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Rod notching may also be used if necessary to control FCL. The Reactor Engineer will provide guidance on the control rods to be moved to achieve the FCL necessary to support operating at 60%. | Rod notching may also be used if necessary to control FCL. The Reactor Engineer will provide guidance on the control rods to be moved to achieve the FCL necessary to support operating at 60%. | ||
It is acceptable to stop at intermediate power levels as necessary to support plant conditions. | It is acceptable to stop at intermediate power levels as necessary to support plant conditions. | ||
Note: Additional monitoring is required per CPS 3005.01, in addition to what is specified below. | Note: Additional monitoring is required per CPS 3005.01, in addition to what is specified below. | ||
QNE presence required in the Control Room? Yes No X* | QNE presence required in the Control Room? Yes No X* | ||
Line 79: | Line 78: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: One Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: One Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
65% power, Drywell pressure is high. | 65% power, Drywell pressure is high. | ||
Line 108: | Line 105: | ||
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) 65% Power/70% FCL CPS 3005.01 thru step 8.2.9 2312 MWt A-2, step 36 is complete 747 MWe 70.7 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Reactor Power has been reduced to 65% and is scheduled to continue to 60% with RR FCVs to allow for RFPT 1A removal from service for maintenance to work on some problems. | (Plant power level) 65% Power/70% FCL CPS 3005.01 thru step 8.2.9 2312 MWt A-2, step 36 is complete 747 MWe 70.7 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Reactor Power has been reduced to 65% and is scheduled to continue to 60% with RR FCVs to allow for RFPT 1A removal from service for maintenance to work on some problems. | ||
Existing LCOs, date of next surveillance None Surviellances or major maintenance CPS 9014.01 RPC Sys W/D Limitation Test was completed SAT last month. | |||
Existing LCOs, date of next surveillance None | Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Comments, evolutions, problems, etc. | ||
Surviellances or major maintenance CPS 9014.01 RPC Sys W/D Limitation Test was completed SAT last month. | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment | |||
Comments, evolutions, problems, etc. | |||
Online Safety is Green Containment pressure is 0.3 psig First Priority - Run B mixer to reduce DW Lower power to 60% with flow within pressure (lowest run time). the next hour to support removal of A Per Cumulative Date 9094.01D001for this TDRFP. | Online Safety is Green Containment pressure is 0.3 psig First Priority - Run B mixer to reduce DW Lower power to 60% with flow within pressure (lowest run time). the next hour to support removal of A Per Cumulative Date 9094.01D001for this TDRFP. | ||
month: A Mixer run time is 4 hrs 52 minutes B Mixer run time is 5 minutes Cumulative data will be taken care of by the WCS 1 | month: A Mixer run time is 4 hrs 52 minutes B Mixer run time is 5 minutes Cumulative data will be taken care of by the WCS 1 | ||
Line 473: | Line 464: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Two Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Two Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
27% power RR Pumps on LFMG, Pulling rods to 30% power for Recirculation pump upshift. | 27% power RR Pumps on LFMG, Pulling rods to 30% power for Recirculation pump upshift. | ||
Line 514: | Line 503: | ||
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) 27% Power A-2, step 27 is complete, 16-33 at 26 944 MWt 252 MWe 32.4 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Raise power by pulling rods to 30% then await instructions to shift RR pumps to fast speed. | (Plant power level) 27% Power A-2, step 27 is complete, 16-33 at 26 944 MWt 252 MWe 32.4 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Raise power by pulling rods to 30% then await instructions to shift RR pumps to fast speed. | ||
RE is present and available. Rx startup in progress. Gang is permissible, but continuous drive is NOT authorized | RE is present and available. Rx startup in progress. Gang is permissible, but continuous drive is NOT authorized Existing LCOs, date of next surveillance Surveillances or major maintenance FWLC selected to channel B for calibration of channel A later this shift. | ||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Comments, evolutions, problems, etc. | |||
Existing LCOs, date of next surveillance | |||
Surveillances or major maintenance FWLC selected to channel B for calibration of channel A later this shift. | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment | |||
Comments, evolutions, problems, etc. | |||
Online Safety is Green In 3004.01 complete thru step 8.3.10 Shift Main EHC pump to support Carrying electrical load in accordance maintenance - First Priority. with the Power Team. | Online Safety is Green In 3004.01 complete thru step 8.3.10 Shift Main EHC pump to support Carrying electrical load in accordance maintenance - First Priority. with the Power Team. | ||
1 | 1 | ||
Line 960: | Line 941: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Two Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Two Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
27% power RR Pumps on LFMG, Pulling rods to 30% power for Recirculation pump upshift. | 27% power RR Pumps on LFMG, Pulling rods to 30% power for Recirculation pump upshift. | ||
Line 1,000: | Line 979: | ||
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) 27% Power A-2, step 27 is complete, 16-33 at 26 944 MWt 252 MWe 32.4 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Raise power by pulling rods to 30% then await instructions to shift RR pumps to fast speed. | (Plant power level) 27% Power A-2, step 27 is complete, 16-33 at 26 944 MWt 252 MWe 32.4 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Raise power by pulling rods to 30% then await instructions to shift RR pumps to fast speed. | ||
RE is present and available. Rx startup in progress. Gang is permissible, but continuous drive is NOT authorized | RE is present and available. Rx startup in progress. Gang is permissible, but continuous drive is NOT authorized Existing LCOs, date of next surveillance Surveillances or major maintenance FWLC selected to channel B for calibration of channel A later this shift. | ||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Comments, evolutions, problems, etc. | |||
Existing LCOs, date of next surveillance | |||
Surveillances or major maintenance FWLC selected to channel B for calibration of channel A later this shift. | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment | |||
Comments, evolutions, problems, etc. | |||
Online Safety is Green In 3004.01 complete thru step 8.3.10 Shift Main EHC pump to support Carrying electrical load in accordance maintenance - First Priority. with the Power Team. | Online Safety is Green In 3004.01 complete thru step 8.3.10 Shift Main EHC pump to support Carrying electrical load in accordance maintenance - First Priority. with the Power Team. | ||
1 | 1 | ||
Line 1,529: | Line 1,500: | ||
Estimated Date/Time of criticality / | Estimated Date/Time of criticality / | ||
Xenon Increasing Decreasing | Xenon Increasing Decreasing | ||
: None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup | : None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | |||
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | ||
Line 1,547: | Line 1,516: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | ||
Line 1,578: | Line 1,545: | ||
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) | (Plant power level) | ||
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 | Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | ||
Existing LCOs, date of next surveillance None | |||
Surveillances or major maintenance | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | |||
Comments, evolutions, problems, etc. | Comments, evolutions, problems, etc. | ||
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | ||
Line 1,927: | Line 1,887: | ||
Estimated Date/Time of criticality / | Estimated Date/Time of criticality / | ||
Xenon Increasing Decreasing | Xenon Increasing Decreasing | ||
: None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup | : None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | |||
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | ||
Line 1,945: | Line 1,903: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | ||
Line 1,976: | Line 1,932: | ||
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) | (Plant power level) | ||
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 | Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | ||
Existing LCOs, date of next surveillance None | |||
Surveillances or major maintenance | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | |||
Comments, evolutions, problems, etc. | Comments, evolutions, problems, etc. | ||
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | ||
Line 2,325: | Line 2,274: | ||
Estimated Date/Time of criticality / | Estimated Date/Time of criticality / | ||
Xenon Increasing Decreasing | Xenon Increasing Decreasing | ||
: None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup | : None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | |||
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | ||
Line 2,343: | Line 2,290: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | ||
Line 2,374: | Line 2,319: | ||
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) | (Plant power level) | ||
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 | Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | ||
Existing LCOs, date of next surveillance None | |||
Surveillances or major maintenance | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | |||
Comments, evolutions, problems, etc. | Comments, evolutions, problems, etc. | ||
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | ||
Line 2,723: | Line 2,661: | ||
Estimated Date/Time of criticality / | Estimated Date/Time of criticality / | ||
Xenon Increasing Decreasing | Xenon Increasing Decreasing | ||
: None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup | : None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels. | |||
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels. | ||
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality. | ||
Line 2,741: | Line 2,677: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart. | ||
Line 2,772: | Line 2,706: | ||
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) | (Plant power level) | ||
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 | Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | ||
Existing LCOs, date of next surveillance None | |||
Surveillances or major maintenance | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT. | |||
Comments, evolutions, problems, etc. | Comments, evolutions, problems, etc. | ||
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by | ||
Line 3,105: | Line 3,032: | ||
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Four Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Four Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________ | ||
Initial Conditions: | Initial Conditions: | ||
96% power, steady state. | 96% power, steady state. | ||
Line 3,132: | Line 3,057: | ||
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour. | ||
(Plant power level) 96% Power/100% FCL CPS 3005.01 thru step 8.1.19 3328 MWt A-2, step 36 is complete 1092 MWe 84.5 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions | (Plant power level) 96% Power/100% FCL CPS 3005.01 thru step 8.1.19 3328 MWt A-2, step 36 is complete 1092 MWe 84.5 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Existing LCOs, date of next surveillance None Surviellances or major maintenance VC running for 9070.01, Control Room HVAC Air Filter Package Operability Test Run 4 hrs 27 min into the 10 hour run. | ||
Existing LCOs, date of next surveillance None | |||
Surviellances or major maintenance VC running for 9070.01, Control Room HVAC Air Filter Package Operability Test Run 4 hrs 27 min into the 10 hour run. | |||
9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test for position indication only. Stroke times are not needed. | 9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test for position indication only. Stroke times are not needed. | ||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment MDRFP is CO for coupling replacement. | |||
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment MDRFP is CO for coupling replacement. | |||
Comments, evolutions, problems, etc. | Comments, evolutions, problems, etc. | ||
Online Safety is Yellow 9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test for position indication only. Stroke times are not needed. | Online Safety is Yellow 9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test for position indication only. Stroke times are not needed. | ||
Line 3,330: | Line 3,249: | ||
9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test Page 10 of 11 | 9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test Page 10 of 11 | ||
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 | D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Event Triggers and Role Play Event # | ||
: 1. Perform SDV Vent and Drain Valve test one valve fails | : 1. Perform SDV Vent and Drain Valve test one valve fails | ||
: a. On a Trigger | : a. On a Trigger |
Latest revision as of 02:23, 12 March 2020
ML100710757 | |
Person / Time | |
---|---|
Site: | Clinton |
Issue date: | 08/24/2009 |
From: | Valos N Operations Branch III |
To: | |
References | |
Download: ML100710757 (184) | |
Text
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-01 Exam Scenario 1 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: All CPs except H and J are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on UAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: 1WF Evap is in operating. A and B RT F/D are in service.
Plant Status On Line Risk Green Reactor Operational Condition: Mode 1 Total Core Flow: __70.7___ mlb/hr FCV Position: A: __52.8_____% B: __53.1____%
Reactor Power __65__% (<=100%) _2282__ MWt (<=3473) _737__ Mwe Xenon: Stable RPV Level _33_ in Narrow Range RPV Pressure _963__ psi (< 1045)
In service SDC loop None MODE 1 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _19.2_ ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _0.8 _ psi (0 to 1 psig)
Drywell to Containment dp: _0.8 _ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _104_ F (<=146.53 F)
Secondary Containment: _0.74_ in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _28_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _38.5_scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _94_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _228_MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: None Comments: See Turnover Sheet From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
OP-AB-300-1003 Revision 5 ATTACHMENT 1 Reactivity Maneuver Approval Cover Page Page 1 of 4 Station: Clinton Valid Date(s): xx/xx/xxxx Reactivity Maneuver Plan #: C11-Simu.1 Multiple Activations Allowed? No (If yes, CRS may make additional copies)
Prepared by: Joe Top / xx/xx/xx Reviewed by: Roger Bottom /xx/xx/xx Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: Michelle Strange / xx/xx/xx Authorized by: / xx/xx/xx RE Manager / Date Senior Reactor Operator / Date NF Review by Michael Charm / xx/xx/xx NF Reciewer / Date ReMA Activated: / xx/xx/xx ReMA Terminated: / xx/xx/xx Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: Power Reduction to Removal of A TDRFP Purpose/Overview of Evolution:
This ReMA is provided for a non emergent load reduction to support removal of the A TDRFP.
This ReMA is NOT intended to take the place of emergency load reductions per the guidance of CPS 3005.01, Unit Power Changes. Emergency load reductions shall be implemented per the guidance of CPS 3005.01, Unit Power Changes.
Reactivity Maneuver Steps Extended General Issues: Select desired amount of power reduction
- 1. Reduce reactor power to 60% with flow
- 2. Maintain reactor power using rods and flow 3.
4.
General Issues:
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA Training and Reference Material guidelines per OP-AB-300-1003.
Main Steam Line Radiation Monitors may initially show elevated response from crud burst in core (due to rod movements) and from hydrogen pockets being swept into the core (due to flow perturbations in the condensate /
feedwater piping). Response should diminish as the feedwater system comes to equilibrium.
OP-AB-300-1003 Revision 5 ATTACHMENT 2 Reactivity Maneuver Guidance Sheet STEP 1 of 2 Reactivity Maneuver Plan # C11-Simu.1 Description of Step :
Reduce reactor power to ~ 60% with flow.
Rod notching may also be used if necessary to control FCL. The Reactor Engineer will provide guidance on the control rods to be moved to achieve the FCL necessary to support operating at 60%.
It is acceptable to stop at intermediate power levels as necessary to support plant conditions.
Note: Additional monitoring is required per CPS 3005.01, in addition to what is specified below.
QNE presence required in the Control Room? Yes No X*
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR < 0.900 Core Flow (Mlb/hr or %) N/A N/A MFLPD < 0.900 FCL (%) < 90.0 % MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low FCL 90.0 % N/A Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display after completion of power reduction.
Contingency: Insert control rods in reverse order sequence to reduce FCL.
Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
OP-AB-300-1003 Revision 5 ATTACHMENT 2 Reactivity Maneuver Guidance Sheet STEP 2 of 2 Reactivity Maneuver Plan # C11-Simu.1 Description of Step :
Maintain target power level using available flow. Rod notching may also be used, as needed, to maintain power level. The Reactor Engineer will provide guidance on when to notch control rods.
QNE presence required in the Control Room? Yes _ _ No X*
- RE Coverage will be provided consistent with OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
~60% N/A N/A Core Power (MWth or %) MFLCPR
(~2084 MWt)
Core Flow (Mlb/hr or %) N/A N/A MFLPD N/A N/A FCL (%) N/A N/A MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
FIGURE 1: CPS STABILITY CONTROL & POWER/FLOW OPERATING MAP PERCENT CORE FLOW 0 10 20 30 40 50 60 70 80 90 100 110 3473 100 MELLLA Limit [100.7% FCL]
3126 90 Restricted 90% FCL (Typ.)
2778 Zone 80%
80 THERMAL POWER - MWTh 2431 70 PERCENT THERMAL POWER 2084 60 60%
CON T R OLLE D 1737 50 E N T R Y R E GION 50%
1389 40 40%
1042 30 868 25 695 20 OPRM ENABLED CAVITATION 347 REGION PROTECTION LINES 10 OPRM OPERABLE
[21.6 % CTP, 750 MWth] SINGLE LOOP [> 25% CTP AND (HIGH SPEED, 2 PUMP ENVELOPE < 60% FLOW] OPERATION) 0 0 0.0 8.5 16.9 25.4 33.8 42.3 50.7 59.2 67.6 76.1 84.5 93.0 90.4 CORE FLOW - mlbm/hr (use core plate dP when Single Loop)
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: One Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
65% power, Drywell pressure is high.
Thunderstorm storms are expected in the area within the next hour.
Turnover:
- 1. Run B mixer to reduce DW pressure - First Priority
- 2. Power needs lowered to 60% power to remove the A RFPT from service for a scheduled outage due to problems.
Event Malf. No. Event Event No. Type* Description 1 HVAC_SP N-BOP Reduce DW pressure, B mixer trips, entry into ITS.
ARE_L3 1 TS-CRS 2 NA R-ATC Power reduction to support removal of A TDRFP 3 Override C-ATC A TDRFP trouble alarm 4 Override C-ATC B RWCU pump seal plate temperature high 5 YP_XMFT TS-CRS A APRM fails downscale.
B_4912 1 6 YFFWPPS C-BOP B MC pump coupling fails S_13 1 7 YPXMALS C-BOP Fuel failure E_1 8 YP_XMFT M-ALL Debris in the Condenser causes all CD pumps to trip B_4068, 69, 70, 71 9 RR03 M-ALL A small RR leak occurs in the Drywell 10 YFRIPPSS M-ALL The RCIC shaft breaks 11 YP_XMFT M-ALL HPCS Injects and then trips B_4103
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2
Appendix D Scenario Outline Form ES-D-1 Scenario No.: One Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. Drywell pressure is high requiring the BOP to run B mixing compressor to reduce Drywell pressure. Operational Requirement Manual action 3.5.2 for the test Prep switch entered. The mixing compressor trips and the CRS enters ITS 3.6.3.3.
- 2. Power is reduced with recirculation flow to allow removal of the RFPT.
- 3. A TDRFP experiences a trouble alarm on a thrust bearing wear condition requiring tripping of the A TDRFP. This will require verification that the running B TDRFP is adequately maintaining level. A RR FCV runback will require entry to CPS 4008.01, Abnormal Coolant Flow and CPS 4100.02 Core Stability Control to verify no core instabilities along with entry into CPS 4002.01, Abnormal RPV Level/Loss of Feedwater At Power
- 4. RWCU pump B develops a seal leak requiring its removal from service.
- 6. B MC pump coupling fails results in the loss of makeup condensate. This requires the startup of the standby pump.
- 7. Fuel clad failure will require entry to the CPS 4010.01. Subsequent activities will require the BOP to shut valves RE021&22, RF021&22, along with other activities.
8, 9, 10 & 11. Debris breaks loose in the condenser causing a loss of suction and trip of all CD pumps. A small RR loop leak occurs and the RCIC shaft breaks and HPCS injects and then trips. A Blowdown is performed at TAF and level is recovered with Low Pressure ECCS.
EOPS 1,3,6 Critical tasks:
- Emergency Depressurize when less than TAF.
- Recover level to above TAF.
Page 2 of 2
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level) 65% Power/70% FCL CPS 3005.01 thru step 8.2.9 2312 MWt A-2, step 36 is complete 747 MWe 70.7 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Reactor Power has been reduced to 65% and is scheduled to continue to 60% with RR FCVs to allow for RFPT 1A removal from service for maintenance to work on some problems.
Existing LCOs, date of next surveillance None Surviellances or major maintenance CPS 9014.01 RPC Sys W/D Limitation Test was completed SAT last month.
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Comments, evolutions, problems, etc.
Online Safety is Green Containment pressure is 0.3 psig First Priority - Run B mixer to reduce DW Lower power to 60% with flow within pressure (lowest run time). the next hour to support removal of A Per Cumulative Date 9094.01D001for this TDRFP.
month: A Mixer run time is 4 hrs 52 minutes B Mixer run time is 5 minutes Cumulative data will be taken care of by the WCS 1
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Reduce Drywell pressure Initiation: Following shift turnover Cues: Directed by SRO Time Position Applicants Actions or Behavior BOP Per CPS 3316.01, Containment Combustible Gas Control, step 8.3:
Places MOV Test Prep Switch for CGCS Div 2 to Test and notes time.
- 2. Verify 1HG009B, CGCS Cmpr 1B Suct Vlv opens.
At DW pressure of .6 psig the B Mixer will trip off.
SECURING DRYWELL VENTING
- 2. Verify 1HG009A(B), CGCS Cmpr1B Suct Vlv shuts. (If the control switch is not taken to stop the suction valve will remain open)
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enters ITS 3.6.3.3 A.1 for B Mixer.
Terminus: D/W Venting is completed and ITS call completed NOTES:
2
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 2 Page 1 of 1
==
Description:==
Power reduction to support removal of the A RFPT turbine Initiation: Following D/W Venting and ITS call.
Cues: Directed by SRO Time Position Applicants Actions or Behavior Per CPS 3005.01, Unit Power Changes, step 8.2.8.
- Reduce power with Flow to ~60%.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
Terminus: Clearly observable plant response from change in power level.
NOTES:
3
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 3 Page 1 of 1
==
Description:==
A TDRFP trouble alarm Initiation: Following the power reduction, on the signal of lead examiner Cues: Annunciator 5002-1B alarms , report from field operator Time Position Applicants Actions or Behavior RO Per CPS 5002-1B, RFP 1A trouble:
- Trips the A TDRFP due to high thrust bearing wear
- Observes Low Level Alarm and RR FCV runback Per CPS 4008.01, Abnormal Coolant Flow and CPS 4100.02 Core Stability Control, monitor for:
- Entry to the restricted zone
- As necessary, Start/stop Condensate, Condensate Booster or Reactor Feedwater pumps in support of level control.
- Maintain adequate NPSH to the Feed Pumps (> 320 psig)
- Dispatches a field operator
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Enters CPS 4008.01, Abnormal Coolant Flow and CPS 4100.02 Core Stability Control, Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
o Contacts Shift Manager and recommends notifications.
Terminus: A TDRFP tripped and RPV level stabilized NOTES:
TO EVALUATORS: If computer points FW-BC902 and or FW-BC903 are called up on DCS, inform the operators they both indicate High. (This is a limitation of the simulator.)
4
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 4 Page 1 of 1
==
Description:==
RWCU Pump seal plate temperature high Initiation: Upon resolution of the FW transient on the signal of the lead evaluator Cues: Annunciator CPS 5000-2E alarms Time Position Applicants Actions or Behavior RO Per CPS 3303.01, RWCU step 8.1.4 and 8.1.3:
- Direct field Operator to remove all Filter demins from service
- Open the F/D bypass valve
- Shutdown RWCU pump B
- Place one F/D in service BOP
- Dispatches a field operator to support RWCU operation
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Enters CPS 3303.01 Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
o Contacts Shift Manager and recommends notifications.
Terminus: RWCU pump has been shutdown IAW CPS 3303.01 NOTES:
5
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
Failure of A APRM Initiation: RWCU pump has been shutdown IAW CPS 3303.01, on the signal of lead examiner Cues: Annunciator 5060-8E Time Position Applicants Actions or Behavior BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Acknowledges and announces A APRM annunciator and reading
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any additional unusual or unexpected conditions.
- Directs actions listed above.
- Complies with action statement(s) for T.S. Section o May direct going to Sensor Bypass for Div 1.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
o Contacts Shift Manager and recommends notifications.
Terminus: SRO has addressed ITS requirements.
NOTES:
6
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 6 Page 1 of 1
==
Description:==
MC pump B coupling fails Initiation: SRO has addressed I.T.S. requirements, on the signal of lead examiner Cues: Annunciator CPS 5014-2C alarming Time Position Applicants Actions or Behavior BOP Per CPS 3208.01 MC/CY, STEP 8.1.1.1 (or 8.2.2):
- Direct shutting the discharge valve and reopen upon pump start (if section 8.1.1.1 is used).
- Start up the standby pump
- Shutdown the failed pump RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Enforces OPS expectations and standards.
o Contacts Shift Manager.
Terminus: Standby Pump started and shutdown of the failed pump NOTES:
7
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 7 Page 1 of 1
==
Description:==
Fuel failure Initiation: After crew has started an other MC pump, on the signal of lead examiner Cues: OG pretreat alarming, MSL rad monitors trending up Time Position Applicants Actions or Behavior BOP Per CPS 4010.01, Reactor Coolant Hi Activity, Sub. Action:
- Sound the CNMT evacuation alarm.
- Shut:
CPS 3408.01 VR/VQ, Step 8.1.1.2:
o Shift CNMT Building HVAC System to Continuous CNMT Purge Filtered mode RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Enters CPS 4010.01, Reactor Coolant Hi Activity, and directs actions listed above.
- Directs Chemistry to sample the Reactor Coolant
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
o Contacts Shift Manager and recommends notifications.
Terminus: Valves shut, SRO has entered CPS 4010.01 and directed actions accordingly.
NOTES:
8
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Operator Actions Event No.(s): 8, 9,10,11 Page 1 of 2
Description:
Debris breaks loose in the condenser causing a loss of suction and trip of all CD pumps and small RR leak.
Initiation: After Fuel Failure has been addressed, on the signal of lead examiner Cues: All Condensate and Feedwater pumps trip Time Position Applicants Actions or Behavior RO Inserts a manual scram CPS 4100.01, Reactor Scram:
Critical Task
- Place mode switch in Shutdown
- Check and report power 1% and trending down
- Check rods, reports shutdown criteria is met
- Report level and pressure are following expected trends
- Verify turbine and generator are tripped
- Stabilize pressure <1065 psig Performs EOP/ON actions as directed by SRO
- Makes plant announcement for reactor scram and evacuate the containment
- Evacuate the Containment Performs EOP/ON actions as directed by SRO
- Reports HPCS Injection and trip
- Reports RCIC will not inject
- Maximize CRD
- Inject with SLC Critical Task
- Initiates ADS
- verifies 7 ADS valves are open
- Maximizes injection and restores level above TAF NOTES:
9
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Event No.(s): 8, 9,10 Unisolable main steam line Page 2 of 2 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-1, EOP-6 for high drywell pressure and EOP-3 (Blowdown) actions as entry conditions are met.
- Directs Stabilize pressure below 1065 psig
- Hold level above TAF
- Maximize CRD
- Inject with SLC Critical Task When RPV water level is less than TAF, directs entry into EOP-3 and EOP actions:
- Initiation of ADS
- verify 7 ADS valves are open Terminus:
- Reactor scrammed
- ADS has been initiated
- Level restored above TAF
- Upon approval of lead examiner NOTES:
10
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to IC-41 (Verify/Adjust Power to 65% with rods and/or flow to match turnover).
- Make sure DW pressure is up to ~1.0 psig built into the initial conditions or the Lesson plan
- Ensure B MC pump is running
- B RT pump is running.
- A TDRFP is running.
- 3. Load the lesson plan for this scenario.
- 4. Place simulator in RUN
- 5. Verify Rod Drive pressure at 250 #.
- 6. Turn on and advance recorders
- 7. Verify the AR/PR server is running and stabilize AR/PR
- 8. Identify T/S issues associated with OOS and turnover
- 9. Ensure PR001 is on service and PR002 is in Standby. (Main Stack monitors).
- 10. Ensure PR012 is operating / in-service. (If asked at any time during the evaluation why PR012 is running, inform crew it is to support Chemistry. This is a limitation discovered during ITR/Validation of scenario, PR012 wont auto start and cant be started from the instructor station so it is started at the beginning of the scenario so it will be running if it is needed or referenced.)
- 11. Verify simulator conditions match the turnover
- 12. Provide a copy of CPS 3005.01, signing for step 8.2.9.
- 13. Fill out plant status and have Turnover Sheet ready for the crew.
- 14. Provide pull sheets, REMA, Re instructions and Cram Instructions.
11
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01 Event Triggers and Role Play If asked at any time during the evaluation why PR012 is running, inform crew it is to support Chemistry. (This is a limitation discovered during ITR/Validation of scenario, PR012 wont auto start and cant be started from the instructor station so it is started at the beginning of the scenario so it will be running if it is needed or referenced.)
Event #
- 1. Lower DW pressure.
- a. No trigger. Activates when D/W pressure is less than .6 psig.
- b. Role play - To support this evolution. If sent to B Mixer it appears fine. If sent to B Mixer breaker it is tripped and has a bad smell. NO FIRE.
- c. Role play - If asked then Cumulative data will be taken care of by the WCS.
- 2. Power reduction to support removal of a RFPT turbine
- a. No triggers
- 3. A TDRFP trouble alarm
- a. Remote trigger 1
- b. Role Play- field Operator that 43 psig on Thrust Bearing Wear Pressure at 1PL76JA and starting to hear unusual sounds from A TDRFP.
- c. TO EVALUATORS / Booth Operators: If computer points FW-BC902 and or FW-BC903 are called up on PPC, inform the operators they both indicate High. (This is a limitation of the simulator.)
- d. Role Play for Chemistry, RP and RE.
- 4. B RT pump seal plate temperature high
- a. Remote trigger 2 on request from lead evaluator
- b. Role play field operator that B RT pump seal temperature is 285 degrees and rising slowly. The CCW is lined up to this pump and the other A RT pump is at 175 degrees and stable. No steam in the room.
- 5. A APRM fails down scale
- a. Remote trigger 3 on request from lead evaluator
- b. Role play as C/I if requested, investigating. Will come up with troubleshooting plan.
- 6. B MC pump coupling fails.
- a. Remote trigger 4 on request from lead evaluator
- b. Role Play - B MC coupling is failed and support the startup of the A MC pump.
- 7. Fuel failure
- a. Remote trigger 5 on request from lead evaluator
- b. Role Play - If requested Primary to secondary Ctnt d/p is .0125 psid.
- c. Role Play - As Chemistry and RP is called.
- d. If back panels are checked, inform operators all MSL Rads are tracking together.
12
D-2, Dynamic Simulator Scenario 1 EXAM DATE: 08-24-09 08-01
- 8. Loss of all Condensate Pumps
- a. Remote trigger 6 on request from lead evaluator.
13
Procedures Used During Simulator Scenario # 1 (List of Annunciators on back of page)
- 1. EOP-1
- 2. EOP-3
- 3. EOP-9
- 4. 3316.01 CCGS
- 5. ITS/ORM/ODCM
- 6. 3005.01 Unit Power Changes
- 7. 4008.01 O/N
- 8. 4100.02 O/N
- 9. 4002.01 O/N
- 10. 3303.01 RT
- 11. 3208.01 MC/CY
- 12. 4010.01 O/N
- 13. 3408.01 VR/VQ
- 14. 4100.01 O/N
- 15. 4001.02 O/N
- 16. 4979.01 O/N
- 17. 4411.03
- 18. 4411.09
- 19. Annuciators:
- 5002-1B, 1C, 2Q, 4G
- 5000-2E, 2C
- 5060-8E
- 5014-2C
- 5041-7H,1C
- 5041-1c, 7H
- 5031-1G
- 5003-1D/E
- 5006-3D
- 5015-1A-M, 4C-M
- 5016-1G
- 5000-2C/E/F
- 5043-2A, 1G
- 5042-5H
- 5043-1G
- 5067-3E/F, 2L
- 5013-3A, 4E
- 5064-3C/D, 4C/D
- 5130-1G, 2G
- 5004-1L
- 5006-3D, 2H
- 5062-8E
- All alarms after the Scram
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-1 Exam Scenario 2 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: CPs B,C,D,E and F are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on UAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: 1WF Evap is in Hot Standby. A and B RT F/D are in service.
Plant Status On Line Risk Green Reactor Operational Condition: Mode 1 Total Core Flow: _32.4_ mlb/hr FCV Position: A: __90___% B: __90__%
Reactor Power _27_% (<=100%) _919_ MWt (<=3473) _244_ Mwe Xenon: Stable RPV Level _29_ in Narrow Range RPV Pressure _929_ psi (< 1045)
In service SDC loop None MODE 1 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _19.2_ ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _0.5_ psi (0 to 1 psig)
Drywell to Containment dp: _0.5_ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _103_ F (<=146.53 F)
Secondary Containment: _0.74_ in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _28.7_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _34.4_ scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _84_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _85.4_MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: None Comments: See Turnover Sheet From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
OP-AB-300-1003 Revision 5 ATTACHMENT 1 Reactivity Maneuver Approval Cover Page Page 1 of 4 Station: Clinton Valid Date(s): xx/xx/xxxx Reactivity Maneuver Plan #: C11-Simu.3 Multiple Activations Allowed? No (If yes, CRS may make additional copies)
Prepared by: Roger Bottom / xx/xx/xx Reviewed by: Joe QNE / xx/xx/xx Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: Michelle QNE Boss/ xx/xx/xx Authorized by: / xx/xx/xx RE Manager / Date Senior Reactor Operator / Date NF Review Carlos Quark / xx/xx/xx NF Reviewer / Date ReMA Activated: / xx/xx/xx ReMA Terminated: / xx/xx/xx Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: RR Pump Upshift Purpose/Overview of Evolution:
This ReMA provides the steps for raising reactor power to support upshift of the RR Pumps.
Reactivity Maneuver Steps Extended General Issues: Select desired amount of power increase
- 1. Withdraw control rods to achieve conditions to support RR Upshift
- 2. Shift RR Pumps to fast speed and increase flow to 65% (~54.9 Mlbm/hr) 3.
4.
General Issues:
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA Training and Reference Material guidelines per OP-AB-300-1003.
The plan is to pull control rods in order to achieve sufficient conditions to perform and RR pump upshift. Flow will then be increased to ~65%.
OP-AB-300-1003 Revision 5 ATTACHMENT 2 Reactivity Maneuver Guidance Sheet STEP 1 of 2 Reactivity Maneuver Plan # C11-Simu.3 Description of Step :
Increase reactor power with control rods to ~30% (~1050 MWt) to support RR pump shift to fast speed.
Perform control rod pulls in accordance with approved sequence.
Ensure Feedwater heating is in service and that feedwater temperature is within 50°F of nominal prior to exceeding 21.6% (750 MWt). Reference Appendix A of CPS 3102.01.
QNE presence required in the Control Room? Yes X No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR N/A N/A Core Flow (Mlb/hr or %) N/A N/A MFLPD N/A N/A FCL (%) N/A N/A MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low FCL 57.3 % N/A Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display. FCL should be monitored constantly after crossing 21.6% power and just prior to pump upshift.
Contingency: Insert control rods in reverse order sequence to reduce FCL.
Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
OP-AB-300-1003 Revision 5 ATTACHMENT 2 Reactivity Maneuver Guidance Sheet STEP 2 of 2 Reactivity Maneuver Plan # C11-Simu.3 Description of Step :
Shift RR Pumps to fast speed and increase core flow to ~65% (~54.9 Mlbm/hr). Increasing flow may be performed in increments to support throttling FCVs and as necessary to place other plant systems in service.
Reactor power will be 40-45% (1389 - 1563 MWt) at the completion of this step.
Note: It is possible that performing a pump upshift will cause the plant to enter into the CONTROLLED ENTRY REGION of the power / flow operating map. Per EC 358831, entry into this region in support of RR pump shifting activities has been evaluated and is acceptable.
QNE presence required in the Control Room? Yes X* No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR < 0.900 Core Flow (Mlb/hr or %) N/A N/A MFLPD < 0.900 FCL (%) < 57.3% MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
FIGURE 1: CPS STABILITY CONTROL & POWER/FLOW OPERATING MAP PERCENT CORE FLOW 0 10 20 30 40 50 60 70 80 90 100 110 3473 100 MELLLA Limit [100.7% FCL]
3126 90 Restricted 90% FCL (Typ.)
2778 Zone 80%
80 THERMAL POWER - MWTh 2431 70 PERCENT THERMAL POWER 2084 60 60%
CON T R OLLE D 1737 50 E N T R Y R E GION 50%
1389 40 40%
1042 30 868 25 695 20 OPRM ENABLED CAVITATION 347 REGION PROTECTION LINES 10 OPRM OPERABLE
[21.6 % CTP, 750 MWth] SINGLE LOOP [> 25% CTP AND (HIGH SPEED, 2 PUMP ENVELOPE < 60% FLOW] OPERATION) 0 0 0.0 8.5 16.9 25.4 33.8 42.3 50.7 59.2 67.6 76.1 84.5 93.0 90.4 CORE FLOW - mlbm/hr (use core plate dP when Single Loop)
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Two Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
27% power RR Pumps on LFMG, Pulling rods to 30% power for Recirculation pump upshift.
Thunderstorms are expected in the area within the next hour.
Turnover:
- 1. Shift Main EHC pump to support maintenance - First Priority.
- 2. Pull rods to raise power to 30% and await instructions to shift Reactor Recirc pumps to Fast Speed.
Malf. No. Event Event Type* Description 1 NA N-BOP Main EHC pump swap.
2 NA R-ATC Pull rods to raise power.
3 4025I_Acti C-ATC Rod drifts outward.
on3ROD16 49I_ACTIO TS-CRS N3 1 4 HP01HP_1 C-BOP HPCS WLP Shaft shears.
E22C003_
MTFSHEA TS-CRS R1 5 YAFWPPL C-ATC A CB pump clogged oil filter/bearing oil deficiency.
B_5 30.000 6 YP_XMFT C-BOP Trip of B CCW pump.
B_3918 1 7 YAMSAVF I-BOP SSE level control failure.
P_15 0.0 8 YP_XMFT M-ALL RPV Instrument line failure in the secondary containment.
B_5082 1 9 YP_XMFT M-ALL Auto and Manual scram failure.
B_4963 1 10 YP_XMFT M-ALL One SLC Pump fails to start B_5107 _1
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2
Appendix D Scenario Outline Form ES-D-1 Scenario No.: Two Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. Swap the running Main EHC pumps, the A Main EHC pump will be started and the B Main EHC pump shutdown.
- 2. Allow rod withdrawal to raise power.
- 3. During rod withdrawal a rod continues to move outward, Off-Normal CPS 4007.02 requires operator action to stop its outward movement. Once the rod is scrammed the rod will no longer withdraw. LCO 3.1.3 action C.1&2 is entered.
- 5. A CB pump will experience a Clogged oil filter with a bearing oil deficiency requiring the startup of the standby pump and shutdown of the A pump.
- 7. SSE level control fails causing level to go low requiring the manual level control to restore level on the SSE.
- 8. The RPV instrument line will break resulting in a partial lost of RPV instrumentation, a steam leak in the secondary containment and EOP-8 entry. Two areas in secondary containment will exceed Maximum Safe temperature requiring blowdown.
- 9. When scrammed, rods will not move resulting in reactor remaining at power and entry to EOP-1A. This will require insertion of rods and the initiation of SLC to shutdown the reactor.
EOPS 8,1A,3 Critical tasks:
- Insert control rods and/or start SLC to shutdown the reactor
- Terminate and Prevent Injection prior to emergency depressurization
- Initiate emergency depressurization once two Max Safe temperatures are exceeded.
Page 2 of 2
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level) 27% Power A-2, step 27 is complete, 16-33 at 26 944 MWt 252 MWe 32.4 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Raise power by pulling rods to 30% then await instructions to shift RR pumps to fast speed.
RE is present and available. Rx startup in progress. Gang is permissible, but continuous drive is NOT authorized Existing LCOs, date of next surveillance Surveillances or major maintenance FWLC selected to channel B for calibration of channel A later this shift.
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Comments, evolutions, problems, etc.
Online Safety is Green In 3004.01 complete thru step 8.3.10 Shift Main EHC pump to support Carrying electrical load in accordance maintenance - First Priority. with the Power Team.
1
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Main EHC running pump swap.
Initiation: Following turnover Cues: Directed by SRO Time Position Applicants Actions or Behavior BOP Per CPS 3105.02, EHC, STEP 8.1.2.1:
- Startup the standby pump (A)
- Wait for at least thirty seconds
- Shutdown the running pump (B) 5017-3A may or may not alarm.
- Test the standby pump (B)
The standby pump is started by a local operation and then stopped in the control room.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: Main EHC pumps shifted NOTES:
2
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 2 Page 1 of 1
==
Description:==
Pull rods to raise power Initiation: Following Main EHC pump shift.
Cues: Directed by SRO Time Position Applicants Actions or Behavior Per Turbine Startup and Generator Synchronization, CPS3004.01, step 8.3.11 and NF-RO CL-721 series:
- Withdraw rods to raise power to 30%
Rods are withdrawn by depressing the withdraw pushbutton or the continuous and withdraw pushbuttons together.
- Monitors reactor to ensure operations remain within established bands
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Clearly observable plant response from change in power level.
NOTES:
3
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 3 Page 1 of 1
==
Description:==
Rod 16-49 drifts outward Initiation: Once the reactivity manipulation is complete, on the signal of lead examiner Cues: Rod Drift, 5006-4G alarms Time Position Applicants Actions or Behavior RO Per Inadvertent Rod Movement, CPS 4007.02:
Immediate actions
- Select and fully insert the moving rod with the In Timer Skip button Subsequent actions;
- Once fully inserted release the In Timer Skip button
- Observe rod withdrawal
Monitor for core instabilities BOP
- Dispatch a field operator to the HCU for the rod
- Directs field operator to Individually scram rod
- Evaluates thermal limits
- Evaluate MSL rad monitor values
- Enters and direct actions per Inadvertent Rod Movement, CPS 4007.02
- Control Rod Operability, Tech. Spec. LCO 3.1.3 action C.1&2
- Contacts Shift Manager and recommends notifications.
Terminus: Once rod is fully inserted, individually scrammed and Tech Specs referenced.
NOTES:
4
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 4 Page 1 of 1
==
Description:==
HPCS WLP Shaft shears Initiation: Following completion of rod failure, on the signal of lead examiner Cues: HPCS System, 5062-7D alarms Time Position Applicants Actions or Behavior BOP Per ARP Procedure CPS 5062-7D:
- Dispatches NLO to investigate.
o If ATM is checked for pressure it reads 0 psig When directed:
- Shutdown the HPCS WLP Pump.
Per HPCS CPS 3309.01 precaution 4.3:
5062-7B will alarm.
- Monitors reactor to ensure operations remain within established bands.
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Evaluates and enters Technical Specification LCO 3.5.1 B.1 and B.2.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Contacts Shift Manager and recommends notifications.
Terminus: HPCS control power fuses removed and Technical Specifications evaluated.
NOTES:
If the crew does not pull the control power fuses the coupling on the HPCS pump will be broken to prevent HPCS from injecting.
5
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
CB pump A clogged oil filter/bearing oil deficiency Initiation: After crew has addressed HPCS problem and on the signal of lead examiner.
Cues: Annunciator CPS 5001-1H alarming, Time Position Applicants Actions or Behavior RO CPS 5001-1H, Clogged Oil Filter CB 1A:
Directs field operator to turn Cuno filter CPS 3104.01, CD/CB step 8.2.2:
- Startup standby CB pump
- Shutdown A CB pump BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Standby CB pump started and shutdown the A CB pump.
NOTES:
6
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 6 Page 1 of 1
==
Description:==
Trip of B CCW pump Initiation: After shifting of CB pumps, on the signal of lead examiner Cues: Annunciator CPS 5040-1B alarming, Time Position Applicants Actions or Behavior RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Responds to annunciator 5003-3D and 3E, RR Low Cooling Water Flow.
- Respond to annunciator 5040-1B,Informs CRS B CCW pump tripped.
- Starts standby pump per ARP (O/A 2.a).
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Directs starting of A CCW pump.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Standby CCW pump started.
NOTES:
7
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 7 Page 1 of 1
==
Description:==
SSE level control failure Initiation: After crew has addressed CCW pump trip and on the signal of lead examiner Cues: Annunciator CPS 5019-3A alarming Time Position Applicants Actions or Behavior BOP Per CPS 5019-3A, Hi/Lo SSE Shell, OA 2:
- Determines level to be low.
- Direct field operator to investigate.
Note: When the operator feeds with the Bypass valve the additional cold water will initially cause SSE pressure to drop further before it recovers.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: SSE level restored and alarm clear NOTES:
May take up to (2) minutes for alarm to come in. (This is normal.)
8
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 8,9,10 Page 1 of 5
Description:
RPV Instrument line failure in the secondary containment, Failure to scram Initiation: on the signal of lead examiner Cues: Multiple secondary containment area temperature and area radiation alarms, Rods fail to insert upon Scramming Time Position Applicants Actions or Behavior RO Reports EOP-8 entry on Hi temperature Performs EOP actions as directed by SRO
- Initiate a manual reactor scram before first max safe temperature is exceeded Per CPS 4100.01, Reactor Scram:
- Place mode switch in Shutdown
- Check and report power unchanged
- Operate FW to control level 3 to 8
- Check rods, reports shutdown criteria is not met
- Report level and pressure are following expected trends
- Stabilize pressure <1065 psig
- Reports secondary containment high temperature and rad alarms to SRO
- Makes plant announcement for reactor scram
- Should make plant announcement to evacuate Fuel/Aux buildings.
Performs EOP actions as directed by SRO
- Verifies operation of area coolers
- Verifies operation of VF, Fuel Bldg Vent.
- Evacuates affected areas of Secondary Containment
- Monitors area temperatures, levels and radiation levels Critical Task
- Reports a secondary containment Max Safe temperature being approached to SRO
- Reports two secondary containment Max Safe temperatures are being exceeded to SRO
9
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 2 of 5 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-8 and EOP actions as entry conditions are met:
- 1. Operate VF
- 2. Operate area coolers
- 3. Hold floor drain sump levels below max. normal
- 4. Isolate all discharges into the affected area except systems needed for:
- EOP Actions
- Fire Fighting
- 5. Per EOP-8/CPS 4001.01, Reactor Coolant Leakage:
- Directs BOP to isolate the source of leakage
- 6. Direct a scram prior to exceeding Maximum safe temperature
- 7. Enters EOP-1 Directs additional actions:
- 1. Notification of Radiation Protection (RP) Department
- 2. Evacuate affected areas of Secondary Containment Directs and verifies performance of appropriate actions per EOP-1:
- 1. Mode Switch to SHUTDOWN
- Per EOP-1 enters EOP-1A Critical Task Enters EOP-3 and direct Blowdown once exceeding Maximum safe temperature in two areas NOTES:
10
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 3 of 5 Time Position Applicants Actions or Behavior RO Performs EOP actions as directed by SRO:
- Arms and depresses MANUAL SCRAM push-buttons.
- Initiates ARI.
- CPS No. 4411.08, Alternate Control Rod Insertion
- Inserts control rods until RPC lockup
- Directs defeating RPC for further rod insertion
- Verifies RR downshifts at Level 3, and trips at Level 2.
Critical Task
- Terminates and prevents injection CB/FW systems CPS 4411.02 Critical Task
- When RPV level reaches -60, control RPV water level between TAF and -60 using only the listed Preferred ATWS Systems BOP Performs EOP-1A actions as directed by SRO:
- Inhibits ADS.
- Verifies needed auto actions.
- Isolations
- DG Start
- Dispatches area operator to monitor DGs Critical Task
- Starts and verifies injection of SLC trains 'A' and 'B'.
- Reports SLC B failure to start.
- 2. RCIC
- 3. LPCS - LPCS-5 valve may cycle open due to Instrument failure. B RO may have to give LPCS-5 valve a close signal to complete the T/P.
11
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 4 of 5 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-1A and EOP actions as entry conditions are met:
- 1. Inhibit ADS
- 2. Arm and depress MANUAL SCRAM push-buttons
- 3. Initiate ARI Critical Task 5. Determines Power to be greater than 5% and Directs injection of SLC
- 6. Insert control rods manually per CPS No. 4411.08, Alternate Control Rod Insertion
- 7. Verifies needed auto actions.
- Isolations
- DG Start Critical Task
- 8. Terminate and prevent injection of Detail F1 CPS 4411.02 Critical Task 9. When RPV level reaches -60, control RPV water level between TAF and -60 using only the listed Preferred ATWS Systems
- 10. Enters EOP-6 for High Drywell Temperature
- 11. Directs crew to stabilize RPV pressure below 1065 psig Monitor status and hold condition of identified parameters below (within) specified values.
- On transient, positions himself as command authority on the unit.
- Acknowledges immediate operator actions and directs subsequent actions.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
NOTES:
12
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 5 of 5 Time Position Applicants Actions or Behavior RO Performs EOP-3 actions as directed by SRO Critical Task
- Termination and prevention of injection of all F1 systems
- 1. CB/FW At less then 138 psig:
Critical Task
- termination and prevention of injection of all F1 systems
- 1. LPCS
- 2. LPCI Critical Task
- initiation of ADS and verify 7 ADS valves open SRO Enters EOP-3 and direct Blowdown once exceeding Maximum safe temperature in two areas 4 Critical Tasks
- Directs termination and prevention of injection of all F1 systems
- Directs Re-feed at 138 psig
- Directs level band at -60 to -TAF Terminus:
- EOP-8 actions initiated
- SLC started
- Rod Insert commenced
- RPV level lowered
- ADS initiated
- Level restored and stabilized
- Upon approval of lead examiner NOTES:
13
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to IC-42 (Verify/Adjust Power to 27% with rods and to match turnover If needed).
- 3. Load the lesson plan for this scenario.
- 4. Place simulator in RUN.
- 5. Select the FWLC level instrument B.
- 6. Turn on and advance recorders.
- 7. Verify Load set is at 600 MWe.
- 8. Verify the AR/PR server is running and stabilize AR/PR.
- 9. Verify Rod Drive pressure at 250#.
- 10. Identify T/S issues associated with OOS and turnover.
- 11. Verify simulator conditions match the turnover.
- 12. Rema and Rod Pull sheets marked up thru step 27 with 16-33 at 26
- 13. Provide marked up CPS 3004.01 complete to step 8.3.10.
- 14. Fill out plant status sheet and have Turnover sheet ready for crew.
14
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event Triggers and Role Play Event #
- 1. Main EHC pump swap
- a. No trigger - to start
- b. Role play - Field operator to swap the running Main EHC pumps. Local EHC pressure reading of 1625 psig for pump and 1625 psig header. All other EHC parameters are normal
- c. Remote trigger 10 - When requested to test auto start feature
- d. The Pump will shutoff when stopped with the control room switch.
- 2. Pull rods to raise power
- a. No triggers
- b. RE -Xenon is at equilibrium. Gang is permissible, but continuos drive is NOT authorized
- 3. Rod drifts outward.
- a. Remote trigger 1 - on request from lead evaluator.
- b. No problem lights at the RGDC or RACCs
- c. Role Play - Field operator reports no indications of problem at the HCU.
- d. RE - 3D ran thermal limits have not been approached or exceeded. If scram times are asked for? Then no rods are slow.
- e. Remote trigger 8 - When directed to scram the rod and report it completed. When asked accumulator N2 pressure is 1200 psig after rod is scrammed
- 4. HPCS WLP shaft shears
- a. Remote trigger 2 - on request from lead evaluator
- b. Role play - Field Operator if asked HPCS WLP the motor is turning but the pump is not.
- c. If ATM is checked it is reading 0 psig.
- d. Remote trigger 7 - When directed remove HPCS motor breaker Trip and C/P fuses and report it completed.
- e. If called - Respond as maintenance to investigate.
NOTE: If the control power fuses are not pulled then insert the HPCS Shaft Break from the Lesson Plan.
- 5. CB pump A clogged oil filter/bearing oil deficiency
- a. Remote trigger 3 - on request from lead evaluator
- b. Role play - Field Operator to turn the Cuno filter for the CB A pump and report it done, leave this alarm in. Support startup of the standby CB pump. (Lube oil is >8 psi and >75°F)
More Event Triggers and Role Play on the next page 15
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I
- 6. B CCW pump Trip
- a. Remote trigger 4 on request from lead evaluator
- b. When sent to A CCW pump it is okay. When sent to the breaker it is warm to the touch and has an overcurrent trip in. No fire.
- c. Role play as maintenance personnel in the field if requested.
- 7. SSE level control failure
- a. Remote trigger 5 - on request from lead evaluator
- b. Role play as field operator no indications locally that would explain failure.
- c. Controller is set at 0 inches, but level control valve is shut.
- d. May take up to (2) minutes for alarm to come in. (This is normal.)
- 8. RPV Instrument line failure in the secondary containment
- a. Remote trigger 6 on request from lead evaluator
- b. When the XL3 printout is requested provide attachment 1
- c. Role play as personnel in the field (1) When an operator is dispatched to the 781 East Gas Control Boundary report that the area appears to have a steam leak. You are unable to enter.
- 9. Auto and Manual scram failure
- a. Triggers - already active
- b. Perform Pending actions when requested
- a. Triggers - already active 16
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I TEAR THIS PIECE OFF AND GIVE TO OPERATOR CHECKING FP ALARM Attachment 1
======================================================
61-17 AB-781 East Col 121-124 AC ALARM 61-18 AB-781 East Col 121-124 AC ALARM 61-19 AB-781 East Col 121-124 AC ALARM 61-20 AB-781 East Col 121-124 AC ALARM 17
Procedures Used During Simulator Scenario # 3 (List of Annunciators on back of page)
- 1. EOP-1
- 2. EOP-1A
- 3. EOP-8
- 4. EOP-3
- 5. EOP-6
- 6. 3105.02 EHC
- 7. ITS/ORM/ODCM
- 8. 3004.01 TG S/U and Sync
- 9. 4007.02 O/N
- 10. 3309.01 HPCS
- 11. 3104.01 CD/CB
- 12. 4100.01 O/N
- 13. 4001.01 O/N
- 14. 4411.08 ARI
- 15. 4411.02 T/P
- 16. SLC hard card
- 17. T/P hard card (2)
- 18. 3203.01 CCW
- 19. 3107.01 GS
- 20. 3304.02 RCIS
- 21. 4411.104410.00 C012
- 22. 4411.09
- 23. 4410.00 C003
- 24. 4410.00 C004
- 25. 4411.03
- 26. 4411.04
- 27. 4411.11
- 28. 4411.02
- 29. 3101.01
- 30. HU-AA-1211
- 31. OP-AB-300-1001
- 32. Annuciators:
- 5006-4G, 5D, 3H, 1H, 3D
- 5062-7D, 8E, 7B
- 5019-3A
- 5001-1H
- 5040-1B, 8D
- 5003-3D, 3E, 2F, 2J, 2M, 4B, 4H
- 5017-3A
- 5130-1G ,2G
- 5003-3D, 3K
- 5002-2P, 1Q
- 5004-3A, 3F
- 5009-5B
- 5063-7H
- 5065-6F
- 5140 AR/PR
- All alarms after the Scram
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-1 Exam Scenario 2 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: CPs B,C,D,E and F are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on UAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: 1WF Evap is in Hot Standby. A and B RT F/D are in service.
Plant Status On Line Risk Green Reactor Operational Condition: Mode 1 Total Core Flow: _32.4_ mlb/hr FCV Position: A: __90___% B: __90__%
Reactor Power _27_% (<=100%) _919_ MWt (<=3473) _244_ Mwe Xenon: Stable RPV Level _29_ in Narrow Range RPV Pressure _929_ psi (< 1045)
In service SDC loop None MODE 1 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _19.2_ ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _0.5_ psi (0 to 1 psig)
Drywell to Containment dp: _0.5_ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _103_ F (<=146.53 F)
Secondary Containment: _0.74_ in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _28.7_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _34.4_ scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _84_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _85.4_MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: None Comments: See Turnover Sheet From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
OP-AB-300-1003 Revision 5 ATTACHMENT 1 Reactivity Maneuver Approval Cover Page Page 1 of 4 Station: Clinton Valid Date(s): xx/xx/xxxx Reactivity Maneuver Plan #: C11-Simu.3 Multiple Activations Allowed? No (If yes, CRS may make additional copies)
Prepared by: Roger Bottom / xx/xx/xx Reviewed by: Joe QNE / xx/xx/xx Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: Michelle QNE Boss/ xx/xx/xx Authorized by: / xx/xx/xx RE Manager / Date Senior Reactor Operator / Date NF Review Carlos Quark / xx/xx/xx NF Reviewer / Date ReMA Activated: / xx/xx/xx ReMA Terminated: / xx/xx/xx Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: RR Pump Upshift Purpose/Overview of Evolution:
This ReMA provides the steps for raising reactor power to support upshift of the RR Pumps.
Reactivity Maneuver Steps Extended General Issues: Select desired amount of power increase
- 1. Withdraw control rods to achieve conditions to support RR Upshift
- 2. Shift RR Pumps to fast speed and increase flow to 65% (~54.9 Mlbm/hr) 3.
4.
General Issues:
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA Training and Reference Material guidelines per OP-AB-300-1003.
The plan is to pull control rods in order to achieve sufficient conditions to perform and RR pump upshift. Flow will then be increased to ~65%.
OP-AB-300-1003 Revision 5 ATTACHMENT 2 Reactivity Maneuver Guidance Sheet STEP 1 of 2 Reactivity Maneuver Plan # C11-Simu.3 Description of Step :
Increase reactor power with control rods to ~30% (~1050 MWt) to support RR pump shift to fast speed.
Perform control rod pulls in accordance with approved sequence.
Ensure Feedwater heating is in service and that feedwater temperature is within 50°F of nominal prior to exceeding 21.6% (750 MWt). Reference Appendix A of CPS 3102.01.
QNE presence required in the Control Room? Yes X No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR N/A N/A Core Flow (Mlb/hr or %) N/A N/A MFLPD N/A N/A FCL (%) N/A N/A MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low FCL 57.3 % N/A Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display. FCL should be monitored constantly after crossing 21.6% power and just prior to pump upshift.
Contingency: Insert control rods in reverse order sequence to reduce FCL.
Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
OP-AB-300-1003 Revision 5 ATTACHMENT 2 Reactivity Maneuver Guidance Sheet STEP 2 of 2 Reactivity Maneuver Plan # C11-Simu.3 Description of Step :
Shift RR Pumps to fast speed and increase core flow to ~65% (~54.9 Mlbm/hr). Increasing flow may be performed in increments to support throttling FCVs and as necessary to place other plant systems in service.
Reactor power will be 40-45% (1389 - 1563 MWt) at the completion of this step.
Note: It is possible that performing a pump upshift will cause the plant to enter into the CONTROLLED ENTRY REGION of the power / flow operating map. Per EC 358831, entry into this region in support of RR pump shifting activities has been evaluated and is acceptable.
QNE presence required in the Control Room? Yes X* No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR < 0.900 Core Flow (Mlb/hr or %) N/A N/A MFLPD < 0.900 FCL (%) < 57.3% MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
FIGURE 1: CPS STABILITY CONTROL & POWER/FLOW OPERATING MAP PERCENT CORE FLOW 0 10 20 30 40 50 60 70 80 90 100 110 3473 100 MELLLA Limit [100.7% FCL]
3126 90 Restricted 90% FCL (Typ.)
2778 Zone 80%
80 THERMAL POWER - MWTh 2431 70 PERCENT THERMAL POWER 2084 60 60%
CON T R OLLE D 1737 50 E N T R Y R E GION 50%
1389 40 40%
1042 30 868 25 695 20 OPRM ENABLED CAVITATION 347 REGION PROTECTION LINES 10 OPRM OPERABLE
[21.6 % CTP, 750 MWth] SINGLE LOOP [> 25% CTP AND (HIGH SPEED, 2 PUMP ENVELOPE < 60% FLOW] OPERATION) 0 0 0.0 8.5 16.9 25.4 33.8 42.3 50.7 59.2 67.6 76.1 84.5 93.0 90.4 CORE FLOW - mlbm/hr (use core plate dP when Single Loop)
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Two Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
27% power RR Pumps on LFMG, Pulling rods to 30% power for Recirculation pump upshift.
Thunderstorms are expected in the area within the next hour.
Turnover:
- 1. Shift Main EHC pump to support maintenance - First Priority.
- 2. Pull rods to raise power to 30% and await instructions to shift Reactor Recirc pumps to Fast Speed.
Malf. No. Event Event Type* Description 1 NA N-BOP Main EHC pump swap.
2 NA R-ATC Pull rods to raise power.
3 4025I_Acti C-ATC Rod drifts outward.
on3ROD16 49I_ACTIO TS-CRS N3 1 4 HP01HP_1 C-BOP HPCS WLP Shaft shears.
E22C003_
MTFSHEA TS-CRS R1 5 YAFWPPL C-ATC A CB pump clogged oil filter/bearing oil deficiency.
B_5 30.000 6 YP_XMFT C-BOP Trip of B CCW pump. delete B_3918 1 7 YAMSAVF I-BOP SSE level control failure.
P_15 0.0 8 YP_XMFT M-ALL RPV Instrument line failure in the secondary containment.
B_5082 1 9 YP_XMFT M-ALL Auto and Manual scram failure.
B_4963 1 10 YP_XMFT M-ALL One SLC Pump fails to start B_5107 _1
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2
Appendix D Scenario Outline Form ES-D-1 Scenario No.: Two Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. Swap the running Main EHC pumps, the A Main EHC pump will be started and the B Main EHC pump shutdown.
- 2. Allow rod withdrawal to raise power.
- 3. During rod withdrawal a rod continues to move outward, Off-Normal CPS 4007.02 requires operator action to stop its outward movement. Once the rod is scrammed the rod will no longer withdraw. LCO 3.1.3 action C.1&2 is entered.
- 5. A CB pump will experience a Clogged oil filter with a bearing oil deficiency requiring the startup of the standby pump and shutdown of the A pump.
- 7. SSE level control fails causing level to go low requiring the manual level control to restore level on the SSE.
- 8. The RPV instrument line will break resulting in a partial lost of RPV instrumentation, a steam leak in the secondary containment and EOP-8 entry. Two areas in secondary containment will exceed Maximum Safe temperature requiring blowdown.
- 9. When scrammed, rods will not move resulting in reactor remaining at power and entry to EOP-1A. This will require insertion of rods and the initiation of SLC to shutdown the reactor.
EOPS 8,1A,3 Critical tasks:
- Insert control rods and/or start SLC to shutdown the reactor
- Terminate and Prevent Injection prior to emergency depressurization
- Initiate emergency depressurization once two Max Safe temperatures are exceeded.
Page 2 of 2
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level) 27% Power A-2, step 27 is complete, 16-33 at 26 944 MWt 252 MWe 32.4 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Raise power by pulling rods to 30% then await instructions to shift RR pumps to fast speed.
RE is present and available. Rx startup in progress. Gang is permissible, but continuous drive is NOT authorized Existing LCOs, date of next surveillance Surveillances or major maintenance FWLC selected to channel B for calibration of channel A later this shift.
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Comments, evolutions, problems, etc.
Online Safety is Green In 3004.01 complete thru step 8.3.10 Shift Main EHC pump to support Carrying electrical load in accordance maintenance - First Priority. with the Power Team.
1
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Main EHC running pump swap.
Initiation: Following turnover Cues: Directed by SRO Time Position Applicants Actions or Behavior BOP Per CPS 3105.02, EHC, STEP 8.1.2.1:
- Startup the standby pump (A)
- Wait for at least thirty seconds
- Shutdown the running pump (B) 5017-3A may or may not alarm.
- Test the standby pump (B)
The standby pump is started by a local operation and then stopped in the control room.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: Main EHC pumps shifted NOTES:
2
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 2 Page 1 of 1
==
Description:==
Pull rods to raise power Initiation: Following Main EHC pump shift.
Cues: Directed by SRO Time Position Applicants Actions or Behavior Per Turbine Startup and Generator Synchronization, CPS3004.01, step 8.3.11 and NF-RO CL-721 series:
- Withdraw rods to raise power to 30%
Rods are withdrawn by depressing the withdraw pushbutton or the continuous and withdraw pushbuttons together.
- Monitors reactor to ensure operations remain within established bands
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Clearly observable plant response from change in power level.
NOTES:
3
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 3 Page 1 of 1
==
Description:==
Rod 16-49 drifts outward Initiation: Once the reactivity manipulation is complete, on the signal of lead examiner Cues: Rod Drift, 5006-4G alarms Time Position Applicants Actions or Behavior RO Per Inadvertent Rod Movement, CPS 4007.02:
Immediate actions
- Select and fully insert the moving rod with the In Timer Skip button Subsequent actions;
- Once fully inserted release the In Timer Skip button
- Observe rod withdrawal
Monitor for core instabilities BOP
- Dispatch a field operator to the HCU for the rod
- Directs field operator to Individually scram rod
- Evaluates thermal limits
- Evaluate MSL rad monitor values
- Enters and direct actions per Inadvertent Rod Movement, CPS 4007.02
- Control Rod Operability, Tech. Spec. LCO 3.1.3 action C.1&2
- Contacts Shift Manager and recommends notifications.
Terminus: Once rod is fully inserted, individually scrammed and Tech Specs referenced.
NOTES:
4
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 4 Page 1 of 1
==
Description:==
HPCS WLP Shaft shears Initiation: Following completion of rod failure, on the signal of lead examiner Cues: HPCS System, 5062-7D alarms Time Position Applicants Actions or Behavior BOP Per ARP Procedure CPS 5062-7D:
- Dispatches NLO to investigate.
o If ATM is checked for pressure it reads 0 psig When directed:
- Shutdown the HPCS WLP Pump.
Per HPCS CPS 3309.01 precaution 4.3:
5062-7B will alarm.
- Monitors reactor to ensure operations remain within established bands.
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Evaluates and enters Technical Specification LCO 3.5.1 B.1 and B.2.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Contacts Shift Manager and recommends notifications.
Terminus: HPCS control power fuses removed and Technical Specifications evaluated.
NOTES:
If the crew does not pull the control power fuses the coupling on the HPCS pump will be broken to prevent HPCS from injecting.
5
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
CB pump A clogged oil filter/bearing oil deficiency Initiation: After crew has addressed HPCS problem and on the signal of lead examiner.
Cues: Annunciator CPS 5001-1H alarming, Time Position Applicants Actions or Behavior RO CPS 5001-1H, Clogged Oil Filter CB 1A:
Directs field operator to turn Cuno filter CPS 3104.01, CD/CB step 8.2.2:
- Startup standby CB pump
- Shutdown A CB pump BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Standby CB pump started and shutdown the A CB pump.
NOTES:
6
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 6 Pa g e 1 of 1
==
Description:==
Trip of B CCW pump Initiation: After shifting of CB pumps, on the signal of lead examiner Cues: Annunciator CPS 5040-1B alarming, Time Position Applicants Actions or Behavior RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies notifies the SRO of any unusual or unexpected conditions.
- Responds to annunciator 5003-5003-3D and 3E, RR Low Cooling Water Flow.
- Respond to annunciator 5040-5040-1B,Informs CRS B CCW pump tripped.
- Starts standby pump per ARP (O/A 2.a).
- Monitors control room panels panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Directs starting of A CCW pump.
- Enforces OPS expectations and standards
- Ensures operations are conducted within within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Standby CCW pump started.
NOTES:
7
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 7 Page 1 of 1
==
Description:==
SSE level control failure Initiation: After crew has addressed CCW pump trip and on the signal of lead examiner Cues: Annunciator CPS 5019-3A alarming Time Position Applicants Actions or Behavior BOP Per CPS 5019-3A, Hi/Lo SSE Shell, OA 2:
- Determines level to be low.
- Direct field operator to investigate.
Note: When the operator feeds with the Bypass valve the additional cold water will initially cause SSE pressure to drop further before it recovers.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: SSE level restored and alarm clear NOTES:
May take up to (2) minutes for alarm to come in. (This is normal.)
8
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Operator Actions Event No.(s): 8,9,10 Page 1 of 5
Description:
RPV Instrument line failure in the secondary containment, Failure to scram Initiation: on the signal of lead examiner Cues: Multiple secondary containment area temperature and area radiation alarms, Rods fail to insert upon Scramming Time Position Applicants Actions or Behavior RO Reports EOP-8 entry on Hi temperature Performs EOP actions as directed by SRO
- Initiate a manual reactor scram before first max safe temperature is exceeded Per CPS 4100.01, Reactor Scram:
- Place mode switch in Shutdown
- Check and report power unchanged
- Operate FW to control level 3 to 8
- Check rods, reports shutdown criteria is not met
- Report level and pressure are following expected trends
- Stabilize pressure <1065 psig
- Reports secondary containment high temperature and rad alarms to SRO
- Makes plant announcement for reactor scram
- Should make plant announcement to evacuate Fuel/Aux buildings.
Performs EOP actions as directed by SRO
- Verifies operation of area coolers
- Verifies operation of VF, Fuel Bldg Vent.
- Evacuates affected areas of Secondary Containment
- Monitors area temperatures, levels and radiation levels Critical Task
- Reports a secondary containment Max Safe temperature being approached to SRO
- Reports two secondary containment Max Safe temperatures are being exceeded to SRO
9
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 2 of 5 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-8 and EOP actions as entry conditions are met:
- 1. Operate VF
- 2. Operate area coolers
- 3. Hold floor drain sump levels below max. normal
- 4. Isolate all discharges into the affected area except systems needed for:
- EOP Actions
- Fire Fighting
- 5. Per EOP-8/CPS 4001.01, Reactor Coolant Leakage:
- Directs BOP to isolate the source of leakage
- 6. Direct a scram prior to exceeding Maximum safe temperature
- 7. Enters EOP-1 Directs additional actions:
- 1. Notification of Radiation Protection (RP) Department
- 2. Evacuate affected areas of Secondary Containment Directs and verifies performance of appropriate actions per EOP-1:
- 1. Mode Switch to SHUTDOWN
- Per EOP-1 enters EOP-1A Critical Task Enters EOP-3 and direct Blowdown once exceeding Maximum safe temperature in two areas NOTES:
10
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 3 of 5 Time Position Applicants Actions or Behavior RO Performs EOP actions as directed by SRO:
- Arms and depresses MANUAL SCRAM push-buttons.
- Initiates ARI.
- CPS No. 4411.08, Alternate Control Rod Insertion
- Inserts control rods until RPC lockup
- Directs defeating RPC for further rod insertion
- Verifies RR downshifts at Level 3, and trips at Level 2.
Critical Task
- Terminates and prevents injection CB/FW systems CPS 4411.02 Critical Task
- When RPV level reaches -60, control RPV water level between TAF and -60 using only the listed Preferred ATWS Systems BOP Performs EOP-1A actions as directed by SRO:
- Inhibits ADS.
- Verifies needed auto actions.
- Isolations
- DG Start
- Dispatches area operator to monitor DGs Critical Task
- Starts and verifies injection of SLC trains 'A' and 'B'.
- Reports SLC B failure to start.
- 2. RCIC
- 3. LPCS - LPCS-5 valve may cycle open due to Instrument failure. B RO may have to give LPCS-5 valve a close signal to complete the T/P.
11
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 4 of 5 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-1A and EOP actions as entry conditions are met:
- 1. Inhibit ADS
- 2. Arm and depress MANUAL SCRAM push-buttons
- 3. Initiate ARI Critical Task 5. Determines Power to be greater than 5% and Directs injection of SLC
- 6. Insert control rods manually per CPS No. 4411.08, Alternate Control Rod Insertion
- 7. Verifies needed auto actions.
- Isolations
- DG Start Critical Task
- 8. Terminate and prevent injection of Detail F1 CPS 4411.02 Critical Task 9. When RPV level reaches -60, control RPV water level between TAF and -60 using only the listed Preferred ATWS Systems
- 10. Enters EOP-6 for High Drywell Temperature
- 11. Directs crew to stabilize RPV pressure below 1065 psig Monitor status and hold condition of identified parameters below (within) specified values.
- On transient, positions himself as command authority on the unit.
- Acknowledges immediate operator actions and directs subsequent actions.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
NOTES:
12
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event No.(s): 8,9,10 Page 5 of 5 Time Position Applicants Actions or Behavior RO Performs EOP-3 actions as directed by SRO Critical Task
- Termination and prevention of injection of all F1 systems
- 1. CB/FW At less then 138 psig:
Critical Task
- termination and prevention of injection of all F1 systems
- 1. LPCS
- 2. LPCI Critical Task
- initiation of ADS and verify 7 ADS valves open SRO Enters EOP-3 and direct Blowdown once exceeding Maximum safe temperature in two areas 4 Critical Tasks
- Directs termination and prevention of injection of all F1 systems
- Directs Re-feed at 138 psig
- Directs level band at -60 to -TAF Terminus:
- EOP-8 actions initiated
- SLC started
- Rod Insert commenced
- RPV level lowered
- ADS initiated
- Level restored and stabilized
- Upon approval of lead examiner NOTES:
13
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to IC-42 (Verify/Adjust Power to 27% with rods and to match turnover If needed).
- 3. Load the lesson plan for this scenario.
- 4. Place simulator in RUN.
- 5. Select the FWLC level instrument B.
- 6. Turn on and advance recorders.
- 7. Verify Load set is at 600 MWe.
- 8. Verify the AR/PR server is running and stabilize AR/PR.
- 9. Verify Rod Drive pressure at 250#.
- 10. Identify T/S issues associated with OOS and turnover.
- 11. Verify simulator conditions match the turnover.
- 12. Rema and Rod Pull sheets marked up thru step 27 with 16-33 at 26
- 13. Provide marked up CPS 3004.01 complete to step 8.3.10.
- 14. Fill out plant status sheet and have Turnover sheet ready for crew.
14
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I Event Triggers and Role Play Event #
- 1. Main EHC pump swap
- a. No trigger - to start
- b. Role play - Field operator to swap the running Main EHC pumps. Local EHC pressure reading of 1625 psig for pump and 1625 psig header. All other EHC parameters are normal
- c. Remote trigger 10 - When requested to test auto start feature
- d. The Pump will shutoff when stopped with the control room switch.
- 2. Pull rods to raise power
- a. No triggers
- b. RE -Xenon is at equilibrium. Gang is permissible, but continuos drive is NOT authorized
- 3. Rod drifts outward.
- a. Remote trigger 1 - on request from lead evaluator.
- b. No problem lights at the RGDC or RACCs
- c. Role Play - Field operator reports no indications of problem at the HCU.
- d. RE - 3D ran thermal limits have not been approached or exceeded. If scram times are asked for? Then no rods are slow.
- e. Remote trigger 8 - When directed to scram the rod and report it completed. When asked accumulator N2 pressure is 1200 psig after rod is scrammed
- 4. HPCS WLP shaft shears
- a. Remote trigger 2 - on request from lead evaluator
- b. Role play - Field Operator if asked HPCS WLP the motor is turning but the pump is not.
- c. If ATM is checked it is reading 0 psig.
- d. Remote trigger 7 - When directed remove HPCS motor breaker Trip and C/P fuses and report it completed.
- e. If called - Respond as maintenance to investigate.
NOTE: If the control power fuses are not pulled then insert the HPCS Shaft Break from the Lesson Plan.
- 5. CB pump A clogged oil filter/bearing oil deficiency
- a. Remote trigger 3 - on request from lead evaluator
- b. Role play - Field Operator to turn the Cuno filter for the CB A pump and report it done, leave this alarm in. Support startup of the standby CB pump. (Lube oil is >8 psi and >75°F)
More Event Triggers and Role Play on the next page 15
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I
- 6. B CCW pump Trip
- a. Remote trigger 4 on request from lead evaluator
- b. When sent to A CCW pump it is okay. When sent to the breaker it is warm to the touch and has an overcurrent trip in. No fire.
- c. Role play as maintenance personnel in the field if requested.
- 7. SSE level control failure
- a. Remote trigger 5 - on request from lead evaluator
- b. Role play as field operator no indications locally that would explain failure.
- c. Controller is set at 0 inches, but level control valve is shut.
- d. May take up to (2) minutes for alarm to come in. (This is normal.)
- 8. RPV Instrument line failure in the secondary containment
- a. Remote trigger 6 on request from lead evaluator
- b. When the XL3 printout is requested provide attachment 1
- c. Role play as personnel in the field (1) When an operator is dispatched to the 781 East Gas Control Boundary report that the area appears to have a steam leak. You are unable to enter.
- 9. Auto and Manual scram failure
- a. Triggers - already active
- b. Perform Pending actions when requested
- a. Triggers - already active 16
D-2, Dynamic Simulator Scenario 2 EXAM DATE: 08-24-09 08-01I TEAR THIS PIECE OFF AND GIVE TO OPERATOR CHECKING FP ALARM Attachment 1
======================================================
61-17 AB-781 East Col 121-124 AC ALARM 61-18 AB-781 East Col 121-124 AC ALARM 61-19 AB-781 East Col 121-124 AC ALARM 61-20 AB-781 East Col 121-124 AC ALARM 17
Procedures Used During Simulator Scenario # 3 (List of Annunciators on back of page)
- 1. EOP-1
- 2. EOP-1A
- 3. EOP-8
- 4. EOP-3
- 5. EOP-6
- 6. 3105.02 EHC
- 7. ITS/ORM/ODCM
- 8. 3004.01 TG S/U and Sync
- 9. 4007.02 O/N
- 10. 3309.01 HPCS
- 11. 3104.01 CD/CB
- 12. 4100.01 O/N
- 13. 4001.01 O/N
- 14. 4411.08 ARI
- 15. 4411.02 T/P
- 16. SLC hard card
- 17. T/P hard card (2)
- 18. 3203.01 CCW
- 19. 3107.01 GS
- 20. 3304.02 RCIS
- 21. 4411.104410.00 C012
- 22. 4411.09
- 23. 4410.00 C003
- 24. 4410.00 C004
- 25. 4411.03
- 26. 4411.04
- 27. 4411.11
- 28. 4411.02
- 29. 3101.01
- 30. HU-AA-1211
- 31. OP-AB-300-1001
- 32. Annuciators:
- 5006-4G, 5D, 3H, 1H, 3D
- 5062-7D, 8E, 7B
- 5019-3A
- 5001-1H
- 5040-1B, 8D
- 5003-3D, 3E, 2F, 2J, 2M, 4B, 4H
- 5017-3A
- 5130-1G ,2G
- 5003-3D, 3K
- 5002-2P, 1Q
- 5004-3A, 3F
- 5009-5B
- 5063-7H
- 5065-6F
- 5140 AR/PR
- All alarms after the Scram
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-1 Exam Scenario 3 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: A,B,C CPs are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on RAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: FP/FP 1B in service. 1WF Evap is in Hot Standby. A RT F/D is in service.
Plant Status On Line Risk Green Reactor Operational Condition: Mode 2 Total Core Flow: __26.9___ mlb/hr FCV Position: A: ___90____% B: _ _90____%
Reactor Power __0__% (<=100%) _0__ MWt (<=3473) _0__ Mwe Xenon: Stable RPV Level _26.7_ in Narrow Range RPV Pressure _600__ psi (< 1045)
In service SDC loop None MODE 2 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _19.1_ ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _0.4__ psi (0 to 1 psig)
Drywell to Containment dp: _0.4__ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _100__ F (<=146.53 F)
Secondary Containment: _0.74_ in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _27_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _12.8_ scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _78_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _0_MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: None Comments: See Turnover Sheet From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
OP-AB-300-1003 Revision 3 Page 26 of 39 Attachment 1 Reactivity Maneuver Approval Cover Page Station: Clinton Valid Date(s): 2/2-2/15/08 Reactivity Maneuver Plan #: C12-0001 Are Multiple Activations Allowed: No (If yes, US may make additional copies)
Prepared by: ______________/______ Reviewed by: ________________/_______
Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: _____________/_______ Authorized by: ___________________/______
RE Manager / Date Senior Reactor Operator / Date NF Review (circle one) yes/declined by ________________/______
NF Individual Contacted/Date ReMA Activated: ______________/_______ ReMA Terminated: ______________/______
Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: BOC 12 Plant Startup Purpose/Overview of Evolution:
This ReMA provides the steps for starting up the reactor from C1R11 refueling outage. The ReMA covers power ascension from All Rods In (ARI) to ~96.9% CTP (~3365 MWth).
Maneuver Steps
- 2. Shift RR pumps to fast speed & increase core flow to ~65% (~54.9 Mlbm/hr)
- 3. Increase reactor power to ~96.9% CTP (~3365 MWth).
- 4. Maintain power at ~96.9% CTP (~3365 MWth) with rods & flow General Issues:
The plan is to pull control rods until the target rod pattern is achieved. However, since this will be a xenon free startup, all rods cannot be fully withdrawn to their target positions during the power ascension. Also fuel conditioning limits will require a slow flow ramp (0.35 kw/ft/hr; ~30 MWe/hr) to reach rated power. A second downpower will be required (separate ReMA) to achieve the target rod pattern.
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA procedure OP-AB-300-1003.
Main Steam Line Radiation Monitors may initially show elevated response from crud burst in the core (due to rod movements) and from hydrogen pockets being swept into the core (due to flow perturbations in the condensate/
feedwater piping). Response should diminish as the feedwater system comes to equilibrium.
Turbine Control Valve (TCV) oscillations have been experienced at ~87% (~3021 MWth). It may be necessary to flow quickly through this region to avoid excessive valve oscillations.
OP-AB-300-1003 Revision 3 Page 27 of 39 Attachment 2 Reactivity Maneuver Guidance Sheet Step 1 of 4 Reactivity Maneuver Plan # C12-0001 Description of Step:
Withdraw rods from ARI to ~29% CTP.
Initial Complete a) Withdraw control rods in accordance with Startup Sequence A2-01 to ~29%(~1007 MWth) to support RR pump shift to fast speed.
b) Verify scram time testing is complete before shifting RR pumps to fast speed. A separate control rod sequence package will be provided for this testing.
Note: Prior to exceeding 21.6% power verify feedwater heating is in service and that feedwater temperature is within 50°F of nominal prior to exceeding 21.6% (750 MWth). Reference App. A of CPS 3102.01.
The Reactor Engineer will provide guidance on adjustments to the rod pattern or flow to accommodate predictor uncertainties or schedule changes.
QNE presence required in the Control Room? Yes X No Onsite Only? Yes No Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Generator Output N/A N/A MFLCPR N/A N/A Core Power (MWt or %) N/A N/A MFLPD N/A N/A Core Flow (Mlb/hr or %) N/A N/A MAPRAT N/A N/A FCL (%) N/A N/A Critical Parameters to be Verified During the Step Description including frequency, method of monitoring, and High Low contingency actions (if needed)
FCL Monitor frequency : Demand 3D case after crossing 21.6% (750 MWth) &
just prior to RR pump shift to fast speed. Power and flow indications on the 57.3% N/A P680 displays may also be used.
(Contingency: Insert control rods to reduce FCL.)
ReMA Step Complete: _________________/______ Verified by: _______________/_______
Reactor Operator/Date Unit Supervisor/Date
OP-AB-300-1003 Revision 3 Page 27 of 39 Attachment 2 Reactivity Maneuver Guidance Sheet Step 2 of 4 Reactivity Maneuver Plan # C12-0001 Description of Step:
Shift RR pumps to fast speed & increase core flow to ~65% (~54.9 Mlbm/hr)
Initial Complete a) Shift RR pumps to fast speed. During upshifts of RR pumps there is a potential for entry in to the Controlled Entry Region. This has been evaluated and is acceptable.
b) Increase core flow to ~65% (~54.9 Mlbm/hr). Increasing flow may be performed in increments to support minimizing throttling of FCVs and as necessary to support plant systems. At the completion of this step reactor power will be ~40-45% (~1389-1563 MWth).
Reactor Engineer to provide guidance on adjustments to rod pattern or flow to accommodate predictor uncertainties and schedule changes.
QNE presence required in the Control Room? Yes X No Onsite Only? Yes No Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Generator Output N/A N/A MFLCPR < 0.900 Core Power (MWt or %) N/A N/A MFLPD < 0.750 Core Flow (Mlb/hr or %) N/A N/A MAPRAT N/A N/A FCL (%) < 57.3%
Critical Parameters to be Verified During the Step Description including frequency, method of monitoring, and High Low contingency actions (if needed)
NONE ReMA Step Complete: _________________/______ Verified by: _______________/_______
Reactor Operator/Date Unit Supervisor/Date
OP-AB-300-1003 Revision 3 Page 27 of 39 Attachment 2 Reactivity Maneuver Guidance Sheet Step 3 of 4 Reactivity Maneuver Plan # C12-0001 Description of Step:
Increase power to ~96.9% CTP (~3365 MWth) with flow and rods. Power may be increased in increments as necessary to support plant evolutions. Flow adjustments may be used to maintain power approximately constant for any hold points.
Note:
At ~80% power, bundle nodal powers of exposed fuel are expected to reach the threshold of ~8.5kw/ft. In accordance with NF-AB-440, a fuel conditional ramp rate of 0.35kw/ft/hr will be required. RE will provide guidance on fuel conditioning ramp.
The intent is to withdraw as many rods as possible. However, xenon conditions and fuel conditioning requirements will not permit withdrawal of the control rods to desired target positions. Reactor Engineer will provide guidance on control rod movements and flow increases.
Reactor Engineer to provide guidance on adjustments to rod pattern or flow to accommodate predictor uncertainties and schedule changes.
QNE presence required in the Control Room? Yes X* No Onsite Only? Yes No
- RE coverage will be provided consistent with OP-AB-300-1003 & NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Generator Output N/A N/A MFLCPR < 0.900 Core Power (MWt or %) N/A N/A MFLPD < 0.900
~65% N/A N/A Core Flow (Mlb/hr or %) MAPRAT
(~54.9 Mlbm/hr)
FCL (%) N/A N/A Critical Parameters to be Verified During the Step Description including frequency, method of monitoring, and High Low contingency actions (if needed)
FCL Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display after each 50 MWe increase in electrical output.
98.7% N/A Contingency: Insert control rods as recommended by the Reactor Engineer.
MFLCPR Monitor Frequency: 3D case at each 50 MWe increase in electrical output when MFLCPR > 0.900. 0.980 N/A Contingency: Refer to CPS 2202.03 for correction of power distribution problems.
OP-AB-300-1003 Revision 3 Page 27 of 39 MFLPD Monitor Frequency: 3D case at each 50 MWe reduction in electrical output when MFLPD > 0.900. 0.980 N/A Contingency: Refer to CPS 2202.03 for correction of power distribution problems.
Fuel Conditioning Limits Approach to Monitor Frequency: threshold:
- 1. Approach to threshold (when PCRAT > 0.900) - use 3D cases (PCIOMR P-Max (PC,KWTH) edits) at ~5% increase in power; = 0.45
- 2. Fuel conditioning ramp rate (when P-Max (PC,KWTH) > 0.0) - Use 3D cases (PCIOMR edits) at ~30 minute intervals. Fuel Conditioning Ramp Rate:
0.45 kw/ft/hr (Contingency: Refer to NF-AB-440 for actions to take if fuel conditioning limits (nominal ramp rate are exceeded.) is 0.35 kw/ft/hr)
ReMA Step Complete: _________________/______ Verified by: _______________/_______
Reactor Operator/Date Unit Supervisor/Date
OP-AB-300-1003 Revision 3 Page 27 of 39 Attachment 2 Reactivity Maneuver Guidance Sheet Step 4 of 4 Reactivity Maneuver Plan # C12-0001 Description of Step:
Maintain power with flow adjustments and control rod notching. Xenon will be building in Reactor Engineer will provide guidance to ensure margins are maintained. This will continue until the next down power to achieve target rod pattern (~24 hours later). A separate ReMA will be provided for this downpower.
Note: The FCL critical parameter has been specified at 99.7%, which is within 1.0% of the 100.7% limit. The reduced margin is being specified to accommodate the xenon transient.
QNE presence required in the Control Room? Yes X* No Onsite Only? Yes No
- RE coverage will be provided consistent with OP-AB-300-1003 & NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Generator Output N/A N/A MFLCPR < 0.980
~ 96.9%
Core Power (MWt or %) MFLPD < 0.980
(~3365 MWth)
Core Flow (Mlb/hr or %) N/A N/A MAPRAT N/A N/A FCL (%) < 98.7%
Critical Parameters to be Verified During the Step Description including frequency, method of monitoring, and High Low contingency actions (if needed)
FCL Monitor Frequency: Normal monitoring 99.7%
Contingency: Insert control rods in reverse order of sequence as determined by Reactor Engineer.
MFLCPR Monitor Frequency: Normal monitoring 0.980 Contingency: Refer to CPS 2202.03 for correction of power distribution problems.
MFLPD Monitor Frequency: Normal monitoring 0.980 Contingency: Refer to CPS 2202.03 for correction of power distribution problems.
ReMA Step Complete: _________________/______ Verified by: _______________/_______
Reactor Operator/Date Unit Supervisor/Date
FIGURE 1: CPS STABILITY CONTROL & POWER/FLOW OPERATING MAP PERCENT CORE FLOW 0 10 20 30 40 50 60 70 80 90 100 110 3473 100 MELLLA Limit [100.7% FCL]
3126 90 Restricted 90% FCL (Typ.)
2778 Zone 80%
80 THERMAL POWER - MWTh 2431 70 PERCENT THERMAL POWER 2084 60 60%
CONTROLLED 1737 50 ENTRY REGION 50%
1389 40 40%
1042 30 868 25 695 20 OPRM ENABLED CAVITATION 347 OPRM OPERABLE REGION PROTECTION LINES 10
[21.6 % CTP, 750 MWth] SINGLE LOOP [> 25% CTP AND (HIGH SPEED, 2 PUMP ENVELOPE < 60% FLOW] OPERATION) 0 0 0.0 8.5 16.9 25.4 33.8 42.3 50.7 59.2 67.6 76.1 84.5 93.0 90.4 CORE FLOW - mlbm/hr (use core plate dP when Single Loop)
ATTACHMENT 1 Reactivity Maneuver Approval Cover Page Page 1 of 2 Station: Clinton Valid Date(s): XX/XX/XXXX Reactivity Maneuver Plan #: C11-Simu.4 Multiple Activations Allowed? No (If yes, CRS may make additional copies)
Prepared by: Roger QNE / XX/XX/XX Reviewed by: Joe QNE / XX/XX/XX Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: Michelle QNE Boss/ XX/XX/XX Authorized by: / XX/XX/XX RE Manager / Date Senior Reactor Operator / Date NF Review Carlos Quark / XX/XX/XX NF Reviewer / Date ReMA Activated: / XX/XX/XX ReMA Terminated: / XX/XX/XX Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: Withdraw Rods from ARI to RR Pump Upshift Purpose/Overview of Evolution:
This ReMA provides the steps for starting up the plant from the ARI condition to the performance of RR pump upshift.
Reactivity Maneuver Steps Extended General Issues: Select desired amount of power reduction
- 1. Withdraw control rods from ARI to RR pump shift to fast speed General Issues:
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA Training and Reference Material guidelines per OP-AB-300-1003.
ATTACHMENT 2 Reactivity Maneuver Guidance Sheet
STEP 1 of 1 Reactivity Maneuver Plan # C11-Simu.4 Description of Step :
From the ARI condition, increase power with control rods to ~29% (1007 MWt) to support RR pump shift to fast speed.
Ensure Feedwater heating is in service and that feedwater temperature is within 50°F of nominal prior to exceeding 21.6% (750 MWt). Reference Appendix A of CPS 3102.01.
QNE presence required in the Control Room? Yes
- No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR N/A N/A Core Flow (Mlb/hr or %) N/A N/A MFLPD N/A N/A FCL (%) N/A N/A MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low FCL 57.3 % N/A Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display. FCL should be monitored constantly after crossing 21.6% power and just prior to pump upshift.
Contingency: Insert control rods in reverse order sequence to reduce FCL.
Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY SCOPE OF REVISION:
- This form was updated as a result of the procedure revision.
ROUTINE USE ORIGINATOR: Christian Small CLASS CODE: SNNN1 SQR: Mark Vandermyde APPROVAL DATE: 04/25/05 CURRENT CHANGES TO GENERAL REVISION Change # Date List of Affected Pages n
o p
q r
Rev. 4 Page 1 of 2
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY Steps 8.3, 8.4, 8.7.4 Core Conditions Expected:
Estimated Date/Time of criticality /
Xenon Increasing Decreasing
- None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels.
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels.
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality.
Instructions
- Expect the reactor to become critical at any time.
- Move control rods with careful attention.
- Monitor nuclear instruments during and following rod movements.
- If a nontransient period of less than 30 sec occurs, insert rods and investigate.
- Perform 1/M plots at steps ___17____ ___19____ ___22____ ___23____
___25____ ___26____ ___27____ ___28____
___29____ ___31____ ___33____ ___35____
ADDITIONAL INSTRUCTIONS This is a middle of cycle, xenon-free startup at relatively high moderator temperature. Watch for potential high notch worths in interior regions of the core.
Michelle QNE Boss /
Reactor Engineer Date Time Rev. 4 Page 2 of 2
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart.
Thunderstorm storms are expected in the area within the next hour.
Turnover:
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 - First Priority.
- 2. Pull Rods to criticality.
Event Malf. No. Event Event No. Type* Description 1 NA N-BOP Test the Generator Emergency Seal Oil Pump 2 Rod C-ATC Continue with startup, discovers Uncoupled rod 0825I_ACTIONA
-Rod uncoupled TS-CRS 3 NA R-ATC Pull rods for criticality 4 SRM_BI_ACTIO I-ATC B SRM fails N2 and 1 5 CDSR_VAC_P I-BOP Vacuum Pump Trip MP_A 6 SRM_CI_ACTIO TS-CRS A SRM fails N2 and 1 7 Override C-BOP RCIC drain trap level high 8 YARITPLA_1 M-ALL RCIC unisolable steam leak Override 9 YP_XMFTB_500 M-ALL Reactor scrams on initiation of RPT/ARI 2
10 CAM1PR006AT M-ALL Radiation monitor fails to initiate an isolation V_VALUE1 CAM1PR006CT V_VALUE1 CAM1PR006DT V_VALUE1 CAM1PR006BT V_VALUE1 VGCEFUSE_V 677503CC VGBZFUSE_V 421691CC
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2
Appendix D Scenario Outline Form ES-D-1 Scenario No.: Three Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3.
- 2. Rod 08-25 is uncoupled and goes to overtravel. This will require action to recouple and entry into Technical Specification 3.1.3.
- 3. Withdrawal rods for criticality.
- 4. B SRM fails causing a rod block requiring bypassing to proceed with startup.
Requiring a review of Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 5. The A Mechanical Vacuum Pump trips requiring starting the B Pump.
- 6. A SRM fails causing a rod block and requiring entry into Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 7. The RCIC drain trap level high will require manually opening the drain trap bypass valve to drain the steam pot.
- 8. The RCIC steam supply line develops a leak causing the RCIC room temperature to rise resulting in an EOP-8 entry. A scram is required prior exceeding the Maximum safe temperature.
- 9. The mode switch and manual scram pushbutton will not cause a scram requiring entry into EOP-1A. Manual initiation of ARI/RPT will insert the rods for a scram. EOP-1A will be exited and EOP-1 will be entered.
- 10. The VF exhaust radiation monitor trends up to the trip isolation but fails to actuate VF isolation and start of VG requiring BOP to manually perform.
EOP 8,1A,1 Critical tasks:
- Manual insertion of ARI prior to exceeding Maximum safe temperature
- Manually shutdown and isolate VF and startup VG Page 2 of 2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level)
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT.
Comments, evolutions, problems, etc.
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by
- First Priority.
the electrode boiler Continue with Reactor startup.
1
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Test the Generator Emergency Seal Oil Pump per 3109.01 for PMT.
Initiation: Following shift turnover Cues: Directed by SRO Time Position Applicants Actions or Behavior BOP Per CPS 3109.01, Generator Seal Oil, Step 8.1.2.3:
- Depress Gen H2 Emerg Seal Oil Pump Test push-button
- Verify Gen H2 Emergency Seal Oil Pump starts
- Verify annunciators 5017 (6A6 and 5B5), computer point and local operation are OK
- Stop the Gen H2 Emergency Seal Oil Pump
- Verify annunciators and computer point off RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Emergency Seal Oil Pump test complete NOTES:
2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 2 Page 1 of 1
Description:
Uncoupled rod Initiation: Following Emergency Seal Oil Pump test Cues: Annunciator CPS 5006-5G alarms Time Position Applicants Actions or Behavior RO CPS 5006-5G, Rod Overtravel:
- Determine the rod that alarmed 08-25.
- 1) Verify that the INDIVID DRIVE light is energized on the OCM. If not, select individual drive by depressing DRIVE MODE push-button.
- 2) Insert the drive 1 or 2 notches in an attempt to recouple the rod.
- 3) Determine if the rod has recoupled by performing a coupling check
- 4) If the rod has recoupled, return to normal operation.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Declares the rod inoperable, enters LCO 3.1.3 Action C.1 and C.2
- When the rod is recoupled declare the rod Operable and exit the LCOs
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: Rod has been recoupled and SRO applied LCO actions NOTES:
3
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 3 Page 1 of 1
==
Description:==
Pull rods for criticality Initiation: When directed by SRO after Rod has been recoupled Cues: Directed by SRO Time Position Applicants Actions or Behavior Per CPS 3001.01, Approach To Critical, Step 8.2.6 and CPS 2202.01F001, Control Rod RO Sequence:
- Withdraw rods for criticality
- Depress the POWER ON button
- Select the SRMs
- Depress the drive out button until withdrawn
- Depress the drive out button
- Announce reactor is critical BOP
- Announce reactor criticality
- Log in the date/time criticality was achieved, and criticality data:
- Rod Sequence
- Group/Array
- Rod
- Rod Position
- SRM reading and Period
- RR loop temperature
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above
- Stays in a position of oversite
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
Terminus: Clearly observable plant response from change in power level or Reactor is critical.
NOTES:
4
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 4 Page 1 of 1
==
Description:==
B SRM fails Initiation: After the rod is recoupled or on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Observe the rod block clears BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Directs Bypassing SRM B and continue with the startup
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B SRM has been bypassed IAW CPS 3306.01.
NOTES:
If the B RO appears about to perform the operation to bypass the B SRM, the Lead Evaluator should signal for event # 5 to be started to draw the B RO away from P-680.
5
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
Vacuum Pump trips Initiation: After crew has addressed SRM problem, on the signal of lead examiner Cues: Annunciator CPS 5019-1A alarming Time Position Applicants Actions or Behavior BOP Per CPS 3112.01, Condenser Vacuum
- Dispatches field operator to perform local actions to start B Vacuum Pump
- After at least 5 minutes of seal water pump operation, start the B Vacuum Pump RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Enters CPS 4004.02 Loss of Vacuum
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B Vacuum Pump is in operation NOTES:
6
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 6 Page 1 of 1
==
Description:==
A SRM fails Initiation: After B Vacuum Pump is running, on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Reports annunciator to CRS
- Monitors reactor to ensure operations remain within established bands BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews and enters TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: ITS actions reviewed and entered NOTES:
TO LEAD EVALUATOR: Ensure this event is started before IRMs are on Range 2 to ensure a Tech Spec call can be made.
7
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 7 Page 1 of 1
==
Description:==
RCIC drain trap level high Initiation: After ITS actions reviewed and entered, on the signal of lead examiner Cues: Annunciator 5063-2C alarming Time Position Applicants Actions or Behavior BOP Per CPS 5063-2C, RCIC Steam Drain Trap Level High:
- Recognizes failure of 1E51-F054, RCIC Turbine Inlet Steam Line Water Drain Pot Trap Bypass to open and opens the valve manually.
- Verifies 1E51-F025 and 1E51-F026, Upstream and Downstream RCIC Turbine Inlet Steam Line Water Drain Pot Normal Drains are open
- Reports failure RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Drain Pot level alarm clear, SRO has directed actions accordingly.
NOTES:
8
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 8,9 Page 1 of 2
==
Description:==
RCIC unisolable steam leak, Reactor scrams on initiation of RPT/ARI Initiation: After RCIC drain trap level high problem has been addressed, on the signal of lead examiner Cues: Multiple secondary containment area temperature and area radiation alarms, rods fail to insert upon manual/automatic SCRAM Time Position Applicants Actions or Behavior RO Reports EOP-8 entry on Hi temperature Performs EOP actions as directed by SRO
- Initiate a manual reactor scram before first max safe temperature is exceeded Per CPS 4100.01, Reactor Scram:
- Place mode switch in Shutdown, check and report power unchanged
- Arms and depresses MANUAL SCRAM push-buttons Critical Task
- Initiates ARI
- Reports control rods inserted, shutdown criteria met
- Operate FW to control level 3 to 8
- Check rods, reports shutdown criteria is met
- Report level and pressure are following expected trends
- Stabilize pressure <1065 psig
- Reports secondary containment high temperature and rad alarms to SRO
- Makes plant announcement for reactor scram
- Should make plant announcement to evacuate Fuel/Aux buildings.
- Attempts to close RCIC steam isolation valves from the control room Performs EOP actions as directed by SRO
- Verifies operation of area coolers
- Verifies operation of VF
- Evacuates affected areas of Secondary Containment
- Monitors area temperatures, levels and radiation levels
- Reports secondary containment Max Safe temperature being exceeded to SRO
9
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 8,9 Page 2 of 2 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-8 and EOP actions as entry conditions are met:
- 1. Operate VF
- 2. Operate area coolers
- 3. Hold floor drain sump levels below max. normal
- 4. Isolate all discharges into the affected area except systems needed for:
- EOP Actions
- Fire Fighting
- 5. Per EOP-8/CPS 4001.02:
- Directs BOP to isolate RCIC steam lines Critical Task 6. Direct a scram prior to exceeding Maximum safe temperature
- Inhibit ADS
- Arm and Depress MANUAL SCRAM pushbuttons
- Initiate ARI
- 8. Directs additional actions:
- Notification of Radiation Protection (RP) Department
- Evacuate affected areas of Secondary Containment
- 9. Enters and Directs and verifies performance of appropriate actions per EOP-1:
- a. Mode Switch to SHUTDOWN
- b. Shutdown criteria verified
- c. Control RPV Water Level between Level 3 and Level 8
- d. Stabilize RPV pressure below 1065 psig
- e. Verify needed automatic actions:
- Isolations
- ECCS Start
10
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 10 Page 1 of 1
Description:
Radiation monitor fails to initiate an isolation Initiation: Following the steam leak into the secondary containment Cues: Annunciator 5050-7F, 5052-7F and AR/PR 1RIX-PR006A-D monitors alarms Time Position Applicants Actions or Behavior BOP Performs EOP actions as directed by SRO, CPS 5050-7F, 5052-7F, Hi Rad Initiation VG:
- Verify alarming condition of 1RIX-PR006A-D
- Report EOP-8 entry condition Critical Task
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
Critical Task
- When fuel build exhaust is above 10 mrem/hr shutdown and isolate VF CPS 3404.01, Fuel Building Ventilation Critical Task
- Startup VG CPS 3319.01, Standby Gas General:
- On transient, positions himself as command authority on the unit.
- Acknowledges immediate operator actions and directs subsequent actions.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus:
- RPV level stable and under control in required band
- Reactor is Scrammed
- Effort has been made to isolate RCIC steam lines
- Failed automatic isolation and actuation (VF/VG) manually performed
- Upon approval of lead examiner NOTES:
11
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to an IC with Pressure at 600 psig and rods and/or flow to match turnover
- 3. Load the lesson plan for this scenario
- 4. Place simulator in RUN
- 5. Select the B FWLC level instrument
- 6. Turn on and advance recorders
- 7. Reset SRM A drawer
- 8. Provide pull sheets: on step 25 rod 08-25 is at 12
- 9. Provide and ECP and RE instructions
- 10. Verify the AR/PR server is running and stabilize AR/PR
- 11. Verify TT alarm is reset
- 12. Verify Rod Drive pressure at 250#
- 13. Hang OOS tags per turnover on #2 SAC
- 14. Identify T/S issues associated with OOS and turnover
- 15. Verify simulator conditions match the turnover
- 16. Provide marked up CPS 3001.01 complete to step 8.2.5
- 17. Provide a marked up CPS 3002.01 complete to step 8.6
- 18. Provide a marked up CPS 9000.06D001 with stable heatup values
- 19. Fill out plant status and have Turnover Sheet ready for the crew
- 20. Provide pull sheets, REMA, Re instructions and Cram Instructions 12
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event Triggers and Role Play Event #
- 1. Test the Generator Emergency Seal Oil Pump
- a. No trigger.
- 2. Uncoupled rod
- a. Remote trigger 1 to remove the uncoupled malfunction once the rod is inserted to recouple
- b. Role Play - Shift Manager - I will have WCS initiate AR/CR and take care of notifications. Proceed with pull to critical.
- 3. Withdraw Rods To criticality
- a. No triggers
- 4. B SRM fails
- a. Remote trigger 2 on request from lead evaluator
- b. If SRM B drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 5. Vacuum Pump trip
- a. Remote trigger 3 on request from lead evaluator
- b. Role Play- Field operator
- 6. A SRM fails
- a. Remote trigger 4 on request from lead evaluator
- b. If SRM A drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 7. RCIC drain trap level high
- a. Remote trigger 5 on request from lead evaluator
- b. Role play - Field operator that the trap is lined up
- 8. RCIC unisolable steam leak
- a. Remote trigger 6 on request from lead evaluator
- b. If RCIC ATMs are checked they read 10 times higher than on the last 9000.01 reading.
- c. Role play as personnel in the field (1) Heavy steam in RCIC room
- d. If valve breakers are checked, no problems are found.
- 9. Reactor scrams on initiation of RPT/ARI
- a. No triggers
- 10. Radiation monitor fails to initiate an isolation and start up VG.
- a. No triggers
13
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-1 Exam Scenario 3 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: A,B,C CPs are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on RAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: FP/FP 1B in service. 1WF Evap is in Hot Standby. A RT F/D is in service.
Plant Status On Line Risk Green Reactor Operational Condition: Mode 2 Total Core Flow: __26.9___ mlb/hr FCV Position: A: ___90____% B: _ _90____%
Reactor Power __0__% (<=100%) _0__ MWt (<=3473) _0__ Mwe Xenon: Stable RPV Level _26.7_ in Narrow Range RPV Pressure _600__ psi (< 1045)
In service SDC loop None MODE 2 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _19.1_ ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _0.4__ psi (0 to 1 psig)
Drywell to Containment dp: _0.4__ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _100__ F (<=146.53 F)
Secondary Containment: _0.74_ in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _27_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _12.8_ scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _78_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _0_MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: None Comments: See Turnover Sheet From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
ATTACHMENT 1 Reactivity Maneuver Approval Cover Page Page 1 of 2 Station: Clinton Valid Date(s): XX/XX/XXXX Reactivity Maneuver Plan #: C11-Simu.4 Multiple Activations Allowed? No (If yes, CRS may make additional copies)
Prepared by: Roger QNE / XX/XX/XX Reviewed by: Joe QNE / XX/XX/XX Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: Michelle QNE Boss/ XX/XX/XX Authorized by: / XX/XX/XX RE Manager / Date Senior Reactor Operator / Date NF Review Carlos Quark / XX/XX/XX NF Reviewer / Date ReMA Activated: / XX/XX/XX ReMA Terminated: / XX/XX/XX Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: Withdraw Rods from ARI to RR Pump Upshift Purpose/Overview of Evolution:
This ReMA provides the steps for starting up the plant from the ARI condition to the performance of RR pump upshift.
Reactivity Maneuver Steps Extended General Issues: Select desired amount of power reduction
- 1. Withdraw control rods from ARI to RR pump shift to fast speed General Issues:
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA Training and Reference Material guidelines per OP-AB-300-1003.
ATTACHMENT 2 Reactivity Maneuver Guidance Sheet
STEP 1 of 1 Reactivity Maneuver Plan # C11-Simu.4 Description of Step :
From the ARI condition, increase power with control rods to ~29% (1007 MWt) to support RR pump shift to fast speed.
Ensure Feedwater heating is in service and that feedwater temperature is within 50°F of nominal prior to exceeding 21.6% (750 MWt). Reference Appendix A of CPS 3102.01.
QNE presence required in the Control Room? Yes
- No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR N/A N/A Core Flow (Mlb/hr or %) N/A N/A MFLPD N/A N/A FCL (%) N/A N/A MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low FCL 57.3 % N/A Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display. FCL should be monitored constantly after crossing 21.6% power and just prior to pump upshift.
Contingency: Insert control rods in reverse order sequence to reduce FCL.
Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY SCOPE OF REVISION:
- This form was updated as a result of the procedure revision.
ROUTINE USE ORIGINATOR: Christian Small CLASS CODE: SNNN1 SQR: Mark Vandermyde APPROVAL DATE: 04/25/05 CURRENT CHANGES TO GENERAL REVISION Change # Date List of Affected Pages n
o p
q r
Rev. 4 Page 1 of 2
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY Steps 8.3, 8.4, 8.7.4 Core Conditions Expected:
Estimated Date/Time of criticality /
Xenon Increasing Decreasing
- None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels.
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels.
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality.
Instructions
- Expect the reactor to become critical at any time.
- Move control rods with careful attention.
- Monitor nuclear instruments during and following rod movements.
- If a nontransient period of less than 30 sec occurs, insert rods and investigate.
- Perform 1/M plots at steps ___17____ ___19____ ___22____ ___23____
___25____ ___26____ ___27____ ___28____
___29____ ___31____ ___33____ ___35____
ADDITIONAL INSTRUCTIONS This is a middle of cycle, xenon-free startup at relatively high moderator temperature. Watch for potential high notch worths in interior regions of the core.
Michelle QNE Boss /
Reactor Engineer Date Time Rev. 4 Page 2 of 2
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart.
Thunderstorm storms are expected in the area within the next hour.
Turnover:
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 - First Priority.
- 2. Pull Rods to criticality.
Event Malf. No. Event Event No. Type* Description 1 NA N-BOP Test the Generator Emergency Seal Oil Pump 2 Rod C-ATC Continue with startup, discovers Uncoupled rod 0825I_ACTIONA
-Rod uncoupled TS-CRS 3 NA R-ATC Pull rods for criticality 4 SRM_BI_ACTIO I-ATC B SRM fails N2 and 1 5 CDSR_VAC_P I-BOP Vacuum Pump Trip MP_A 6 SRM_CI_ACTIO TS-CRS A SRM fails delete N2 and 1 7 Override C-BOP RCIC drain trap level high 8 YARITPLA_1 M-ALL RCIC unisolable steam leak Override 9 YP_XMFTB_500 M-ALL Reactor scrams on initiation of RPT/ARI 2
10 CAM1PR006AT M-ALL Radiation monitor fails to initiate an isolation V_VALUE1 CAM1PR006CT V_VALUE1 CAM1PR006DT V_VALUE1 CAM1PR006BT V_VALUE1 VGCEFUSE_V 677503CC VGBZFUSE_V 421691CC
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2
Appendix D Scenario Outline Form ES-D-1 Scenario No.: Three Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3.
- 2. Rod 08-25 is uncoupled and goes to overtravel. This will require action to recouple and entry into Technical Specification 3.1.3.
- 3. Withdrawal rods for criticality.
- 4. B SRM fails causing a rod block requiring bypassing to proceed with startup.
Requiring a review of Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 5. The A Mechanical Vacuum Pump trips requiring starting the B Pump.
- 6. A SRM fails causing a rod block and requiring entry into Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 7. The RCIC drain trap level high will require manually opening the drain trap bypass valve to drain the steam pot.
- 8. The RCIC steam supply line develops a leak causing the RCIC room temperature to rise resulting in an EOP-8 entry. A scram is required prior exceeding the Maximum safe temperature.
- 9. The mode switch and manual scram pushbutton will not cause a scram requiring entry into EOP-1A. Manual initiation of ARI/RPT will insert the rods for a scram. EOP-1A will be exited and EOP-1 will be entered.
- 10. The VF exhaust radiation monitor trends up to the trip isolation but fails to actuate VF isolation and start of VG requiring BOP to manually perform.
EOP 8,1A,1 Critical tasks:
- Manual insertion of ARI prior to exceeding Maximum safe temperature
- Manually shutdown and isolate VF and startup VG Page 2 of 2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level)
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT.
Comments, evolutions, problems, etc.
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by
- First Priority.
the electrode boiler Continue with Reactor startup.
1
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Test the Generator Emergency Seal Oil Pump per 3109.01 for PMT.
Initiation: Following shift turnover Cues: Directed by SRO Time Position Applicants Actions or Behavior BOP Per CPS 3109.01, Generator Seal Oil, Step 8.1.2.3:
- Depress Gen H2 Emerg Seal Oil Pump Test push-button
- Verify Gen H2 Emergency Seal Oil Pump starts
- Verify annunciators 5017 (6A6 and 5B5), computer point and local operation are OK
- Stop the Gen H2 Emergency Seal Oil Pump
- Verify annunciators and computer point off RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Emergency Seal Oil Pump test complete NOTES:
2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 2 Page 1 of 1
Description:
Uncoupled rod Initiation: Following Emergency Seal Oil Pump test Cues: Annunciator CPS 5006-5G alarms Time Position Applicants Actions or Behavior RO CPS 5006-5G, Rod Overtravel:
- Determine the rod that alarmed 08-25.
- 1) Verify that the INDIVID DRIVE light is energized on the OCM. If not, select individual drive by depressing DRIVE MODE push-button.
- 2) Insert the drive 1 or 2 notches in an attempt to recouple the rod.
- 3) Determine if the rod has recoupled by performing a coupling check
- 4) If the rod has recoupled, return to normal operation.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Declares the rod inoperable, enters LCO 3.1.3 Action C.1 and C.2
- When the rod is recoupled declare the rod Operable and exit the LCOs
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: Rod has been recoupled and SRO applied LCO actions NOTES:
3
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 3 Page 1 of 1
==
Description:==
Pull rods for criticality Initiation: When directed by SRO after Rod has been recoupled Cues: Directed by SRO Time Position Applicants Actions or Behavior Per CPS 3001.01, Approach To Critical, Step 8.2.6 and CPS 2202.01F001, Control Rod RO Sequence:
- Withdraw rods for criticality
- Depress the POWER ON button
- Select the SRMs
- Depress the drive out button until withdrawn
- Depress the drive out button
- Announce reactor is critical BOP
- Announce reactor criticality
- Log in the date/time criticality was achieved, and criticality data:
- Rod Sequence
- Group/Array
- Rod
- Rod Position
- SRM reading and Period
- RR loop temperature
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above
- Stays in a position of oversite
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
Terminus: Clearly observable plant response from change in power level or Reactor is critical.
NOTES:
4
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 4 Page 1 of 1
==
Description:==
B SRM fails Initiation: After the rod is recoupled or on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Observe the rod block clears BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Directs Bypassing SRM B and continue with the startup
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B SRM has been bypassed IAW CPS 3306.01.
NOTES:
If the B RO appears about to perform the operation to bypass the B SRM, the Lead Evaluator should signal for event # 5 to be started to draw the B RO away from P-680.
5
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
Vacuum Pump trips Initiation: After crew has addressed SRM problem, on the signal of lead examiner Cues: Annunciator CPS 5019-1A alarming Time Position Applicants Actions or Behavior BOP Per CPS 3112.01, Condenser Vacuum
- Dispatches field operator to perform local actions to start B Vacuum Pump
- After at least 5 minutes of seal water pump operation, start the B Vacuum Pump RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Enters CPS 4004.02 Loss of Vacuum
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B Vacuum Pump is in operation NOTES:
6
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 6 Page 1 of 1
==
Description:==
A SRM fails Initiation: After B Vacuum Pump is running, on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Reports annunciator to CRS
- Monitors reactor to ensure operations remain within established bands BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews and enters TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: ITS actions reviewed and entered NOTES:
TO LEAD EVALUATOR: Ensure this event is started before IRMs are on Range 2 to ensure a Tech Spec call can be made.
7
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 7 Page 1 of 1
==
Description:==
RCIC drain trap level high Initiation: After ITS actions reviewed and entered, on the signal of lead examiner Cues: Annunciator 5063-2C alarming Time Position Applicants Actions or Behavior BOP Per CPS 5063-2C, RCIC Steam Drain Trap Level High:
- Recognizes failure of 1E51-F054, RCIC Turbine Inlet Steam Line Water Drain Pot Trap Bypass to open and opens the valve manually.
- Verifies 1E51-F025 and 1E51-F026, Upstream and Downstream RCIC Turbine Inlet Steam Line Water Drain Pot Normal Drains are open
- Reports failure RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Drain Pot level alarm clear, SRO has directed actions accordingly.
NOTES:
8
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 8,9 Page 1 of 2
==
Description:==
RCIC unisolable steam leak, Reactor scrams on initiation of RPT/ARI Initiation: After RCIC drain trap level high problem has been addressed, on the signal of lead examiner Cues: Multiple secondary containment area temperature and area radiation alarms, rods fail to insert upon manual/automatic SCRAM Time Position Applicants Actions or Behavior RO Reports EOP-8 entry on Hi temperature Performs EOP actions as directed by SRO
- Initiate a manual reactor scram before first max safe temperature is exceeded Per CPS 4100.01, Reactor Scram:
- Place mode switch in Shutdown, check and report power unchanged
- Arms and depresses MANUAL SCRAM push-buttons Critical Task
- Initiates ARI
- Reports control rods inserted, shutdown criteria met
- Operate FW to control level 3 to 8
- Check rods, reports shutdown criteria is met
- Report level and pressure are following expected trends
- Stabilize pressure <1065 psig
- Reports secondary containment high temperature and rad alarms to SRO
- Makes plant announcement for reactor scram
- Should make plant announcement to evacuate Fuel/Aux buildings.
- Attempts to close RCIC steam isolation valves from the control room Performs EOP actions as directed by SRO
- Verifies operation of area coolers
- Verifies operation of VF
- Evacuates affected areas of Secondary Containment
- Monitors area temperatures, levels and radiation levels
- Reports secondary containment Max Safe temperature being exceeded to SRO
9
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 8,9 Page 2 of 2 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-8 and EOP actions as entry conditions are met:
- 1. Operate VF
- 2. Operate area coolers
- 3. Hold floor drain sump levels below max. normal
- 4. Isolate all discharges into the affected area except systems needed for:
- EOP Actions
- Fire Fighting
- 5. Per EOP-8/CPS 4001.02:
- Directs BOP to isolate RCIC steam lines Critical Task 6. Direct a scram prior to exceeding Maximum safe temperature
- Inhibit ADS
- Arm and Depress MANUAL SCRAM pushbuttons
- Initiate ARI
- 8. Directs additional actions:
- Notification of Radiation Protection (RP) Department
- Evacuate affected areas of Secondary Containment
- 9. Enters and Directs and verifies performance of appropriate actions per EOP-1:
- a. Mode Switch to SHUTDOWN
- b. Shutdown criteria verified
- c. Control RPV Water Level between Level 3 and Level 8
- d. Stabilize RPV pressure below 1065 psig
- e. Verify needed automatic actions:
- Isolations
- ECCS Start
10
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 10 Page 1 of 1
Description:
Radiation monitor fails to initiate an isolation Initiation: Following the steam leak into the secondary containment Cues: Annunciator 5050-7F, 5052-7F and AR/PR 1RIX-PR006A-D monitors alarms Time Position Applicants Actions or Behavior BOP Performs EOP actions as directed by SRO, CPS 5050-7F, 5052-7F, Hi Rad Initiation VG:
- Verify alarming condition of 1RIX-PR006A-D
- Report EOP-8 entry condition Critical Task
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
Critical Task
- When fuel build exhaust is above 10 mrem/hr shutdown and isolate VF CPS 3404.01, Fuel Building Ventilation Critical Task
- Startup VG CPS 3319.01, Standby Gas General:
- On transient, positions himself as command authority on the unit.
- Acknowledges immediate operator actions and directs subsequent actions.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus:
- RPV level stable and under control in required band
- Reactor is Scrammed
- Effort has been made to isolate RCIC steam lines
- Failed automatic isolation and actuation (VF/VG) manually performed
- Upon approval of lead examiner NOTES:
11
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to an IC with Pressure at 600 psig and rods and/or flow to match turnover
- 3. Load the lesson plan for this scenario
- 4. Place simulator in RUN
- 5. Select the B FWLC level instrument
- 6. Turn on and advance recorders
- 7. Reset SRM A drawer
- 8. Provide pull sheets: on step 25 rod 08-25 is at 12
- 9. Provide and ECP and RE instructions
- 10. Verify the AR/PR server is running and stabilize AR/PR
- 11. Verify TT alarm is reset
- 12. Verify Rod Drive pressure at 250#
- 13. Hang OOS tags per turnover on #2 SAC
- 14. Identify T/S issues associated with OOS and turnover
- 15. Verify simulator conditions match the turnover
- 16. Provide marked up CPS 3001.01 complete to step 8.2.5
- 17. Provide a marked up CPS 3002.01 complete to step 8.6
- 18. Provide a marked up CPS 9000.06D001 with stable heatup values
- 19. Fill out plant status and have Turnover Sheet ready for the crew
- 20. Provide pull sheets, REMA, Re instructions and Cram Instructions 12
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event Triggers and Role Play Event #
- 1. Test the Generator Emergency Seal Oil Pump
- a. No trigger.
- 2. Uncoupled rod
- a. Remote trigger 1 to remove the uncoupled malfunction once the rod is inserted to recouple
- b. Role Play - Shift Manager - I will have WCS initiate AR/CR and take care of notifications. Proceed with pull to critical.
- 3. Withdraw Rods To criticality
- a. No triggers
- 4. B SRM fails
- a. Remote trigger 2 on request from lead evaluator
- b. If SRM B drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 5. Vacuum Pump trip
- a. Remote trigger 3 on request from lead evaluator
- b. Role Play- Field operator
- 6. A SRM fails
- a. Remote trigger 4 on request from lead evaluator
- b. If SRM A drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 7. RCIC drain trap level high
- a. Remote trigger 5 on request from lead evaluator
- b. Role play - Field operator that the trap is lined up
- 8. RCIC unisolable steam leak
- a. Remote trigger 6 on request from lead evaluator
- b. If RCIC ATMs are checked they read 10 times higher than on the last 9000.01 reading.
- c. Role play as personnel in the field (1) Heavy steam in RCIC room
- d. If valve breakers are checked, no problems are found.
- 9. Reactor scrams on initiation of RPT/ARI
- a. No triggers
- 10. Radiation monitor fails to initiate an isolation and start up VG.
- a. No triggers
13
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-1 Exam Scenario 3 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: A,B,C CPs are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on RAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: FP/FP 1B in service. 1WF Evap is in Hot Standby. A RT F/D is in service.
Plant Status On Line Risk Green Reactor Operational Condition: Mode 2 Total Core Flow: __26.9___ mlb/hr FCV Position: A: ___90____% B: _ _90____%
Reactor Power __0__% (<=100%) _0__ MWt (<=3473) _0__ Mwe Xenon: Stable RPV Level _26.7_ in Narrow Range RPV Pressure _600__ psi (< 1045)
In service SDC loop None MODE 2 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _19.1_ ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _0.4__ psi (0 to 1 psig)
Drywell to Containment dp: _0.4__ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _100__ F (<=146.53 F)
Secondary Containment: _0.74_ in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _27_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _12.8_ scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _78_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _0_MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: None Comments: See Turnover Sheet From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
ATTACHMENT 1 Reactivity Maneuver Approval Cover Page Page 1 of 2 Station: Clinton Valid Date(s): XX/XX/XXXX Reactivity Maneuver Plan #: C11-Simu.4 Multiple Activations Allowed? No (If yes, CRS may make additional copies)
Prepared by: Roger QNE / XX/XX/XX Reviewed by: Joe QNE / XX/XX/XX Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: Michelle QNE Boss/ XX/XX/XX Authorized by: / XX/XX/XX RE Manager / Date Senior Reactor Operator / Date NF Review Carlos Quark / XX/XX/XX NF Reviewer / Date ReMA Activated: / XX/XX/XX ReMA Terminated: / XX/XX/XX Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: Withdraw Rods from ARI to RR Pump Upshift Purpose/Overview of Evolution:
This ReMA provides the steps for starting up the plant from the ARI condition to the performance of RR pump upshift.
Reactivity Maneuver Steps Extended General Issues: Select desired amount of power reduction
- 1. Withdraw control rods from ARI to RR pump shift to fast speed General Issues:
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA Training and Reference Material guidelines per OP-AB-300-1003.
ATTACHMENT 2 Reactivity Maneuver Guidance Sheet
STEP 1 of 1 Reactivity Maneuver Plan # C11-Simu.4 Description of Step :
From the ARI condition, increase power with control rods to ~29% (1007 MWt) to support RR pump shift to fast speed.
Ensure Feedwater heating is in service and that feedwater temperature is within 50°F of nominal prior to exceeding 21.6% (750 MWt). Reference Appendix A of CPS 3102.01.
QNE presence required in the Control Room? Yes
- No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR N/A N/A Core Flow (Mlb/hr or %) N/A N/A MFLPD N/A N/A FCL (%) N/A N/A MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low FCL 57.3 % N/A Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display. FCL should be monitored constantly after crossing 21.6% power and just prior to pump upshift.
Contingency: Insert control rods in reverse order sequence to reduce FCL.
Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY SCOPE OF REVISION:
- This form was updated as a result of the procedure revision.
ROUTINE USE ORIGINATOR: Christian Small CLASS CODE: SNNN1 SQR: Mark Vandermyde APPROVAL DATE: 04/25/05 CURRENT CHANGES TO GENERAL REVISION Change # Date List of Affected Pages n
o p
q r
Rev. 4 Page 1 of 2
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY Steps 8.3, 8.4, 8.7.4 Core Conditions Expected:
Estimated Date/Time of criticality /
Xenon Increasing Decreasing
- None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels.
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels.
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality.
Instructions
- Expect the reactor to become critical at any time.
- Move control rods with careful attention.
- Monitor nuclear instruments during and following rod movements.
- If a nontransient period of less than 30 sec occurs, insert rods and investigate.
- Perform 1/M plots at steps ___17____ ___19____ ___22____ ___23____
___25____ ___26____ ___27____ ___28____
___29____ ___31____ ___33____ ___35____
ADDITIONAL INSTRUCTIONS This is a middle of cycle, xenon-free startup at relatively high moderator temperature. Watch for potential high notch worths in interior regions of the core.
Michelle QNE Boss /
Reactor Engineer Date Time Rev. 4 Page 2 of 2
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart.
Thunderstorm storms are expected in the area within the next hour.
Turnover:
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 - First Priority.
- 2. Pull Rods to criticality.
Event Malf. No. Event Event No. Type* Description 1 NA N-BOP Test the Generator Emergency Seal Oil Pump delete 2 Rod C-ATC Continue with startup, discovers Uncoupled rod 0825I_ACTIONA
-Rod uncoupled TS-CRS 3 4 NA R-ATC Pull rods for criticality 4 3 SRM_BI_ACTIO I-ATC B SRM fails N2 and 1 5 CDSR_VAC_P I-BOP Vacuum Pump Trip delete MP_A 6 SRM_CI_ACTIO TS-CRS A SRM fails N2 and 1 7 Override C-BOP RCIC drain trap level high delete 8 YARITPLA_1 M-ALL RCIC unisolable steam leak Override 9 YP_XMFTB_500 M-ALL Reactor scrams on initiation of RPT/ARI 2
10 CAM1PR006AT M-ALL Radiation monitor fails to initiate an isolation V_VALUE1 CAM1PR006CT V_VALUE1 CAM1PR006DT V_VALUE1 CAM1PR006BT V_VALUE1 VGCEFUSE_V 677503CC VGBZFUSE_V 421691CC
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2
Appendix D Scenario Outline Form ES-D-1 Scenario No.: Three Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3.
- 2. Rod 08-25 is uncoupled and goes to overtravel. This will require action to recouple and entry into Technical Specification 3.1.3.
- 3. Withdrawal rods for criticality.
- 4. B SRM fails causing a rod block requiring bypassing to proceed with startup.
Requiring a review of Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 5. The A Mechanical Vacuum Pump trips requiring starting the B Pump.
- 6. A SRM fails causing a rod block and requiring entry into Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 7. The RCIC drain trap level high will require manually opening the drain trap bypass valve to drain the steam pot.
- 8. The RCIC steam supply line develops a leak causing the RCIC room temperature to rise resulting in an EOP-8 entry. A scram is required prior exceeding the Maximum safe temperature.
- 9. The mode switch and manual scram pushbutton will not cause a scram requiring entry into EOP-1A. Manual initiation of ARI/RPT will insert the rods for a scram. EOP-1A will be exited and EOP-1 will be entered.
- 10. The VF exhaust radiation monitor trends up to the trip isolation but fails to actuate VF isolation and start of VG requiring BOP to manually perform.
EOP 8,1A,1 Critical tasks:
- Manual insertion of ARI prior to exceeding Maximum safe temperature
- Manually shutdown and isolate VF and startup VG Page 2 of 2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level)
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT.
Comments, evolutions, problems, etc.
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by
- First Priority.
the electrode boiler Continue with Reactor startup.
1
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Test the Generator Emergency Seal Oil Pump per 3109.01 for PMT.
Initiation: Following shift turnover Cues: Directed by SRO Time Position Applicants Actions or Behavior BOP Per CPS 3109.01, Generator Seal Oil, Step 8.1.2.3:
- Depress Gen H2 Emerg Seal Oil Pump Test push-button
- Verify Gen H2 Emergency Seal Oil Pump starts
- Verify annunciators 5017 (6A6 and 5B5), computer point and local operation are OK
- Stop the Gen H2 Emergency Seal Oil Pump
- Verify annunciators and computer point off RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Emergency Seal Oil Pump test complete NOTES:
2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 2 Page 1 of 1
Description:
Uncoupled rod Initiation: Following Emergency Seal Oil Pump test Cues: Annunciator CPS 5006-5G alarms Time Position Applicants Actions or Behavior RO CPS 5006-5G, Rod Overtravel:
- Determine the rod that alarmed 08-25.
- 1) Verify that the INDIVID DRIVE light is energized on the OCM. If not, select individual drive by depressing DRIVE MODE push-button.
- 2) Insert the drive 1 or 2 notches in an attempt to recouple the rod.
- 3) Determine if the rod has recoupled by performing a coupling check
- 4) If the rod has recoupled, return to normal operation.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Declares the rod inoperable, enters LCO 3.1.3 Action C.1 and C.2
- When the rod is recoupled declare the rod Operable and exit the LCOs
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: Rod has been recoupled and SRO applied LCO actions NOTES:
3
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 3 4 Page 1 of 1
==
Description:==
Pull rods for criticality Initiation: When directed by SRO after Rod has been recoupled Cues: Directed by SRO Time Position Applicants Actions or Behavior Per CPS 3001.01, Approach To Critical, Step 8.2.6 and CPS 2202.01F001, Control Rod RO Sequence:
- Withdraw rods for criticality
- Depress the POWER ON button
- Select the SRMs
- Depress the drive out button until withdrawn
- Depress the drive out button
- Announce reactor is critical BOP
- Announce reactor criticality
- Log in the date/time criticality was achieved, and criticality data:
- Rod Sequence
- Group/Array
- Rod
- Rod Position
- SRM reading and Period
- RR loop temperature
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above
- Stays in a position of oversite
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
Terminus: Clearly observable plant response from change in power level or Reactor is critical.
NOTES:
4
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 4 3 Page 1 of 1
==
Description:==
B SRM fails Initiation: After the rod is recoupled or on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Observe the rod block clears BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Directs Bypassing SRM B and continue with the startup
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B SRM has been bypassed IAW CPS 3306.01.
NOTES:
If the B RO appears about to perform the operation to bypass the B SRM, the Lead Evaluator should signal for event # 5 to be started to draw the B RO away from P-680.
5
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
Vacuum Pump trips Initiation: After crew has addressed SRM problem, on the signal of lead examiner Cues: Annunciator CPS 5019-1A alarming Time Position Applicants Actions or Behavior BOP Per CPS 3112.01, Condenser Vacuum
- Dispatches field operator to perform local actions to start B Vacuum Pump
- After at least 5 minutes of seal water pump operation, start the B Vacuum Pump RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Enters CPS 4004.02 Loss of Vacuum
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B Vacuum Pump is in operation NOTES:
6
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 6 Page 1 of 1
==
Description:==
A SRM fails Initiation: After B Vacuum Pump is running, on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Reports annunciator to CRS
- Monitors reactor to ensure operations remain within established bands BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews and enters TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: ITS actions reviewed and entered NOTES:
TO LEAD EVALUATOR: Ensure this event is started before IRMs are on Range 2 to ensure a Tech Spec call can be made.
7
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 7 Page 1 of 1
==
Description:==
RCIC drain trap level high Initiation: After ITS actions reviewed and entered, on the signal of lead examiner Cues: Annunciator 5063-2C alarming Time Position Applicants Actions or Behavior BOP Per CPS 5063-2C, RCIC Steam Drain Trap Level High:
- Recognizes failure of 1E51-F054, RCIC Turbine Inlet Steam Line Water Drain Pot Trap Bypass to open and opens the valve manually.
- Verifies 1E51-F025 and 1E51-F026, Upstream and Downstream RCIC Turbine Inlet Steam Line Water Drain Pot Normal Drains are open
- Reports failure RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Drain Pot level alarm clear, SRO has directed actions accordingly.
NOTES:
8
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 8,9 Page 1 of 2
==
Description:==
RCIC unisolable steam leak, Reactor scrams on initiation of RPT/ARI Initiation: After RCIC drain trap level high problem has been addressed, on the signal of lead examiner Cues: Multiple secondary containment area temperature and area radiation alarms, rods fail to insert upon manual/automatic SCRAM Time Position Applicants Actions or Behavior RO Reports EOP-8 entry on Hi temperature Performs EOP actions as directed by SRO
- Initiate a manual reactor scram before first max safe temperature is exceeded Per CPS 4100.01, Reactor Scram:
- Place mode switch in Shutdown, check and report power unchanged
- Arms and depresses MANUAL SCRAM push-buttons Critical Task
- Initiates ARI
- Reports control rods inserted, shutdown criteria met
- Operate FW to control level 3 to 8
- Check rods, reports shutdown criteria is met
- Report level and pressure are following expected trends
- Stabilize pressure <1065 psig
- Reports secondary containment high temperature and rad alarms to SRO
- Makes plant announcement for reactor scram
- Should make plant announcement to evacuate Fuel/Aux buildings.
- Attempts to close RCIC steam isolation valves from the control room Performs EOP actions as directed by SRO
- Verifies operation of area coolers
- Verifies operation of VF
- Evacuates affected areas of Secondary Containment
- Monitors area temperatures, levels and radiation levels
- Reports secondary containment Max Safe temperature being exceeded to SRO
9
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 8,9 Page 2 of 2 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-8 and EOP actions as entry conditions are met:
- 1. Operate VF
- 2. Operate area coolers
- 3. Hold floor drain sump levels below max. normal
- 4. Isolate all discharges into the affected area except systems needed for:
- EOP Actions
- Fire Fighting
- 5. Per EOP-8/CPS 4001.02:
- Directs BOP to isolate RCIC steam lines Critical Task 6. Direct a scram prior to exceeding Maximum safe temperature
- Inhibit ADS
- Arm and Depress MANUAL SCRAM pushbuttons
- Initiate ARI
- 8. Directs additional actions:
- Notification of Radiation Protection (RP) Department
- Evacuate affected areas of Secondary Containment
- 9. Enters and Directs and verifies performance of appropriate actions per EOP-1:
- a. Mode Switch to SHUTDOWN
- b. Shutdown criteria verified
- c. Control RPV Water Level between Level 3 and Level 8
- d. Stabilize RPV pressure below 1065 psig
- e. Verify needed automatic actions:
- Isolations
- ECCS Start
10
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 10 Page 1 of 1
Description:
Radiation monitor fails to initiate an isolation Initiation: Following the steam leak into the secondary containment Cues: Annunciator 5050-7F, 5052-7F and AR/PR 1RIX-PR006A-D monitors alarms Time Position Applicants Actions or Behavior BOP Performs EOP actions as directed by SRO, CPS 5050-7F, 5052-7F, Hi Rad Initiation VG:
- Verify alarming condition of 1RIX-PR006A-D
- Report EOP-8 entry condition Critical Task
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
Critical Task
- When fuel build exhaust is above 10 mrem/hr shutdown and isolate VF CPS 3404.01, Fuel Building Ventilation Critical Task
- Startup VG CPS 3319.01, Standby Gas General:
- On transient, positions himself as command authority on the unit.
- Acknowledges immediate operator actions and directs subsequent actions.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus:
- RPV level stable and under control in required band
- Reactor is Scrammed
- Effort has been made to isolate RCIC steam lines
- Failed automatic isolation and actuation (VF/VG) manually performed
- Upon approval of lead examiner NOTES:
11
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to an IC with Pressure at 600 psig and rods and/or flow to match turnover
- 3. Load the lesson plan for this scenario
- 4. Place simulator in RUN
- 5. Select the B FWLC level instrument
- 6. Turn on and advance recorders
- 7. Reset SRM A drawer
- 8. Provide pull sheets: on step 25 rod 08-25 is at 12
- 9. Provide and ECP and RE instructions
- 10. Verify the AR/PR server is running and stabilize AR/PR
- 11. Verify TT alarm is reset
- 12. Verify Rod Drive pressure at 250#
- 13. Hang OOS tags per turnover on #2 SAC
- 14. Identify T/S issues associated with OOS and turnover
- 15. Verify simulator conditions match the turnover
- 16. Provide marked up CPS 3001.01 complete to step 8.2.5
- 17. Provide a marked up CPS 3002.01 complete to step 8.6
- 18. Provide a marked up CPS 9000.06D001 with stable heatup values
- 19. Fill out plant status and have Turnover Sheet ready for the crew
- 20. Provide pull sheets, REMA, Re instructions and Cram Instructions 12
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event Triggers and Role Play Event #
- 1. Test the Generator Emergency Seal Oil Pump
- a. No trigger.
- 2. Uncoupled rod
- a. Remote trigger 1 to remove the uncoupled malfunction once the rod is inserted to recouple
- b. Role Play - Shift Manager - I will have WCS initiate AR/CR and take care of notifications. Proceed with pull to critical.
- 3. Withdraw Rods To criticality
- a. No triggers
- 4. B SRM fails
- a. Remote trigger 2 on request from lead evaluator
- b. If SRM B drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 5. Vacuum Pump trip
- a. Remote trigger 3 on request from lead evaluator
- b. Role Play- Field operator
- 6. A SRM fails
- a. Remote trigger 4 on request from lead evaluator
- b. If SRM A drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 7. RCIC drain trap level high
- a. Remote trigger 5 on request from lead evaluator
- b. Role play - Field operator that the trap is lined up
- 8. RCIC unisolable steam leak
- a. Remote trigger 6 on request from lead evaluator
- b. If RCIC ATMs are checked they read 10 times higher than on the last 9000.01 reading.
- c. Role play as personnel in the field (1) Heavy steam in RCIC room
- d. If valve breakers are checked, no problems are found.
- 9. Reactor scrams on initiation of RPT/ARI
- a. No triggers
- 10. Radiation monitor fails to initiate an isolation and start up VG.
- a. No triggers
13
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-1 Exam Scenario 3 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: A,B,C CPs are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on RAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: FP/FP 1B in service. 1WF Evap is in Hot Standby. A RT F/D is in service.
Plant Status On Line Risk Green Reactor Operational Condition: Mode 2 Total Core Flow: __26.9___ mlb/hr FCV Position: A: ___90____% B: _ _90____%
Reactor Power __0__% (<=100%) _0__ MWt (<=3473) _0__ Mwe Xenon: Stable RPV Level _26.7_ in Narrow Range RPV Pressure _600__ psi (< 1045)
In service SDC loop None MODE 2 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _19.1_ ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _0.4__ psi (0 to 1 psig)
Drywell to Containment dp: _0.4__ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _100__ F (<=146.53 F)
Secondary Containment: _0.74_ in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _27_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _12.8_ scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _78_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _0_MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: None Comments: See Turnover Sheet From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
ATTACHMENT 1 Reactivity Maneuver Approval Cover Page Page 1 of 2 Station: Clinton Valid Date(s): XX/XX/XXXX Reactivity Maneuver Plan #: C11-Simu.4 Multiple Activations Allowed? No (If yes, CRS may make additional copies)
Prepared by: Roger QNE / XX/XX/XX Reviewed by: Joe QNE / XX/XX/XX Reactor Engineer / Date Qualified Nuclear Engineer / Date Approved by: Michelle QNE Boss/ XX/XX/XX Authorized by: / XX/XX/XX RE Manager / Date Senior Reactor Operator / Date NF Review Carlos Quark / XX/XX/XX NF Reviewer / Date ReMA Activated: / XX/XX/XX ReMA Terminated: / XX/XX/XX Unit Supervisor / Date Unit Supervisor / Date Title of Evolution: Withdraw Rods from ARI to RR Pump Upshift Purpose/Overview of Evolution:
This ReMA provides the steps for starting up the plant from the ARI condition to the performance of RR pump upshift.
Reactivity Maneuver Steps Extended General Issues: Select desired amount of power reduction
- 1. Withdraw control rods from ARI to RR pump shift to fast speed General Issues:
The critical parameters are provided as a guide to focus the monitoring of the evolution. Changes to these parameters may be necessary to accommodate the actual startup load profile and predictor uncertainties. Changes to the critical parameters are to be done in accordance with the ReMA Training and Reference Material guidelines per OP-AB-300-1003.
ATTACHMENT 2 Reactivity Maneuver Guidance Sheet
STEP 1 of 1 Reactivity Maneuver Plan # C11-Simu.4 Description of Step :
From the ARI condition, increase power with control rods to ~29% (1007 MWt) to support RR pump shift to fast speed.
Ensure Feedwater heating is in service and that feedwater temperature is within 50°F of nominal prior to exceeding 21.6% (750 MWt). Reference Appendix A of CPS 3102.01.
QNE presence required in the Control Room? Yes
- No *
- RE Coverage shall be provided consistent with the guidelines of OP-AB-300-1003 and NF-AB-701.
Initial Conditions (may be ranges) to be verified at the START of the Step Parameter Value or Range Init. Parameter Value or Range Init.
Core Power (MWth or %) N/A N/A MFLCPR N/A N/A Core Flow (Mlb/hr or %) N/A N/A MFLPD N/A N/A FCL (%) N/A N/A MAPRAT N/A N/A Critical Parameters to be Verified During the Step Description; including frequency, method of monitoring, and contingency actions (if needed) High Low FCL 57.3 % N/A Monitor Frequency: Demand 3D Case or verify with power and flow from P680 display. FCL should be monitored constantly after crossing 21.6% power and just prior to pump upshift.
Contingency: Insert control rods in reverse order sequence to reduce FCL.
Step Complete: ___________________/_______ Verified by: _________________/_______
Reactor Operator / Date Unit Supervisor / Date
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY SCOPE OF REVISION:
- This form was updated as a result of the procedure revision.
ROUTINE USE ORIGINATOR: Christian Small CLASS CODE: SNNN1 SQR: Mark Vandermyde APPROVAL DATE: 04/25/05 CURRENT CHANGES TO GENERAL REVISION Change # Date List of Affected Pages n
o p
q r
Rev. 4 Page 1 of 2
CPS 2202.04F001 REACTOR OPERATOR INSTRUCTIONS FOR CRITICALITY Steps 8.3, 8.4, 8.7.4 Core Conditions Expected:
Estimated Date/Time of criticality /
Xenon Increasing Decreasing
- None Moderator Temperature: 468 °F Cycle Exposure: 9000 MWD/T Sequence: A2 - Simulator Comments: Minimum Xenon conditions, High Moderator Temperature; Middle of Cycle Startup Estimated Critical Position Criticality is estimated to occur between steps 17 and 35 BOC Criticality Instructions For BOC, if criticality is reached prior to step ________, insert rods in reverse order up to and including step _______ and investigate with the Reactor Engineer and Nuclear Fuels.
For BOC, if criticality is not reached at the completion of step ________, insert rods in reverse order, up to and including step ________ and investigate with the Reactor Engineer and Nuclear Fuels.
Non-BOC Criticality Instructions For non-BOC, if criticality is reached either prior to step 17 or after step 35 , continue with the reactor startup and initiate a CR to document and trend the ECP being outside the expected range of criticality.
Instructions
- Expect the reactor to become critical at any time.
- Move control rods with careful attention.
- Monitor nuclear instruments during and following rod movements.
- If a nontransient period of less than 30 sec occurs, insert rods and investigate.
- Perform 1/M plots at steps ___17____ ___19____ ___22____ ___23____
___25____ ___26____ ___27____ ___28____
___29____ ___31____ ___33____ ___35____
ADDITIONAL INSTRUCTIONS This is a middle of cycle, xenon-free startup at relatively high moderator temperature. Watch for potential high notch worths in interior regions of the core.
Michelle QNE Boss /
Reactor Engineer Date Time Rev. 4 Page 2 of 2
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Three Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
Subcritical ~600 psig, Steam seals and Auxiliary Steam is provided by the electrode boiler, hot restart.
Thunderstorm storms are expected in the area within the next hour.
Turnover:
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 - First Priority.
- 2. Pull Rods to criticality.
Event Malf. No. Event Event No. Type* Description 1 NA N-BOP Test the Generator Emergency Seal Oil Pump delete 2 Rod C-ATC Continue with startup, discovers Uncoupled rod 0825I_ACTIONA
-Rod uncoupled TS-CRS 3 4 NA R-ATC Pull rods for criticality 4 3 SRM_BI_ACTIO I-ATC B SRM fails N2 and 1 5 CDSR_VAC_P I-BOP Vacuum Pump Trip MP_A 6 SRM_CI_ACTIO TS-CRS A SRM fails N2 and 1 7 Override C-BOP RCIC drain trap level high 8 YARITPLA_1 M-ALL RCIC unisolable steam leak Override 9 YP_XMFTB_500 M-ALL Reactor scrams on initiation of RPT/ARI 2
10 CAM1PR006AT M-ALL Radiation monitor fails to initiate an isolation V_VALUE1 CAM1PR006CT V_VALUE1 CAM1PR006DT V_VALUE1 CAM1PR006BT V_VALUE1 VGCEFUSE_V 677503CC VGBZFUSE_V 421691CC
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2
Appendix D Scenario Outline Form ES-D-1 Scenario No.: Three Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3.
- 2. Rod 08-25 is uncoupled and goes to overtravel. This will require action to recouple and entry into Technical Specification 3.1.3.
- 3. Withdrawal rods for criticality.
- 4. B SRM fails causing a rod block requiring bypassing to proceed with startup.
Requiring a review of Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 5. The A Mechanical Vacuum Pump trips requiring starting the B Pump.
- 6. A SRM fails causing a rod block and requiring entry into Technical Specification 3.3.1.4 action A.1 and ORM 2.2.2 Action 3.2.2.a
- 7. The RCIC drain trap level high will require manually opening the drain trap bypass valve to drain the steam pot.
- 8. The RCIC steam supply line develops a leak causing the RCIC room temperature to rise resulting in an EOP-8 entry. A scram is required prior exceeding the Maximum safe temperature.
- 9. The mode switch and manual scram pushbutton will not cause a scram requiring entry into EOP-1A. Manual initiation of ARI/RPT will insert the rods for a scram. EOP-1A will be exited and EOP-1 will be entered.
- 10. The VF exhaust radiation monitor trends up to the trip isolation but fails to actuate VF isolation and start of VG requiring BOP to manually perform.
EOP 8,1A,1 Critical tasks:
- Manual insertion of ARI prior to exceeding Maximum safe temperature
- Manually shutdown and isolate VF and startup VG Page 2 of 2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level)
Subcritical, with equilibrium Xenon, 3 days CPS 3001.01 complete to step 8.2.5 after shutdown na- MWt CPS 3002.01 at step 8.5.2 na- MWe 27.0 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Pull to critical, heatup and pressurization, step 25 on the pull sheet, 08-25 @ 12 Existing LCOs, date of next surveillance None Surveillances or major maintenance Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT.
Comments, evolutions, problems, etc.
Online Safety is Green Test the Generator Emergency Seal Oil Pump per 3109.01 section 8.1.2.3 for PMT Steam seals and Auxiliary Steam is provided by
- First Priority.
the electrode boiler Continue with Reactor startup.
1
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Test the Generator Emergency Seal Oil Pump per 3109.01 for PMT.
Initiation: Following shift turnover Cues: Directed by SRO Time Position Applicants Actions or Behavior BOP Per CPS 3109.01, Generator Seal Oil, Step 8.1.2.3:
- Depress Gen H2 Emerg Seal Oil Pump Test push-button
- Verify Gen H2 Emergency Seal Oil Pump starts
- Verify annunciators 5017 (6A6 and 5B5), computer point and local operation are OK
- Stop the Gen H2 Emergency Seal Oil Pump
- Verify annunciators and computer point off RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Emergency Seal Oil Pump test complete NOTES:
2
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 2 Page 1 of 1
Description:
Uncoupled rod Initiation: Following Emergency Seal Oil Pump test Cues: Annunciator CPS 5006-5G alarms Time Position Applicants Actions or Behavior RO CPS 5006-5G, Rod Overtravel:
- Determine the rod that alarmed 08-25.
- 1) Verify that the INDIVID DRIVE light is energized on the OCM. If not, select individual drive by depressing DRIVE MODE push-button.
- 2) Insert the drive 1 or 2 notches in an attempt to recouple the rod.
- 3) Determine if the rod has recoupled by performing a coupling check
- 4) If the rod has recoupled, return to normal operation.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Declares the rod inoperable, enters LCO 3.1.3 Action C.1 and C.2
- When the rod is recoupled declare the rod Operable and exit the LCOs
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: Rod has been recoupled and SRO applied LCO actions NOTES:
3
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 3 4 Page 1 of 1
==
Description:==
Pull rods for criticality Initiation: When directed by SRO after Rod has been recoupled Cues: Directed by SRO Time Position Applicants Actions or Behavior Per CPS 3001.01, Approach To Critical, Step 8.2.6 and CPS 2202.01F001, Control Rod RO Sequence:
- Withdraw rods for criticality
- Depress the POWER ON button
- Select the SRMs
- Depress the drive out button until withdrawn
- Depress the drive out button
- Announce reactor is critical BOP
- Announce reactor criticality
- Log in the date/time criticality was achieved, and criticality data:
- Rod Sequence
- Group/Array
- Rod
- Rod Position
- SRM reading and Period
- RR loop temperature
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above
- Stays in a position of oversite
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
Terminus: Clearly observable plant response from change in power level or Reactor is critical.
NOTES:
4
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 4 3 Page 1 of 1
==
Description:==
B SRM fails Initiation: After the rod is recoupled or on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Observe the rod block clears BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Directs Bypassing SRM B and continue with the startup
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B SRM has been bypassed IAW CPS 3306.01.
NOTES:
If the B RO appears about to perform the operation to bypass the B SRM, the Lead Evaluator should signal for event # 5 to be started to draw the B RO away from P-680.
5
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
Vacuum Pump trips Initiation: After crew has addressed SRM problem, on the signal of lead examiner Cues: Annunciator CPS 5019-1A alarming Time Position Applicants Actions or Behavior BOP Per CPS 3112.01, Condenser Vacuum
- Dispatches field operator to perform local actions to start B Vacuum Pump
- After at least 5 minutes of seal water pump operation, start the B Vacuum Pump RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Enters CPS 4004.02 Loss of Vacuum
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: B Vacuum Pump is in operation NOTES:
6
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 6 Page 1 of 1
==
Description:==
A SRM fails Initiation: After B Vacuum Pump is running, on the signal of lead examiner Cues: Annunciators CPS 5006-2H & 5005-1K, 2K, & 3K alarm Time Position Applicants Actions or Behavior RO Per CPS 5006-2H, SRM Inop:
- Reports annunciator to CRS
- Monitors reactor to ensure operations remain within established bands BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Reviews and enters TS 3.3.1.2 Action A.1 and ORM 2.2.2 Action 3.2.2.a.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus: ITS actions reviewed and entered NOTES:
TO LEAD EVALUATOR: Ensure this event is started before IRMs are on Range 2 to ensure a Tech Spec call can be made.
7
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 7 Page 1 of 1
==
Description:==
RCIC drain trap level high Initiation: After ITS actions reviewed and entered, on the signal of lead examiner Cues: Annunciator 5063-2C alarming Time Position Applicants Actions or Behavior BOP Per CPS 5063-2C, RCIC Steam Drain Trap Level High:
- Recognizes failure of 1E51-F054, RCIC Turbine Inlet Steam Line Water Drain Pot Trap Bypass to open and opens the valve manually.
- Verifies 1E51-F025 and 1E51-F026, Upstream and Downstream RCIC Turbine Inlet Steam Line Water Drain Pot Normal Drains are open
- Reports failure RO
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: Drain Pot level alarm clear, SRO has directed actions accordingly.
NOTES:
8
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 8,9 Page 1 of 2
==
Description:==
RCIC unisolable steam leak, Reactor scrams on initiation of RPT/ARI Initiation: After RCIC drain trap level high problem has been addressed, on the signal of lead examiner Cues: Multiple secondary containment area temperature and area radiation alarms, rods fail to insert upon manual/automatic SCRAM Time Position Applicants Actions or Behavior RO Reports EOP-8 entry on Hi temperature Performs EOP actions as directed by SRO
- Initiate a manual reactor scram before first max safe temperature is exceeded Per CPS 4100.01, Reactor Scram:
- Place mode switch in Shutdown, check and report power unchanged
- Arms and depresses MANUAL SCRAM push-buttons Critical Task
- Initiates ARI
- Reports control rods inserted, shutdown criteria met
- Operate FW to control level 3 to 8
- Check rods, reports shutdown criteria is met
- Report level and pressure are following expected trends
- Stabilize pressure <1065 psig
- Reports secondary containment high temperature and rad alarms to SRO
- Makes plant announcement for reactor scram
- Should make plant announcement to evacuate Fuel/Aux buildings.
- Attempts to close RCIC steam isolation valves from the control room Performs EOP actions as directed by SRO
- Verifies operation of area coolers
- Verifies operation of VF
- Evacuates affected areas of Secondary Containment
- Monitors area temperatures, levels and radiation levels
- Reports secondary containment Max Safe temperature being exceeded to SRO
9
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event No.(s): 8,9 Page 2 of 2 Time Position Applicants Actions or Behavior SRO Directs entry into EOP-8 and EOP actions as entry conditions are met:
- 1. Operate VF
- 2. Operate area coolers
- 3. Hold floor drain sump levels below max. normal
- 4. Isolate all discharges into the affected area except systems needed for:
- EOP Actions
- Fire Fighting
- 5. Per EOP-8/CPS 4001.02:
- Directs BOP to isolate RCIC steam lines Critical Task 6. Direct a scram prior to exceeding Maximum safe temperature
- Inhibit ADS
- Arm and Depress MANUAL SCRAM pushbuttons
- Initiate ARI
- 8. Directs additional actions:
- Notification of Radiation Protection (RP) Department
- Evacuate affected areas of Secondary Containment
- 9. Enters and Directs and verifies performance of appropriate actions per EOP-1:
- a. Mode Switch to SHUTDOWN
- b. Shutdown criteria verified
- c. Control RPV Water Level between Level 3 and Level 8
- d. Stabilize RPV pressure below 1065 psig
- e. Verify needed automatic actions:
- Isolations
- ECCS Start
10
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Operator Actions Event No.(s): 10 Page 1 of 1
Description:
Radiation monitor fails to initiate an isolation Initiation: Following the steam leak into the secondary containment Cues: Annunciator 5050-7F, 5052-7F and AR/PR 1RIX-PR006A-D monitors alarms Time Position Applicants Actions or Behavior BOP Performs EOP actions as directed by SRO, CPS 5050-7F, 5052-7F, Hi Rad Initiation VG:
- Verify alarming condition of 1RIX-PR006A-D
- Report EOP-8 entry condition Critical Task
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
Critical Task
- When fuel build exhaust is above 10 mrem/hr shutdown and isolate VF CPS 3404.01, Fuel Building Ventilation Critical Task
- Startup VG CPS 3319.01, Standby Gas General:
- On transient, positions himself as command authority on the unit.
- Acknowledges immediate operator actions and directs subsequent actions.
- Enforces OPS expectations and standards.
- Contacts Shift Manager and recommends notifications.
Terminus:
- RPV level stable and under control in required band
- Reactor is Scrammed
- Effort has been made to isolate RCIC steam lines
- Failed automatic isolation and actuation (VF/VG) manually performed
- Upon approval of lead examiner NOTES:
11
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to an IC with Pressure at 600 psig and rods and/or flow to match turnover
- 3. Load the lesson plan for this scenario
- 4. Place simulator in RUN
- 5. Select the B FWLC level instrument
- 6. Turn on and advance recorders
- 7. Reset SRM A drawer
- 8. Provide pull sheets: on step 25 rod 08-25 is at 12
- 9. Provide and ECP and RE instructions
- 10. Verify the AR/PR server is running and stabilize AR/PR
- 11. Verify TT alarm is reset
- 12. Verify Rod Drive pressure at 250#
- 13. Hang OOS tags per turnover on #2 SAC
- 14. Identify T/S issues associated with OOS and turnover
- 15. Verify simulator conditions match the turnover
- 16. Provide marked up CPS 3001.01 complete to step 8.2.5
- 17. Provide a marked up CPS 3002.01 complete to step 8.6
- 18. Provide a marked up CPS 9000.06D001 with stable heatup values
- 19. Fill out plant status and have Turnover Sheet ready for the crew
- 20. Provide pull sheets, REMA, Re instructions and Cram Instructions 12
D-2, Dynamic Simulator Scenario 3 EXAM DATE: 08/24/09 08-01 Event Triggers and Role Play Event #
- 1. Test the Generator Emergency Seal Oil Pump
- a. No trigger.
- 2. Uncoupled rod
- a. Remote trigger 1 to remove the uncoupled malfunction once the rod is inserted to recouple
- b. Role Play - Shift Manager - I will have WCS initiate AR/CR and take care of notifications. Proceed with pull to critical.
- 3. Withdraw Rods To criticality
- a. No triggers
- 4. B SRM fails
- a. Remote trigger 2 on request from lead evaluator
- b. If SRM B drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 5. Vacuum Pump trip
- a. Remote trigger 3 on request from lead evaluator
- b. Role Play- Field operator
- 6. A SRM fails
- a. Remote trigger 4 on request from lead evaluator
- b. If SRM A drawer is checked report the reading at the drawer for period and scale are going up and down, trip and INOP lights are ON
- c. Maintenance will need a work package to determine the extent of the problem with the SRM.
- 7. RCIC drain trap level high
- a. Remote trigger 5 on request from lead evaluator
- b. Role play - Field operator that the trap is lined up
- 8. RCIC unisolable steam leak
- a. Remote trigger 6 on request from lead evaluator
- b. If RCIC ATMs are checked they read 10 times higher than on the last 9000.01 reading.
- c. Role play as personnel in the field (1) Heavy steam in RCIC room
- d. If valve breakers are checked, no problems are found.
- 9. Reactor scrams on initiation of RPT/ARI
- a. No triggers
- 10. Radiation monitor fails to initiate an isolation and start up VG.
- a. No triggers
13
Clinton Power Station Licensed Operator Training Simulator Exercise Guide EXAM ILT 08-1 Exam Scenario 4 REVISION 00 DEVELOPER: Tom Pickley REVIEWED BY:
Simulator Instructor APPROVED BY: /
Operations Date
Overview Makeup/Reject: All CPs except J are in service. RO train #1 & 2 are in-service in auto to WD ECCS: RHR A, B, C, LPCS and HPCS are Operable. RCIC is Operable SDC: N/A Electrical: 6.9 KV 1A & 1B and 4.16 1A &1B on UAT, 4160 Volt Busses 1A1, 1B1 & 1C1 are being supplied by RAT Ventilation:
Radwaste: FP/FP 1B in service. 1WF Evap is in Hot Standby. A and B RT F/D are in service.
Plant Status On Line Risk Yellow Reactor Operational Condition: Mode 1 Total Core Flow: _84.2 mlb/hr FCV Position: A: __86.6__% B: __87.3 _%
Reactor Power _95.8_% (<=100%) _3321_ MWt (<=3473) _1089_ Mwe Xenon: Stable RPV Level _35__ in Narrow Range RPV Pressure _1020_ psi (< 1045)
In service SDC loop None MODE 1 Containment Suppression Pool Temperature: _75.5_ F (<=93.1 F)
Suppression Pool Level _ 19.2 ft (19 ft 0 to 19 ft 5 in)
Drywell Pressure _ 0.6 _ psi (0 to 1 psig)
Drywell to Containment dp: _ 0.6 _ psi >=-.02 psid to <=1.0 psid Drywell Avg Air Temperature: _ 104_ F (<=146.53 F)
Secondary Containment: _ 0.74 in WG (>= 0.25 in WG vacuum)
BOP Plant Chemistry Condenser Vacuum: _26.4_ in Hg CPI (goal < 1.1): 1.00 Off - Gas Flow: _66.6_ scfm Reactor Sulfates (goal < 2) 1.31 ppb Condensate Temperature: _ 109_ F Reactor Chlorides: 0.51 ppb Generator Reactive Load: _ 256 _MVARS FW Iron (goal < 2.1) 0.85 ppb Protected Equip: HPCS and Div 1 & 2 Backup ADS Air Supply Comments: MDRFP is CO From Excellence in Human Performance Leaders reinforce desired jobsite behaviors (Handbook page 17)
Participate in training program activities.
Leaders monitor and provide feedback to improve training program quality as well as to coach and reinforce individuals who meet or exceed behavior expectations and Standards of performance. During training activities, leaders guide workers on how actions or inactions influence reactor safety and on the potential consequences of mistakes. They give particular attention to recognizing error-likely situations and flawed defenses during tasks important to nuclear safety
Turnover This page contains the Turnover information not found in the Overview page.
- 1. Power, xenon and time in life Power was reduced to 80% for surveillance testing.
- 3. Shift conditions Day Shift Today
- 4. Weather Conditions Sunny and clear.
- 5. Thermal Limit Problems or concerns
- 6. LCOs in effect
- 7. Surveillances in progress Perform 9064.01 Drywell Post-LOCA Vacuum Breaker Verification Test.
8.
- 9. Evolutions planned for the shift
- 10. Risk Levels Yellow
- 11. Other
Appendix D Scenario Outline Form ES-D-1 Facility: Clinton Power Station Scenario No.: Four Operating Test No.: 08-01 Examiners: ____________________________ Operators: ____________________
Initial Conditions:
96% power, steady state.
MDRFP is CO for coupling replacement.
Turnover:
- VC running for 9070.01, Control Room Hvac Air Filter Package Operability Test Run.
- A Reduction in power will be requestred by dispatch.
- Perform 9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test Event Malf. No. Event Type* Event No. Description 1 IO C-ATC Perform SDV Vent and Drain Valve test one valve fails TS-CRS 2 None R-ATC Reduce power with flow 3 IO C-ATC A RR FCV Drifts shut 4 VC01VC_VC0 C-BOP VC Makeup Train A Outlet DMPR fails shut during surveilance run.
6YA_MTVFA TS-CRS ILSP 5 None N-BOP Shift to the B VC train.
6 F041LTVFAI C-BOP SRV 41L Fails open, closes on first attempt to close LSP 7 YPXMALSE_ M-ALL Small break LOCA requiring an Emergency Depressurization.
527 8 YP_XMFTB_ M-ALL LPCS Pump fails to start on High Drywell Pressure 4106
- (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Page 1 of 2 10/13/2009
Appendix D Scenario Outline Form ES-D-1 Scenario No.: Four Operating Test No.: 08-01 Narrative Summary Event # Description
- 1. The ATC will perform the SDV vent and drain valve test and one of the valves will indicate intermediate requiring TS entry
- 2. After shift turnover the Control Room staff will receive a phone call to reduce power for grid stability concerns.
- 3. The A Flow control valve will continue to drift shut slowly requiring the ATC to manually lock out the RR FCV. This may require the ATC to match flows after the transient.
4, 5. The ongoing VC train surveillance will have a damper failure causing TS entry and start of the opposite VC train
- 6. SRV 41L will inadvertantly open this valve is NON-ADS and NON-LLS requiring the BOP to take it to off and will not be available for the B/D.
- 7. Small break LOCA will get the crew into EOP-1 and EOP-6 the Reactor will require a blow down on Figure N PSP.
- Starting Containment Sprays
- Blow Down when Figure N is exceeded.
Page 2 of 2 10/13/2009
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Shift Turnover Information Day of week and shift Today Day Shift Weather conditions Thunderstorms are expected in the area within the next hour.
(Plant power level) 96% Power/100% FCL CPS 3005.01 thru step 8.1.19 3328 MWt A-2, step 36 is complete 1092 MWe 84.5 Mlbm/hr CORE FLOW Thermal Limit Problems/Power Evolutions Existing LCOs, date of next surveillance None Surviellances or major maintenance VC running for 9070.01, Control Room HVAC Air Filter Package Operability Test Run 4 hrs 27 min into the 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> run.
9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test for position indication only. Stroke times are not needed.
Equipment to be taken out of or returned to service this shift/maintenance on major plant equipment MDRFP is CO for coupling replacement.
Comments, evolutions, problems, etc.
Online Safety is Yellow 9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test for position indication only. Stroke times are not needed.
Page 1 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Operator Actions Event No.(s): 1 Page 1 of 1
==
Description:==
Perform SDV Vent and Drain Valve test one valve fails Initiation: Following turnover Cues: Shift Turnover Time Position Applicants Actions or Behavior ATC
- Performs 9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test
- Simultaneously, depress and hold both:
Scram Disch Vol Vent V, and Scram Disch Vol DR V Test SW push-buttons, When the valves indicate closed, Release the Scram Disch Vol Vent V and Scram Disch Vol DR V Test Sw push-buttons
- Report C11-F011 did not fully open BOP
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions
- Directs the determination of C11-F011 position locally
- Reports C11-F011 is in an intermediate position SRO
- Directs the above actions
- Declares C11-F011 Inop
- Enters Tech Spec LCO 3.1.8 A.1 Isolate the Line in 7 days.
Terminus: Tech Specs have been entered.
Page 2 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Operator Actions Event No.(s): 2 Page 1 of 1
==
Description:==
Reduce power with flow Initiation: MISO calls requesting a power reduction to 90% within 30 minutes for Grid Stability.
Cues: Directed by SRO General Note Time Position Applicants Actions or Behavior Per CPS 3005.01, Unit Power Changes, step 8.2.8.
- Reduce power with Flow to ~90%.
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs actions listed above.
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
- Enforces OPS expectations and standards.
Terminus: Power change complete.
Note:
- Denotes an action that should be performed.
o Denotes an action that may be performed.
Page 3 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Operator Actions Event No.(s): 3 Page 1 of 1
==
Description:==
A RR FCV Drifts shut Initiation: Following the power change, and upon direction of Lead Examiner.
Cues:
Time Position Applicants Actions or Behavior ATC
o ATC may need to match recirc loop flows depending on the time the RRFCV gets locked out.
- Monitors reactor to ensure operations remain within established bands
- Directs actions listed above.
- Verifies that the RR loop flows are within Tech Spec limits:
-if less than 70% rated core flow then loop mismatch is limited to 10% of rated core flow (8.45mlbm/hr)
- if greater than or equal to 70% rated core flow then loop mismatch is limited to 5%
of rated core flow (4.225 mlbm/hr)
Terminus: The A RR FCV is locked out.
Page 4 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Operator Actions Event No.(s): 4 Page 1 of 1
==
Description:==
VC Makeup Train A Outlet DMPR fails shut during surveilance run.
Initiation: Following the Tech Spec call and upon direction from the Lead Examiner.
Cues: Annunciator 5050-5D, Low Flow Downstream 0VC09SA Time Position Applicants Actions or Behavior BOP
- Communicates Annunciator 5050-5D
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Directs the above actions
- Enforces OPS expectations and standards
Terminus: 0VC05CA is off Page 5 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Operator Actions Event No.(s): 5 Page 1 of 1
==
Description:==
Shift to the B VC train.
Initiation: N/A Cues: Annunciator 5050-5D, Low Flow Downstream 0VC09SA Time Position Applicants Actions or Behavior ATC
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
Per 3402.01P001, CV Train Shifting BOP
- Direct Equipment Operator to perform local operations
- Shut Locker Room EXH Fan ISOL DMPR 0VC69Y
- Shut Locker Room EXH Fan ISOL DMPR 0VC70Y
- Stop Cont Rm Trn A Supply Fan 0VC03CA
- Verify Dampers reposition
- Start Cont Rm Trn B Supply Fan 0VC03CB
- Verify Dampers reposition
- Open Locker Room EXH Fan ISOL DMPR 0VC69Y
- Open Locker Room EXH Fan ISOL DMPR 0VC70Y
- Direct Chiller Startup SRO
- Directs the above actions
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: VC Train B is running Page 6 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Operator Actions Event No.(s): 6 Page 1 of 1 Description SRV 41L Fails open, closes on first attempt to close Initiation: After VC train B is running and upon direction from the Lead Examiner.
Cues: Annunciator 5067-8L, SRV Monitoring System Trouble Time Position Applicants Actions or Behavior ATC
- Assists in determination of which SRV is open
- Monitors reactor to ensure operations remain within established bands
- Monitors control room panels and notifies the SRO of any unusual or unexpected conditions.
- Sounds the Containment Evacuation alarm
- Place the switch for SRV 41L to OPEN and then back to OFF
- Enters 4009.01, Inadvertant Opening SRV
- Directs the above actions
- Enforces OPS expectations and standards
- Determines SRV 41L is not required by Tech Specs.
Terminus: SRO has determined SRV 41L is not required by Tech Specs.
Page 7 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Operator Actions Event No.(s): 7&8 Page 1 of 2
==
Description:==
Small break LOCA requiring an Emergency Depressurization and LPCS Pump fails to start on High Drywell Pressure Initiation: After SRV 41L is shut and upon direction of Lead Examiner Cues: Rising Drywell Pressure Time Position Applicants Actions or Behavior ATC
- Places the Mode Switch in S/D
- Carries out Scram Choreography by reporting Mode Switch in Shutdown, Power is Rod status is Reactor Power is and trend Reactor pressure is and trend Reactor level is and trend Any EOPs with entry conditions (EOP-1, 6)
Per CPS 4100.01, Reactor Scram
- Turn Mode Switch to SHUTDOWN Verify reactor power is lowering Verify SHUTDOWN CRITERIA met
- IF RPV level is rising with 2 feed pumps operating
- THEN Secure 1 Feed Pump and control RPV water level Level 3 to Level 8.
- Verify Turbine and Generator trip when required
Carries out Scram Choreography by:
- Making an Announcement Reactor Scram MDRFP may start Evacuate the RCIC room Evacuate the Containment
- Determine Rod status and report to CRS Per EOP-6 Primary Containment Control
- Starts Drywell Mixers, as directed.
Critical Task
- Starts Containment Spray, as directed.
o Monitors the start of the ECCS Systems on High Drywell Pressure.
- Initiates ADS Page 8 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Event No.(s): 8&9 Page 2 of 2 Time Position Applicants Actions or Behavior SRO
- Carries out Scram Choreography by performing an Update:
Entering EOP-1 and 6 Entering Scram Off-Normal Transient Annunciator Response is authorized Enters EOP-1, RPV Control, and directs the following:
- Determines Mode Switch is in SHUTDOWN.
- Determines Shutdown Criteria is met.
- Directs maintaining RPV Level, Level 3 to Level 8 by using Preferred Injection Systems.
Enters EOP-6, Primary Containment Control, and directs the following:
- Starting Mixers Critical Task
- IAW Fig. O, directs the start of Containment Sprays.
Enters EOP-3, Emergency RPV Depressurization, when Figure N is exceeded.
Critical Task
- Directs initiation of ADS
- Enforces OPS expectations and standards
- Ensures operations are conducted within the bounds of Tech Specs and IAW Operations standards and approved procedures.
Terminus: 7 SRVs are open, level band of 3 to 8 is established and upon direction of Lead Examiner.
Critical Tasks
- Initiate Containment Sprays.
- Initiate ADS.
Page 9 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Simulator Operator Instructions Initial Setup
- 1. Verify daily lamp test completed
- 2. Reset to IC for this scenario (Verify/Adjust Power to 96% with flow).
- 3. Load lesson plan for this scenario
- 4. Place simulator in RUN
- 5. Verify the AR/PR server is running and stabilize AR/PR
- 6. Verify VC A is running for 9070.01
- 7. Verify RCIC Flow Controller is set at 620 psig.
- 8. Ensure the correct number of CPs are in service.
- 9. Make sure CRD drive water D/P is in the expected range
- 10. Verify correct Control Rod Move Sheets in P680 Book and the correct Cram array are used
- 11. Turn on and advance recorders
- 12. Hang OOS tags per turnover
- 13. Identify T/S issues associated with OOS and turnover
- 14. Verify simulator conditions match the turnover
- 15. Provide copies of the following:
9070.01, Control Room Hvac Air Filter Package Operability Test Run.
9012.01, Scram Discharge Volume Vent and Drain Valve Operability Test Page 10 of 11
D-2, Dynamic Simulator Scenario 4 EXAM DATE: 8/24/09 08-01 Event Triggers and Role Play Event #
- 1. Perform SDV Vent and Drain Valve test one valve fails
- a. On a Trigger
- b. Roll play:
(1) Equipment Operator: Report all SDV are closed.
(2) Equipment Operator: Report C11-F011 is intermediate at end of test.
- 2. Reduce power
- a. No Trigger
- b. Role play: As the MISO call requesting a power reduction to 90% within 30 minutes for Grid Stability.
- a. Remote 1
- b. Role play: None
- 4. VC Makeup Train A Outlet DMPR fails shut during surveilance run
- a. Remote 2
- b. Role play: The A 0VC05CA Fan is making noise and vibrating.
- 5. Shift to the B VC train
- a. Pending Page
- b. Role play: Equipment Operator Perform Local operations Report the backdraft dampers are shut when asked by the CR.
Start VC Chiller
- 6. SRV 41L Fails open, closes on first attempt to close intermittent.
- a. Remote 3
- b. Role Play: None
- 7. Small break LOCA requiring an Emergency Depressurization.
- a. Remote 4
- b. Role play: None.
- 8. LPCS Pump fails to start on High Drywell Pressure
- a. None
- b. Role play: None Page 11 of 11