Completion Criteria:
- Manual Scram performed,
- Team addresses affect on plant of loss of Service Water, AND / OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-3 Page 18 of 27 Rev. 00 09/10
Event Seven - Loss of RPV Level Indication / RPV Flooding Trigger Position Crew Actions or Behavior Simulator Operator:
After the team has stabilized the unit following the reactor scram, and at the discretion of 13 the Lead Evaluator, activate trigger 13, which:
- Simulates a trip of the MCC 29-1 supply to ATS Panel 2202-73B which causes loss of MR A and FZ B RPV level instruments.
- After 2 min, fails the remaining RPV level instruments in a way that simulates a leak in the common sensing leg for the 2202-5 instrument rack (MR B, NR A & WR) causing them to ramp downscale. Bailey System NR B circuit card fails causing it to ramp upscale.
Simulator Operator / Role Play:
NLO to open/close the CRD 2-0301-25 valve: On Instructor Station drawing RD2, change the CRD 2-0301-25 valve position to the requested position and then report its position.
Role Play:
When dispatched to the ATS Panel, wait a few minutes, and then report that all instruments in the top row of panel 2202-73B are downscale and no indicating lights on the top row are lit. All other indications are normal.
NLO sent to MCC 29-1. Wait two minutes then report from MCC 29-1 that the breaker for circuit 4 is tripped.
If sent to 125 VDC Main Bus Dist. Panel 2B-1 to check breaker 17, report that it is closed.
When/if directed to close the ATS Panel supply breaker, wait ~20 seconds, then report that you attempted to reclose the breaker and it immediately tripped again.
BOP Reports annunciator 902-4 H-20, ATS Div 2 2202-73B Trouble, in alarm and references DAN.
Sends an NLO to inspect ATS panel 2202-73B.
May direct an NLO to MCC 29-1 to check the feed breaker (circuit 4) to ATS.
May direct the closure of the ATS Panel power supply breaker.
TEAM Begins to determine the equipment affected by loss of the ATS feed.
CRS May refer to DOP 6800-05, Power Restoration to Analog Trip System Feeds to check for restoration requirements.
TEAM Determines that RPV level indications are diverging.
TEAM May send operators to local instrument panels.
Role Play:
NLO to Reactor Bldg to get local RPV level indication: wait 2 min, and then report there is steam around all the instrument racks and I am unable to get local RPV level readings.
SCENARIO ILT-N-3 Page 19 of 27 Rev. 00 09/10
Event Seven - Loss of RPV Level Indication / RPV Flooding Trigger Position Crew Actions or Behavior CRS Based on diverging RPV level indication, exits DEOP 0100 and enters DEOP 0400-01, RPV Flooding, and performs / directs:
Verifying Torus level above 6 feet.
Opening all 5 ADSVs.
Isolating the following steam lines:
Main Steam line drains.
IC.
HPCI.
Flooding the RPV to the Main Steam lines.
Directs defeating the RFP trips.
Keeping the RPV flooded to the Main Steam lines with injection flow as low as possible.
Simulator Operator / Role Play:
14 Operator to defeat RFP trips: wait 2 min, activate Trigger 14 and then report that the RFP trips are defeated ATC / Performs DEOP 0400-01, RPV Flooding, as directed:
BOP Verifies Torus level above 6 feet.
Opens all 5 ADSVs (only 4 open, since fuses pulled for one).
Isolates the following steam lines:
Main Steam line drains.
IC.
HPCI.
Floods the RPV to the Main Steam lines.
Keeps the RPV flooded to the Main Steam lines with injection flow as low as possible.
ATC / Slows down RPV injection once ERV tailpipe temperatures drop below saturation and BOP pressure is steady.
CRS Requests IMD to restore RPV level instruments.
Event 7 / Scenario Completion Criteria:
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-3 Page 20 of 27 Rev. 00 09/10
Critical Tasks When RPV water level cannot be determined, INITIATE emergency (RPV 2.1) depressurization.
When reactor water level cannot be determined, INJECT into the RPV to (RPV 2.2) flood up to the Main Steam Lines.
SCENARIO ILT-N-3 Page 21 of 27 Rev. 00 09/10
REFERENCES PROCEDURE TITLE DAN 902-4 G-20 ATS DIV 1 2202-73A TROUBLE DAN 902-5 F-2 ACCUMULATOR CHARGING WTR PRESS LO DAN 902-5 F-3 ROD DRIVE HI TEMP DAN 902-8 A-7 U2 DIESEL GEN TROUBLE DAN 923-1 D-3 U2/3 SERV WTR HDR PRESS LO DAN 923-1 G-4 U2/3 DIESEL FIRE PP RUNNING DEOP 0100 RPV CONTROL DEOP 0400-01 RPV FLOODING DEOP 0500-02 BYPASSING INTERLOCKS AND ISOLATIONS DGP 01-01 UNIT STARTUP DGP 02-03 REACTOR SCRAM DOA 0250-01 RELIEF VALVE FAILURE DOA 0300-01 CONTROL ROD DRIVE SYSTEM FAILURE DOA 0500-02 PARTIAL 1/2 OR FULL SCRAM ACTUATION DOA 3900-01 LOSS OF COOLING BY SERVICE WATER SYSTEM DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0010-10 UNIT 2(3) TECHNICAL SPECIFICATION INSTRUMENTATION OPERABILITY MANUAL DOP 0300-01 CONTROL ROD DRIVE SYSTEM START UP AND OPERATION DOP 6800-05 POWER RESTORATION TO ANALOG TRIP SYSTEM FEEDS DOS 6600-01 DIESEL GENERATOR SURVEILLANCE TESTS TS 3.3.1.1 REACTOR PROTECTION SYSTEM (RPS) INSTRUMENTATION TS 3.3.3.1 POST ACCIDENT MONITORING (PAM) INSTRUMENTATION TS 3.3.6.1 PRIMARY CONTAINMENT ISOLATION INSTRUMENTATION TS 3.3.6.2 SECONDARY CONTAINMENT ISOLATION INSTRUMENTATION TS 3.4.3 SAFETY AND RELIEF VALVES TS 3.5.1 ECCS OPERATINGTS 3.6.1.6LOW SET RELIEF VALVES TS 3.6.1.8.2 SUPPRESSION CHAMBER-TO-DRYWELL VACUUM BREAKERS SCENARIO ILT-N-3 Page 22 of 27 Rev. 00 09/10
ILT-N-3 Quantitative Attributes 8 Total malfunctions (5-8) 2 Malfunctions after EOP entry (1-2) 4 Abnormal events (2-4) 2 Major transients (1-2) 1 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 2 Critical tasks (2-3)
SCENARIO ILT-N-3 Page 23 of 27 Rev. 00 09/10
CAEP File(s):
- ILT-N-3.cae
- For ILT Class 10-1 NRC Exam
- Written by DREFV
- Rev 00
- Date 09/10
- INITIAL CONDITIONS
- Sets APRM Master Gain pot to 1.0l4 irf niagain 1.0
- Inserts CH B RPS partial half scram.
imf b15
- This puts it back to desired state of FALSE.
irf w14 false
- This deletes it.
dor nidichsl1
- EVENT TRIGGERS
- Event Trigger 1 sets gain for all 6 APRMs to 1.0l2 trgset 1 "0"l2 trg 1 "irf niagainf true"l2
- Event Trigger 2 Sets U2 EDG droop to 5 and forces up alarm 902-8 A-7, U2 Diesel Gen Trouble.
trgset 2 "0"l2 irf t02 (2) falsel2 imf ser1589 (2) onl2
- Event Trigger 3 clears alarm 902-8 A-7.
trgset 3 "sezpoint(1589)"l4 trg 3 "imf ser1589 (0 10) normal"l4
- Event trigger 4 causes the E ERV setpoint to drift to fail it open.
- E ERV bind malfunction is set to 25%
Trgset 4 "0"l4 imf ads3esd (4) 75.0l4 imf ads3ebn (4) 25.0l4
- Event Trigger 5 Deletes e ERV binding malfunction so valve will close and removes fuses for the E ERV.
Trgset 5 "0"l6 trg 5 "dmf ads3ebn"l6 irf adsrfe (5) pulledl6
- Event Trigger 6 inserts a failure high of the indicated flow to the CRD flow controller.
- Sets one of the CRD's enthalpy higher, so alarm 902-5 F-3 comes up sooner.
trgset 6 "0"l6 imf rdfcfhi (6)l8 trg 6 "set rdhmech(21) = 190.0"l8
- Event trigger 7 Activates when CRD temp high is reached.
- Forces alarm 902-5 F-3 up.
trgset 7 "rdgtemp(21) .gt. 250.0"l8 SCENARIO ILT-N-3 Page 24 of 27 Rev. 00 09/10
imf ser0973 (7) onl8
- Event trigger 8 Returns alarm 902-5 F-3 to normal.
trgset 8 "sezpoint(973) .and. (rdgtemp(21) .lt. 245.0)"l10 trg 8 "imf ser0973 normal"l10
- Event Trigger 9 fails B medium range downscale.
trgset 9 "0"l10 imf nvm100bp (9) -120.0 4:00l10
- Event Trigger 10 ramps 2A CRD PP speed lower over 9:00 min.
- This simulates binding of the pump and will result in the pump tripping on overcurrent.
trgset 10 "0"l12 trg 10 "ramp rdnpump(1) 0.95 0.87 9:00"l12 imf rdppatrp (10 8:58)l12
- Trigger 11 Stops the 2A CRD PP speed ramp when the pump breaker opens.
trgset 11 "et_array(10) .and. (.not. rdrpump(1))"l12 trg 11 "ramp rdnpump(1) 0.87 0.10 2"l12
- Event Trigger 12 inserts a Service Water strainer leak.
trgset 12 "0"l14 imf q31 (12) 100.0 5:00l14
- After 2 min, fails RPV NR A level instrument to downscale on 5 min. ramp.
- After 2 min, fails RPV NR B level instrument to upscale on 5 min. ramp.
- After 2 min, fails RPV Wide Range level instrument to downscale on 5 min. ramp.
trgset 13 "0"l14 imf at5 (13)l14 imf nvml57ap (13 2:00) -120.0 5:00l14 imf nvml23ap (13 2:00) -120.0 5:00l16 imf nvml23cp (13 2:00) -120.0 5:00l16 imf nvml29ap (13 2:00) -75.0 5:00l16 imf nvml29bp (13 2:00) 75.0 5:00l16 imf nvml112p (13 2:00) -400.0 5:00l18
- Event Trigger 14 bypasses the RFP high level trip.
trgset 14 "0"l18 irf fwknife (14) openl18
- END SCENARIO ILT-N-3 Page 25 of 27 Rev. 00 09/10
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 2 at 5% power Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: NA Leading Thermal Limit: MAPRAT @ 0.819 Action limit: NA Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements U2 EDG LCO Started: 1.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> ago LCO Expires: In 7 days TS 3.8.1 Cause: Monthly Surveillance Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Seperator Pit as required. Outside operator monitor and pump as necessary.
Today Chem Cleaning ventilation status:
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746.
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150.
HVAC -1 ON.
HV-2 running.
Switchyard Status Today TSO notified of oil leaks on 345 Kv BT 2-3 CB (IR 810135) ComEd WO 6396128 Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area.
Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood.
SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful.
SCENARIO ILT-N-3 Page 26 of 27 Rev. 00 09/10
Unit 2 Plant Status Today Unit 2 Activities
- Shift 1 Activities ****
?
?
- Shift 2 Activities ****
? Startup in progress. On hold for Steam Tunnel inspection.
? After Steam Tunnel Inspection, resume the startup per DGP 01-01.
? U2 EDG loaded run is complete, shutdown U2 EDG immediately following shift change.
- Shift 3 Activities ****
?
?
Today **** Unit 2 Procedures In-Progress **** Do Not Delete ****
? DGP 01-01
? DOS 6600-01 SCENARIO ILT-N-3 Page 27 of 27 Rev. 00 09/10
Dresden Generating Station ILT-N-4 TRANSFER MCC 28 7/29 7 FROM BUS 28 TO BUS 29 CONTROL ROD DRIFTS IN RECIRCULATION MASTER FLOW CONTROLLER FAILS UPSCALE CORE SPRAY SYSTEM LOW PRESSURE HIGH FEEDWATER SYSTEM VIBRATIONS / MANUAL SCRAM ELECTRICAL ATWS / ARI UNSUCCESSFUL Rev. 00 09/10 Developed By:
Exam Author Date Approved By:
Facility Representative Date
Scenario Outline Station: Dresden Generating Station Scenario No.: ILT-N-4 Class ID: 10-01 (2011-301)
Evaluators Operators / crew position
/ ATC
/ BOP
/ CRS Initial Conditions: Initial Power = 75%
Turnover: Transfer MCC 28-7/29-7 from Bus 28 to Bus 29 Event Malf. Event Event No. No. Type* Description 480 VAC - Transfer MCC 28-7/29-7 From Bus 28 To 1 NONE N BOP Bus 29.
2 RODL06DI C ATC CRD - Control Rod Drift In. T RECIRC - Master Recirc Flow Controller Fails 3 RRMASUPD I ATC Upscale.
CSV4A 4 C BOP CORE SPRAY - A CS System Low Pressure. T SCAFILOF SER1361 SER1363 5 SER1397 M TEAM Manual Scram - High Feedwater System Vibrations.
FWV3206A(1)
FWV3206A(2)
B12 SER1026 ATWS - Electric, ARI Unsuccessful / Team Takes 6 M TEAM SER1060 Actions To Insert Rods.
AW4
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-4 Page 2 of 28 Rev. 00 (09/10)
Scenario Objective Evaluate the Teams ability to operate the plant with an electrical ATWS.
Scenario Summary
- 1. Unit is at 75% power.
- 2. The following equipment is OOS:
- a. None
- 3. LCOs:
- a. T.S. 3.5.1 for LPCI components being powered from Bus 28.
Scenario Sequence
- The Team transfers MCC 28-7/29-7 from Bus 28 to Bus 29.
- Control rod L06 will begin drifting in. The Team will manually insert the rod and reference Tech Specs.
- The recirculation master speed controller will slowly fail upscale. The team will lock out the recirculation MG set scoop tubes to stop the power excursion.
- A Core Spray System low-pressure alarm is received and the CRS must review Tech Specs and declare the loop INOP.
- Feedwater System high vibrations occur. The Team will manually scram the reactor. After filling the RPV with Feedwater for one minute or RPV level is restored to above +15 inches, RFPs will be tripped.
- An electrical ATWS occurs when the reactor is scrammed. ARI is unsuccessful. The SBLC system fails to inject boron. The Team inserts control rods by pulling scram fuses, venting the scram air header, and / or driving control rods.
Event One - Transfer MCC 28-7/29-7 from Bus 28 to Bus 29
- When directed, the Team transfers MCC 28-7/29-7 from Bus 28 to Bus 29.
Malfunctions required: 0
- (None)
Success Path:
- The team transfers MCC 28-7/29-7 from Bus 28 to Bus 29.
SCENARIO ILT-N-4 Page 3 of 28 Rev. 00 (09/10)
Event Two - Control Rod Begins to drift in
- Control rod L-06 will begin drifting in.
Malfunctions required: 1
- (Rod L-06 Drifts In)
Success Path:
- Executes DOA 0300-05, Inoperable or Failed CRDs.
- Executes DOA 0300-12, Mispositioned CRD.
- CRS references Tech Specs and determines the control rod must be inserted and disarmed.
Event Three - Recirculation Master Flow Controller Fails Upscale
- Master Recirc Flow Controller fails upscale.
Malfunctions required: 1
- (Master Recirc Flow Controller fails upscale)
Success Path:
- The NSO will lock out scoop tubes.
Event Four - Core Spray System Low Pressure
- B Core Spray System low-pressure alarm is received.
Malfunctions required: 1
- (B Core Spray System low-pressure)
Success Path:
- CRS declares the system INOP and references Tech Specs.
Event Five - High Feedwater System Vibrations / Manual Scram
- High Vibrations develop in Feedwater System.
Malfunctions required: 1
- (High Feedwater System Vibrations)
Success Path:
- The team performs DOA 3200-01, Feedwater System High Vibration.
- Performs a manual scram.
SCENARIO ILT-N-4 Page 4 of 28 Rev. 00 (09/10)
Event Six - Electrical ATWS / ARI Unsuccessful
- An electrical ATWS occurs when the reactor is scrammed. ARI is unsuccessful. The SBLC system fails to inject boron.
Malfunctions required: 2
- (Electrical ATWS)
- (Failure of SBLC system)
Success Path:
- The Team inserts control rods by pulling scram fuses, venting the scram air header, and / or driving control rods.
SCENARIO ILT-N-4 Page 5 of 28 Rev. 00 (09/10)
PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ-JA-150-08, SIMULATOR EXAMINATION BRIEFING.
- a. Direct the crew to perform their briefs prior to entering the simulator.
2 Simulator Setup (the following steps can be done in any logical order)
- a. Initialize simulator in an IC which allows establishing the following: (Jump Drive IC 156 can be used)
- 1) Reactor power at ~75%.
- 2) Generator at ~680 MWe.
- b. Cut in/out Cond Demins as needed to establish DP within limits low in the band. (For Recirc run up Event)
- c. Ensure running Condensate pump amps within limits.
- d. Advance the chart recorders.
3 Verify the following simulator conditions:
- a. Verify control rod L-06 at position 48.
- d. Transfer MCC 28-7/29-7 to Bus 28 4 Run the initial setup CAEP file: ILT-N-4.cae 5 OPEN but DO NOT RUN yet CAEP file: ILT-N-4 fw_osc.cae 6 Place the following equipment out of service:
- a. None 7 Complete the Simulator Setup Checklist.
Symbols are used throughout the text to identify specific items as indicated below:
Critical Tasks Required Actions Optional Actions SCENARIO ILT-N-4 Page 6 of 28 Rev. 00 (09/10)
Event One - Transfer MCC 28-7/29-7 from Bus 28 to Bus 29 Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR / ROLE PLAY:
1 If requested to set gains to 1, (wait 3 min) activate trigger 1, then report: gains set to 1.
(This trigger can be toggled OFF, then back ON to adjust the gains more than once).
ROLE PLAY:
As Shift Manager:
Acknowledge report that the Team is ready to transfer MCC 28-7/29-7 from Bus 28 to Bus 29. Report that the appropriate Tech Spec LCO requirements are completed.
Acknowledge report that the transfer is complete. Report that the Tech Spec LCO has been exited.
CRS Declares both LPCI subsystems inoperable and notifies Shift Manager that the Team is ready to transfer MCC 28-7/29-7 from Bus 28 to Bus 29.
Directs NSO to transfer MCC 28-7/29-7 from Bus 28 to Bus 29.
BOP Performs DOP 6700-18, Bus 28 Outage, steps G.5.d through G.5.f:
HOLD MCC 29-7/28-7 FEED from BUS 28 in TRIP.
Close MCC 29-7/28-7 FEED from BUS 29.
Release MCC 29-7/28-7 FEED FROM BUS 28.
ATC Assists as directed.
CRS Declares both LPCI subsystems operable and notifies Shift Manager that the Team completed transferring MCC 28-7/29-7 from Bus 28 to Bus 29.
Event 1 Completion Criteria:
- MCC 28-7/29-7 transferred from Bus 28 to Bus 29, AND/OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-4 Page 7 of 28 Rev. 00 (09/10)
Event Two - Control Rod Begins to drift in.
Trigger Position Crew Actions or Behavior Simulator Operator:
2 At the discretion of the Lead Examiner, activate trigger 2, which initiates Control Rod L-06 to drift in.
Role Play:
As the NLO sent to investigate CRD L-06: (wait 3 min.) then report: the lines with the 102 and 112 valves for the HCU are hot to the touch. Everything else appears normal.
o If asked Temp: 240 F with heat gun.
ATC Announces alarms for the Control Rod L-06 and refers to the following DANs:
902-5 A-3, Rod Drift alarm.
Views Full Core Display AND identifies CRD with Rod Drift light illuminated.
Selects drifting control rod.
Observes selected CRD position on four rod display.
CRS Enters DOA 0300-05, Inoperable or Failed CRDs, and directs NSO actions.
Enters DOA 0300-12 and contacts QNE to evaluate core.
May enter DGA 07, Unpredicted Reactivity Addition.
ATC Performs actions of DOA 0300-05, Inoperable or Failed CRDs Takes the RWM switch to Bypass.
Inserts the rod to 00 using Emergency Rod In switch.
ATC After rod L-06 has been fully inserted, may take rod L-06 out of service on RWM per DOP 0400-02, Rod Worth Minimizer, as directed by Unit Supervisor:
On RWM, select SECONDARY FUNCTION.
On RWM, select ROD OUT OF SERVICE On RWM, select inoperable CRD On RWM, verify correct inoperable CRD selected, and then select ENTER REQUEST.
Continuously insert inoperable CRD to 00.
On RWM, select EXIT FUNCTION.
ATC Dispatches an Operator to investigate the cause of the drifting control rod.
Dispatches an operator to hydraulically isolate and electrically disarm the CRD per DOP 0300-08, CRD System HCU isolation.
SCENARIO ILT-N-4 Page 8 of 28 Rev. 00 (09/10)
Event Two - Control Rod Begins to drift in.
Trigger Position Crew Actions or Behavior CRS References appropriate plant licensing documents and determines :
TS 3.1.3 condition C, required action:
C.1, Fully insert inoperable control rod within 3 hrs; AND C.2, Disarm the associated CRD within 4 hrs.
Directs/verifies Operators take action per DOA 0300-12.
ATC Performs actions of DOA 0300-12, Mispositioned CRD:
Discontinues reactivity changes.
Compares Off-Gas readings.
Refers to DGA 07, Unpredicted Reactivity Addition, as directed.
Refers to DOA 0500-04, Thermal Limits and Fuel Conditioning Violation, and DGA 16, Coolant Activity/ Fuel Element Failure.
BOP Monitors panels and assists as directed.
Event 2 Completion Criteria:
- Applicable TS has been referenced.
AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-4 Page 9 of 28 Rev. 00 (09/10)
Event Three - Recirculation Master Flow Controller Fails Upscale Trigger Position Crew Actions or Behavior Simulator Operator:
3 When the BOP operator is NOT near the 902-4 panel and at the discretion of the Lead Examiner, activate trigger 3, which will cause Master Recirc Flow Controller to fail upscale.
Role Play:
QNE to check core parameters: Wait 5 min, and then report all core parameters are within limits.
ATC Determines and announces Recirculation Flow transient occurring by observing any of the following:
o Increase in Recirc Loop Flow as indicated on FR 2-260-7.
o Increase in Rx Power indicated on WI 2-6040-59.
o Increase in Core Flow and DP on DPR/FR 2-263-110.
o Increase in Total Stm Flow on UR 2-640-27.
o Increase in Rx Pressure on P/FR 2-640-28.
o Increase in Total Feedwater Flow on UR 2-640-26.
o Increase in Power Level on RR 2-750-10A/D, & RR 2-750-10B/C.
CRS Enters DOA 0202-03 Reactor Recirc System Flow Control Failure.
May enter DGA 07, Unpredicted Reactivity Addition.
ATC Performs the following actions per DOA 0202-03, Reactor Recirc System Flow Control Failure:
Places 2A & B M-G Set Scoop Tube Power Lockout Reset Switches in the Lockout position.
Verifies Core thermal power <2957 MWt.
Verifies Recirc Pump NOT operating in the instability region of the MG Set voltage regulator AND uncontrolled pump flow AND speed oscillations are NOT occurring.
Verifies NOT operating in the unstable region of the Power / Flow Map.
SCENARIO ILT-N-4 Page 10 of 28 Rev. 00 (09/10)
Event Three - Recirculation Master Flow Controller Fails Upscale Trigger Position Crew Actions or Behavior ATC Completes actions of Recirc M-G Lockout in DOP 0202-12, Recirculation Pump Motor Generator Set Scoop Tube Operation.
Verifies alarm is received on annunciator 902-4 C-1(5), 2A(B) RECIRC M-G SCOOP TUBE PWR FAILURE.
Places BOTH recirc pump speed control transfer stations in manual (MAN) at panel 902-4:
- 2A RECIRC PP SPEED CONTLR, 2-262-25A
- 2B RECIRC PP SPEED CONTLR, 2-262-25B Verify MASTER RECIRC FLOW CONTLR, 2-262-22, is in manual (MAN).
At the recirc pump speed control transfer station with the locked out scoop tube, rotate the potentiometer counterclockwise to set speed demand to minimum (30%):
- 2A RECIRC PP SPEED CONTLR, 2-262-25A
- 2B RECIRC PP SPEED CONTLR, 2-262-25B At panel 902-4, place an Equipment Status Tag on 2A & B M-G SET SCOOP TUBE POWER LOCKOUT RESET switches stating the reason the recirc MG set scoop tube is locked out.
BOP Assists NSO as directed.
CRS Verifies actions of DOA 0202-03 and DOP 0202-12 carried out.
CRS May contact any/all of the following to inform of situation or request assistance:
Shift Manager WEC Supervisor Operations Manager Shift Operating Supervisor Duty Maintenance Supervisor Duty Engineering Manager Work Week Manager Event 3 Completion Criteria:
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-4 Page 11 of 28 Rev. 00 (09/10)
Event Four- Core Spray System Low Pressure Alarm Trigger Position Crew Actions or Behavior Simulator Operator:
4 At the discretion of the Lead Examiner, activate trigger 4, which closes ECCS Keep Fill to 2B Core Spray loop and cracks open Core Spray 4B valve to bleed the pressure down.
Role Play:
NLO to investigate ECCS Jockey pump, (wait 3 min.):
Report, the ECCS jockey pump is operating normally.
NLO to check 2B Core Spray system, wait 2 minutes:
Report, Water is spraying onto the 2B Core Spray motor from the flange of relief valve RV 2-1402-28B.
If asked if the leak can be isolated:
Report, the leak cannot be isolated.
If asked if the leak can be isolated by closing the pump suction valve:
Report, closing the pump suction valve will isolate the leak.
If asked about the status of the sump, wait 1 minute:
Report, the sump pumps are keeping up with the leak.
If asked local 2B Core Spray system pressure, wait 1 minute:
Report, Local 2B Core Spray system pressure is approximately (Use pressure from instructor station drawing CS1) psig.
If sent to vent 2B Core Spray system:
Report, No water is coming out the vent.
If calling radwaste to ask about RBEDT levels:
Report, The rate of input into the Unit 2 RBEDT has increased, the level is currently 60%.
If asked the status of the leak, respond as follows:
- If the 2B Core Spray pump suction valve is open, report, the leak rate is unchanged.
- If the 2B Core Spray pump suction valve is closed, report the leak rate is slowing and is no longer spraying on the 2B Core Spray pump motor.
SCENARIO ILT-N-4 Page 12 of 28 Rev. 00 (09/10)
Event Four- Core Spray System Low Pressure Alarm Trigger Position Crew Actions or Behavior BOP Reports alarm to CRS.
Carries out actions of DAN 902-3 D-7, 2A/B CORE SPRAY HDR PRESS LO:
Verify FLOW TEST VLV MO 2-1402-4B is fully closed.
Verify PP DISCH VLV MO 2-1402-24B is fully open.
Check for relief valve RV 2-1402-28B 2B CORE SPRAY PMP DISCH HDR RV leaking to Reactor Building Equipment Drain Tank OR valves leaking into Torus.
Notify Operations Shift Supervisor.
Directs WEC to send Operators out to investigate.
Directs an Equipment Attendant to inspect ECCS jockey pump for proper operation.
Places 2B Core Spray pump in PTL.
May direct 2B Core Spray pump discharge valve and / or suction valve closed.
ATC Assists BOP with carrying out actions of DAN as necessary.
CRS Directs carrying out actions of the DAN.
References Tech Spec 3.5.1 Condition B1.
Required action, restore Low pressure ECCS injection/spray subsystem to OPERABLE status within 7 days. (Surveillance Requirement SR 3.5.1.1.)
Orders 2B Core Spray pump placed in PTL.
May direct closing keepfill to 2B Core Spray system. (2-1402-37B)
OR May direct closing keepfill to 2B Core Spray system. (2-1402-36B)
May direct 2B Core Spray pump discharge valve and / or suction valve closed.
Notifies Shift manager Notifies maintenance groups.
Event 4 Completion Criteria:
- 2B Core Spray system declared inoperable, AND/OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-4 Page 13 of 28 Rev. 00 (09/10)
Event Five - High Feedwater System Vibrations / Reactor Scram Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
At the discretion of the Lead Examiner, simulate a Feedwater System high vibration by performing the following:
Activate trigger 5 which sequentially forces up Feedwater System high vibration 5 alarms.
RUN CAEP file ILT-N-4 fw_osc.cae which causes Feedwater System parameters to oscillate by varying MO 3206A & B valve positions.
SIMULATOR OPERATOR:
When the Team scrams the reactor, PAUSE AND EXIT CAEP file ILT-N-4 fw_osc.cae which stops varying MO 3206A & B valve positions to stop the Feedwater System high vibration.
ROLE PLAY:
As the NLO sent to Feedwater Regulating Valve station: (wait 2 min) then report:
Feedwater Regulating Valve pipes are swinging.
As the NLO sent to Feedwater Pump room: (wait 2 min) then report: Feedwater System pipes are swinging outside the RFP room.
ATC / Announces following alarms:
- 902-6 E-12, FEEDWATER REG STATION VIBRATION HI.
- 902-6 F-12, 2A RFP VIBRATION HI.
- 902-6 G-12, 2B RFP VIBRATION HI.
- Refers to DANs and performs actions.
CRS Enters DOA 3200-01, Feedwater System High Vibration, and directs actions.
ATC / Observes and announces Feedwater parameters are swinging.
BOP Dispatches NLO to check Feedwater System.
CRS May direct scram preparatory actions per DGP 02-03, Reactor Scram.
ATC / Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed.
BOP o Inserts control rods to reduce FCL to <93%.
o Start the motor suction pump and turning gear oil pump.
o Trip hydrogen addition.
CRS Directs manual scram per DGP 02-03, Reactor Scram.
Tripping RFPs when DOA 3200-01 requirements met.
SCENARIO ILT-N-4 Page 14 of 28 Rev. 00 (09/10)
Event Five - High Feedwater System Vibrations / Reactor Scram Trigger Position Crew Actions or Behavior ATC / Performs manual scram per DGP 02-03, Reactor Scram. (Go to next Event for BOP actions)
Trips RFPs when RPV time/level directions of DOA 3200-01 are met.
Event 5 Completion Criteria:
- Reactor scrammed, AND/OR,
- At the direction of the Lead Examiner.
SCENARIO ILT-N-4 Page 15 of 28 Rev. 00 (09/10)
Event Six - Electrical ATWS / ARI Unsuccessful Trigger Position Crew Actions or Behavior SIMULATOR OPERATOR:
6 Verify trigger 6 automatically activates when the Mode SW is placed to S/D. This pulls some of the scram fuses so some of the control rods insert. Fails 2A FRV open and 2B FRV closed. This allows RPV level to recover.
SIMULATOR OPERATOR / ROLE PLAY:
7 Operator to pull scram fuses: wait 4 min, then activate trigger 7. This sequentially pulls the scram fuses.
Operator to vent the scram air header: wait 5 min, the activate trigger 8. This vents the 8
SIMULATOR OPERATOR / ROLE PLAY:
9 Operator to install GP 1 -59 in. and Off Gas Hi Hi Rad jumpers: wait 3 min, activate trigger 9, and then report the GP 1 -59 in. and Off Gas Hi Hi Rad jumpers are installed.
SIMULATOR OPERATOR:
10 Verify trigger 10 automatically activates when the Mode SW is placed to S/D and RPV level is >35 in. This fails 2A FRV closed to prevent overfilling and tripping the RFPs.
ATC Performs the following actions per DGP 02-03, Reactor Scram, as directed:
Presses scram pushbuttons Places mode switch in shutdown Check rods inserted / Determines control rods did not insert.
Initiates ARI / Determines ARI did not insert control rods.
Announces ATWS condition and RX power is >6%.
May resets scoop tubes so Recirc Pumps run back / trips recirc pumps Initiates SBLC. Announces failure to inject.
Maintains RPV/L between +8 and +48 inches or as directed by Unit Supervisor.
(HPCI is available)
BOP Performs DGP 02-03, Reactor Scram, as directed.
SCENARIO ILT-N-4 Page 16 of 28 Rev. 00 (09/10)
Event Six - Electrical ATWS / ARI Unsuccessful Trigger Position Crew Actions or Behavior CRS Enters DEOP 100, RPV Control, and directs actions.
Due to report of ATWS condition, exits DEOP 100 AND enters DEOP 0400-05, Failure to Scram, and directs/performs:
Placing ADS to inhibit. (Not expected to be a Critical Task for this scenario)
Placing Core Spray pumps in PTL.
Inserting control rods using Alternate Rod Insertion.
Directs driving control rods.
Directs pulling scram fuses.
Directs venting scram air header.
Verifying required auto actions.
Installing of the jumpers for the MSIV low level isolations and the Off Gas high Rad isolations.
If RX power >6%, terminating and preventing all injection except boron and CRD until RPV level 35 inches.
Holding RPV level between -164 inches and the level lowered to.
Stabilizing RPV pressure below 1060 psig.
CRS Based on report that SBLC failed, directs DEOP 0500-01, Alternate Boron Injection, performed.
ATC Terminates and prevents all injection except boron and CRD at the 902-5 panel in automatic as follows:
Using the RX LOW FLOW CONTROL STATION, 2(3)-640-20, lowers FWLC SETPOINT to -40 inches.
BOP Terminates and prevents all injection except boron and CRD at the 902-3 panel as follows:
Place HPCI Aux Oil Pump AND HPCI 14 valve in PTL.
Verify HPCI flow controller in AUTO AND reduce setpoint to 2000 gpm.
PLACES LPCI 22 valves in Pull-to-Close.
CRS When RPV level reaches -35 inches, directs holding RPV water level between -164 in. and the level lowered to using CRD and HPCI.
ATC / Injects with CRD and HPCI to hold RPV level between -164 in. and the level BOP lowered to.
NOTE:
If scram fuses are not pulled soon enough, the SDV may fill enough that not all rods will insert when the fuses are pulled.
SCENARIO ILT-N-4 Page 17 of 28 Rev. 00 (09/10)
Event Six - Electrical ATWS / ARI Unsuccessful Trigger Position Crew Actions or Behavior ATC Inserts control rods per DEOP 500-05, Alternate Insertion Of Control Rods, as follows: (RPV-6.1)
Pulling scram fuses.
Drives rods by:
Bypassing the RWM.
Maximizing CRD drive water pressure.
Uses either the ROD MOVEMENT CONTROL switch or the EMERG ROD IN position of the ROD OUT NOTCH OVERRIDE switch.
CRS Based on report that all control rods are inserted, exits DEOP 0400-05 and enters DEOP 0100.
Directs securing SBLC.
ATC Performs as directed:
Secures SBLC.
ATC / Performs as directed:
BOP Re-establishes injection using available injection systems to MAINTAIN RPV water level above -143 (in band directed by Unit Supervisor).
Event 6 / Scenario Completion Criteria:
- Control rods inserted, (Or in progress)
AND / OR,
- At the discretion of the Lead Examiner.
SCENARIO ILT-N-4 Page 18 of 28 Rev. 00 (09/10)
Critical Tasks (RPV-6.1) With a reactor scram required and the reactor not shutdown, TAKE ACTION TO REDUCE POWER by injecting boron and/or inserting control rods, to prevent exceeding the primary containment design limits.
(RPV-6.2) With a reactor scram required, reactor not shutdown, and conditions for ADS blowdown are met, INHIBIT ADS to prevent an uncontrolled RPV depressurization, to prevent causing a significant power excursion.
(Conditions may not occur to cause this to be critical for this scenario)
(RPV-6.3) During an ATWS with conditions met to perform power/level control TERMINATE AND PREVENT INJECTION, with exception of boron and CRD, into the RPV until conditions are met to re-establish injection.
(RPV-6.4) When conditions are met to re-establish injection use available injection systems to MAINTAIN RPV water level above -164.
SCENARIO ILT-N-4 Page 19 of 28 Rev. 00 (09/10)
REFERENCES PROCEDURE TITLE DAN 902-3 D-7 2A/B CORE SPRAY HDR PRESS LO DAN 902-4 C-1(5) 2A(B) RECIRC M-G SCOOP TUBE PWR FAILURE DAN 902-5 A-3 ROD DRIFT ALARM DAN 902-6 E-12 FEEDWATER REG STATION VIBRATION HI DAN 902-6 F-12 2A RFP VIBRATION HI DAN 902-6 G-12 2B RFP VIBRATION HI DEOP 0100 RPV CONTROL DEOP 0400-05 FAILURE TO SCRAM DEOP 0500-05 ALTERNATE INSERTION OF CONTROL RODS DGA 07 UNPREDICTED REACTIVITY ADDITION DGP 02-03 REACTOR SCRAM DOA 0202-03 REACTOR RECIRC SYSTEM FLOW CONTROL FAILURE DOA 0300-05 INOPERABLE OR FAILED CRDS DOA 0300-12 MISPOSITIONED CONTROL ROD DOA 0500-04 THERMAL LIMITS AND FUEL CONDITIONING VIOLATION DOA 3200-01 FEEDWATER SYSTEM HIGH VIBRATION DOA 6500-10 4KV CIRCUIT BREAKER TRIP DOP 0202-12 RECIRCULATION PUMP MOTOR GENERATOR SET SCOOP TUBE OPERATION DOP 0300-08 CRD SYSTEM HCU ISOLATION DOP 0400-02 ROD WORTH MINIMIZER DOP 6700-18 BUS 28 OUTAGE TS 3.1.3 CONTROL ROD OPERABILITY TS 3.5.1 ECCS OPERATING SCENARIO ILT-N-4 Page 20 of 28 Rev. 00 (09/10)
ILT-N-4 Quantitative Attributes 6 Total malfunctions (5-8) 2 Malfunctions after EOP entry (1-2) 3 Abnormal events (2-4) 2 Major transients (1-2) 1 EOPs entered/requiring substantive actions (1-2) 1 EOP contingencies requiring substantive actions (0-2) 3 Critical tasks (2-3)
SCENARIO ILT-N-4 Page 21 of 28 Rev. 00 (09/10)
CAEP Files
- NRC Exam ILT 10-1
- SCENARIO ILT-N-4.cae
- Written by DREFV
- Rev 00
- Date 09/10
- INITIAL CONDITIONS
- Sets APRM Master Gain pot to 1.0 irf niagain 1.0
- Inserts an Electrical ATWS.
imf b12
- Overrides Panel 2202-70A(B) Trouble alarm points OFF so pulling ARI fuses does not cause alarm.
- Pulls ARI fuses.
Imf ser1026 off imf ser1060 off irf aw4 pulledl4
- Inserts trip of 2A SBLC pump.
imf scpmpocal2
- Sets 2B SBLC Relief valve setpoint to 100.0 psig imf scrlfvbd 100.0l2
- Overrides MO 3206A & B Closed light OFF. Valve positions are varied to simulate FW Sys Vibes.
ior fwl32061 offl2 ior fwl32062 offl2
- EVENT TRIGGERS
- Event Trigger 1 sets gain for all 6 APRMs.
trgset 1 "0"l4 trg 1 "irf niagainf true"l4
Trgset 2 "0"l6 imf rodl06di (2)l6
- Event Trigger 3 fails master recirc flow controller upscale.
trgset 3 "0"l6 imf rrmasupd (3) 0.85 4:00 0.64l6
- Event Trigger 4 causes 2A/B Core System Low Pressure Alarm (902-3 D-7)
- Cracks open 4B VLV and isolates Keep Fill to 2B Loop trgset 4 "0"l8 trg 4 "set csv4b = 0.002"l8 irf csbfilof (4) closedl8
- Event Trigger 5 Sequentially forces up the following alarms to simulate FW Sys Hi Vibes.
- 902-6 E-12, FEEDWATER REG STATION VIBRATION HI.
- 902-6 F-12, 2A RFP VIBRATION HI.
- 902-6 G-12, 2B RFP VIBRATION HI.
Trgset 5 "0"l10 imf ser1361 (5) onl10 SCENARIO ILT-N-4 Page 22 of 28 Rev. 00 (09/10)
imf ser1363 (5 1:00) onl10 imf ser1397 (5 1:30) onl10
- Event trigger 6 Activates when the Mode SW is placed to S/D.
Trgset 6 "rpdmode4_drw"l12 irf rpfusea4 (6) pulledl12 irf rpfuseb1 (6) pulledl12 irf rpfuseb2 (6) pulledl12 irf rpfuseb3 (6) pulledl14 irf rpfuseb4 (6) pulledl14 imf rlmfafo (6)l14 imf rlmfbfc (6)l14
Trgset 7 "0"l16 irf rpfusea1 (7 0) pulledl16 irf rpfusea2 (7 20) pulledl16 irf rpfusea3 (7 40) pulledl16
trgset 8 "0"l18 irf rdscrair (8) openl18
trgset 9 "0"l18 irf ci59jp (9) inl20 irf ogogjp (9) inl20
Trgset 10 "rpdmode4_drw .and. (ppc209 .gt. 35.0)"l22 Trg 10 "dmf rlmfafo"l20 imf rlmfafc (10 2)l20
- END
- ILT-N-4 fw_osc.cae
- by DREFV
- 09/10
- The following cycles MO 3206A & B valve positions to simulate FW Sys Hi Vibes.
set fwv3206a(1) = 0.4 set fwv3206a(2) = 0.4 set fwv3206a(1) = 0.6l3 set fwv3206a(2) = 0.6l3 set fwv3206a(1) = 0.4l6 set fwv3206a(2) = 0.4l6 set fwv3206a(1) = 0.6l9 set fwv3206a(2) = 0.6l9 set fwv3206a(1) = 0.4l12 set fwv3206a(2) = 0.4l12 set fwv3206a(1) = 0.6l15 set fwv3206a(2) = 0.6l15 SCENARIO ILT-N-4 Page 23 of 28 Rev. 00 (09/10)
set fwv3206a(1) = 0.4l18 set fwv3206a(2) = 0.4l18 set fwv3206a(1) = 0.6l21 set fwv3206a(2) = 0.6l21 set fwv3206a(1) = 0.4l24 set fwv3206a(2) = 0.4l24 set fwv3206a(1) = 0.6l27 set fwv3206a(2) = 0.6l27 set fwv3206a(1) = 0.4l30 set fwv3206a(2) = 0.4l30 set fwv3206a(1) = 0.6l33 set fwv3206a(2) = 0.6l33 set fwv3206a(1) = 0.4l36 set fwv3206a(2) = 0.4l36 set fwv3206a(1) = 0.6l39 set fwv3206a(2) = 0.6l39 set fwv3206a(1) = 0.4l42 set fwv3206a(2) = 0.4l42 set fwv3206a(1) = 0.6l45 set fwv3206a(2) = 0.6l45 set fwv3206a(1) = 0.4l48 set fwv3206a(2) = 0.4l48 set fwv3206a(1) = 0.6l51 set fwv3206a(2) = 0.6l51 set fwv3206a(1) = 0.4l54 set fwv3206a(2) = 0.4l54 set fwv3206a(1) = 0.6l57 set fwv3206a(2) = 0.6l57 set fwv3206a(1) = 0.4l60 set fwv3206a(2) = 0.4l60 set fwv3206a(1) = 0.65l63 set fwv3206a(2) = 0.65l63 set fwv3206a(1) = 0.25l66 set fwv3206a(2) = 0.25l66 set fwv3206a(1) = 0.65l69 set fwv3206a(2) = 0.65l69 set fwv3206a(1) = 0.25l72 set fwv3206a(2) = 0.25l72 set fwv3206a(1) = 0.65l75 set fwv3206a(2) = 0.65l75 set fwv3206a(1) = 0.25l78 set fwv3206a(2) = 0.25l78 set fwv3206a(1) = 0.65l81 set fwv3206a(2) = 0.65l81 set fwv3206a(1) = 0.25l84 set fwv3206a(2) = 0.25l84 set fwv3206a(1) = 0.65l87 set fwv3206a(2) = 0.65l87 SCENARIO ILT-N-4 Page 24 of 28 Rev. 00 (09/10)
set fwv3206a(1) = 0.25l90 set fwv3206a(2) = 0.25l90 set fwv3206a(1) = 0.65l93 set fwv3206a(2) = 0.65l93 set fwv3206a(1) = 0.25l96 set fwv3206a(2) = 0.25l96 set fwv3206a(1) = 0.65l99 set fwv3206a(2) = 0.65l99 set fwv3206a(1) = 0.25l102 set fwv3206a(2) = 0.25l102 set fwv3206a(1) = 0.65l105 set fwv3206a(2) = 0.65l105 set fwv3206a(1) = 0.25l108 set fwv3206a(2) = 0.25l108 set fwv3206a(1) = 0.65l111 set fwv3206a(2) = 0.65l111 set fwv3206a(1) = 0.25l114 set fwv3206a(2) = 0.25l114 set fwv3206a(1) = 0.65l117 set fwv3206a(2) = 0.65l117 set fwv3206a(1) = 0.25l120 set fwv3206a(2) = 0.25l120 set fwv3206a(1) = 0.7l123 set fwv3206a(2) = 0.7l123 set fwv3206a(1) = 0.3l126 set fwv3206a(2) = 0.3l126 set fwv3206a(1) = 0.7l129 set fwv3206a(2) = 0.7l129 set fwv3206a(1) = 0.3l132 set fwv3206a(2) = 0.3l132 set fwv3206a(1) = 0.7l135 set fwv3206a(2) = 0.7l135 set fwv3206a(1) = 0.3l138 set fwv3206a(2) = 0.3l138 set fwv3206a(1) = 0.7l141 set fwv3206a(2) = 0.7l141 set fwv3206a(1) = 0.3l144 set fwv3206a(2) = 0.3l144 set fwv3206a(1) = 0.7l147 set fwv3206a(2) = 0.7l147 set fwv3206a(1) = 0.3l150 set fwv3206a(2) = 0.3l150 set fwv3206a(1) = 0.7l153 set fwv3206a(2) = 0.7l153 set fwv3206a(1) = 0.3l156 set fwv3206a(2) = 0.3l156 set fwv3206a(1) = 0.7l159 set fwv3206a(2) = 0.7l159 SCENARIO ILT-N-4 Page 25 of 28 Rev. 00 (09/10)
set fwv3206a(1) = 0.3l162 set fwv3206a(2) = 0.3l162 set fwv3206a(1) = 0.7l165 set fwv3206a(2) = 0.7l165 set fwv3206a(1) = 0.3l168 set fwv3206a(2) = 0.3l168 set fwv3206a(1) = 0.7l171 set fwv3206a(2) = 0.7l171 set fwv3206a(1) = 0.25l174 set fwv3206a(2) = 0.25l174 set fwv3206a(1) = 0.75l177 set fwv3206a(2) = 0.75l177 set fwv3206a(1) = 0.25l180 set fwv3206a(2) = 0.25l180 set fwv3206a(1) = 0.75l183 set fwv3206a(2) = 0.75l183 set fwv3206a(1) = 0.25l186 set fwv3206a(2) = 0.25l186 set fwv3206a(1) = 0.75l189 set fwv3206a(2) = 0.75l189 set fwv3206a(1) = 0.25l192 set fwv3206a(2) = 0.25l192 set fwv3206a(1) = 0.75l195 set fwv3206a(2) = 0.75l195 set fwv3206a(1) = 0.25l198 set fwv3206a(2) = 0.25l198 set fwv3206a(1) = 0.75l201 set fwv3206a(2) = 0.75l201 set fwv3206a(1) = 0.25l204 set fwv3206a(2) = 0.25l204 set fwv3206a(1) = 0.75l207 set fwv3206a(2) = 0.75l207 set fwv3206a(1) = 0.25l210 set fwv3206a(2) = 0.25l210 set fwv3206a(1) = 0.75l213 set fwv3206a(2) = 0.75l213 set fwv3206a(1) = 0.25l216 set fwv3206a(2) = 0.25l216 set fwv3206a(1) = 0.75l219 set fwv3206a(2) = 0.75l219 imf rlmfafol222 imf rlmfblal222
- END SCENARIO ILT-N-4 Page 26 of 28 Rev. 00 (09/10)
Unit 2 Risk: GREEN Unit 3 Risk: GREEN Unit 2 is in Mode 1 at 680 MWe, Unit 3 is in Mode 1 at 913 MWe Leading Thermal Limit: MFLCPR @ 0.881 Leading Thermal Limit: MAPRAT @ 0.819 Action limit: 0.980 Action Limit: 0.980 Equipment Unavailable: None Equipment Unavailable: None Protected Equipment: None Protected Equipment: None Current Action Statements LCO Started: 2.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> ago LCO Expires: 7 days TS 3.5.1 Cause: LPCI inop Unit 1 Plant Status Today U1 Diesel Oil Storage Tank Transfer House has grating removed. Currently roped off with pump installed to pump to U1 Oil Separator Pit as required. Outside operator monitor and pump as necessary.
Today Chem Cleaning ventilation status:
HV-1A/EF-1A are secured due to HV-1A inlet and outlet dampers being shut with fan on, IR# 913157, WO 1239746.
HV-1B/EF-1B are secured due to HV-1B throwing its belts. WO 1156150.
HVAC -1 ON.
HV-2 running.
Switchyard Status Today 138 KV Bus 1 Feed To TR 22 Combi Units has low oil in the 'C' phase, ComEd WO #276162 Today HVO: Exercise CAUTION while in the 345 kV Yard due to excavation being performed in the area.
Marv Evans reports holes being dug near manual switch disconnects 345kV Blue Bus. Plywood will be installed over the holes if access is needed, but be aware there are holes under the plywood.
SSC called from the 345Kv yard reporting that the cable trough covers are removed to prep for upcoming work. Be careful.
SCENARIO ILT-N-4 Page 27 of 28 Rev. 00 (09/10)
Unit 2 Plant Status Today Unit 2 Activities
- Shift 1 Activities ****
?
?
- Shift 2 Activities ****
? MCC 28-7/29-7 was transferred to Bus 28 two hours ago for EMD to take readings on the Bus 28 feed to MCC 28-7/29-7. EMD is done taking readings. Immediately after taking the shift, transfer MCC 28-7/29-7 back to Bus 29.
? Notify the Shift Manager just prior to transferring MCC 28-7/29-7. The Shift Manager and U-3 Unit Supervisor will handle the Tech Spec requirements.
- Shift 3 Activities ****
?
?
Today **** Unit 2 Procedures In-Progress **** Do Not Delete ****
? None
?
SCENARIO ILT-N-4 Page 28 of 28 Rev. 00 (09/10)