{{#Wiki_filter:Dresden Generating Station ILT-N-1 ESTABLISH PRIMARY CONTAINMENT INERTING WITHDRAW RODS TO OPEN TURBINE BYPASS VALVES CONTROL ROD DRIFTS OUT APRM FAILS UPSCALE WITHOUT HALF SCRAM RFP VENT FAN TRIPS DUE TO OVERCURRENT HPCI SYSTEM SPURIOUS INITIATION LOCA IN DW - MANUAL SCRAM LOSS OF RFPS - USE HPCI TO RESTORE LEVEL Rev. 00 08/13 Developed By:

Exam Author                                   Date Approved By:

Facility Representative                       Date

Scenario Outline Station:  Dresden Generating Station            Scenario No.:    ILT-N-1       Class ID: 2013-301 Evaluators                                          Operators              / crew position

                                                                                            / ATC

                                                                                            / CRS Initial Conditions:     ~5% Power, steady state, and equilibrium xenon Turnover:               2C RFP OOS Event          Malf.               Event                                      Event No.             No.               Type*                                    Description N      BOP     Establish Primary Containment Inerting Lineup Per DOP 1            NONE                              1600-05 2            NONE              R      ATC      Withdraw Rods To Open Turbine Bypass Valves 3        RODH08DO            C/T      ATC      Control Rod Drifts Out (TS) 4          NIA5POT          I/T      BOP      APRM Fails Upscale Without Half Scram (TS) 5          X10 / X13          C      ATC      RFP Vent Fan - Trips Due To Overcurrent 6            HPINIT          I/T      BOP      HPCI System Spurious Initiation (TS) 7              F41            M      TEAM      LOCA In DW - Manual Scram 8            H32              C      TEAM      Loss Of RFPs - Use HPCI To Restore Level

* (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-1                                     Page 2 of 28                                   Rev. 00 (08/13)

* After completing shift turnover, the BOP will establish Primary Containment Inerting Lineup per DOP 1600-05, Primary Containment Inerting and Atmosphere Control.

* After the CRD failure is addressed, APRM 5 fails upscale without a half scram due to an APRM Trip Unit problem. The ATC must manually insert a half scram per DOP 0500-07, Insertion-Reset of Manual Half Scram. Technical Specification 3.3.1.1, Condition A, and TRM 3.3.a, Condition A apply.

* After the APRM failure is addressed, the running RFP Vent fan trips. The standby fan does not automatically start as expected. The Team starts the standby fan per DAN 902(3)-6, RFP Vent Fan Trip and/or DOA 5750-01, Ventilation System Failure.

* After the RFP Vent Fan failure is addressed, a HPCI Inadvertent Initiation occurs due to setpoint drift. The Team will shutdown HPCI per DOP 2300-04, High Pressure Coolant Injection System (HPCI) Shutdown. The CRS will reference Tech Specs and determine that LCOs 3.5.3. Condition A and 3.3.2, Condition A apply.

* After the scram, a loss of RFPs occurs, requiring HPCI to be used to restore level per DEOP 100-00, RPV CONTROL.

* Completion criteria: When RPV Water Level is being maintained and at the discretion of the Lead Examiner, place the simulator in FREEZE.

SCENARIO ILT-N-1                                    Page 3 of 28                                Rev. 00 (08/13)

* Performs DOP 1600-05, Primary Containment Inerting and Atmosphere Control.

Event Two - Withdraw Rods to Open Turbine Bypass Valves

* The Team will raise power to Open Turbine Bypass Valves.

    *  (None)

Event Three - Control Rod Drifts Out

* Performs DOA 0300-05, Inoperable or Failed Control Rod Drives.

* Determines Technical Specifications requirements.

* APRM 5 fails upscale without a half scram due to an APRM Trip Unit problem.

Malfunctions required: 1

    * (APRM fails upscale without a half scram)

Success Path:

SCENARIO ILT-N-1                                Page 4 of 28                            Rev. 00 (08/13)

Event Six - HPCI System Spurious Initiation

* A HPCI Inadvertent Initiation occurs due to setpoint drift.

Malfunctions required: 1

    * (Spurious HPCI initiation)

Success Path:

* Shutdown HPCI per DOP 2300-04, High Pressure Coolant Injection System (HPCI) Shutdown.

Event Seven - LOCA in DW - Manual Scram

* A LOCA in the Drywell occurs, causing DW pressure to rise, and requiring a manual scram.

Malfunctions required: 1

    * (Recirc loop leak)

* Performs DGP 02-03, Reactor Scram.

* Performs DEOP 0100, RPV Control

* Performs.DEOP 0200-01, Primary Containment Control.

Event Eight - Loss of RFPs - Use HPCI to Restore Level

* A loss of RFPs results in RPV level dropping.

Malfunctions required: 1

    * (Loss of RFPs)

Success Path:

* Performs DOA 2300-02, HPCI Fast Startup.

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 a marked-up copy of DGP 01-01, Unit Startup.

: d. Provide the Team a marked-up copy of DOP 1600-05, Primary Containment Inerting and Atmosphere Control.

2 Simulator Setup (the following steps can be done in any logical order)

: 1) Reactor power ~5%. (IC 159 used for validation, Seq. 2I.0.0, BF78, completed thru step 19)

: 2) The Primary Containment deinerted.

3 Verify the following simulator conditions:

: g. Verify 3 cond demin beds cut in.

: h. Verify the Cond Boost Min Flow open 90-95%.

: i. Verify the Turbine is reset.

: k. Verify that the Primary Containment atmosphere control lineup is as follows :

: 1) PIC 2-8540-1, DW PRESS CONTLR, is in MAN and set to zero (0.0) psig.

: 4) AO 2-1601-58, TORUS M-U VLV, closed

: 6) AO 2-1601-21, DW PURGE VLV, open

: 7) AO 2-1601-22, VENT VLV, closed

: 8) AO 2-1601-55, ISOL VLV, open

: 9) AO 2-1601-56, TORUS PURGE VLV, closed

: 12) AO 2-1601-61, TORUS 2-IN VENT VLV, closed.

4 Run the initial setup CAEP file: ILT-N-1.cae 5 Place the following equipment out of service:

: a. 2C RFP 6 Run the CAEP file: Pump_Sumps.cae 7 Complete the Simulator Setup Checklist.

Critical Tasks Time Critical Tasks PRA Key Operator Actions Required Actions Optional Actions SCENARIO ILT-N-1                                  Page 7 of 28                    Rev. 00 (08/13)

Event One - Establish Primary Containment Inerting Trigger  Position                                   Crew Actions or Behavior ROLE PLAY:

Oxygen sample - report the oxygen level is at 21%.

TR 2/3-8503-1, 2/3 NITROGEN PURGE VAPORIZER OUTLET, reading - report:

If flow has not been started - the TR 2/3-8503-1, 2/3 NITROGEN PURGE VAPORIZER OUTLET, reading is 180 °F.

If flow has been started - the TR 2/3-8503-1, 2/3 NITROGEN PURGE VAPORIZER OUTLET, reading is 150 °F.

CRS         Directs BOP to establish Primary Containment inerting per DOP 1600-05, Primary Containment Inerting and Atmosphere Control.

BOP     Establishes Primary Containment inerting per DOP 1600-05, Primary Containment Inerting and Atmosphere Control, step G.9:

On 2-8540-5, U2 DW & TORUS O2 ANALYZ, selects the percent oxygen range switch to the lowest range that will maintain reading on scale. (0-25%)

On 2-8540-7, U2 DW & TORUS O2 SAMPLE SELECT:

o   Places stream mode switch in MANUAL.

o   Verifies the TORUS is selected for sampling.

BOP         At Panel 902-3, verifies the following valve lineup:

o   MO 2-1601-57, M-U VLV, closed.

o   AO 2-1601-58, TORUS M-U VLV, closed.

o   AO 2-1601-59, DW M-U VLV, closed.

o   AO 2-1601-22, VENT VLV, closed.

o   AO 2-1601-55, ISOL VLV, open.

o   AO 2-1601-62, DW 2-IN VENT VLV, closed.

o   AO 2-1601-23, DW VENT VLV, closed.

o   AO 2-1601-61, TORUS 2-IN VENT VLV, closed.

o   AO 2-1601-60, TORUS VENT VLV, closed.

Event One - Establish Primary Containment Inerting Trigger   Position                                     Crew Actions or Behavior BOP       Verifies AO 2-1601-91, VENT TO RX BLDG EXH SYS at Panel 902(3)-3 is open.

Opens AO 2-1601-60, TORUS VENT VLV.

Opens AO 2-1601-24, VENT TO RX BLDG EXH SYS.

At Panel 902-3, starts nitrogen flow to the torus by opening PCV 2-8520 using PIC 2-8540-1, DW PRESS CONTLR.

Observes/Confirms Purge Flow by verifying a temperature decrease on the Nitrogen inerting line in the 2/3 D/G Room.

ATC         Assists BOP as directed.

* Drywell inerting lineup established, AND/OR,

* At the discretion of the Lead Examiner.

Event Two - Withdraw Rods To Open Turbine Bypass Valves Trigger   Position                                     Crew Actions or Behavior ROLE PLAY:

At Lead Evaluators direction, inform the Team as the QNE that I have completed review of core parameters and startup may continue.

CRS       Directs pulling control rods:

ATC       Performs the following actions per DOP 0400-01, Reactor Manual Control System Operation, and DGP 03-04, Control Rod Movements, as directed Verifies the following prior to moving any control rod:

Second Verification requirements satisfied.

Rod Out Permit light is illuminated.

Withdraws rods as follows:

Moves RONOR Switch to NOTCH OVERRIDE (use of RONOR is optional) and the Rod Movement Control switch to ROD OUT.

BOP       Performs second verification checks.

Verifies correct control rod pattern Verifies correct step and array.

Verifies RWM rod blocks enabled For all rods moved:

* Sufficient power increase, AND/OR

* At the direction of the Lead Examiner.

Event Three - Control Rod Drifts Out Trigger  Position                                   Crew Actions or Behavior Simulator Operator:

1 At the discretion of the Lead examiner, activate trigger 1, which causes Control Rod H-08 to drift out.

Role Play:

EO to check H-08 accumulator: Wait 2 min, then report I see nothing abnormal at H-08 accumulator.

WEC/EO to disarm H-08: acknowledge the request. It is not intended to complete the request.

QNE to evaluate core limits: Acknowledge the request. Wait 2 min. and report, core parameters are within limits.

EO to close CRD H-08s 2-0305-102, WITHDRAW VLV: Wait 2 min. and report, CRD H-08s 2-0305-102 is closed.

ATC     Announces 902-5 A-3, Rod Drift, alarm.

Notices and announces that Control Rod H-08 is drifting out.

Performs actions of DOA 0300-05, Inoperable Or Failed Control Rod Drives as directed.

Due to the CRD failing to remain at the FULL IN OR OVERTRAVEL IN position, continuously applies an emergency insert signal using EMERG ROD IN on RONOR switch.

CRS         Enters DOA 0300-05, Inoperable or Failed Control Rod Drives, and directs actions.

BOP         At back panel 902-16, places the scram toggle switch for CRD H-08 to the UP position.

ATC         Releases RONOR switch.

Announces that procedure directs entering DOA 0300-12, Mispositioned Control Rod.

Discontinues ALL non-emergency control rod motion and notifies CRS and QNE to evaluate core parameters.

Directs EO to close CRD H-08s 2-0305-102, WITHDRAW VLV, to prevent CRD discharge volume from filling.

Event Three - Control Rod Drifts Out Trigger   Position                                   Crew Actions or Behavior CRS         References TS 3.1.3, Condition C, and determines the following actions are required:

* C.1 Fully insert inoperable control rod within 3 hours. (DOA 0300-05, Inoperable or Failed Control Rod Drives, directs inserting the rod)

* C.2 Disarm the associated CRD within 4 hours.

Directs disarming rod H-08.

CRS         Enters DOA 0300-12, Mispositioned Control Rod.

CRS         Directs taking rod H-08 OOS on the RWM.

ATC         Takes rod H-08 OOS on the RWM.

* When Control Rod H-08 Has Been Inserted To Position 00, AND

* Tech Specs Have Been Addressed, AND/OR,

* At the direction of the Lead Examiner.

Event Four - APRM Fails Upscale Without Half Scram Trigger  Position                                     Crew Actions or Behavior SIMULATOR OPERATOR:

2              At the discretion of the Lead Examiner, activate trigger 2, which fails APRM channel 5 upscale and defeats the half scram.

When APRM 5 is bypassed, verify the following Triggers automatically activate:

3 o   Trigger 3 - Deletes RPS system fail to scram malfunction.

4 o   Trigger 4 - Restores alarm 902-5 D-13 to NORMAL.

IMD to troubleshoot APRM 5: Wait a few minutes and report that the APRM 5s scram trip unit failed. The problem is isolated to only APRM 5.

ATC         Announces the following alarms:

o   902-5 A-6, APRM HI o   902-5 B-4, OPRM TOUBLE/INOP o   902-5 C-3, ROD OUT BLOCK Verifies APRM 5 readings against other APRMs on 902-5 panel.

Bypasses APRM 5 after T. S. compliance verified by CRS.

Resets RPS channel A per DOP 0500-07, Insertion/Reset of Manual Half Scram, as follows:

o   Verifies half scram no longer required

* Turns the Scram Reset switch in each direction and verifies all eight white group solenoid lights are lit.

o   Verifies alarm 902-5 A-10, Channel A Manual Trip, resets.

BOP     Performs the following actions per DAN 902-5 A-6:

Verifies APRM 5 readings against other APRMs on 902-37 panel.

Verifies APRM 5 function switch in operate.

TEAM         Determines with the Mode Switch in STARTUP, a Channel B half scram should have occurred.

CRS         Directs a Channel B half scram be inserted per DOP 0500-07, Insertion-Reset of Manual Half Scram.

SCENARIO ILT-N-1                                   Page 13 of 28                               Rev. 00 (08/13)

 

Event Four - APRM Fails Upscale Without Half Scram Trigger   Position                                     Crew Actions or Behavior ATC         Performs 0500-07, Insertion-Reset of Manual Half Scram, as follows:

o   Verifies both RPS Channels are reset AND the attendant annunciators are reset.

* Depresses the Manual Scram CH B pushbutton.

o   Verifies RED backlighting under Manual Scram pushbutton illuminates.

o   Verifies ALL (four) Scram Solenoid Group lights extinguish for the appropriate RPS Channel.

o   Verifies Annunciator 902-5, A-15, (Channel B Manual Trip) alarms as appropriate.

o   Verifies NO Control Rod movement has occurred.

o   If half scram is to remain up for extended, time notifies BPO.

CRS         References TS 3.3.1.1, Condition A, and determines that sufficient channels are available.

References TRM 3.3.a, Condition A, and determines that sufficient channels are available.

Event 4 Completion Criteria:

* APRM 5 bypassed,

* Half scram reset, AND

* Tech Spec determination complete.

AND / OR

* At the direction of the Lead Examiner.

Event Five - RFP Vent Fan Trips Due To Overcurrent Trigger   Position                                   Applicants Actions or Behavior NOTE: Ensure the ATC operator performs this Event Simulator Operator:

5                  At the discretion of the Lead Examiner, activate trigger 5 which causes 2A RFP vent fan to trip. The initial setup prevents 2B RFP vent fan from auto starting.

Role Play:

NLO to check operation of 2B RFP vent fan: Wait 2 min, and then report that 2B RFP vent fan is operating normally.

NLO to check 2A RFP vent fan breaker: Wait 2 min, and then report 2A RFP vent fan breaker tripped on over current.

Note: Per DOP 5750-06, Reactor Feed Pump Motor Ventilation System, fan control switches should be held in CLOSE for 45 seconds to allow airflow to develop. If the Team does not successfully start 2B RFP Vent fan due to not holding the control switch long enough and to avoid RFP high stator temperature computer alarms, provide the following Role Play:

Cue as the Shift Manager to the CRS: I recommend holding the 2B RFP Vent fan control switch to CLOSE for 45 sec.

ATC     Acknowledges and announces alarm 902-6 F-8, RFP Vent Fan Trip:

Performs DOP 6700-20, 480V Circuit Breaker Trip.

CRS         Directs starting 2B RFP vent fan.

Enters DOP 6700-20, 480V Circuit Breaker Trip.

BOP       Assists as directed.

TEAM       May reference DOP 5750-06, Reactor Feed Pump Motor Ventilation System.

May reference DOA 5750-01, Ventilation System Failure.

* 2B RFP vent fan is started, AND / OR;

* At the direction of the Lead Examiner.

Event Six - HPCI System Spurious Initiation Trigger   Position                                 Applicants Actions or Behavior SIMULATOR OPERATOR:

6                  At the discretion of the Lead examiner, activate trigger 6, which causes a Spurious HPCI 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.

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:

* Actions taken to shutdown HPCI,

* Tech Specs addressed, AND / OR,

* At the discretion of the Lead Examiner.

Event Seven - LOCA In DW - Manual Scram Trigger  Position                               Applicants Actions or Behavior SIMULATOR OPERATOR:

7              At the discretion of the Lead examiner, activate trigger 7, which causes a small Recirc Loop leak to develop in the Drywell.

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.

Report, The Drywell CAM is trending up.

NLO to search for leak Report, I am on my way out to check for leaks.

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. (Since DW pressure starts much lower than normal, may set a lower pressure Scram contingency 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 the following actions per DOA 0040-01, Slow Leak, as directed:

Inserts manual reactor scram prior to 1.5 psig DW pressure SCENARIO ILT-N-1                              Page 17 of 28                                Rev. 00 (08/13)

Event Seven - LOCA In DW - Manual Scram Trigger  Position                               Applicants Actions or Behavior BOP     Performs the following actions per DOA 0040-01 Slow Leak, as directed:

Shutdown H 2 Addition.

Makes PA announcement.

o Verify Crib House inlet temperature is <95 F.

Initiates Torus cooling per Hard Card.

o   Places 316A/B and 318A/B keylock switches in MANUAL OVERRD.

o   Verifies the third circ water pump is secured prior to starting the first CCSW pump.

o   IF starting torus cooling during a LOCA, THEN verifies RWCU recirc pump is tripped PRIOR to starting the first CCSW pump.

o   Starts one CCSW pump in each loop and verifies 3A/B valves open.

o   Starts at least one LPCI pump in each loop. (Starts additional LPCI pumps as required.)

o   Adjusts CCSW flow controller to approximately 3500 gpm for one pump;

                            > 5000 gpm two pumps. [Maintain LPCI/CCSW dP  7 psid (1 LPCI Pump/loop) OR  20 psid (two LPCI Pumps/loop)]

o   Momentarily places 11A/B valve control switches to close. (IF 11A/B remain open or re-opened due to LPCI logic, then close valves as soon as possible.)

o   IF required, obtains Unit Supervisor permission, THEN places 317 keylock switches to MANUAL OVERRD.

o   Opens 21A/B and 20A/B valves in desired loop.

o   Throttles open 38A/B valves until > 5000 gpm per LPCI pump is established (maintains LPCI pump discharge pressure > 125 psig).

o   Starts additional CCSW pumps if desired:

IF TR 86(32) LTC in MANUAL, THEN PRIOR to starting 3rd OR 4th CCSW PP, verifies voltage on applicable ECCS bus > 4000 volts, preferred target 4160V.

(Unit 2 Only) If 2/3 EDG is loaded, then refers to DOP 1500-02 prior to starting additional pumps.

o   Adjusts CCSW flow controller to > 5000 gpm for two CCSW pumps [Maintain LPCI/CCSW dP 7 psid (1 LPCI Pump/loop) OR  20 psid (two LPCI Pumps/loop)].

ATC /   Performs scram preparatory actions per DGP 02-03, Reactor Scram, as directed.

BOP Starts MSP and TGOP.

SCENARIO ILT-N-1                               Page 18 of 28                                   Rev. 00 (08/13)

 

Event Seven - LOCA In DW - Manual Scram Trigger   Position                                 Applicants Actions or Behavior ATC     Performs the following actions per DGP 02-03, Reactor Scram, as directed:

Maintains RPV/L between +25 and +35 inches or as directed by Unit Supervisor.

TEAM     Verifies the following as time allows:

Event 7 Completion Criteria:

* Team has performed a reactor scram, AND/OR

* At the discretion of the Lead Examiner.

Event Eight - Loss Of RFPs - Use HPCI To Restore Level Trigger   Position                                     Crew Actions or Behavior SIMULATOR OPERATOR:

8                After the Team has stabilized the plant and at the discretion of the Lead Evaluator, activate trigger 8, which causes the following:

Increases the size of the recirc leak.

After 1 min, trips the running RFP and prevents the available RFP from starting.

EO sent to check EDG operation: wait 3 min, then report: Both EDGs are operating normally.

TEAM         Determines/announces Drywell pressure rapidly rising.

CRS     Enters DEOP 100, RPV Control, Directs actions of DEOP 100.

Maintaining RPV/P <1060 psig using Turbine Bypass valves.

CRS     Enters DEOP 0200-01, Primary Containment Control, when PC/P reaches 2 psig and performs/directs:

When PC/P is above 9 psig or before DW/T reaches 281&deg;F:

* Verification of DSIL.

* Tripping of recirc pumps.

* Tripping of DW coolers.

* Initiation of DW sprays.

Verifies initiation of drywell and torus H 2 /O 2 monitors.

SCENARIO ILT-N-1                                   Page 20 of 28                               Rev. 00 (08/13)

 

Event Eight - Loss Of RFPs - Use HPCI To Restore Level Trigger   Position                                     Crew Actions or Behavior BOP     Performs DEOP 0200-01, Primary Containment Control, actions as directed:

Adjusts sprays to maintain < 9 psig, but high enough to ensure ECCS NPSH by any combination of the following:

o   Open or close 27A/B AND 28A/B valves in the desired containment spray loop.

o   Throttling 21A/B OR 38A/B valves in the desired containment spray loop. (Maintain LPCI pump discharge pressure > 125 psig.)

Monitors DW/T.

Monitors SP/T and initiates torus cooling per Hard Card LPCI/CCSW OPERATION as directed. (May already be initiated for previous Event)

Verifies initiation of drywell and torus H 2 /O 2 monitors.

ATC       Determines/announces a RFP trip.

Attempts to start the available RFP.

CRS           Directs starting HPCI to restore and maintain RPV Level at the DEOP directed level band (+8 to +48).

BOP           Starts HPCI as directed and restores level to the DEOP directed level band (+8 to

                          +48):

Places the HPCI 14 valve in NORMAL.

Depresses AND holds the HPCI REMOTE TURBINE TRIP Pushbutton.

Opens the HPCI 4 valve.

Adjusts flow in Auto OR Manual Mode.

Starts HPCI Room Cooler.

Event 8 / Scenario Completion Criteria:

* Sprays the Drywell; AND,

* Starts HPCI to restore RPV level to DEOP directed level band.

AND / OR,

* At the direction of the Lead Examiner.

Critical Tasks With a control rod drifting out to a position where core damage could occur, TAKE ACTION TO PLACE THE CONTROL ROD AT A SAFE POSITION (00).

Given a shutdown reactor with a LOCA in progress, restore and maintain RPV water level with available high-pressure systems.

(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.

SCENARIO ILT-N-1                           Page 22 of 28                                   Rev. 00 (08/13)

REFERENCES PROCEDURE                                        TITLE DAN 902-5 A-3    ROD DRIFT DAN 902-5 A-6    APRM HI DAN 902-5 A-15  CHANNEL B MANUAL TRIP DAN 902-5 B-4    OPRM TOUBLE/INOP DAN 902-5 C-3    ROD OUT BLOCK DAN 902-6 F-8    RFP VENT FAN TRIP DEOP 0100        RPV CONTROL DEOP 0200-01    PRIMARY CONTAINMENT CONTROL DGA 07          UNPREDICTED REACTIVITY ADDITION DGP 01-01        UNIT STARTUP DGP 02-03        REACTOR SCRAM DGP 03-04        CONTROL ROD MOVEMENTS DOA 0040-01      SLOW LEAK DOA 0300-05      INOPERABLE OR FAILED CONTROL ROD DRIVES DOA 5750-01      VENTILATION SYSTEM FAILURE DOP 0400-01      REACTOR MANUAL CONTROL SYSTEM OPERATION DOP 0500-07      INSERTION/RESET OF MANUAL HALF SCRAM DOP 1600-05      PRIMARY CONTAINMENT INERTING AND ATMOSPHERE CONTROL DOP 2300-04      HIGH PRESSURE COOLANT INJECTION SYSTEM (HPCI) SHUTDOWN DOP 5750-06      REACTOR FEED PUMP MOTOR VENTILATION SYSTEM DOP 6700-20      480V CIRCUIT BREAKER TRIP TS 3.1.3        CONTROL ROD OPERABILITY TS 3.3.1.1      REACTOR PROTECTION SYSTEM (RPS) INSTRUMENTATION TS 3.6.4.1      SECONDARY CONTAINMENT TRM 3.3.a        CONTROL ROD BLOCK INSTRUMENTATION SCENARIO ILT-N-1                       Page 23 of 28                 Rev. 00 (08/13)

 

Simulator Scenario Review Checklist ILT-N-1 Quantitative Attributes 6       Total malfunctions (5 to 8) 1       Malfunctions after EOP entry (1 to 2) 3       Abnormal events (2 to 4) 2       Major transients (1 to 2) 2       EOPs entered/requiring substantive actions (1 to 2) 1       EOPs contingency requiring substantive actions (0 to 2) 3       Crew critical tasks (2 to 3)

SCENARIO ILT-N-1                                Page 24 of 28                Rev. 00 (08/13)

# ILT-N-1.cae

# For ILT Class 12-1 NRC Exam

# Written by MP

# Rev 00

# Date 08/13

# INITIAL CONDITIONS

# Opens the purge fan dampers to simulate the fan breakers OFF.

# Simulates 2B DRYWELL AND TORUS PURGE EXHAUST FAN breaker OFF.

# Ensures 2-8505-501, U2 DW/TORUS N2 MU PCV 2-8527 INLET ISOL VLV is closed.

# Ensures 2-8503-500, U2 DW/TORUS N2 PURGE PCV 2-8520 INLET ISOL VLV, is open irf p30 truel2

# Lines up Aux N2 tank to the vaporizer.

irf p32 truel2

# Inserts RPS system fail to scram.

imf b12l2

# Overrides indications for APRM 5 Hi Hi.

# Inserts failure of 2B RFP Vent fan to auto start.

imf x13l4

# Event Trigger 1 Inserts control rod H-08 drift out.

# Event trigger 2 APRM 5 drifts upscale. The half scram is defeated.

# Deletes RPS system fail to scram malfunction.

Trgset 3 "rpd301b_drw"l6 SCENARIO ILT-N-1                                    Page 25 of 28            Rev. 00 (08/13)

trg 3 "dmf b12"l6

# Event trigger 4 Auto activates when APRM 5 is bypassed.

# Restores alarm 902-5 D-13 to NORMAL.

# Event Trigger 5 Inserts trip of 2A RFP Vent fan.

# Event Trigger 6 Inserts a spurious HPCI initiation.

# Event Trigger 7 Inserts a small recirc loop leak.

# Event Trigger 8 Increases the recirc loop leak.

# After 1 min, trips 2B RFP and prevents 2A RFP from starting.

# END SCENARIO ILT-N-1                                   Page 26 of 28 Rev. 00 (08/13)

 

Unit 2 Risk: GREEN                                                             Unit 3 Risk: GREEN Unit 2 is in Mode 2 at ~5% power                                               Unit 3 is in Mode 1 at Full Power Leading Thermal Limit: NA                                                      Leading Thermal Limit: MAPRAT @ 0.819 Action limit: NA                                                              Action Limit: 0.980 Equipment Unavailable:                                                        Equipment Unavailable: None 2C RFP OOS for bearing replacement. Expected                      Protected Equipment: None back in 2 shifts.

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 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                           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.

Unit 2 Plant Status Today           Unit 2 Activities

                **** Shift 1 Activities ****

                **** Shift 2 Activities ****

                 Immediately after assuming the shift, establish Primary Containment inerting per DOP 1600-05, Primary Containment Inerting and Atmosphere Control.

                 After Drywell inerting is in progress and QNE review is complete, continue Unit Startup by pulling control rods.

                **** Shift 3 Activities ****

Today           **** Unit 2 Procedures In-Progress **** Do Not Delete ****

                 DGP 01-01, Unit Startup

                 DOP 1600-05, Primary Containment Inerting and Atmosphere Control SCENARIO ILT-N-1                                Page 28 of 28                                          Rev. 00 (08/13)

Dresden Generating Station ILT-N-2 CORE SPRAY TEST WITH MIN FLOW AUTO-CLOSE FAILURE LOWER POWER USING CONTROL RODS CONTROL ROD STUCK & REQUIRES HIGHER PRESSURE TO MOVE TORUS LEVEL PAM INSTRUMENT NOT QUALIFIED PER IMD SERVICE WATER PUMP DEGRADATION RECIRC RUNBACK DUE TO LOSS OF FW SIGNAL MANUAL SCRAM REQUIRED DUE TO REACTOR CORE INSTABILITIES FAILURE TO SCRAM (SBLC SUCCESSFUL)

Rev. 00 08/13 Developed By:

Exam Author                                 Date Approved By:

Facility Representative                     Date

Scenario Outline Station:  Dresden Generating Station                Scenario No.:    ILT-N-2       Class ID: 2013-301 Evaluators                                            Operators              / crew position

                                                                                              / CRS Initial Conditions:     100% Power, steady state, and equilibrium xenon Turnover:               At beginning of shift, perform Core Spray Test Drop power using control rods Event          Malf.              Event                                        Event No.            No.                Type*                                      Description CORE SPRAY TEST per DOS 1400-05 with Min Flow Auto-1            AT17            C/T      BOP close Failure (TS) 2            NONE              R        ATC      Lower Power Using Control Rods 3         RODD08ST            C        ATC      CRD - Control Rod Stuck & Requires Higher Pressure to Move 4            NONE              T        SRO      Torus Level PAM Instrument Not Qualified per IMD (TS) 5          Q31 / Q21          C        BOP      Service Water Pump Degradation 6      RLMRFPA(B)(C)           I        ATC      FW- Recirc Runback Due to Loss of FW Signal RXMLGOSC /

7                              M        ALL      Manual Scram REQUIRED - Due to Reactor Core Instabilities A55 RDHLVFPA(B) /

8                            M/C        ALL      Failure to Scram (SBLC successful)

* (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (T)ech Spec SCENARIO ILT-N-2                                      Page 2 of 28                                  Rev. 00 (08/13)

: 2. The following equipment is OOS:

* After completing shift turnover, the BOP will perform a Core Spray Test per DOS 1400-05, Core Spray System Pump Operability and Quarterly IST Test with Torus Available. During the test, a Min Flow Auto-close failure will occur and will need to be addressed. Technical Specification 3.3.5.1, Condition A, applies (Table 3.3.5.1-1 Function 1.d, Core Spray Pump Discharge Flow - Low (Bypass)

* After completing DOS 1400-05, the Team will lower power with control rods per procedure DGP 03-01, Power Changes.

* After the required change in power has been observed, a CRD problem occurs causing a rod to stick. The Team should take actions per DOP 0400-01, Reactor Manual Control System Operation.

* After the stuck rod is addressed, an IMD Supervisor contacts the CRS to inform him that a recently installed replacement part for Torus Level, LT 2-1641-5A, was found to be UNQUALIFIED. It functioned adequately during testing and calibration, but its performance cannot be assured under accident conditions. Tech Spec Bases and surveillance requirements are referenced to determine the Post Accident Monitoring Requirements. Technical Specification 3.3.3.1, Condition A, applies.

* After the Torus Level Tech Spec is addressed, degradation of the 2A Service Water pump is recognized by the BOP. Pump amps are increasing, SW supply pressure is decreasing (if unrecognized initially, U2/3 Diesel Fire Pump Running annunciates, and eventually the 2A SW pump will trip). The failure is expected to be addressed by swapping pumps and investigating the 2A SW pump.

2A(B) Recirc Loop Lo Flow Limit, and DOA 0202-03, Reactor Recirculation System Flow Control Failure. The Team also performs DOA 0500-01, Inadvertent Entry into the Unstable Power/Flow Region.

* Completion criteria: When the reactor is shutdown, RPV Water Level is being maintained, and at the discretion of the Lead Examiner, Place the simulator in FREEZE.

SCENARIO ILT-N-2                                    Page 3 of 28                                Rev. 00 (08/13)

Event One - Core Spray Test With Min Flow Auto-Close Failure

* The BOP will perform a Core Spray Test per DOS 1400-05, Core Spray System Pump Operability and Quarterly IST Test with Torus Available. During the test, a Min Flow Auto-close failure will occur and will need to be addressed.

Malfunctions required: 1

    * (Core Spray Flow transmitter failure)

 

* Performs DGA-02, Reactor Core Instabilities.

* Performs DGP 02-03, Reactor Scram.

Event Eight - Failure to Scram (SBLC Successful)

* A Hydraulic ATWS occurs when the Team attempts a manual scram.

Malfunctions required: 1

    * (Hydraulic ATWS)

Success Path:

* Performs DEOP 0100, RPV Control.

* Performs DEOP 0400-05, Failure to Scram.

SCENARIO ILT-N-2                               Page 5 of 28                                   Rev. 00 (08/13)

 

PRE-SCENARIO ACTIVITIES 1 If applicable, conduct pre-scenario activities in accordance with TQ-JA-150-08, SIMULATOR EXAMINATION BRIEFING.

: a. Direct the Team to perform their briefs prior to entering the simulator.

: b. Provide the Team a copy of DGP 03-01, Power Changes, marked-up ready to insert control rods

: c. Provide the Team a copy of DOS 1400-05, Core Spray System Pump Operability and Quarterly IST Test with Torus Available, marked-up ready to begin step I.5.

: d. Provide the Team a marked-up copy of the CRSP.

2 Simulator Setup (the following steps can be done in any logical order)

: a. Initialize simulator in an IC with the following:

: 1) Reactor power 100%. (IC 160 used for validation, Seq. 2S.2.0, 7F9C) 3 Verify the following simulator conditions:

: a. Verify 2A and 3B Service Water pumps running with the others OFF.

: b. Verify 902-37 panel OPRM modules are reset.

4 Run the initial setup CAEP file: ILT-N-2.cae 5 Place the following equipment out of service:

: a. None 6 Run the CAEP file: Pump_Sumps.cae 7 Complete the Simulator Setup Checklist.

Critical Tasks Time Critical Tasks PRA Key Operator Actions Required Actions Optional Actions SCENARIO ILT-N-2                                    Page 6 of 28                          Rev. 00 (08/13)

 

Event One - Core Spray Test With Min Flow Auto-Close Failure Trigger   Position                                     Crew Actions or Behavior BOP       Directs EO to check 2A Core Spray motor oil level AND record results on Data Sheet 1.

Verifies 2A LPCI/Core Spray Room Cooler is operating properly if available.

Directs EO to report the pressure indicated by PI 2-1402-40A, 2A CORE SPRAY PUMP SUCTION (Pump Stopped), and records on Data Sheet 1.Obtains 2-1402-8A initial closed dP: (See procedure)

Starts 2A CORE SPRAY PP.

Verifies following annunciators alarm:

o     902-3 H-13, LPCI/CS PP AT PRESS.

o     902-3 A-5, CORE SPRAY PP RUNNING.

Opens MO 2-1402-4A, FLOW TEST VLV.

Observes and reports to the CRS that MO 2-1402-38A, 2A MIN FLOW VLV, did not close as required. (Tech Spec SR 3.3.5.1.2, partial)

CRS         Declares Core Spray System Div. 1 inoperable for the surveillance.

When notified the 2A Core Spray Min Flow valve did not close as expected:

Refers to Tech Spec 3.5.1 and determines restore low pressure ECCS injection/spray subsystem to OPERABLE status within 7 days..

May reference Tech Spec 3.6.1.3 (PCIV). The valve will still close with the pump not running.

* Notifies Shift Manager and station support groups.

Directs the BOP to shutdown 2A Core Spray System.

BOP       Shuts down 2A Core Spray pump starting at step I.5.t:

Closes MO 2-1402-4A, FLOW TEST VLV.

Directs EO to close 2-1402-40A-SV, U2 CORE SPRAY PI 2-1402-40A INST SV.

ATC         Assists BOP as directed.

* Technical Specifications referenced, AND/OR,

* At the discretion of the Lead Examiner.

Event Two - Lower Power Using Control Rods Trigger   Position                                     Crew Actions or Behavior NOTE: The last control rod to be inserted is the stuck rod for the next Event.

CRS       Directs inserting control rods:

Directs ATC to insert rods.

ATC       Performs the following actions per DOP 0400-01, Reactor Manual Control System Operation, and DGP 03-04, Control Rod Movements, as directed Verifies the following prior to moving any control rod:

Inserts rods as follows:

Moves the Rod Movement Control switch to ROD IN.

Verifies ON light and proper Control Rod Timer operation.

BOP       Performs second verification checks.

* The Team encounters the stuck control rod, AND/OR

* At the direction of the Lead Examiner.

Event Three - Control Rod Stuck & Requires Higher Pressure to Move Trigger  Position                                   Crew Actions or Behavior NOTE: The last control rod to be inserted in the previous Event is the stuck rod for this Event.

Simulator Operator:

2                Verify trigger 2 automatically activates when:

* Control rod D-08 is selected;

* Drive water pressure is greater than 375 psig; and,

* Either the Rod Movement Control switch is placed to the ROD IN position, or the Rod Out Notch Override is placed to the EMERG ROD IN position.

This deletes Control Rod D-08 stuck malfunction.

Role Play:

EO to check D-08 accumulator: Wait 2 min, then report I see nothing abnormal at D-08 accumulator.

Shift Manager / QNE to concur with raising drive water pressure: advise the CRS that I concur with raising drive water pressure.

ATC         Observes and announces that Control Rod D-08 did not move using normal drive pressure.

Requests permission from CRS to raise drive water pressure per DOP 0400-01, Reactor Manual Control System Operation, to attempt to move the control rod.

CRS         May contact Shift Manager and/or QNE for concurrence to raise drive water pressure.

Directs ATC to raise drive water pressure per DOP 0400-01, Reactor Manual Control System Operation, to attempt to move the control rod.

* 280 to 320 psid (~300 psid)

* 320 to 380 psid (~350 psid)

* 380 to 420 psid (~400 psid; the control rod will move)

ATC     Repeats the following until the control rod moves:

Raises drive water pressure per DOP 0400-01, Reactor Manual Control System Operation, (Attachment B) as follows:

o   May place FIC 2-340-1, CRD Flow Contlr, in MAN if desired.

* Throttles closed MO 2-302-8, DRIVE WTR PCV, to establish the desired drive water pressure.

Attempts to move the control rod.

Event Three - Control Rod Stuck & Requires Higher Pressure to Move Trigger   Position                                 Crew Actions or Behavior ATC         Observes and announces that the stuck control rod moved with ~400 psid.

Returns the drive water pressure to the normal band by throttling open MO 2-302-8, DRIVE WTR PCV. (250 to 280 psid)

May place FIC 2-340-1, CRD Flow Contlr, back to AUTO if desired.

* When Control Rod D-08 Has Been moved to its target position, AND/OR,

* At the direction of the Lead Examiner.

Event Four - Torus Level PAM Instrument Not Qualified Per IMD Trigger   Position                                     Crew Actions or Behavior ROLE PLAY:

Call as an IMD Supervisor and report a recently installed replacement part for Torus Level, LT 2-1641-5A, was found to be UNQUALIFIED. It functioned adequately during testing and calibration, but its performance cannot be assured under accident conditions.

CRS       References Licensing documents and determines:

* Tech Spec determination complete.

AND / OR

* At the direction of the Lead Examiner.

Event Five - Service Water Pump Degradation Trigger   Position                                 Applicants Actions or Behavior SIMULATOR OPERATOR:

3                At the discretion of the Lead Examiner, activate trigger 3, which simulates degradation of the 2A Service Water Pump. May take several minutes for the alarm to come in.

4                Verify trigger 4 automatically activates when a standby service water pump is started.

5                Verify trigger 5 automatically activates when 2A service water pump is stopped.

FLOOR INSTRUCTOR / EVALUATOR:

When the 2/3 DFP pump starts, announce the XL-3 is alarming and hand the XL-3 sheet to the responding operator.

ROLE PLAY:

EO at 2A Service Water Pump (wait 2 min.): Report: 2A Service Water Pump motor is hotter than normal and making an abnormal noise.

EO at Service Water Pump just started (wait 2 min.): Report: The Service Water Pump is operating normally.

If stopped by the BOP, then report: 2A Service Water Pump Breaker is open with no targets up.

If tripped by overcurrent malfunction, the report: 2A Service Water Pump Breaker is open and has overcurrent targets up.

EMD: Acknowledges need to go to Bus 23 and troubleshoot. If the 2A Service Water Pump tripped due to the malfunction. Report an overcurrent flag is up at 2B Service Water Pump breaker.

SIMULATOR OPERATOR / ROLE PLAY:

EO to stop the 2/3 DFP: wait 2 min, then activate trigger 6 which stops the 2/3 DFP.

6                Report to the BOP that the 2/3 DFP is shutdown.

7                Verify trigger 7 automatically activates when the 2/3 DFP stops. This returns the Remote for stopping the DFP to normal.

BOP       Announces 2/3 DFP started as indicated by alarm 923-1 G-4, 2/3 DIESEL FIRE PP RUNNING, and its control switch lights.

Announces that 2A Service Water pump amp indication is high and system pressure is low.

Directs operator at Crib House to check 2A Service Water Pump.

Directs the EO at the Cribhouse to check the Service Water Pump just started.

Direct an EO to check the breaker of 2A Service Water Pump.

Event Five - Service Water Pump Degradation Trigger   Position                               Applicants Actions or Behavior CRS       May enter DOA 3900-01, Loss of Cooling by Service Water System.

May enter DOA 6500-10, 4Kv Circuit Breaker Trip.

May direct stopping 2/3 DFP May refer to TRM 3.7.i, Fire Water Supply System, Restore equipment to OPERABLE status within 7 days.

BOP     If 2A Service Water Pump trips, refers to DOA 6500-10, 4Kv Circuit Breaker Trip and:

Places 2A Service Water Pump control switch in Pull to Lock.

ATC       Assists as directed.

TEAM       Notifies Ops Shift Supervisor.

* Standby Service Water Pump started, AND / OR;

* At the direction of the Lead Examiner.

Event Six - Recirc Runback Due to Loss of FW Signal Trigger   Position                                 Applicants Actions or Behavior SIMULATOR OPERATOR:

8                At the discretion of the Lead examiner, activate trigger 8, which causes all RFP flow transmitters to fail downscale.

9                Verify trigger 9 automatically activates when the CH A OPRM Enabled light turns ON.

ATC     Announces alarms:

o   902-5 G-8, 1-Element FW Control Active at Hi Flow.

o   902-6 H-3, FW Control System Panel Trouble Then after a short delay:

o   902-4 G-4(8), 2A(B) Recirc Loop Lo Flow Limit o   902-5 E-8, RPV Lvl Hi Announces Recirc pumps ran back to minimum.

CRS     Enters DOA 0600-01, Transient Level Control Enters DOA 0202-03, Reactor Recirculation System Flow Control Failure ATC     May attempt to lock out the Recirc MG Set scoop tubes. Will be unsuccessful.

May take manual control of FWLC. This is not necessary.

NOTE:

Loss of the FW flow transmitters results in a loss of the core thermal power calculation.

The Team must rely on the APRMs and Generator load for estimates of core power.

CRS         Analyzes that operation is in the unstable region of the Power to Flow Map.

Enters DOA 0500-01, Inadvertent Entry Into The Unstable Power/Flow Region.

Enters DGA-02, Reactor Core Instabilities May enter DGA-07, Unpredicted Reactivity Addition.

ROLE PLAY:

Respond as individual notified.