ML051250478: Difference between revisions

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| number = ML051250478
| number = ML051250478
| issue date = 03/28/2005
| issue date = 03/28/2005
| title = Comanche Peak-03-2005-Draft-Operating Exam
| title = 03-2005-Draft-Operating Exam
| author name =  
| author name =  
| author affiliation = NRC/RGN-IV/DRS/OB
| author affiliation = NRC/RGN-IV/DRS/OB
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Plant Data Param e ter Value f r om Last Readin g Sheets (OPT-XXX) Current Value 1/1-PCPR1 Am ps 580 580 1/1-PCPR Amps 0 200 1/1-PCPR2 Am ps 565 565 1/1P-CPR3 Am ps 0 176 1B1 Volts 474 468 1B2 Volts 483 476 1B3 Volts 476 470 1B4 Volts 485 480 PC point V6303A 487.2 486.9 PC point V6302A 488.1 487.1 PC point V6301A 487.2 486.9 PC point V6304A 488.3 487.1 PC point A6801A 571.2 570.1 PC point A6802A 0 193 PC point A6803A 559.8 560 PC point A6804A 0 176 1EA1 Amps 282.7 261.4 1EA2 Amps 358.5 423.7  NOTE: The candidate can use either the MCB mete r am perages or the plant com puter values for heater am pe rages. The IPO allows both and there is no significant difference.
Plant Data Param e ter Value f r om Last Readin g Sheets (OPT-XXX) Current Value 1/1-PCPR1 Am ps 580 580 1/1-PCPR Amps 0 200 1/1-PCPR2 Am ps 565 565 1/1P-CPR3 Am ps 0 176 1B1 Volts 474 468 1B2 Volts 483 476 1B3 Volts 476 470 1B4 Volts 485 480 PC point V6303A 487.2 486.9 PC point V6302A 488.1 487.1 PC point V6301A 487.2 486.9 PC point V6304A 488.3 487.1 PC point A6801A 571.2 570.1 PC point A6802A 0 193 PC point A6803A 559.8 560 PC point A6804A 0 176 1EA1 Amps 282.7 261.4 1EA2 Amps 358.5 423.7  NOTE: The candidate can use either the MCB mete r am perages or the plant com puter values for heater am pe rages. The IPO allows both and there is no significant difference.
NOTE:  The shaded param e ters should NOT be use
NOTE:  The shaded param e ters should NOT be use
: d. The following problem s exist with the shaded data:  1. The pressurizer heaters are supplied by 1EB1-4, NOT 1B1-4  
: d. The following problem s exist with the shaded data:  1. The pressurizer heaters are supplied by 1EB1-4, NOT 1B1-4
: 2. 1EA1/2 am perage is not necessary to com p lete the calcu lation s. 3. Data from the last set of logs should NOT be used for the Operability determ ination. Plant conditions could have changed significantly si nce the readings were taken. The IPO wants curren t plan t data to d e te rm ine Operability.
: 2. 1EA1/2 am perage is not necessary to com p lete the calcu lation s. 3. Data from the last set of logs should NOT be used for the Operability determ ination. Plant conditions could have changed significantly si nce the readings were taken. The IPO wants curren t plan t data to d e te rm ine Operability.
Page 4 of 5 Rev Date: 1/19/05 Initial License Exam                      03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY  Page 5 of 5 Rev Date: 1/19/05 Circle the correct status for each Bank of Pressurizer Heaters Heater Bank Status Status B/U Heater Grp. A Operable Inoperable B/U Heater Grp. B Operable Inoperable Control Grp. C Operable Inoperable B/U Heater Grp. D Operable Inoperable Example of the completed procedure:  
Page 4 of 5 Rev Date: 1/19/05 Initial License Exam                      03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY  Page 5 of 5 Rev Date: 1/19/05 Circle the correct status for each Bank of Pressurizer Heaters Heater Bank Status Status B/U Heater Grp. A Operable Inoperable B/U Heater Grp. B Operable Inoperable Control Grp. C Operable Inoperable B/U Heater Grp. D Operable Inoperable Example of the completed procedure:
 
5.3 Heatup And Pressurization For MODE 3 Entry
===5.3 Heatup===
And Pressurization For MODE 3 Entry  
[C] This section describes steps for heatup and pressurization to enter MODE 3. 5.3.1 Verify at least two groups of pressurizer heaters have a capacity of at least 150KW each.(TS SR 3.4.9.2)  A. Energize each group of heaters, as required, to measure current.                        _____
[C] This section describes steps for heatup and pressurization to enter MODE 3. 5.3.1 Verify at least two groups of pressurizer heaters have a capacity of at least 150KW each.(TS SR 3.4.9.2)  A. Energize each group of heaters, as required, to measure current.                        _____
B. Record voltage and current AND calculate power for each group of heaters.                    (Voltage x current x 0.001732 = power)
B. Record voltage and current AND calculate power for each group of heaters.                    (Voltage x current x 0.001732 = power)
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Initial License Exam                      03/2005 Job Performance Measure JPM: RO A1.b KEY  Page 5 of 5 Rev Date: 1/24/05 Attachment 1 CPSES ABNORMAL CONDITIONS PROCEDURES MANUAL UNIT 1 AND 2 PROCEDURE NO.
Initial License Exam                      03/2005 Job Performance Measure JPM: RO A1.b KEY  Page 5 of 5 Rev Date: 1/24/05 Attachment 1 CPSES ABNORMAL CONDITIONS PROCEDURES MANUAL UNIT 1 AND 2 PROCEDURE NO.
ABN-103  EXCESSIVE REACTOR COOLANT LEAKAGE REVISION NO 8 PAGE 22 OF 28 ATTACHMENT 1 PAGE 2 OF 2 PARAMETER INITIAL VALUE FINAL VALUE AVERAGE VALUE TIME  (-) __1429____ + __1446____ = ____17___ t
ABN-103  EXCESSIVE REACTOR COOLANT LEAKAGE REVISION NO 8 PAGE 22 OF 28 ATTACHMENT 1 PAGE 2 OF 2 PARAMETER INITIAL VALUE FINAL VALUE AVERAGE VALUE TIME  (-) __1429____ + __1446____ = ____17___ t
* CHRG FLO (F6138A)  __140.7____ + ___143.8___  
* CHRG FLO (F6138A)  __140.7____ + ___143.8___
(__________284.5____________) 2  = __142.25___ GPM
(__________284.5____________) 2  = __142.25___ GPM
* LTDN HX OUT FLOW (F6134A) ___130.9__ + ___130.9___  
* LTDN HX OUT FLOW (F6134A) ___130.9__ + ___130.9___
(__________261.8______________) 2  = __130.9__ GPM
(__________261.8______________) 2  = __130.9__ GPM
* RCP SEAL LKOFF FLO (FR-157, 156, 155  
* RCP SEAL LKOFF FLO (FR-157, 156, 155  
& 154) ___11.2______ + ____11.2____  
& 154) ___11.2______ + ____11.2____
(___________5.6______________
(___________5.6______________
.) 2  = ___11.2___ GPM
.) 2  = ___11.2___ GPM
* VCT LVL (L6112A)  (_52.8___ - __50.4___)(19.4gal/%)  
* VCT LVL (L6112A)  (_52.8___ - __50.4___)(19.4gal/%)
(_________46.56__________________) (__17____)t in MIN)  
(_________46.56__________________) (__17____)t in MIN)  
   = __2.74___ GPM RC LOOP 1-4 TAVE (T0400A,T0420A,T0440A OR T0460A)  
   = __2.74___ GPM RC LOOP 1-4 TAVE (T0400A,T0420A,T0440A OR T0460A)
(________ - ________)(93gal/°F)  
(________ - ________)(93gal/°F)
(_____________0__________________) (_____17_____)t in MIN)  
(_____________0__________________) (_____17_____)t in MIN)  
   = ____0___ GPM PRZR LVL (L6480A,L6481A OR L6482A)  (_60___ - ___59.5__)(65gal/%)  
   = ____0___ GPM PRZR LVL (L6480A,L6481A OR L6482A)  (_60___ - ___59.5__)(65gal/%)
(_________32.5___________________) (__17_____)t in MIN)  
(_________32.5___________________) (__17_____)t in MIN)  
   = ___1.9___ GPM Shaded areas NOT REQUIRED CALCULATION FORMULA Flow adjust method: (+) ________
   = ___1.9___ GPM Shaded areas NOT REQUIRED CALCULATION FORMULA Flow adjust method: (+) ________
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* Computer is available to obtain flow data and observe bearing temperatures.
* Computer is available to obtain flow data and observe bearing temperatures.
* Data Sheet OPT-207A-4. *******************************************************************************************************************************
* Data Sheet OPT-207A-4. *******************************************************************************************************************************
** 1. QC or other applicable test personnel install acoustic    QC/OPS ____ emission test equipment in accordance with  STA-750 if required.  
** 1. QC or other applicable test personnel install acoustic    QC/OPS ____ emission test equipment in accordance with  STA-750 if required.
: 2. Perform OPT-207A, Section 8.2, Train A, Station                OPS ____  Service Water Pump 1-01 Operability Test  
: 2. Perform OPT-207A, Section 8.2, Train A, Station                OPS ____  Service Water Pump 1-01 Operability Test
: 3. QC record acoustic emission data in accordance    QC/OPS ____  with STA-750 if required.  
: 3. QC record acoustic emission data in accordance    QC/OPS ____  with STA-750 if required.
: 4. PROMPT TEAM record pump vibration data. PT/OPS ____  
: 4. PROMPT TEAM record pump vibration data. PT/OPS ____
: 5. QC remove acoustic emission test equipment    QC/OPS ____  if installed.  
: 5. QC remove acoustic emission test equipment    QC/OPS ____  if installed.  
  *******************************************************************************************************************************
  *******************************************************************************************************************************
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  ** NO OTHER CLEARANCE **  
  ** NO OTHER CLEARANCE **  
   ****************************************SURVEILLANCE REQUIREMENTS**********************************************
   ****************************************SURVEILLANCE REQUIREMENTS**********************************************
Surveillance Requirement    Su rveillance Requirement Description  
Surveillance Requirement    Su rveillance Requirement Description 5.5.8       Refer to Tech Spec Manual  
 
====5.5.8 Refer====
to Tech Spec Manual  
  ** END OF REPORT**  
  ** END OF REPORT**  
  ***************************************************BOTTOM OF DATA*****************************************************
  ***************************************************BOTTOM OF DATA*****************************************************
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You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.
You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.
You are to evaluate the radiological condition in the area and provide the requested information.
You are to evaluate the radiological condition in the area and provide the requested information.
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.  
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.
: 1. The area where the valve is located is a:
: 1. The area where the valve is located is a:
A) Locked High Radiation Area B) Contaminated Area C) Posted High Radiation Area D) General Radiation Area  
A) Locked High Radiation Area B) Contaminated Area C) Posted High Radiation Area D) General Radiation Area
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
A) 50 minutes B) 5 minutes C) 25 minutes D) 2.5 minutes  
A) 50 minutes B) 5 minutes C) 25 minutes D) 2.5 minutes
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.  
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.  


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     -KEY-  INITIATING CUE:
     -KEY-  INITIATING CUE:
You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152. You are to evaluate the radiological condition in the area and provide the requested information.
You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152. You are to evaluate the radiological condition in the area and provide the requested information.
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.  
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.
: 1. The area where the valve is located is a:
: 1. The area where the valve is located is a:
E) Locked High Radiation Area F) Contaminated Area G) Posted High Radiation Area H) General Radiation Area  
E) Locked High Radiation Area F) Contaminated Area G) Posted High Radiation Area H) General Radiation Area
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
E) 50 minutes F) 5 minutes G) 25 minutes H) 2.5 minutes  
E) 50 minutes F) 5 minutes G) 25 minutes H) 2.5 minutes
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.  
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.
: 1) The area where the valve to be operated is. 2) The CA I/S Pit 3) The contaminated area.  
: 1) The area where the valve to be operated is. 2) The CA I/S Pit 3) The contaminated area.  


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Current Value 1/1-PCPR1 Amps 580 580 1/1-PCPR Amps 0 200 1/1-PCPR2 Amps 565 565 1/1P-CPR3 Amps 0 176 1B1 Volts 474 468 1B2 Volts 483 476 1B3 Volts 476 470 1B4 Volts 485 480 PC point V6303A 487.2 486.9 PC point V6302A 488.1 487.1 PC point V6301A 487.2 486.9 PC point V6304A 488.3 487.1 PC point A6801A 571.2 570.1 PC point A6802A 0 193 PC point A6803A 559.8 560 PC point A6804A 0 176 1EA1 Amps 282.7 261.4 1EA2 Amps 358.5 423.7  NOTE: The candidate can use either the MCB meter amperages or the plant computer values for heater amperages. The IPO allows both and there is no significant difference.
Current Value 1/1-PCPR1 Amps 580 580 1/1-PCPR Amps 0 200 1/1-PCPR2 Amps 565 565 1/1P-CPR3 Amps 0 176 1B1 Volts 474 468 1B2 Volts 483 476 1B3 Volts 476 470 1B4 Volts 485 480 PC point V6303A 487.2 486.9 PC point V6302A 488.1 487.1 PC point V6301A 487.2 486.9 PC point V6304A 488.3 487.1 PC point A6801A 571.2 570.1 PC point A6802A 0 193 PC point A6803A 559.8 560 PC point A6804A 0 176 1EA1 Amps 282.7 261.4 1EA2 Amps 358.5 423.7  NOTE: The candidate can use either the MCB meter amperages or the plant computer values for heater amperages. The IPO allows both and there is no significant difference.
NOTE:  The shaded parameters should NOT be used. The following problems exist with the shaded data:  1. The pressurizer heaters are supplied by 1EB1-4, NOT 1B1-4 2. 1EA1/2 amperage is not necessary to complete the calculations. 3. Data from the last set of logs should NOT be used for the Operability determination. Plant conditions could have changed significantly si nce the readings were taken. The IPO wants current plant data to determine Operability.
NOTE:  The shaded parameters should NOT be used. The following problems exist with the shaded data:  1. The pressurizer heaters are supplied by 1EB1-4, NOT 1B1-4 2. 1EA1/2 amperage is not necessary to complete the calculations. 3. Data from the last set of logs should NOT be used for the Operability determination. Plant conditions could have changed significantly si nce the readings were taken. The IPO wants current plant data to determine Operability.
Initial License Exam                      03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY  Page 5 of 5 Rev Date: 1/19/05 Circle the correct status for each Bank of Pressurizer Heaters Heater Bank Status Status B/U Heater Grp. A Operable Inoperable B/U Heater Grp. B Operable Inoperable Control Grp. C Operable Inoperable B/U Heater Grp. D Operable Inoperable Example of the completed procedure:  
Initial License Exam                      03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY  Page 5 of 5 Rev Date: 1/19/05 Circle the correct status for each Bank of Pressurizer Heaters Heater Bank Status Status B/U Heater Grp. A Operable Inoperable B/U Heater Grp. B Operable Inoperable Control Grp. C Operable Inoperable B/U Heater Grp. D Operable Inoperable Example of the completed procedure:
 
5.3 Heatup And Pressurization For MODE 3 Entry
===5.3 Heatup===
And Pressurization For MODE 3 Entry  
[C] This section describes steps for heatup and pressurization to enter MODE 3. 5.3.1 Verify at least two groups of pressurizer heaters have a capacity of at least 150KW each.(TS SR 3.4.9.2)  A. Energize each group of heaters, as required, to measure current.                        _____
[C] This section describes steps for heatup and pressurization to enter MODE 3. 5.3.1 Verify at least two groups of pressurizer heaters have a capacity of at least 150KW each.(TS SR 3.4.9.2)  A. Energize each group of heaters, as required, to measure current.                        _____
B. Record voltage and current AND calculate power for each group of heaters.                    (Voltage x current x 0.001732 = power)
B. Record voltage and current AND calculate power for each group of heaters.                    (Voltage x current x 0.001732 = power)
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Pass criteria is 4 of the 5 ROs work hour status being correctly determined No - cannot work Yes - can work Note Completion time.
Pass criteria is 4 of the 5 ROs work hour status being correctly determined No - cannot work Yes - can work Note Completion time.
Initial License Exam                      03/2005 Job Performance Measure JPM: SRO A1.b Page 4 of 4 Rev Date: 1/19/05 INITIATING CUE:
Initial License Exam                      03/2005 Job Performance Measure JPM: SRO A1.b Page 4 of 4 Rev Date: 1/19/05 INITIATING CUE:
You are the Unit Supervisor and one of the assigned ROs called in sick. You need to find a replacement RO. Assuming today is March 23 (0630), based on the work hour history, determine which of the following 5 ROs could perform safety-related functions until 1830 without advanced approval.  
You are the Unit Supervisor and one of the assigned ROs called in sick. You need to find a replacement RO. Assuming today is March 23 (0630), based on the work hour history, determine which of the following 5 ROs could perform safety-related functions until 1830 without advanced approval.
: 1. RO1 has been on-shift since 0200 (March 23). 2. On March 22, RO2 worked from 0630 until 1900 (includes a 1/2 hour shift turnover). 3. RO3 worked from 1430 on March 22 to 0030 on March 23. 4. RO4 has been on vacation for the past two days (March 21 and 22), but worked 12 hours on March 17, 16 hours on March 18, 16 hours on March 19, and 14 hours on March 20. 5. On March 22, RO5 worked from 0630 until 1930 (includes a 1/2 hour shift turnover).  
: 1. RO1 has been on-shift since 0200 (March 23). 2. On March 22, RO2 worked from 0630 until 1900 (includes a 1/2 hour shift turnover). 3. RO3 worked from 1430 on March 22 to 0030 on March 23. 4. RO4 has been on vacation for the past two days (March 21 and 22), but worked 12 hours on March 17, 16 hours on March 18, 16 hours on March 19, and 14 hours on March 20. 5. On March 22, RO5 worked from 0630 until 1930 (includes a 1/2 hour shift turnover).  


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The SM has called the Prompt team and they will call with the LOCAR number when it is generated.
The SM has called the Prompt team and they will call with the LOCAR number when it is generated.
Page 4 of 4 Rev Date:
Page 4 of 4 Rev Date:
2/7/05 Pressurizer  
2/7/05 Pressurizer 3.4.9 SURVEILLANCE SR 3.4.9.1 Verify pressurizer water ievel is 592%. ACTIONS (continued)
 
====3.4.9 SURVEILLANCE====
 
SR 3.4.9.1 Verify pressurizer water ievel is 592%. ACTIONS (continued)
FREQUENCY 12 hours CONDITION SR 3.4.9.2 Verify capacity of each required group of pressurizer heaters is 2 150 kW. B. One required group of pressurizer heaters inoperable.
FREQUENCY 12 hours CONDITION SR 3.4.9.2 Verify capacity of each required group of pressurizer heaters is 2 150 kW. B. One required group of pressurizer heaters inoperable.
18 months C. Required Action and associated Completion Time of Condition B not met. REQUIRED ACTION B. 1 Restore required group of pressurizer heaters to OPERABLE status. c. 1 Be in MODE 3. c.2 Be in MODE 4. COMPLETION TIME 72 hours 6 hours 12 hours COMANCHE PEAK - UNITS 1 AND 2 3.4-20 Amendment No. 64 Pressurizer 3.4.9 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.9 Pressurizer LCO 3.4.9 The pressurizer shall be OPERABLE with: a. Pressurizer water level 592%; and b. Two groups of pressurizer heaters OPERABLE with the capacity of each group 2 150 kW. APPLICABILITY:
18 months C. Required Action and associated Completion Time of Condition B not met. REQUIRED ACTION B. 1 Restore required group of pressurizer heaters to OPERABLE status. c. 1 Be in MODE 3. c.2 Be in MODE 4. COMPLETION TIME 72 hours 6 hours 12 hours COMANCHE PEAK - UNITS 1 AND 2 3.4-20 Amendment No. 64 Pressurizer 3.4.9 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.9 Pressurizer LCO 3.4.9 The pressurizer shall be OPERABLE with: a. Pressurizer water level 592%; and b. Two groups of pressurizer heaters OPERABLE with the capacity of each group 2 150 kW. APPLICABILITY:
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You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.
You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.
You are to evaluate the radiological condition in the area and provide the requested information.
You are to evaluate the radiological condition in the area and provide the requested information.
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.  
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.
: 1. The area where the valve is located is a:
: 1. The area where the valve is located is a:
A) Locked High Radiation Area B) Contaminated Area C) Posted High Radiation Area D) General Radiation Area  
A) Locked High Radiation Area B) Contaminated Area C) Posted High Radiation Area D) General Radiation Area
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
A) 50 minutes B) 5 minutes C) 25 minutes D) 2.5 minutes  
A) 50 minutes B) 5 minutes C) 25 minutes D) 2.5 minutes
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.  
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.  


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     -KEY-  INITIATING CUE:
     -KEY-  INITIATING CUE:
You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152. You are to evaluate the radiological condition in the area and provide the requested information.
You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152. You are to evaluate the radiological condition in the area and provide the requested information.
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.  
NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.
: 1. The area where the valve is located is a:
: 1. The area where the valve is located is a:
E) Locked High Radiation Area F) Contaminated Area G) Posted High Radiation Area H) General Radiation Area  
E) Locked High Radiation Area F) Contaminated Area G) Posted High Radiation Area H) General Radiation Area
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
: 2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.
E) 50 minutes F) 5 minutes G) 25 minutes H) 2.5 minutes  
E) 50 minutes F) 5 minutes G) 25 minutes H) 2.5 minutes
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.  
: 3. Circle three areas on the Survey Map that require contact with RP prior to entry.
: 1) The area where the valve to be operated is. 2) The CA I/S Pit 3) The contaminated area.  
: 1) The area where the valve to be operated is. 2) The CA I/S Pit 3) The contaminated area.  


Line 1,124: Line 1,113:
Speed Control Handswitch (65-1EG1) taken to RAISE and synchroscope checked until rotating SLOWLY in FAST  
Speed Control Handswitch (65-1EG1) taken to RAISE and synchroscope checked until rotating SLOWLY in FAST  


direction (2-4 RPM_.  
direction (2-4 RPM_.
(65-u EG1 taken to LOWER if speed too fast.) Handswitch (65-1EG1) is a 3-POSITION SPRING RETURN TO OFF type switch  
(65-u EG1 taken to LOWER if speed too fast.) Handswitch (65-1EG1) is a 3-POSITION SPRING RETURN TO OFF type switch  


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Handswitch (90-1EG1) taken to RAISE to increase KVARS or LOWER to decrease  
Handswitch (90-1EG1) taken to RAISE to increase KVARS or LOWER to decrease  


KVARS as on DG1 KILOVAR Meter (VAR-1EG1) checked.  
KVARS as on DG1 KILOVAR Meter (VAR-1EG1) checked.
(This step should be  
(This step should be  


repeated as the DG is loaded.)
repeated as the DG is loaded.)
Initial License Exam                      03/2005 Job Performance Measure JPM: S6  Page 6 of 7 Rev Date: 1/26/05 STEP# *Critical ELEMENT  STANDARD  NOTES SAT/ UNSAT 11 Load the selected DG to  6.0 MW over a 20 minute period.
Initial License Exam                      03/2005 Job Performance Measure JPM: S6  Page 6 of 7 Rev Date: 1/26/05 STEP# *Critical ELEMENT  STANDARD  NOTES SAT/ UNSAT 11 Load the selected DG to  6.0 MW over a 20 minute period.
CUE:  Us informs you to load DG to 6 MW immediately.
CUE:  Us informs you to load DG to 6 MW immediately.
CUE:    When switch is taken to RAISE and W-uEG2 is observed, give reading indication incr easing MW or for Lower, decreasing MW. DG1 loaded to 6.0 MW over a 20 minute period  
CUE:    When switch is taken to RAISE and W-uEG2 is observed, give reading indication incr easing MW or for Lower, decreasing MW. DG1 loaded to 6.0 MW over a 20 minute period
( .3 MW/min) by moving the Speed Control Handswitch (65-1EG1) to RAISE direction and observing the DG1 MW Meter (W-1EG1).
( .3 MW/min) by moving the Speed Control Handswitch (65-1EG1) to RAISE direction and observing the DG1 MW Meter (W-1EG1).
Speed Control  
Speed Control  
Line 1,239: Line 1,228:


SOP-502A, "CCW System" ABN-502, "Component Cooling Water System Malfunction" Tools, Equipment, Job Aids, etc:
SOP-502A, "CCW System" ABN-502, "Component Cooling Water System Malfunction" Tools, Equipment, Job Aids, etc:
Simulator:  
Simulator:
: 1) Any IC above Mode 4. 2) Insert and activate MALF-CC03B 3) Insert MALF-CC02B on a key. When CCW pump 1-01 is stopped, activate malfunction.  
: 1) Any IC above Mode 4. 2) Insert and activate MALF-CC03B 3) Insert MALF-CC02B on a key. When CCW pump 1-01 is stopped, activate malfunction.  


Line 1,355: Line 1,344:
NOTE: 1-PI-2328, MSL 4 PRESS is failed high.
NOTE: 1-PI-2328, MSL 4 PRESS is failed high.
Step 2. Verify Steam Generator At mospheric Relief Valves - CLOSED:
Step 2. Verify Steam Generator At mospheric Relief Valves - CLOSED:
NO Step 2, RNO. Perform following:  
NO Step 2, RNO. Perform following:
: a. IF pressure is less than 1125 psig, THEN manually close affected atmospheric relief valve.  
: a. IF pressure is less than 1125 psig, THEN manually close affected atmospheric relief valve.
: b. Notify Chemistry that a release has occurred and for Chemistry to determine if a release permit is required per STA-603.  
: b. Notify Chemistry that a release has occurred and for Chemistry to determine if a release permit is required per STA-603.
: c. GO TO Step 11.
: c. GO TO Step 11.
Step 11. Refer to Techni cal Specifications per Attachment 6.
Step 11. Refer to Techni cal Specifications per Attachment 6.
Line 1,369: Line 1,358:


PZR Spray valve fails open.
PZR Spray valve fails open.
Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Time  RO  BOP  SRO  Applicant's Actions or Behavior 3.1 Symptoms
 
: a. Annunciator Alarms PRZR 1 OF 4 PRESS LO (5B-3.4) PRZR 1 OF 4 SI PRESS LO (5B-4.4) PRZR LO PRESS PORV 456 BLK (5B-1.6) PRZR LO PRESS PORV 455A BLK (5B-2.6
===3.1 Symptoms===
: a. Annunciator Alarms PRZR 1 OF 4 PRESS LO (5B-3.4) PRZR 1 OF 4 SI PRESS LO (5B-4.4) PRZR LO PRESS PORV 456 BLK (5B-1.6) PRZR LO PRESS PORV 455A BLK (5B-2.6  
: b. Plant Indication Spray valve indicated open when not called for by master controller.
: b. Plant Indication Spray valve indicated open when not called for by master controller.
 
3.2 Automatic Actions
===3.2 Automatic===
: a. Control response for failed open spray valve(s)
Actions  
: a. Control response for failed open spray valve(s)  
: 1) Control and backup heaters come on.
: 1) Control and backup heaters come on.
1/u-PCPR, PRZR CTRL HTR GROUP C 1/u-PCPR1, PRZR BACKUP HTR GROUP A 1/u-PCPR2, PRZR BACKUP HTR GROUP B 1/u-PCPR3, PRZR BACKUP HTR GROUP D  
1/u-PCPR, PRZR CTRL HTR GROUP C 1/u-PCPR1, PRZR BACKUP HTR GROUP A 1/u-PCPR2, PRZR BACKUP HTR GROUP B 1/u-PCPR3, PRZR BACKUP HTR GROUP D
: 2) Reactor trip at 1880 psig.  
: 2) Reactor trip at 1880 psig.
: 3) Safety Injection at 1820 psig.
: 3) Safety Injection at 1820 psig.
Enter section ABN-705, section 3, Pressurizer Spray Valve Failure Step 1. CLOSE Pressurizer Spray Valve(s) u-PK-455B, RC LOOP 1 PRZR SPR VLV CTRL u-PK-455C, RC LOOP 4 PRZR SPR VLV CTRL Step 2. Check RCS pressure stable or increasing.
Enter section ABN-705, section 3, Pressurizer Spray Valve Failure Step 1. CLOSE Pressurizer Spray Valve(s) u-PK-455B, RC LOOP 1 PRZR SPR VLV CTRL u-PK-455C, RC LOOP 4 PRZR SPR VLV CTRL Step 2. Check RCS pressure stable or increasing.
Line 1,395: Line 1,380:


86-2 LOR on Bus 1EA2 (Bus will be powered by the EDG)
86-2 LOR on Bus 1EA2 (Bus will be powered by the EDG)
Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
===2.1 Symptoms===
: a. Annunciator Alarms:
: a. Annunciator Alarms:
6.9 KV BUS uEA1 LOR TRIP (10B-1.5) 6.9 KV ANY BUS LOR LOSS OF CONTINUITY (10B-1.7) 6.9 KV ANY 1E XFMR BKR OPEN (10B-1.11) 6.9 KV BUS uEA2 LOR TRIP (10B-2.5) 6.9 KV BUS uEA1/uEA2 VOLTLOSS (10B-2.6) 6.9 KV BUS uEA1/uEA2 NOT PW RD FROM PREF OFFSITE PWR (10B-3.6) 6.9 KV/480V ANY 1E SECOND LVL UNDRVOLT (10B-4.5)  
6.9 KV BUS uEA1 LOR TRIP (10B-1.5) 6.9 KV ANY BUS LOR LOSS OF CONTINUITY (10B-1.7) 6.9 KV ANY 1E XFMR BKR OPEN (10B-1.11) 6.9 KV BUS uEA2 LOR TRIP (10B-2.5) 6.9 KV BUS uEA1/uEA2 VOLTLOSS (10B-2.6) 6.9 KV BUS uEA1/uEA2 NOT PW RD FROM PREF OFFSITE PWR (10B-3.6) 6.9 KV/480V ANY 1E SECOND LVL UNDRVOLT (10B-4.5)
: b. Plant Indications 345 KV supply outside of 340-361 KV 138 KV supply outside of 135-144 KV 6.9 KV or 480 V buses outside normal voltage limits 6.9 KV Voltage Limits = 6480 V to 7150 V 480 V Voltage Limits = 455 V to 508 V Slow transfer of a 6.9 KV safeguard bus Diesel generator supplying power to the bus Loss of transformer XST1, XST2, or XST1/2 6.9 KV bus uEA1 or uEA2 de-energized Lockout relay (LOR) trip of any 6.9 KV safeguard bus A 6.9 KV bus de-energized with no apparent causes.  
: b. Plant Indications 345 KV supply outside of 340-361 KV 138 KV supply outside of 135-144 KV 6.9 KV or 480 V buses outside normal voltage limits 6.9 KV Voltage Limits = 6480 V to 7150 V 480 V Voltage Limits = 455 V to 508 V Slow transfer of a 6.9 KV safeguard bus Diesel generator supplying power to the bus Loss of transformer XST1, XST2, or XST1/2 6.9 KV bus uEA1 or uEA2 de-energized Lockout relay (LOR) trip of any 6.9 KV safeguard bus A 6.9 KV bus de-energized with no apparent causes.
 
2.2 Automatic Actions Second level undervoltage at 6192 V (6.9 KV bus) or 442.4 V (480 V bus) will trip 6.9 KV safeguard bus preferred and alternate feeds. lists spec ific undervoltage response. Diesel generators auto-start and energize affected safeguard bus, loading via blackout sequencer. A ttachment 2 lists specific sequence. Transformer XST2 or XST1/2 f aults isolate 1EA1 and 1EA2 preferred source, causing slow transfer. Transformer 1ST fault momentar ily de-energizes XST2, causing a slow transfer. Transformer XST1 fault isolates 2EA1 and 2EA2 preferred source, causing slow transfer. Both affected 6.9 KV safeguard bus offsite feeder breakers open. Associated diesel generator starts Equipment powered from affected bus de-energizes.  
===2.2 Automatic===
Actions Second level undervoltage at 6192 V (6.9 KV bus) or 442.4 V (480 V bus) will trip 6.9 KV safeguard bus preferred and alternate feeds. lists spec ific undervoltage response. Diesel generators auto-start and energize affected safeguard bus, loading via blackout sequencer. A ttachment 2 lists specific sequence. Transformer XST2 or XST1/2 f aults isolate 1EA1 and 1EA2 preferred source, causing slow transfer. Transformer 1ST fault momentar ily de-energizes XST2, causing a slow transfer. Transformer XST1 fault isolates 2EA1 and 2EA2 preferred source, causing slow transfer. Both affected 6.9 KV safeguard bus offsite feeder breakers open. Associated diesel generator starts Equipment powered from affected bus de-energizes.  
             *BOLD INDICATES CRITICAL STEP Revision 2 Appendix D Op-Test No:
             *BOLD INDICATES CRITICAL STEP Revision 2 Appendix D Op-Test No:
1 Scenario No:1 Event No:3 Page 8 of 16 Event
1 Scenario No:1 Event No:3 Page 8 of 16 Event
Line 1,427: Line 1,408:


LOR on 1EA2  (Bus will be de-energized resulting in loss of all AFW)
LOR on 1EA2  (Bus will be de-energized resulting in loss of all AFW)
Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 3 Check 6.9 KV safeguard buses - BOTH ENERGIZED  
Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 3 Check 6.9 KV safeguard buses - BOTH ENERGIZED
: a. Bus voltage, 6500-7100 volts  
: a. Bus voltage, 6500-7100 volts
: b. Bus frequency, 59.5-60.5 Hz  
: b. Bus frequency, 59.5-60.5 Hz
: c. GO TO Step 5.
: c. GO TO Step 5.
Step 5 Monitor blackout sequencer status:  
Step 5 Monitor blackout sequencer status:
: a. Affected bus - ENERGIZED  
: a. Affected bus - ENERGIZED
: b. Verify Blackout Sequencer -OPERATED OUTPUT-STEP TIME lights -ALL LIT OR Automatic lockouts AL light -LIT  
: b. Verify Blackout Sequencer -OPERATED OUTPUT-STEP TIME lights -ALL LIT OR Automatic lockouts AL light -LIT
: c. Verify all required equipment actuated per Attachment 2.  
: c. Verify all required equipment actuated per Attachment 2.
: d. Recover from blackout s equencer operation per Section 8 while continuing.
: d. Recover from blackout s equencer operation per Section 8 while continuing.
NOTE:  After crew completes Att 2, and the SM is notified that the TD AFW Pump is INOPERABLE, the Booth Operator calls US as Shift Manager and inform the crew that the CPC RO will take over the ABN.
NOTE:  After crew completes Att 2, and the SM is notified that the TD AFW Pump is INOPERABLE, the Booth Operator calls US as Shift Manager and inform the crew that the CPC RO will take over the ABN.
Line 1,445: Line 1,426:


== Description:==
== Description:==
TDAWP Overspeeds on Auto Start Time  RO  BOP  SRO  Applicant's Actions or Behavior  
TDAWP Overspeeds on Auto Start Time  RO  BOP  SRO  Applicant's Actions or Behavior 4.1 Symptoms
 
: a. Annunciator Alarms TD AFWP OVRSPD TRIP (8B-4.6)
===4.1 Symptoms===
: b. Plant Indications Rapidly fluctuating AFWPT speed u-SI-2452A, AFWPT SPD 4.2 Automatic Action None Enter ABN-305 Aux Feedwater Malfunction Step1 Verify Turbine Driven Auxiliary Feedwater Pump malfunctioning by one or more of the following indications:
: a. Annunciator Alarms TD AFWP OVRSPD TRIP (8B-4.6)  
AFWPT TRIP light on u-HS-2452F - LIT Step 2 Verify Turbine Driven Auxiliary Feedwater Pump - NOT TRIPPED Step 2 RNO. Perform the following:
: b. Plant Indications Rapidly fluctuating AFWPT speed u-SI-2452A, AFWPT SPD  
: a. Ensure at least one steam supply valve open: u-HS-2452-1, AFWPT STM SPLYVLV-MSL 4 u-HS-2452-2, AFWPT STM SPLYVLV-MSL 1
 
: b. Lower u-SK-2452A, AFWPT SPD CTRL to 0% output.
===4.2 Automatic===
: c. Direct Plant Equipment Operator to perform the following per Attachment 1      1) Reset overspeed trip linkage.
Action None Enter ABN-305 Aux Feedwater Malfunction Step1 Verify Turbine Driven Auxiliary Feedwater Pump malfunctioning by one or more of the following indications:
: 2) Slowly open u-HV-2452, AFWPT u-01 TRIP AND THROT VLV
AFWPT TRIP light on u-HS-2452F - LIT Step 2 Verify Turbine Driven Auxiliary Feedwater Pump - NOT TRIPPED Step 2 RNO. Perform the following:  
: d. Verify u-HS-2452 G/H, AFWPT TRIP & THROTTLE VALVE open AND valve red lights are lit.
: a. Ensure at least one steam supply valve open: u-HS-2452-1, AFWPT STM SPLYVLV-MSL 4 u-HS-2452-2, AFWPT STM SPLYVLV-MSL 1  
: e. Adjust u-SK-2452A, AFWPT SPD CTRL to desired output.
: b. Lower u-SK-2452A, AFWPT SPD CTRL to 0% output.  
: c. Direct Plant Equipment Operator to perform the following per Attachment 1      1) Reset overspeed trip linkage.  
: 2) Slowly open u-HV-2452, AFWPT u-01 TRIP AND THROT VLV  
: d. Verify u-HS-2452 G/H, AFWPT TRIP & THROTTLE VALVE open AND valve red lights are lit.  
: e. Adjust u-SK-2452A, AFWPT SPD CTRL to desired output.  
: f. Return to procedure and step in effect.  
: f. Return to procedure and step in effect.  
                   *BOLD INDICATES CRITICAL STEP Revision 0 Appendix D Op-Test No:
                   *BOLD INDICATES CRITICAL STEP Revision 0 Appendix D Op-Test No:
Line 1,481: Line 1,457:
Feedline Break Outside Containment/LOR on 1EA2 Time  RO  BOP  SRO  Applicant's Actions or Behavior Annunciators ALB-08A, SG3 FW NZL FLO HI ALB-08A, SG3 STM & FW FLO MISMATCH ALB-08A, SG3 LLVL DEV ALB-08A, SG3 LVL LO Plant Indications Tave decreasing Bank D rods moving out Nuclear Power increasing MFP speed increasing Diagnose plant conditions and determi nes that a Feedwater Leak is occurring outside the Reactor Containment Building.
Feedline Break Outside Containment/LOR on 1EA2 Time  RO  BOP  SRO  Applicant's Actions or Behavior Annunciators ALB-08A, SG3 FW NZL FLO HI ALB-08A, SG3 STM & FW FLO MISMATCH ALB-08A, SG3 LLVL DEV ALB-08A, SG3 LVL LO Plant Indications Tave decreasing Bank D rods moving out Nuclear Power increasing MFP speed increasing Diagnose plant conditions and determi nes that a Feedwater Leak is occurring outside the Reactor Containment Building.
Orders a reactor trip and enters EOP-0.0A.
Orders a reactor trip and enters EOP-0.0A.
Step 1. Verify Reactor Trip  
Step 1. Verify Reactor Trip
: a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING  
: a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:  
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:  
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
: a. AC safeguards busses -
: a. AC safeguards busses -
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)  
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)
: b. AC safeguards busses - BOTH ENERGIZED Step b. RNO Restore power to de-energized AC Safeguards bus per ABN-601 or 602, when time permits.
: b. AC safeguards busses - BOTH ENERGIZED Step b. RNO Restore power to de-energized AC Safeguards bus per ABN-601 or 602, when time permits.
NOTE: It is probable that the crew will place the B EDG in Pull Out.  
NOTE: It is probable that the crew will place the B EDG in Pull Out.  
Line 1,496: Line 1,472:
== Description:==
== Description:==


Feedline Break Outside Containment/LOR on 1EA2 Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 4. Check SI Status:  
Feedline Break Outside Containment/LOR on 1EA2 Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 4. Check SI Status:
: a. Check If SI is Actuated:
: a. Check If SI is Actuated:
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON  
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON
: b. Verify Both Trains DI Actuated:
: b. Verify Both Trains DI Actuated:
SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.
SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.
Line 1,510: Line 1,486:


Feedline Break Outside Containment/LOR on 1EA2 Time  RO  BOP  SRO  Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RcCS Average Temperature - STABLE AT OR TRENDING TO 557° F.
Feedline Break Outside Containment/LOR on 1EA2 Time  RO  BOP  SRO  Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RcCS Average Temperature - STABLE AT OR TRENDING TO 557° F.
Step 2. Check FW Status:  
Step 2. Check FW Status:
: a. Verify reactor trip and bypass breaker - OPEN  
: a. Verify reactor trip and bypass breaker - OPEN
: b. Check RCS average temperatures - LESS THAN 564° F.  
: b. Check RCS average temperatures - LESS THAN 564° F.
: c. Verify Feedwater Isolation - ISOLATION COMPLETE  
: c. Verify Feedwater Isolation - ISOLATION COMPLETE
: d. Verify total AFW to SGs - GREATER THAN 460 GPM.
: d. Verify total AFW to SGs - GREATER THAN 460 GPM.
Step 3. Check PRZR Level Control:  
Step 3. Check PRZR Level Control:
: a. Level - GREATER THAN 17%  
: a. Level - GREATER THAN 17%
: b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE step c RNO. Perform the following to place letdown in service NOTE:  There was previously a leak in the letdown line. The crew should NOT establish letdown flow at this point.  
: b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE step c RNO. Perform the following to place letdown in service NOTE:  There was previously a leak in the letdown line. The crew should NOT establish letdown flow at this point.
: d. Level - TRENDING TO 25%
: d. Level - TRENDING TO 25%
Step 4. Check PRZR Pressure Control:  
Step 4. Check PRZR Pressure Control:
: a. Pressure - GREATER THAN 1820 PSIG  
: a. Pressure - GREATER THAN 1820 PSIG
: b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:  
: b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:
: a. Narrow Range Level - GREATER THAN 5%  
: a. Narrow Range Level - GREATER THAN 5%
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
NOTE:  The crew may get to this point or even further before the Heat Sink Red Path come in.  
NOTE:  The crew may get to this point or even further before the Heat Sink Red Path come in.  
Line 1,536: Line 1,512:
Time  RO  BOP  SRO  Applicant's Actions or Behavior Steam Generator Levels will continue to decrease. There is no AFW flow and the plant condition continues to degrade. As it becomes clear to the crew that the location of the feed break precludes the establishment of normal feed to the Steam Generator s the crew will enter FRH-0.1A, Response to a Loss of Secondary Heat Sink.
Time  RO  BOP  SRO  Applicant's Actions or Behavior Steam Generator Levels will continue to decrease. There is no AFW flow and the plant condition continues to degrade. As it becomes clear to the crew that the location of the feed break precludes the establishment of normal feed to the Steam Generator s the crew will enter FRH-0.1A, Response to a Loss of Secondary Heat Sink.
At approximately 8 minutes after the Feed break, AFW flow to the SG's will still be 0 and the narrow range level will be <5%.
At approximately 8 minutes after the Feed break, AFW flow to the SG's will still be 0 and the narrow range level will be <5%.
Enter FRH-0.1A Loss of Heat Sink Step 1 Check If Se condary Heat Sink is Required:  
Enter FRH-0.1A Loss of Heat Sink Step 1 Check If Se condary Heat Sink is Required:
: a. RCS pressure - GREATER THAN ANY NON_FAULTED SG PRESSURE  b. RCS temperature - GREATER THAN 320&deg;F Yes, continue to step 2.
: a. RCS pressure - GREATER THAN ANY NON_FAULTED SG PRESSURE  b. RCS temperature - GREATER THAN 320&deg;F Yes, continue to step 2.
Step 2. Check CCP Status - BOTH AVAILABLE Step 2, RNO. Immediately perform the following:  
Step 2. Check CCP Status - BOTH AVAILABLE Step 2, RNO. Immediately perform the following:
: a. STOP ALL RCP's  
: a. STOP ALL RCP's
: b. Got to Step 11. OBSERVE CAUTION PRIOR TO STEP 11.
: b. Got to Step 11. OBSERVE CAUTION PRIOR TO STEP 11.
CAUTION:  Steps 11 through 20  must be performed quicly in order to establish RCS removal by RCS bleed and feed.
CAUTION:  Steps 11 through 20  must be performed quicly in order to establish RCS removal by RCS bleed and feed.
Step 11. Actuate SI.
Step 11. Actuate SI.
Step 12. Verify RCS Feed Path:  
Step 12. Verify RCS Feed Path:
: a. Check Pump Status: CCP's BOTH RUNNING OR AT LEAST ON CCP AND AT LEAST ONE SI PUMP-RUNNING B. Check valve alignment for operating pumps - PROPER EMERGENCY ALIGNMENT PER ATTACHMENT 3.
: a. Check Pump Status: CCP's BOTH RUNNING OR AT LEAST ON CCP AND AT LEAST ONE SI PUMP-RUNNING B. Check valve alignment for operating pumps - PROPER EMERGENCY ALIGNMENT PER ATTACHMENT 3.
Step 12, RNO. Manually start pumps and align valves as necessary to establish feed path.
Step 12, RNO. Manually start pumps and align valves as necessary to establish feed path.
Line 1,554: Line 1,530:


Loss of Heat Sink ( with SI Pump Failure) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 14. Reset SI Step 15. Reset SI Sequencers Step 16. Reset Containment Isolation Phase A and B.
Loss of Heat Sink ( with SI Pump Failure) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 14. Reset SI Step 15. Reset SI Sequencers Step 16. Reset Containment Isolation Phase A and B.
Step 17. Reset Containment Spray Signal Step 18. Establish Instrument Air And Nitrogen to Containment.  
Step 17. Reset Containment Spray Signal Step 18. Establish Instrument Air And Nitrogen to Containment.
: a. Establish instrument air:  
: a. Establish instrument air:
: 1) Verify air compressor running and establish instrument air to containment.  
: 1) Verify air compressor running and establish instrument air to containment.
: b. Establish nitrogen  
: b. Establish nitrogen
: 1) Verify ACCUM 1-4 VENT CTRL, 1-HC-943 - CLOSED 2) Open SI/PORV ACCUM N2 ISOL VLV, 1/1-8880.
: 1) Verify ACCUM 1-4 VENT CTRL, 1-HC-943 - CLOSED 2) Open SI/PORV ACCUM N2 ISOL VLV, 1/1-8880.
Step 19. Establish RCS Bleed Path:  
Step 19. Establish RCS Bleed Path:
: a. Verify power to PRZR PORV block valves - AVAILABLE b. Verify PRZR PORV block valves - BOTH OPEN  
: a. Verify power to PRZR PORV block valves - AVAILABLE b. Verify PRZR PORV block valves - BOTH OPEN
: c. Open both - PRZR PORV's.
: c. Open both - PRZR PORV's.
Step 20. Verify Adequate RCS Bleed Path:
Step 20. Verify Adequate RCS Bleed Path:
Line 1,566: Line 1,542:
                                                       *BOLD INDICATES CRITICAL STEP
                                                       *BOLD INDICATES CRITICAL STEP


SHIFT TURNOVER INFORMATION
SHIFT TURNOVER INFORMATION 1.0 INITIAL CONDTIONS:
 
===1.0 INITIAL===
CONDTIONS:
Time in Core Life: BOL Tavg: 589 o F Reactor Power: 100%
Time in Core Life: BOL Tavg: 589 o F Reactor Power: 100%
RCS Pressure: 2235 psig Turbine Load:1200 Mwe Xenon: Equil Boron Concentration:1263 ppm Rod Control:        AUTO Rod Height: CB D @ 215steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:
RCS Pressure: 2235 psig Turbine Load:1200 Mwe Xenon: Equil Boron Concentration:1263 ppm Rod Control:        AUTO Rod Height: CB D @ 215steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:
TS# Description Reason    3.7.5  AFW                  AFW Pump 1-01 OOS for Oil Sample  
TS# Description Reason    3.7.5  AFW                  AFW Pump 1-01 OOS for Oil Sample 3.0 CLEARANCES IN EFFECT:
 
AFW Pump 1-01 OOS for Oil Sample 4.0 SAFETY SYSTEM SETTING BYPASS/MALFUNCTIONS None    5.0  DEGRADED EQUIPMENT 6.0 PLANNED EVOLUTIONS:
===3.0 CLEARANCES===
Return AFW Pump 1-01 to service when the oil sample is complete.
IN EFFECT:
7.0 TURNOVER INFORMATION:
AFW Pump 1-01 OOS for Oil Sample  
 
===4.0 SAFETY===
SYSTEM SETTING BYPASS/MALFUNCTIONS None    5.0  DEGRADED EQUIPMENT
 
===6.0 PLANNED===
EVOLUTIONS:
Return AFW Pump 1-01 to service when the oil sample is complete.  
 
===7.0 TURNOVER===
INFORMATION:
Unit 1 and Unit 2 are at 100% power. U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil. Maintenance is in the process of changing the oil and the pump should be ready for test in the next 6 hours. The Generation Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. There are no surveillances planned for this shift and the orders are to maintain current load and unit availability.  
Unit 1 and Unit 2 are at 100% power. U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil. Maintenance is in the process of changing the oil and the pump should be ready for test in the next 6 hours. The Generation Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. There are no surveillances planned for this shift and the orders are to maintain current load and unit availability.  


Line 1,655: Line 1,617:
== Description:==
== Description:==


SG Level Transmitter LT-552 Fails High Time  RO  BOP  SRO  Applicant's Actions or Behavior  
SG Level Transmitter LT-552 Fails High Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
: a. Annunciator Alarms SG 2 LVL LO (8A-2.6) SG 2 LVL DEV (8A-2.12) SG 2 STEM & FW FLO MISMATCH
===2.1 Symptoms===
: a. Annunciator Alarms SG 2 LVL LO (8A-2.6) SG 2 LVL DEV (8A-2.12) SG 2 STEM & FW FLO MISMATCH  
: b. Plant Indications
: b. Plant Indications
: 1) One steam generator level instrument indicating higher or lower than the other steamgenerators level instruments.
: 1) One steam generator level instrument indicating higher or lower than the other steamgenerators level instruments.
u-LI-552, SG 2 LVL (NR) CHAN II  
u-LI-552, SG 2 LVL (NR) CHAN II 2.2 Automatic Actions NOTE: Control responses will occur only if the failed channel is selected for control. Steam Generator Level Channel failing HIGH will cause the feedwater control valve to CL OSE, thereby decreasing steam generator level. (Unit 1 LO LEVEL REACTOR TRIP at 25%) (Unit 2 LO LEVEL REACTOR TRIP at 35.4%)
 
===2.2 Automatic===
Actions NOTE: Control responses will occur only if the failed channel is selected for control. Steam Generator Level Channel failing HIGH will cause the feedwater control valve to CL OSE, thereby decreasing steam generator level. (Unit 1 LO LEVEL REACTOR TRIP at 25%) (Unit 2 LO LEVEL REACTOR TRIP at 35.4%)
Diagnose Failed SG Level Controller and Enter ABN-710.
Diagnose Failed SG Level Controller and Enter ABN-710.
Step 1 Verify controlling level channel -FAILED.
Step 1 Verify controlling level channel -FAILED.
Line 1,680: Line 1,637:
== Description:==
== Description:==


SG Level Transmitter LT-552 Fails High (cont) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5 Verify automatic SG level control - DESIRED  
SG Level Transmitter LT-552 Fails High (cont) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5 Verify automatic SG level control - DESIRED
: a. Alternate level control channel responding normally.  
: a. Alternate level control channel responding normally.
: b. Automatic level control desired,as determined by UnitSupervisor.
: b. Automatic level control desired,as determined by UnitSupervisor.
Step 6 Select alternate channel: u-LS-529C, SG 2 LVL CHAN SELECT Step 7 Verify affected SG conditions for auto level control. Feedwater and steam flows matched. SG level stable at program.
Step 6 Select alternate channel: u-LS-529C, SG 2 LVL CHAN SELECT Step 7 Verify affected SG conditions for auto level control. Feedwater and steam flows matched. SG level stable at program.
Line 1,698: Line 1,655:
== Description:==
== Description:==


Trip of Running CCP Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Trip of Running CCP Time  RO  BOP  SRO  Applicant's Actions or Behavior 3.1 Symptoms
 
: a. Annunciator Alarms ANY RCP SEAL WTR INJ FLO LO (5A-1.6) PRZR LVL DEV LO (5C-1.2) ANY CHRG PMP OVRLOAD/TRIP (6A-1.7) REGEN HX LTDN OUT TEMP HI (6A-1.4) CHRG FLO HI/LO (6A-3.4)
===3.1 Symptoms===
: b. Plant Indications
: a. Annunciator Alarms ANY RCP SEAL WTR INJ FLO LO (5A-1.6) PRZR LVL DEV LO (5C-1.2) ANY CHRG PMP OVRLOAD/TRIP (6A-1.7) REGEN HX LTDN OUT TEMP HI (6A-1.4) CHRG FLO HI/LO (6A-3.4)  
: 1. Amber MISMATCH or trip light(s) ON at the charging pump control switch.1/u-APPD, PDP 1/u-APCH1, CCP 1 1/u-APCH2, CCP 2  2. Pressurizer level indicating lower than program level during steady state conditions. u-LR-459, PRZR LVL/PRZR LVL SET PT u-LI-459A, PRZR LVL CHAN I u-LI-460A, PRZR LVL CHAN II u-LI-461, PRZR LVL CHAN III  3. Charging Flow will indicate 0 gpm u-FI-121A, CHRG FLO 3.2 Automatic Actions
: b. Plant Indications  
: 1. Amber MISMATCH or trip light(s) ON at the charging pump control switch.1/u-APPD, PDP 1/u-APCH1, CCP 1 1/u-APCH2, CCP 2  2. Pressurizer level indicating lower than program level during steady state conditions. u-LR-459, PRZR LVL/PRZR LVL SET PT u-LI-459A, PRZR LVL CHAN I u-LI-460A, PRZR LVL CHAN II u-LI-461, PRZR LVL CHAN III  3. Charging Flow will indicate 0 gpm u-FI-121A, CHRG FLO  
 
===3.2 Automatic===
Actions  
: a. Letdown line isolation occurs at 17% pressurizer level AND pressurizer heaters will deenergize.
: a. Letdown line isolation occurs at 17% pressurizer level AND pressurizer heaters will deenergize.
Diagnose CCP Trip and Enter ABN-105 NOTE: Step 1 and 2 may be performed concurrently.        Step 1.  (Initial Operator Action ) Verify Component Cooling Water flow to RCP Thermal Barrier HX(s)-GREATER THAN 35 GPM:
Diagnose CCP Trip and Enter ABN-105 NOTE: Step 1 and 2 may be performed concurrently.        Step 1.  (Initial Operator Action ) Verify Component Cooling Water flow to RCP Thermal Barrier HX(s)-GREATER THAN 35 GPM:
Line 1,721: Line 1,673:
Start a Charging Pump.
Start a Charging Pump.
Step 4 Verify Seal Injection Flow to each RCP - BETWEEN 6 GPM AND 13 GPM          Step 5 Verify RCP Parameters in - NORMAL OPERATING RANGE:
Step 4 Verify Seal Injection Flow to each RCP - BETWEEN 6 GPM AND 13 GPM          Step 5 Verify RCP Parameters in - NORMAL OPERATING RANGE:
6 Verify PRZR level-GREATER THAN 17% AND INCREASING Step 7 Establish normal Letdown:  
6 Verify PRZR level-GREATER THAN 17% AND INCREASING Step 7 Establish normal Letdown:
: a. OPEN Letdown Isolation Valves: 1/u-LCV-460, LTDN ISOL VLV 1/u-LCV-459, LTDN ISOL VLV 1/u-8152, LTDN CNTMT ISOL VLV ORC 1/u-8160, LTDN CNTMT ISOL VLV IRC  
: a. OPEN Letdown Isolation Valves: 1/u-LCV-460, LTDN ISOL VLV 1/u-LCV-459, LTDN ISOL VLV 1/u-8152, LTDN CNTMT ISOL VLV ORC 1/u-8160, LTDN CNTMT ISOL VLV IRC  
                                     *BOLD INDICATES CRITICAL STEP
                                     *BOLD INDICATES CRITICAL STEP
Line 1,731: Line 1,683:
== Description:==
== Description:==


Trip of Running CCP Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Trip of Running CCP Time  RO  BOP  SRO  Applicant's Actions or Behavior
: b. Manually OPEN u-PK-131, LTDN HX OUT PRESS CTRL to 30% DEMAND (50% if restori ng two orifice valves).  
: b. Manually OPEN u-PK-131, LTDN HX OUT PRESS CTRL to 30% DEMAND (50% if restori ng two orifice valves).
: c. Manually OPEN u-TK-130, LTDN HX OUT TEMP CTRL to 50%
: c. Manually OPEN u-TK-130, LTDN HX OUT TEMP CTRL to 50%
DEMAND. d. Adjust charging to desired flow WH ILE maintaining seal injection flow between 6 and 13 gpm.
DEMAND. d. Adjust charging to desired flow WH ILE maintaining seal injection flow between 6 and 13 gpm.
Line 1,742: Line 1,694:


95&deg;F AND place in AUTO.
95&deg;F AND place in AUTO.
Step 8 Verify RCS leakage - NORMAL  
Step 8 Verify RCS leakage - NORMAL
: a. PRZR level stable at OR trending to program.  
: a. PRZR level stable at OR trending to program.
: b. Charging flow less than 15 GPM above letdown flow.
: b. Charging flow less than 15 GPM above letdown flow.
Step 9 Refer to Technical Specifications listed in Section 9.1, this procedure.  
Step 9 Refer to Technical Specifications listed in Section 9.1, this procedure.
 
9.1 Technical Specifications/Requirements 3.4.13, RCS Operational Leakage 3.4.14, RCS Pressure Is olation Valve (PIV) Leakage 3.4.15, RCS Leakage Detect ion Instrumentation 3.5.2, ECCS - Operating 3.5.3, ECCS - Shutdown 13.1.31, Boration Injection System - Operating 13.1.32, Boration Inject ion System - Shutdown  
===9.1 Technical===
Specifications/Requirements 3.4.13, RCS Operational Leakage 3.4.14, RCS Pressure Is olation Valve (PIV) Leakage 3.4.15, RCS Leakage Detect ion Instrumentation 3.5.2, ECCS - Operating 3.5.3, ECCS - Shutdown 13.1.31, Boration Injection System - Operating 13.1.32, Boration Inject ion System - Shutdown  
                                                       *BOLD INDICATES CRITICAL STEP
                                                       *BOLD INDICATES CRITICAL STEP


Line 1,757: Line 1,707:
== Description:==
== Description:==


Letdown Leak Inside Containment Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Letdown Leak Inside Containment Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
: a. Annunciator Alarms CNTMT SMP 1 FILL RATE INCREASE (2A-1.6) CNTMT SMP 1 LVL HI-HI (2A-1.7) CNTMT SMP 2 LVL HI-HI (2A-1.8) CNTMT SMP 2 FILL RATE INCREASE (2A-2.6) RX CAV SMP LVL HI-HI (2A-2.7) CNTNT FAN CLR 3 & 4 CNDS FILL RATE HI (2B-3.12) CNTNT FAN CLR 1 & 2 CNDS FILL RATE HI (2B-4.12) PRZR LVL DEV LO (5C-1.2) CHRG FLO HI/LO (6A-3.4) 2.1 b. Plant Indications Containment humidity high or increasing Containment radiation levels high or increasing Incore instrument leakage alarm Containment temperature high or increasing Containment pressure high or increasing Containment dew point increasing Increased reactor coolant make-up frequency VCT level decreasing Charging flow increasing Pressurizer relief and safety valve temperature high Pressurizer level decreasing Condenser off gas radiation level increasing 2.2 Automatic Actions
===2.1 Symptoms===
: a. IF pressurizer level decreases to the low level alarm (5B-3.6), THEN letdown will isolate and pressurizer heaters will be blocked.
: a. Annunciator Alarms CNTMT SMP 1 FILL RATE INCREASE (2A-1.6) CNTMT SMP 1 LVL HI-HI (2A-1.7) CNTMT SMP 2 LVL HI-HI (2A-1.8) CNTMT SMP 2 FILL RATE INCREASE (2A-2.6) RX CAV SMP LVL HI-HI (2A-2.7) CNTNT FAN CLR 3 & 4 CNDS FILL RATE HI (2B-3.12) CNTNT FAN CLR 1 & 2 CNDS FILL RATE HI (2B-4.12) PRZR LVL DEV LO (5C-1.2) CHRG FLO HI/LO (6A-3.4) 2.1 b. Plant Indications Containment humidity high or increasing Containment radiation levels high or increasing Incore instrument leakage alarm Containment temperature high or increasing Containment pressure high or increasing Containment dew point increasing Increased reactor coolant make-up frequency VCT level decreasing Charging flow increasing Pressurizer relief and safety valve temperature high Pressurizer level decreasing Condenser off gas radiation level increasing  
 
===2.2 Automatic===
Actions  
: a. IF pressurizer level decreases to the low level alarm (5B-3.6), THEN letdown will isolate and pressurizer heaters will be blocked.  
: b. IF VCT level decreases to the lo-l o level alarm (6A-4.5), THEN charging pump suction will transfer to the RWST.
: b. IF VCT level decreases to the lo-l o level alarm (6A-4.5), THEN charging pump suction will transfer to the RWST.
Enters ABN-103 RCS Leak Step 1 Verify charging pump - AT LEAST ONE RUNNING 1/u-APPD, PDP 1/u-APCH1, CCP 1 1/u-APCH2, CCP 2  
Enters ABN-103 RCS Leak Step 1 Verify charging pump - AT LEAST ONE RUNNING 1/u-APPD, PDP 1/u-APCH1, CCP 1 1/u-APCH2, CCP 2  
Line 1,777: Line 1,722:
Letdown Leak Inside Containment Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 2 Ensure Pressurizer level - AT OR TRENDING TO PROGRAM LEVEL SETPOINT a. Verify running charging pump cont roller automatically maintaining Pressurizer level at program setpoint u-FK-121, CCP CHRG FLOCTRL u-SK-459A, PDP SPD CTRL Step 2 (RNO). Place the running charging pump controller in MANUAL AND adjust charging flow to maintain pressu rizer level at program level setpoint Step 3 Check PRZR Status a. PRZR PORVs - CLOSED 1/u-PCV-455A, PRZR PORV 1/u-PCV-456, PRZR PORV b. PRZR Safety Valves - CLOSED u-ZL-8010A, PRZR SFTY VLV A u-ZL-8010B, PRZR SFTY VLV B u-ZL-8010C, PRZR SFTY VLV C c. PRZR Spray Valves - RESPONDING NORMALLY TO CONTROL  
Letdown Leak Inside Containment Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 2 Ensure Pressurizer level - AT OR TRENDING TO PROGRAM LEVEL SETPOINT a. Verify running charging pump cont roller automatically maintaining Pressurizer level at program setpoint u-FK-121, CCP CHRG FLOCTRL u-SK-459A, PDP SPD CTRL Step 2 (RNO). Place the running charging pump controller in MANUAL AND adjust charging flow to maintain pressu rizer level at program level setpoint Step 3 Check PRZR Status a. PRZR PORVs - CLOSED 1/u-PCV-455A, PRZR PORV 1/u-PCV-456, PRZR PORV b. PRZR Safety Valves - CLOSED u-ZL-8010A, PRZR SFTY VLV A u-ZL-8010B, PRZR SFTY VLV B u-ZL-8010C, PRZR SFTY VLV C c. PRZR Spray Valves - RESPONDING NORMALLY TO CONTROL  


PRESSURE u-ZL-455B, RC LOOP 1 PRZRSPR VLV u-ZL-455C, RC LOOP 4 PRZR SPR VLV  
PRESSURE u-ZL-455B, RC LOOP 1 PRZRSPR VLV u-ZL-455C, RC LOOP 4 PRZR SPR VLV
: d. Pressurizer Relief Tank level AND temperature - NO SIGNIFICANT INCREASE  u-TI-468, PRT TEMP u-LI-470, PRT LVL u-PI-469, PRT PRESS  
: d. Pressurizer Relief Tank level AND temperature - NO SIGNIFICANT INCREASE  u-TI-468, PRT TEMP u-LI-470, PRT LVL u-PI-469, PRT PRESS
: d. Check PRZR PORV AND Safety Valves for indication of leakage: u-TI-463, PRZR PORV OUT TEMP u-TI-464, PRZR SFTY VLV C OUT TEMP u-TI-465, PRZR SFTY VLV B OUT TEMP Step 4 Verify AUTO makeup in service 1/u-MU, RCS MU MAN ACT -START 43/u-MU, RCS MU MODE SELECT- AUTO Step 5 Verify 1/u-LCV-112A, VCT LVL CTRL VLV - ALIGNED TO VCT.
: d. Check PRZR PORV AND Safety Valves for indication of leakage: u-TI-463, PRZR PORV OUT TEMP u-TI-464, PRZR SFTY VLV C OUT TEMP u-TI-465, PRZR SFTY VLV B OUT TEMP Step 4 Verify AUTO makeup in service 1/u-MU, RCS MU MAN ACT -START 43/u-MU, RCS MU MODE SELECT- AUTO Step 5 Verify 1/u-LCV-112A, VCT LVL CTRL VLV - ALIGNED TO VCT.
Step 6 Check Steam Generator status:  
Step 6 Check Steam Generator status:
: a. All Steam Generator levels - NORMAL  
: a. All Steam Generator levels - NORMAL
: b. Verify SG feedwater/steam flow - NO SIGNIFICANT MISMATCH  
: b. Verify SG feedwater/steam flow - NO SIGNIFICANT MISMATCH
: c. Monitor PC-11 trends on affected Steam Generators for increased  
: c. Monitor PC-11 trends on affected Steam Generators for increased  


Line 1,800: Line 1,745:
Step 9 Dispatch personnel to search for leak while continuing with this  
Step 9 Dispatch personnel to search for leak while continuing with this  


procedure:  
procedure:
: a. Check the following:  
: a. Check the following:
: 1) Residual Heat Removal Line pressure - NORMAL FOR CONDITIONS Piping temperature - AMBIENT NO piping leaks 2) Safety Injection NO piping leaks Piping temperature - AMBIENT  
: 1) Residual Heat Removal Line pressure - NORMAL FOR CONDITIONS Piping temperature - AMBIENT NO piping leaks 2) Safety Injection NO piping leaks Piping temperature - AMBIENT
: 3) RCS Letdown and Makeup NO piping leaks Filter Drains - CLOSED NO pump leakage NO BTRS drain valve or diaphragm valve leakage.  
: 3) RCS Letdown and Makeup NO piping leaks Filter Drains - CLOSED NO pump leakage NO BTRS drain valve or diaphragm valve leakage.
: 4) Auxiliary Building AND SFGD bu ilding sump levels - NO UNEXPECTED INCREASE                                              *BOLD INDICATES CRITICAL STEP
: 4) Auxiliary Building AND SFGD bu ilding sump levels - NO UNEXPECTED INCREASE                                              *BOLD INDICATES CRITICAL STEP


Line 1,812: Line 1,757:
== Description:==
== Description:==


Letdown Leak Inside Containment Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 10. Check areas AND sy stems for signs of leakage:  
Letdown Leak Inside Containment Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 10. Check areas AND sy stems for signs of leakage:
: a. Verify PC-11 Trends - NORMAL Main Steam Line Monitors SFGDs Building ARMs Auxiliary Building ARMs Containment Building ARMs AND PIG Component Cooling Water Process Monitors b. Verify Accumulator Tank levels - NORMAL c.Verify Containment Building Sumps - NOT INCREASING:
: a. Verify PC-11 Trends - NORMAL Main Steam Line Monitors SFGDs Building ARMs Auxiliary Building ARMs Containment Building ARMs AND PIG Component Cooling Water Process Monitors b. Verify Accumulator Tank levels - NORMAL c.Verify Containment Building Sumps - NOT INCREASING:
u-LI-5160, CNTMT SMP 1 LVL u-LI-5161, CNTMT SMP 2 LVL u-LI-5164, RX CAV SMP LVL  d. Verify Reactor Coolant Drain Tank level AND discharge flow - NORMAL Step 11 Check letdown and normal charging for leakage.  
u-LI-5160, CNTMT SMP 1 LVL u-LI-5161, CNTMT SMP 2 LVL u-LI-5164, RX CAV SMP LVL  d. Verify Reactor Coolant Drain Tank level AND discharge flow - NORMAL Step 11 Check letdown and normal charging for leakage.
: a. Area Radiation Monitor in vicini ty of letdown and charging - NORMAL PPAu21, HRAM PIPE PENET N(S). 810 (u-RE-6259B)  
: a. Area Radiation Monitor in vicini ty of letdown and charging - NORMAL PPAu21, HRAM PIPE PENET N(S). 810 (u-RE-6259B)
: b. Check FFLu60, FAILED FUEL (u-RE-0406) for loss of flow.  
: b. Check FFLu60, FAILED FUEL (u-RE-0406) for loss of flow.
: c. Verify VCT level - NORMAL  
: c. Verify VCT level - NORMAL
: d. Verify RCS Makeup Flow and makeup intervals - NORMAL  
: d. Verify RCS Makeup Flow and makeup intervals - NORMAL
: e. Verify NO reports of leakage observed.  
: e. Verify NO reports of leakage observed.
: f. Letdown flow - LESS THAN 140 gpm  
: f. Letdown flow - LESS THAN 140 gpm
: 2) Isolate Letdown and normal charging as follows:
: 2) Isolate Letdown and normal charging as follows:
A) Close Orifice Isolation Valves: 1/u-8149A, LTDN ORIFICE ISOL VLV (45 GPM) 1/u-8149B, LTDN ORIFICE ISOL VLV (75 GPM) 1/u-8149C, LTDN ORIFICE ISOL VLV (75 GPM)  B) Close Letdown Isolation Valves: 1/u-LCV-460, LTDN ISOL VLV 1/u-LCV-459, LTDN ISOL VLV Note:  The crew may not get to this point. The next event will happen at the discretion of the lead evaluator.  
A) Close Orifice Isolation Valves: 1/u-8149A, LTDN ORIFICE ISOL VLV (45 GPM) 1/u-8149B, LTDN ORIFICE ISOL VLV (75 GPM) 1/u-8149C, LTDN ORIFICE ISOL VLV (75 GPM)  B) Close Letdown Isolation Valves: 1/u-LCV-460, LTDN ISOL VLV 1/u-LCV-459, LTDN ISOL VLV Note:  The crew may not get to this point. The next event will happen at the discretion of the lead evaluator.  
Line 1,829: Line 1,774:
== Description:==
== Description:==


RCP Seized Shaft Time  RO  BOP  SRO  Applicant's Actions or Behavior  
RCP Seized Shaft Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
: a. Annunciators Alarm ANY RCP TRIP (5B-1.1) 1 OF 4 RCP UNDRVOLT (5B-1.2) RC LOOP 1 1 OF 3 FLO LO (5A-1.3) 1 OF 4 RCP UNDRFREQ (5B-2.2) RC LOOP 2 1 OF 3 FLO LO (5A-2.3) RC LOOP 3 1 OF 3 FLO LO (5A-3.3) RC LOOP 4 1 OF 3 FLO LO (5A-4.3)
===2.1 Symptoms===
: b. Plant Indications Low flow indication on any reactor coolant loop. Breaker TRIP or MISMATCH light illuminated on any RCP handswitch. Motor amps on any RCP motor reading zero.
: a. Annunciators Alarm ANY RCP TRIP (5B-1.1) 1 OF 4 RCP UNDRVOLT (5B-1.2) RC LOOP 1 1 OF 3 FLO LO (5A-1.3) 1 OF 4 RCP UNDRFREQ (5B-2.2) RC LOOP 2 1 OF 3 FLO LO (5A-2.3) RC LOOP 3 1 OF 3 FLO LO (5A-3.3) RC LOOP 4 1 OF 3 FLO LO (5A-4.3)  
2.2 Automatic Actions Reactor trip occursin the event of one reactor coolant pump trip with  
: b. Plant Indications Low flow indication on any reactor coolant loop. Breaker TRIP or MISMATCH light illuminated on any RCP handswitch. Motor amps on any RCP motor reading zero.  
 
===2.2 Automatic===
Actions Reactor trip occursin the event of one reactor coolant pump trip with  


reactor power greater than 48% (P-8 permissive annunciator NOT LIT). Reactor trip occurs in the event of two reactor coolant pumps trip  
reactor power greater than 48% (P-8 permissive annunciator NOT LIT). Reactor trip occurs in the event of two reactor coolant pumps trip  
Line 1,842: Line 1,783:
with reactor power orturbine power greater than 10% (P-7 permissive annunciator NOT LIT).
with reactor power orturbine power greater than 10% (P-7 permissive annunciator NOT LIT).
If the crew enters ABN-101 the first step is:
If the crew enters ABN-101 the first step is:
Step 1. (Initial Operator Action)  Check Plant status
Step 1. (Initial Operator Action)  Check Plant status
: a. Verify Reactor - Tripped  
: a. Verify Reactor - Tripped
: b. GO TO EOP-0.0A/B while other qualified operators continue with this procedure.  
: b. GO TO EOP-0.0A/B while other qualified operators continue with this procedure.  
                                                         *BOLD INDICATES CRITICAL STEP Revision 0 Appendix D Op-Test No:
                                                         *BOLD INDICATES CRITICAL STEP Revision 0 Appendix D Op-Test No:
Line 1,851: Line 1,792:
== Description:==
== Description:==


RCP Seized Shaft  Time  RO  BOP  SRO  Applicant's Actions or Behavior  
RCP Seized Shaft  Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
===2.1 Symptoms===
: a. Annunciators Alarm RX> 48% PWR 1 OF 4 RC LOOP FLO LO (6C-4.2) RX> 10% PWR PRZR PRSS LO  (6C-1.3) SG2 LVL LO    (6C-2.6)
: a. Annunciators Alarm RX> 48% PWR 1 OF 4 RC LOOP FLO LO (6C-4.2) RX> 10% PWR PRZR PRSS LO  (6C-1.3) SG2 LVL LO    (6C-2.6)
Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Reactor Trip breakers open and the turbine trips Orders a reactor trip and enters EOP-0.0A.
Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Reactor Trip breakers open and the turbine trips Orders a reactor trip and enters EOP-0.0A.
Step 1. Verify Reactor Trip  
Step 1. Verify Reactor Trip
: a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING  
: a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:  
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:  
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
: a. AC safeguards busses -
: a. AC safeguards busses -
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)  
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:  
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
: a. Check If SI is Actuated:
: a. Check If SI is Actuated:
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON  
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON
: b. Verify Both Trains DI Actuated:
: b. Verify Both Trains DI Actuated:
SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.
SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.
Line 1,875: Line 1,814:


Reactor Trip Response Time  RO  BOP  SRO  Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557&deg; F.
Reactor Trip Response Time  RO  BOP  SRO  Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557&deg; F.
Step 2. Check FW Status:  
Step 2. Check FW Status:
: a. Verify reactor trip and bypass breaker - OPEN  
: a. Verify reactor trip and bypass breaker - OPEN
: b. Check RCS average temperatures - LESS THAN 564&deg; F.  
: b. Check RCS average temperatures - LESS THAN 564&deg; F.
: c. Verify Feedwater Isolation - ISOLATION COMPLETE  
: c. Verify Feedwater Isolation - ISOLATION COMPLETE
: d. Verify total AFW to SGs - GREATER THAN 460 GPM.
: d. Verify total AFW to SGs - GREATER THAN 460 GPM.
Step 3. Check PRZR Level Control:  
Step 3. Check PRZR Level Control:
: a. Level - GREATER THAN 17%  
: a. Level - GREATER THAN 17%
: b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE  
: b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE
: d. Level - TRENDING TO 25%
: d. Level - TRENDING TO 25%
Step 4. Check PRZR Pressure Control:  
Step 4. Check PRZR Pressure Control:
: a. Pressure - GREATER THAN 1820 PSIG  
: a. Pressure - GREATER THAN 1820 PSIG
: b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:  
: b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:
: a. Narrow Range Level - GREATER THAN 5%  
: a. Narrow Range Level - GREATER THAN 5%
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
NOTE:  Because of the RCP Trip, the level in the #1 SG will be higher than in the other SGs. The crew should NOT believe that this is indication of a SGTR. If they do, however, it will not effect the outcome of the scenario  
NOTE:  Because of the RCP Trip, the level in the #1 SG will be higher than in the other SGs. The crew should NOT believe that this is indication of a SGTR. If they do, however, it will not effect the outcome of the scenario  
Line 1,896: Line 1,835:
== Description:==
== Description:==


LB LOCA (Auto SI Fails) Time  RO  BOP  SRO  Applicant's Actions or Behavior  
LB LOCA (Auto SI Fails) Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
===2.1 Symptoms===
: a. Annunciators Alarm PRZR PRESS LO SI ACT (6C-2.7) CNTMT PRESS HI SI ACT  (6C-4.7)
: a. Annunciators Alarm PRZR PRESS LO SI ACT (6C-2.7) CNTMT PRESS HI SI ACT  (6C-4.7)
Plant Indications RCS pressure and temperature rapidly dropping, Pressurizer level and pressure dropping and Containment Temperature and Pressure increasing rapidly.        Automatic Actions Automatic SI will not function and RHR Pump 1-02 fails to start.
Plant Indications RCS pressure and temperature rapidly dropping, Pressurizer level and pressure dropping and Containment Temperature and Pressure increasing rapidly.        Automatic Actions Automatic SI will not function and RHR Pump 1-02 fails to start.
NOTE:  It is expected that the operator will initiate Manual SI prior to procedure entry.
NOTE:  It is expected that the operator will initiate Manual SI prior to procedure entry.
Transitions to  EOP-0.0A.
Transitions to  EOP-0.0A.
Step 1. Verify Reactor Trip  
Step 1. Verify Reactor Trip
: a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING  
: a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:  
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:  
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
: a. AC safeguards busses -
: a. AC safeguards busses -
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)  
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:  
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
: a. Check If SI is Actuated:
: a. Check If SI is Actuated:
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON  
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON
: b. Verify Both Trains DI Actuated:
: b. Verify Both Trains DI Actuated:
SI Actuated blue status light - ON NOT FLASHING Step 4 RNO. Check if SI required (YES) Manually Initiate SI.  
SI Actuated blue status light - ON NOT FLASHING Step 4 RNO. Check if SI required (YES) Manually Initiate SI.  
Line 1,922: Line 1,859:
LB LOCA (Auto SI Fails) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5. Ensure Proper Saf eguards Equipment Operation Per Attachment 2.
LB LOCA (Auto SI Fails) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5. Ensure Proper Saf eguards Equipment Operation Per Attachment 2.
NOTE: It is expected that the RHR pump trip will be noticed and documented during the performance of Attachment 2.
NOTE: It is expected that the RHR pump trip will be noticed and documented during the performance of Attachment 2.
Step 6. Verify AFW Alignment  
Step 6. Verify AFW Alignment
: a. MDAFWP - RUNNING  
: a. MDAFWP - RUNNING
: b. Turbine Driven AFW Pump - RUNNING IF NECESSARY  
: b. Turbine Driven AFW Pump - RUNNING IF NECESSARY
: c. AFW total flow - GREATER THAN 460 GPM  
: c. AFW total flow - GREATER THAN 460 GPM
: d. AFW Valves alignment - PROPER ALIGNMENT Step 7. Verify Containment Spray Not Required :  
: d. AFW Valves alignment - PROPER ALIGNMENT Step 7. Verify Containment Spray Not Required :
: a. Containment Pressure - HAS REMAINED LESS THAN 18 PSIG (NO)
: a. Containment Pressure - HAS REMAINED LESS THAN 18 PSIG (NO)
Step a RNO. Perform the following:  
Step a RNO. Perform the following:
: 1) Verify Containment Spray inititated. 2) Verify appropriated MLB indication for CNTMT SPRAY (BLUE WINDOWS) AND PHASE B  (ORANGE WINDOWS) 3) Verify containment spray flow 4) Esnure CHEM ADD TK DISCH VLVs - OPEN  
: 1) Verify Containment Spray inititated. 2) Verify appropriated MLB indication for CNTMT SPRAY (BLUE WINDOWS) AND PHASE B  (ORANGE WINDOWS) 3) Verify containment spray flow 4) Esnure CHEM ADD TK DISCH VLVs - OPEN
: 5) Stop all RCPs. (NOTE:  The crew will stop RCPs at this point instead of waiting until step 11. They may also have stopped the RCPs per the fold out page for this procedure.) 6) Go to step 8.
: 5) Stop all RCPs. (NOTE:  The crew will stop RCPs at this point instead of waiting until step 11. They may also have stopped the RCPs per the fold out page for this procedure.) 6) Go to step 8.
Step 8. Check if Main Steamlines should be Isolated:  
Step 8. Check if Main Steamlines should be Isolated:
: a. Verify the following: Containment Pressure - GR EATER THAN 6 PSIG (YES)  
: a. Verify the following: Containment Pressure - GR EATER THAN 6 PSIG (YES)
: b. Verify main steam isolation complete.
: b. Verify main steam isolation complete.
Step 9. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557&deg;F.
Step 9. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557&deg;F.
Step 9 RNO. Throttle AFW and stop dumping steam.
Step 9 RNO. Throttle AFW and stop dumping steam.
Step 10. Check PRZR Valve Status:  
Step 10. Check PRZR Valve Status:
: a. PRZR Safeties - CLOSED  
: a. PRZR Safeties - CLOSED
: b. Normal PRZR Spray valves - CLOSED c. PORVs - CLOSED  
: b. Normal PRZR Spray valves - CLOSED c. PORVs - CLOSED
: d. Power to at least one block valve - AVAILABLE e. Block valves - AT LEAST ONE OPEN  
: d. Power to at least one block valve - AVAILABLE e. Block valves - AT LEAST ONE OPEN  
                   *BOLD INDICATES CRITICAL STEP
                   *BOLD INDICATES CRITICAL STEP
Line 1,948: Line 1,885:
== Description:==
== Description:==


LB LOCA (Auto SI Fails) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 11. Check if RCPs should be stopped:  
LB LOCA (Auto SI Fails) Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 11. Check if RCPs should be stopped:
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)  
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)
: c. Stop all RCPs.
: c. Stop all RCPs.
Step 12. Check if any SG is Faulted:  
Step 12. Check if any SG is Faulted:
: a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER   
: a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER   
                                 -OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 13.  
                                 -OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 13.
: b. Go to EOP-2.0A, FAULTED STEAM GENERATOR ISOLATION, Step 1.
: b. Go to EOP-2.0A, FAULTED STEAM GENERATOR ISOLATION, Step 1.
Step 13.Check if SG Tubes Are Not Ruptured:
Step 13.Check if SG Tubes Are Not Ruptured:
Line 1,968: Line 1,905:


LB LOCA (Auto SI Fails)  EOP 1.0A Loss of Reactor or Secondary Coolant Time  RO  BOP  SRO  Applicant's Actions or Behavior NOTE:  It is expected that the RWST level will be at 45% within 17 minutes of the LBLOCA. The progress through EOP-1.0A will vary with each crew dependent upon how fast they proceed. Actual progress is not important, but the transition to EOS-1.3 A, Trans fer to Cold Leg Recirculation, when plant conditions require, is.
LB LOCA (Auto SI Fails)  EOP 1.0A Loss of Reactor or Secondary Coolant Time  RO  BOP  SRO  Applicant's Actions or Behavior NOTE:  It is expected that the RWST level will be at 45% within 17 minutes of the LBLOCA. The progress through EOP-1.0A will vary with each crew dependent upon how fast they proceed. Actual progress is not important, but the transition to EOS-1.3 A, Trans fer to Cold Leg Recirculation, when plant conditions require, is.
Transitions to EOP-1.0A , Loss of Reactor or Secondary Coolant Step 1. Check if RCPs should be stopped:  
Transitions to EOP-1.0A , Loss of Reactor or Secondary Coolant Step 1. Check if RCPs should be stopped:
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)  
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)
: c. Stop all RCPs.
: c. Stop all RCPs.
NOTE: ALL RCPs SHOULD BE ST OPPED AT THIS POINT.
NOTE: ALL RCPs SHOULD BE ST OPPED AT THIS POINT.
Step 2. Check if any SG is Faulted:  
Step 2. Check if any SG is Faulted:
: a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER   
: a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER   
                                 -OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 3.  
                                 -OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 3.
: b. Go to EOP-2.0A, FAULTED ST EAM GENERATOR ISOLATION, Step 1.
: b. Go to EOP-2.0A, FAULTED ST EAM GENERATOR ISOLATION, Step 1.
Step 3. Check SG Levels:  
Step 3. Check SG Levels:
: a. Narrow Range Level - GREATER THAN 5%  
: a. Narrow Range Level - GREATER THAN 5%
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
Step 4.Check Secondary Radiation - NORMAL Condenser off gas radiation  
Step 4.Check Secondary Radiation - NORMAL Condenser off gas radiation  
Line 1,997: Line 1,934:
Caution:  Any ECCS or Containment Spray pump that loses suction or shows indication of cavitation should be stopped.
Caution:  Any ECCS or Containment Spray pump that loses suction or shows indication of cavitation should be stopped.
Caution:  SI pumps should be stopped if RCS pressure is greater than their shutoff head pressure.
Caution:  SI pumps should be stopped if RCS pressure is greater than their shutoff head pressure.
Step 3. Align ECCS For Cold Leg Recirculation  
Step 3. Align ECCS For Cold Leg Recirculation
: a. Check open CNTMT SMP TO RHRP 1 AND 2 SUCT ISOL VLVS: 1/1-8811A 1/1-8811B  
: a. Check open CNTMT SMP TO RHRP 1 AND 2 SUCT ISOL VLVS: 1/1-8811A 1/1-8811B
: b. Close RWST TO RHRP 1 AND RHRP 2 SUCT VLVS 1/1-8812A 1/1-8812B  
: b. Close RWST TO RHRP 1 AND RHRP 2 SUCT VLVS 1/1-8812A 1/1-8812B
: c. Close SIP 1 AND SIP 2 MINIFLO VLVS:
: c. Close SIP 1 AND SIP 2 MINIFLO VLVS:
1/1-8814A 1/1-8814B 1/1-8813  d. Close RHRP 1 AND RHRP 2 XTIE VLVS:
1/1-8814A 1/1-8814B 1/1-8813  d. Close RHRP 1 AND RHRP 2 XTIE VLVS:
Line 2,011: Line 1,948:
== Description:==
== Description:==


LB LOCA (Auto SI Fails)  EO2 1.3A Transfer to Cold Leg Recirculation Time  RO  BOP  SRO  Applicant's Actions or Behavior  
LB LOCA (Auto SI Fails)  EO2 1.3A Transfer to Cold Leg Recirculation Time  RO  BOP  SRO  Applicant's Actions or Behavior
: e. Close the CCP ALT MINIFLO ISOL VLVS:
: e. Close the CCP ALT MINIFLO ISOL VLVS:
1/1-8511A 1/1-8512B 1/1-8511B 1/1-8512A  
1/1-8511A 1/1-8512B 1/1-8511B 1/1-8512A
: f. Open SI < -- > CHRG SUCT HDR XTIE VLVS:
: f. Open SI < -- > CHRG SUCT HDR XTIE VLVS:
1/1-8807A 1/1-8807B  
1/1-8807A 1/1-8807B
: g. Open RHRPs TO CCP/SIP SUCT VLVS:
: g. Open RHRPs TO CCP/SIP SUCT VLVS:
1/1-8804A 1/1-8804B NOTE: Due to the RHR pump trip, only one train will be lined up for Cold Leg Recirculation.
1/1-8804A 1/1-8804B NOTE: Due to the RHR pump trip, only one train will be lined up for Cold Leg Recirculation.
Step 4. Align Containment Spray System for Recirculation:  
Step 4. Align Containment Spray System for Recirculation:
: a. Check RWST level - LESS THAN 24%.
: a. Check RWST level - LESS THAN 24%.
Step a RNO. If Containment Spray ACTUATED, then continue with step 5. b. Realign Containment Spray System as follows:  
Step a RNO. If Containment Spray ACTUATED, then continue with step 5. b. Realign Containment Spray System as follows:
: 1) Open CNTMT SMP TO CSP 1 & 3 AND 2 & 4 SUCT ISOL VLVS:
: 1) Open CNTMT SMP TO CSP 1 & 3 AND 2 & 4 SUCT ISOL VLVS:
1-HS-4782 1-HS-4783  
1-HS-4782 1-HS-4783
: 2) Close RWST TO CSP 1 & 3 AND 2 & 4 SUCT VLVS 1-HS-4758 1-HS-4759  
: 2) Close RWST TO CSP 1 & 3 AND 2 & 4 SUCT VLVS 1-HS-4758 1-HS-4759
: 3) IF the containment spray pumps have been stopped due to RWST  
: 3) IF the containment spray pumps have been stopped due to RWST  


Line 2,038: Line 1,975:
C) Open CS HS 1 AND 2 OUT VLVS:
C) Open CS HS 1 AND 2 OUT VLVS:
1-HS-4776 1-HS-4777 D) WHEN CS HX OUT VLVs begin to open, THEN start CS PUMPS:
1-HS-4776 1-HS-4777 D) WHEN CS HX OUT VLVs begin to open, THEN start CS PUMPS:
1-HS-4764 AND 1-HS-4765 1-HS-4766 AND 1-HS-4767  
1-HS-4764 AND 1-HS-4765 1-HS-4766 AND 1-HS-4767
: 4) Verify containment spray flow.
: 4) Verify containment spray flow.
The scenario may be terminated at the discretion of the Lead Examiner.  
The scenario may be terminated at the discretion of the Lead Examiner.  
                                                                         *BOLD INDICATES CRITICAL STEP
                                                                         *BOLD INDICATES CRITICAL STEP


SHIFT TURNOVER INFORMATION
SHIFT TURNOVER INFORMATION 1.0 INITIAL CONDTIONS:
 
===1.0 INITIAL===
CONDTIONS:
Time in Core Life: BOL Tavg: 572.6 o F Reactor Power: 40%
Time in Core Life: BOL Tavg: 572.6 o F Reactor Power: 40%
RCS Pressure: 2251 psig Turbine Load: 425 Mwe Xenon: Equil Boron Concentration:    2251 ppm Rod Control:        MAN Rod Height: CB D @ 189 steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:
RCS Pressure: 2251 psig Turbine Load: 425 Mwe Xenon: Equil Boron Concentration:    2251 ppm Rod Control:        MAN Rod Height: CB D @ 189 steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:
 
3.0 CLEARANCES IN EFFECT:
===3.0 CLEARANCES===
TS# Description Reason    3.7.5  AFW                  AFW Pump 1-01 OOS for Oil Sample 3.0 CLEARANCES IN EFFECT:
IN EFFECT:
4.0 SAFETY SYSTEM SETTING BYPASS/MALFUNCTIONS None    5.0  DEGRADED EQUIPMENT 6.0 PLANNED EVOLUTIONS:
TS# Description Reason    3.7.5  AFW                  AFW Pump 1-01 OOS for Oil Sample  
Return AFW Pump 1-01 to service when the oil sample is complete.
 
7.0 TURNOVER INFORMATION:
===3.0 CLEARANCES===
IN EFFECT:
 
===4.0 SAFETY===
SYSTEM SETTING BYPASS/MALFUNCTIONS None    5.0  DEGRADED EQUIPMENT
 
===6.0 PLANNED===
EVOLUTIONS:
Return AFW Pump 1-01 to service when the oil sample is complete.  
 
===7.0 TURNOVER===
INFORMATION:
Unit 1 is at 40% power and increasing per IPO-003A, step 5.4.19. Shift orders are to increase reactor power during the shift. The "A" MDAFWP is OOS due to contamination in the oil. Maintenance is in the process of changing the oil and the pump should be ready for test in t he next 6 hours. The Generation Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. The expectation is that the  
Unit 1 is at 40% power and increasing per IPO-003A, step 5.4.19. Shift orders are to increase reactor power during the shift. The "A" MDAFWP is OOS due to contamination in the oil. Maintenance is in the process of changing the oil and the pump should be ready for test in t he next 6 hours. The Generation Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. The expectation is that the  


Line 2,142: Line 2,064:
== Description:==
== Description:==


Steam Generator Tube Leak on #3 SG Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Steam Generator Tube Leak on #3 SG Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
===2.1 Symptoms===
: a. Annunciator Alarms None
: a. Annunciator Alarms None
: b. Plant Indications An abnormal increase in steam gener ator specific activity as reported by Chemistry. An abnormal increase in steam generator sampling radiation as indicated by u-RE-4200 (SGS-u64). An abnormal increase in condenser off-gas radiation as indicated by u-RE-2959(COG-u82). An abnormal increase in main steamline leak rate as indicated on u-RE-2325A (N16-u74), u-RE-2326A (N16-u75), u-RE-2327A (N16-u76), and u-RE-2328A (N16-u77). Computer points R7749A(R7753A) thru R7752A(R7756A).  
: b. Plant Indications An abnormal increase in steam gener ator specific activity as reported by Chemistry. An abnormal increase in steam generator sampling radiation as indicated by u-RE-4200 (SGS-u64). An abnormal increase in condenser off-gas radiation as indicated by u-RE-2959(COG-u82). An abnormal increase in main steamline leak rate as indicated on u-RE-2325A (N16-u74), u-RE-2326A (N16-u75), u-RE-2327A (N16-u76), and u-RE-2328A (N16-u77). Computer points R7749A(R7753A) thru R7752A(R7756A).
 
2.2 Automatic Actions Steam Generator Blowdown will isolate on high radiation as indicated on u-RE-4200 (SGS-u64). u-HS-2397, SG 1 BLDN ISOL VLV u-HS-2398, SG 2 BLDN ISOL VLV u-HS-2399, SG 3 BLDN ISOL VLV u-HS-2400, SG 4 BLDN ISOL VLV 2.3 Operator Actions Step 1. Verify main steamline radiation alarms - CLEAR u-RE-2325 (MSL-u78) u-RE-2326 (MSL-u79) u-RE-2327 (MSL-u80) u-RE-2328 (MSL-u81)
===2.2 Automatic===
Actions Steam Generator Blowdown will isolate on high radiation as indicated on u-RE-4200 (SGS-u64). u-HS-2397, SG 1 BLDN ISOL VLV u-HS-2398, SG 2 BLDN ISOL VLV u-HS-2399, SG 3 BLDN ISOL VLV u-HS-2400, SG 4 BLDN ISOL VLV  
 
===2.3 Operator===
Actions Step 1. Verify main steamline radiation alarms - CLEAR u-RE-2325 (MSL-u78) u-RE-2326 (MSL-u79) u-RE-2327 (MSL-u80) u-RE-2328 (MSL-u81)
NOTE: u-RE-2327 (MSL-u80) will be in alarm on the PC-11 Step 1 RNO. Go to Section 3 of this procedure.
NOTE: u-RE-2327 (MSL-u80) will be in alarm on the PC-11 Step 1 RNO. Go to Section 3 of this procedure.
Section 3 Step 1.
Section 3 Step 1.
Verify main steamline radiation alarms - CLEAR u-RE-2325 (MSL-u78) u-RE-2326 (MSL-u79) u-RE-2327 (MSL-u80) u-RE-2328 (MSL-u81)
Verify main steamline radiation alarms - CLEAR u-RE-2325 (MSL-u78) u-RE-2326 (MSL-u79) u-RE-2327 (MSL-u80) u-RE-2328 (MSL-u81)
Step 1 RNO.
Step 1 RNO.
: a. Reduce power to 50% in 1 hour AND Be in MODE 3 in the next 2 hours.  
: a. Reduce power to 50% in 1 hour AND Be in MODE 3 in the next 2 hours.
: b. GO TO Step 5.  
: b. GO TO Step 5.  
         *BOLD INDICATES CRITICAL STEP
         *BOLD INDICATES CRITICAL STEP
Line 2,167: Line 2,082:
== Description:==
== Description:==


Steam Generator Tube Leak on #3 SG Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5 Check plant conditions:  
Steam Generator Tube Leak on #3 SG Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5 Check plant conditions:
: a. Turbine-Generator load - STEADY AT DESIRED POWER  
: a. Turbine-Generator load - STEADY AT DESIRED POWER
: b. Verify charging flow within 15 gpm of letdown flow AND both flows STABLE u-FI-121A, CHRG FLO u-FI-132, LTDN FLO  c. Verify PRZR level - STABLE OR TRENDING TO NORMAL LEVEL u-LI-459A, PRZR LVL CHAN I u-LI-461, PRZR LVL CHAN III u-LI-460A, PRZR LVL CHAN II Step 6. Adjust affected Steam Gener ator Atmospheric Relief Controller setpoint to 1160 PSIG per TDM-501A/B.
: b. Verify charging flow within 15 gpm of letdown flow AND both flows STABLE u-FI-121A, CHRG FLO u-FI-132, LTDN FLO  c. Verify PRZR level - STABLE OR TRENDING TO NORMAL LEVEL u-LI-459A, PRZR LVL CHAN I u-LI-461, PRZR LVL CHAN III u-LI-460A, PRZR LVL CHAN II Step 6. Adjust affected Steam Gener ator Atmospheric Relief Controller setpoint to 1160 PSIG per TDM-501A/B.
Step 7. Verify affected Steam Generator - NOT SG #1 or SG #4 Step 8. Isolate Auxiliary Steam supplied from the affected unit by closing the applicable valves:
Step 7. Verify affected Steam Generator - NOT SG #1 or SG #4 Step 8. Isolate Auxiliary Steam supplied from the affected unit by closing the applicable valves:
NOTE: The US will call the PEO to isolate the appropriate valves.
NOTE: The US will call the PEO to isolate the appropriate valves.
Step 9 Verify NO significant increase exists, as indicated on PC-11, from system(s) drains that discharge to the LVW:
Step 9 Verify NO significant increase exists, as indicated on PC-11, from system(s) drains that discharge to the LVW:
u-RE-4200, (SGS-u64) BLOWDOWN SMPL u-RE-2959, (COG-u82) CONDENSER OFF GAS u-RE-2325, (MSL-u78) MAIN STEAM LINE #1 u-RE-2326, (MSL-u79) MAIN STEAM LINE #2 u-RE-2327, (MSL-u80) MAIN STEAM LINE #3 u-RE-2328, (MSL-u81) MAIN STEAM LINE #4 u-RE-2325A, (N16-u74) MAIN STEAM LINE #1 LEAK RATE u-RE-2326A, (N16-u75) MAIN STEAM LINE #2 LEAK RATE u-RE-2327A, (N16-u76) MAIN STEAM LINE #3 LEAK RATE u-RE-2328A, (N16-u77) MAIN STEAM LINE #4 LEAK RATE Step 10 Monitor position of Steam Generator Atmospheric Relief AND Safety Valves during perfo rmance of this procedure:  
u-RE-4200, (SGS-u64) BLOWDOWN SMPL u-RE-2959, (COG-u82) CONDENSER OFF GAS u-RE-2325, (MSL-u78) MAIN STEAM LINE #1 u-RE-2326, (MSL-u79) MAIN STEAM LINE #2 u-RE-2327, (MSL-u80) MAIN STEAM LINE #3 u-RE-2328, (MSL-u81) MAIN STEAM LINE #4 u-RE-2325A, (N16-u74) MAIN STEAM LINE #1 LEAK RATE u-RE-2326A, (N16-u75) MAIN STEAM LINE #2 LEAK RATE u-RE-2327A, (N16-u76) MAIN STEAM LINE #3 LEAK RATE u-RE-2328A, (N16-u77) MAIN STEAM LINE #4 LEAK RATE Step 10 Monitor position of Steam Generator Atmospheric Relief AND Safety Valves during perfo rmance of this procedure:
: a. Verify relief AND safety valves remain - CLOSED
: a. Verify relief AND safety valves remain - CLOSED
           *BOLD INDICATES CRITICAL STEP
           *BOLD INDICATES CRITICAL STEP
Line 2,183: Line 2,098:
== Description:==
== Description:==


Loop 4 N-16 Instrument Fails High and Rods move the wrong way Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Loop 4 N-16 Instrument Fails High and Rods move the wrong way Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
: a. Annunciator Alarms ANY N16 DEV HI/LO (5C-1.5) 1 of 4 OT N16 HI (5C-2.5) ANY Tave DEV HI/LO (5C-3.5) 1 of 4 OP N16 HI (5C-2.6) AVE Tave-Tref DEV (6D-1.10) AVE Tave HI (6D-2.10) 1 of 4 Tave LO-LO (6D-3.10) Tref-AUCT LO TAVE MISMATCH (6D-3.13) AUCT TAVE LO (6D-4.13) 1 of 4 OT N16 ROD STOP & TURB RUNBACK (6D-3.14) 1 of 4 OP N16 ROD STOP & TURB RUNBACK (6D-2.13)
===2.1 Symptoms===
: b. Plant Indications:
: a. Annunciator Alarms ANY N16 DEV HI/LO (5C-1.5) 1 of 4 OT N16 HI (5C-2.5) ANY Tave DEV HI/LO (5C-3.5) 1 of 4 OP N16 HI (5C-2.6) AVE Tave-Tref DEV (6D-1.10) AVE Tave HI (6D-2.10) 1 of 4 Tave LO-LO (6D-3.10) Tref-AUCT LO TAVE MISMATCH (6D-3.13) AUCT TAVE LO (6D-4.13) 1 of 4 OT N16 ROD STOP & TURB RUNBACK (6D-3.14) 1 of 4 OP N16 ROD STOP & TURB RUNBACK (6D-2.13)  
: b. Plant Indications:  
: 3) One N-16 channel higher or lower than the other three.
: 3) One N-16 channel higher or lower than the other three.
u-JI-411A/B, RC LOOP 1 N16 PWR CHAN I u-JI-421A/B, RC LOOP 2 N16 PWR CHAN II u-JI-431A/B, RC LOOP 3 N16 PWR CHAN III u-JI-441A/B, RC LOOP 4 N16 PWR CHAN IV  
u-JI-411A/B, RC LOOP 1 N16 PWR CHAN I u-JI-421A/B, RC LOOP 2 N16 PWR CHAN II u-JI-431A/B, RC LOOP 3 N16 PWR CHAN III u-JI-441A/B, RC LOOP 4 N16 PWR CHAN IV 2.2 Automatic Actions
 
===2.2 Automatic===
Actions  
: a. Any failure that results in an increased Loop Tave will cause Average Tave to be higher with the following actions:
: a. Any failure that results in an increased Loop Tave will cause Average Tave to be higher with the following actions:
Rapid control rod insertion due to Tave-Tref mismatch if in AUTO. Steam dumps will open if armed with a C-7 (loss of load). Pressurizer reference level increase (to a maximum of 60%) with charging flow increase when in auto.
Rapid control rod insertion due to Tave-Tref mismatch if in AUTO. Steam dumps will open if armed with a C-7 (loss of load). Pressurizer reference level increase (to a maximum of 60%) with charging flow increase when in auto.
Line 2,221: Line 2,131:


Loop 4 N-16 Instrument Fails High and Rods move the wrong way Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 10 Verify appropriate alarms and trip status lights ON per Attachment 3 AND note verification in Unit Log.
Loop 4 N-16 Instrument Fails High and Rods move the wrong way Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 10 Verify appropriate alarms and trip status lights ON per Attachment 3 AND note verification in Unit Log.
Step 11 Refer to Technical Specificati ons listed in Section 3.1 of this procedure to determine applicable LCOAR conditions.  
Step 11 Refer to Technical Specificati ons listed in Section 3.1 of this procedure to determine applicable LCOAR conditions.
 
3.1 Technical Specifications/Requirements 3.3.1, Reactor Trip Syst em (RTS) Instrumentation 13.1.38, Control Bank Insertion Limits  
===3.1 Technical===
Specifications/Requirements 3.3.1, Reactor Trip Syst em (RTS) Instrumentation 13.1.38, Control Bank Insertion Limits  
                                                                 *BOLD INDICATES CRITICAL STEP
                                                                 *BOLD INDICATES CRITICAL STEP


Line 2,245: Line 2,153:
== Description:==
== Description:==


Two dropped rods (Manual Reactor Trip Required) Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Two dropped rods (Manual Reactor Trip Required) Time  RO  BOP  SRO  Applicant's Actions or Behavior 3.1 Symptoms
 
: a. Annunciator Alarms PR CHAN DEV (6D-3.4) DRPI ROD DEV (6D-3.5) ANY ROD AT BOT (6D-3.7) > 2 ROD AT BOT (6D-4.7) QUADRANT PWR TILT (6D-4.10)
===3.1 Symptoms===
: b. Plant Indications Plant parameters changing abnormally during rod position changes NIS Power Range instruments power or AFD indications disagree DRPI Rod Bottom Light(s) lit for rods which should be withdrawn DRPIs in a bank disagree by greater than 12 steps DRPI disagrees with its group step counter by greater than 12 steps 3.2 Automatic Actions Possible Reactor trip Automatic control rod motion Ensure 1/u-RBSS, CONTROL ROD BANK SELECT - NOT IN AUTO.
: a. Annunciator Alarms PR CHAN DEV (6D-3.4) DRPI ROD DEV (6D-3.5) ANY ROD AT BOT (6D-3.7) > 2 ROD AT BOT (6D-4.7) QUADRANT PWR TILT (6D-4.10)  
: b. Plant Indications Plant parameters changing abnormally during rod position changes NIS Power Range instruments power or AFD indications disagree DRPI Rod Bottom Light(s) lit for rods which should be withdrawn DRPIs in a bank disagree by greater than 12 steps DRPI disagrees with its group step counter by greater than 12 steps
 
===3.2 Automatic===
Actions Possible Reactor trip Automatic control rod motion Ensure 1/u-RBSS, CONTROL ROD BANK SELECT - NOT IN AUTO.
2 Check Reactor - CRITICAL.
2 Check Reactor - CRITICAL.
Verify Number of Rods Misaligned from Step Counter by >12 steps -  
Verify Number of Rods Misaligned from Step Counter by >12 steps -  
Line 2,266: Line 2,169:
== Description:==
== Description:==


Two dropped rods (Manual Reactor Trip Required) EOP-0.0A Time  RO  BOP  SRO  Applicant's Actions or Behavior  
Two dropped rods (Manual Reactor Trip Required) EOP-0.0A Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
===2.1 Symptoms===
: a. Annunciators Alarm MAN RX TRIP  (6C-1.1)
: a. Annunciators Alarm MAN RX TRIP  (6C-1.1)
Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Reactor Trip breakers open and the turbine trips Orders a reactor trip and enters EOP-0.0A.
Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Reactor Trip breakers open and the turbine trips Orders a reactor trip and enters EOP-0.0A.
Step 1. Verify Reactor Trip  
Step 1. Verify Reactor Trip
: a. Verify the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING  
: a. Verify the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:  
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:  
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
: a. AC safeguards busses -
: a. AC safeguards busses -
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)  
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:  
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
: a. Check If SI is Actuated:
: a. Check If SI is Actuated:
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON  
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON
: b. Verify Both Trains DI Actuated:
: b. Verify Both Trains DI Actuated:
SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.
SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.
Line 2,292: Line 2,193:


EOS-0.1 A, REACTOR TRIP RESPONSE Time  RO  BOP  SRO  Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557&deg; F.
EOS-0.1 A, REACTOR TRIP RESPONSE Time  RO  BOP  SRO  Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557&deg; F.
Step 2. Check FW Status:  
Step 2. Check FW Status:
: a. Verify reactor trip and bypass breaker - OPEN  
: a. Verify reactor trip and bypass breaker - OPEN
: b. Check RCS average temperatures - LESS THAN 564&deg; F.  
: b. Check RCS average temperatures - LESS THAN 564&deg; F.
: c. Verify Feedwater Isolation - ISOLATION COMPLETE  
: c. Verify Feedwater Isolation - ISOLATION COMPLETE
: d. Verify total AFW to SGs - GREATER THAN 460 GPM.
: d. Verify total AFW to SGs - GREATER THAN 460 GPM.
Step 3. Check PRZR Level Control:  
Step 3. Check PRZR Level Control:
: a. Level - GREATER THAN 17%  
: a. Level - GREATER THAN 17%
: b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE  
: b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE
: d. Level - TRENDING TO 25%
: d. Level - TRENDING TO 25%
Step 4. Check PRZR Pressure Control:  
Step 4. Check PRZR Pressure Control:
: a. Pressure - GREATER THAN 1820 PSIG  
: a. Pressure - GREATER THAN 1820 PSIG
: b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:  
: b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:
: a. Narrow Range Level - GREATER THAN 5%  
: a. Narrow Range Level - GREATER THAN 5%
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
NOTE: 4 minutes after the manual RX Trip, the SGTR becomes active at 675 GPM. If not done automatically, the crew should Initiate a Safety Injection and transition to EOP-0.0A, step 1.  
NOTE: 4 minutes after the manual RX Trip, the SGTR becomes active at 675 GPM. If not done automatically, the crew should Initiate a Safety Injection and transition to EOP-0.0A, step 1.  
Line 2,313: Line 2,214:
== Description:==
== Description:==


SGTR with failure of Phase A to auto actuate Time  RO  BOP  SRO  Applicant's Actions or Behavior  
SGTR with failure of Phase A to auto actuate Time  RO  BOP  SRO  Applicant's Actions or Behavior 2.1 Symptoms
 
===2.1 Symptoms===
: a. Annunciators Alarm PRZR PRESS LO SI ACT  (6C-2.7)
: a. Annunciators Alarm PRZR PRESS LO SI ACT  (6C-2.7)
Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Safety Injection and ECCS actuations Step 1. Verify Reactor Trip  
Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Safety Injection and ECCS actuations Step 1. Verify Reactor Trip
: a. Verify the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING  
: a. Verify the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:  
: b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:  
: a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
: a. AC safeguards busses -
: a. AC safeguards busses -
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)  
AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:  
: b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
: a. Check If SI is Actuated:
: a. Check If SI is Actuated:
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON  
SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON
: b. Verify Both Trains SI Actuated:
: b. Verify Both Trains SI Actuated:
SI Actuated blue status light - ON NOT FLASHING  
SI Actuated blue status light - ON NOT FLASHING  
Line 2,338: Line 2,237:
SGTR with failure of Phase A to auto actuate Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5. Ensure Proper Safeguards Equipment Operation Per  .
SGTR with failure of Phase A to auto actuate Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5. Ensure Proper Safeguards Equipment Operation Per  .
NOTE: It is expected that the failure of Phase A to actuate will be noted and a manual Phase A initiated while  is being performed.
NOTE: It is expected that the failure of Phase A to actuate will be noted and a manual Phase A initiated while  is being performed.
Step 6. Verify AFW Alignment  
Step 6. Verify AFW Alignment
: a. MDAFWP - RUNNING  
: a. MDAFWP - RUNNING
: b. Turbine Driven AFW Pump - RUNNING IF NECESSARY  
: b. Turbine Driven AFW Pump - RUNNING IF NECESSARY
: c. AFW total flow - GREATER THAN 460 GPM  
: c. AFW total flow - GREATER THAN 460 GPM
: d. AFW Valves alignment - PROPER ALIGNMENT Step 7. Verify Containment Spray Not Required :  
: d. AFW Valves alignment - PROPER ALIGNMENT Step 7. Verify Containment Spray Not Required :
: 1) a. Containment Pressure -
: 1) a. Containment Pressure -
HAS REMAINED LESS THAN 18 PSIG Step 8. Check if Main Steamlines should be Isolated:  
HAS REMAINED LESS THAN 18 PSIG Step 8. Check if Main Steamlines should be Isolated:
: a. verify the following: Containment Pressure - GR EATER THAN 6 PSIG (YES)  
: a. verify the following: Containment Pressure - GR EATER THAN 6 PSIG (YES)
: b. Verify main steam isolation complete.
: b. Verify main steam isolation complete.
Step 9. Check RCS Average Temperatue - STABLE AT OR TRENDING TO 557&deg;F.
Step 9. Check RCS Average Temperatue - STABLE AT OR TRENDING TO 557&deg;F.
Step 9 RNO. Throttle AFW and stop dumping steam.
Step 9 RNO. Throttle AFW and stop dumping steam.
Step 10. Check PRZR Valve Status:  
Step 10. Check PRZR Valve Status:
: a. PRZR Safeties - CLOSED  
: a. PRZR Safeties - CLOSED
: b. Normal PRZR Spray valves - CLOSED c. PORVs - CLOSED  
: b. Normal PRZR Spray valves - CLOSED c. PORVs - CLOSED
: d. Power to at least one block valve - AVAILABLE e. Block valves - AT LEAST ONE OPEN  
: d. Power to at least one block valve - AVAILABLE e. Block valves - AT LEAST ONE OPEN  
                           *BOLD INDICATES CRITICAL STEP
                           *BOLD INDICATES CRITICAL STEP
Line 2,361: Line 2,260:
== Description:==
== Description:==


SGTR with failure of Phase A to auto actuate Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 11. Check if RCPs should be stopped:  
SGTR with failure of Phase A to auto actuate Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 11. Check if RCPs should be stopped:
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)  
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)
: c. Stop all RCPs.
: c. Stop all RCPs.
Step 12. Check if any SG is Faulted:  
Step 12. Check if any SG is Faulted:
: a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER   
: a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER   
                                 -OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 13.  
                                 -OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 13.
: b. Go to EOP-2.0A, FAULTED STEAM GENERATOR ISOLATION, Step 1.
: b. Go to EOP-2.0A, FAULTED STEAM GENERATOR ISOLATION, Step 1.
Step 13.Check if SG Tubes Are Not Ruptured:
Step 13.Check if SG Tubes Are Not Ruptured:
Line 2,381: Line 2,280:
== Description:==
== Description:==


SGTR EOP-3.0A Steam Generator Tube Rupture Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 1. Check if RCPs should be stopped:  
SGTR EOP-3.0A Steam Generator Tube Rupture Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 1. Check if RCPs should be stopped:
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)  
: a. ECCS pumps - AT LEAST ONE RUNNING CCP                        -OR- SI pump  b. RCS subcooling - LESS THAN 25&deg; F (55&deg; F FOR ADVERSE CONTAINMENT)
: c. Stop all RCPs.
: c. Stop all RCPs.
Step 2. Identify Ruptured SG (s):
Step 2. Identify Ruptured SG (s):
Line 2,391: Line 2,290:


2325-2328)
2325-2328)
Step 3  Isolate Flow From Ruptured SG(s):  
Step 3  Isolate Flow From Ruptured SG(s):
: a. Adjust ruptured SG(s) atmospheric controller setpoint to 1160 PSIG.  
: a. Adjust ruptured SG(s) atmospheric controller setpoint to 1160 PSIG.
: b. Check ruptured SG(s) atmospheric - CLOSED  
: b. Check ruptured SG(s) atmospheric - CLOSED
: c. Close ruptured SG(s) main steam line isolation and ensure bypass valve closed. d. Pull-Out steam supply valve handswitc h from ruptured SG(s) to Turbine Driven AFW pump.  
: c. Close ruptured SG(s) main steam line isolation and ensure bypass valve closed. d. Pull-Out steam supply valve handswitc h from ruptured SG(s) to Turbine Driven AFW pump.
: e. Close ruptured SG drippot isolation valve.  
: e. Close ruptured SG drippot isolation valve.
: f. Verfy blowdown isolation valves from ruptured SG(s) - CLOSED Step 4  Check Ruptured SG(s) Level:  
: f. Verfy blowdown isolation valves from ruptured SG(s) - CLOSED Step 4  Check Ruptured SG(s) Level:
: a. Narrow range level - GREATER THAN 5% (26% FOR ADVERSE CONTAINMENT)  
: a. Narrow range level - GREATER THAN 5% (26% FOR ADVERSE CONTAINMENT)
: b. Stop AFW flow to ruptured SG(s).
: b. Stop AFW flow to ruptured SG(s).
Notes that the #3 ARV is open. Verify the SG pressure is less than 1160, places the controller in manual, and closes the ARV.  
Notes that the #3 ARV is open. Verify the SG pressure is less than 1160, places the controller in manual, and closes the ARV.  
Line 2,409: Line 2,308:


Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5 Check Ruptured SG(s) Pressure - GREATER THAN 420 PSIG.
Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 5 Check Ruptured SG(s) Pressure - GREATER THAN 420 PSIG.
Step 6  Initiate RCS Cooldown:  
Step 6  Initiate RCS Cooldown:
: a. When PRZR pressure decreases to less than 1960 psig, block the low steamline pressure SI signal.  
: a. When PRZR pressure decreases to less than 1960 psig, block the low steamline pressure SI signal.
: b. Determine required core exit temperature from Table 1.
: b. Determine required core exit temperature from Table 1.
NOTE:  It is probable that the temperature selected from the Table will be 485&deg;F. c. Dump steam to condenser from intact SG(s) at maximum rate and avoid main steam isolation.  
NOTE:  It is probable that the temperature selected from the Table will be 485&deg;F. c. Dump steam to condenser from intact SG(s) at maximum rate and avoid main steam isolation.
: 1) Transfer Steam Dump to steam pressure mode. 2) Place the steam pressure controller in manual increase demand. 3) When P-12 (553&deg;F TAVG is reached, select bypass interlock on Steam Dumps and continue cooldown.  
: 1) Transfer Steam Dump to steam pressure mode. 2) Place the steam pressure controller in manual increase demand. 3) When P-12 (553&deg;F TAVG is reached, select bypass interlock on Steam Dumps and continue cooldown.
: d. Core exit TCs - LESS TH AN REQUIRED TEMPERATURE Step 6d RNO Continue with step 7.
: d. Core exit TCs - LESS TH AN REQUIRED TEMPERATURE Step 6d RNO Continue with step 7.
WHEN core exit TCs less than required temperature, THEN do step 6e and 6f.
WHEN core exit TCs less than required temperature, THEN do step 6e and 6f.
Step 7. Check Intact SG Levels:  
Step 7. Check Intact SG Levels:
: a. Narrow Range Level - GREAT ER THAN 5%(26% FOR ADVERSE CONTAINMENT)  
: a. Narrow Range Level - GREAT ER THAN 5%(26% FOR ADVERSE CONTAINMENT)
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
: b. Control Feed flow to maintain narrow range level between 5% and 50%.
Step 8. Check PRZR PORVs and Block Valves:  
Step 8. Check PRZR PORVs and Block Valves:
: a. Power to block valves - AVAILABLE  
: a. Power to block valves - AVAILABLE
: b. PORVs - CLOSED  
: b. PORVs - CLOSED
: c. Block valves - AT LEAST ONE OPEN Step 9. IF the Diesels Are Running, THEN Place Bothe DG EMER STOP/START Handswitches in START.
: c. Block valves - AT LEAST ONE OPEN Step 9. IF the Diesels Are Running, THEN Place Bothe DG EMER STOP/START Handswitches in START.
Step 10. Reset SI.
Step 10. Reset SI.
Line 2,434: Line 2,333:
== Description:==
== Description:==


Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 14. Establish Instrument Air And Nitrogen to Containment.  
Time  RO  BOP  SRO  Applicant's Actions or Behavior Step 14. Establish Instrument Air And Nitrogen to Containment.
: a. Establish instrument air:  
: a. Establish instrument air:
: 1) Verify air compressor running and establish instrument air to containment.  
: 1) Verify air compressor running and establish instrument air to containment.
: b. Establish nitrogen  
: b. Establish nitrogen
: 1) Verify ACCUM 1-4 VENT CTRL, 1-HC-943 - CLOSED 2) Open SI/PORV ACCUM N2 ISOL VLV, 1/1-8880.
: 1) Verify ACCUM 1-4 VENT CTRL, 1-HC-943 - CLOSED 2) Open SI/PORV ACCUM N2 ISOL VLV, 1/1-8880.
Step 15. Check if RHR Pumps Should be Stopped:  
Step 15. Check if RHR Pumps Should be Stopped:
: a. RCS pressure - GREATER THAN 325 PSIG (425 PSIG FOR ADVERSE CONTAINMENT) b. Stop RHR Pumps and place in standby c. Reset RHR auto switchover.
: a. RCS pressure - GREATER THAN 325 PSIG (425 PSIG FOR ADVERSE CONTAINMENT) b. Stop RHR Pumps and place in standby c. Reset RHR auto switchover.
Step 16. Check If RCS Cooldwon Should Be Stopped:  
Step 16. Check If RCS Cooldwon Should Be Stopped:
: a. Core exit TC's - LESS THAN REQUIRED TEMPERATURE  
: a. Core exit TC's - LESS THAN REQUIRED TEMPERATURE
: b. Verify Steps 6 e and 6 f are complete.
: b. Verify Steps 6 e and 6 f are complete.
Step 17. Check Ruptured SG(s) Pressure -  STABLE OR INCREASING Step 18. Check RCS subcooling - GREATER THAN 45&deg;F (75&deg;F FOR ADVERSE CONTAINMENT)
Step 17. Check Ruptured SG(s) Pressure -  STABLE OR INCREASING Step 18. Check RCS subcooling - GREATER THAN 45&deg;F (75&deg;F FOR ADVERSE CONTAINMENT)
Step 19. Depressurize the RCS to Minimize Break Flow and Refill PRZR:
Step 19. Depressurize the RCS to Minimize Break Flow and Refill PRZR:
: a. Normal Spray - AVAILABLE b. Place all PRZR heater sw itches in OFF position. c. Spary PRZR with maximum available spray until ANY of the the following conditions satisfied: 1) RCS pressure - LESS THAN RUPTURED SG(s)  
: a. Normal Spray - AVAILABLE b. Place all PRZR heater sw itches in OFF position. c. Spary PRZR with maximum available spray until ANY of the the following conditions satisfied: 1) RCS pressure - LESS THAN RUPTURED SG(s)  


Line 2,455: Line 2,354:
The scenario may be terminat ed at the discretion of the lead examiner.  
The scenario may be terminat ed at the discretion of the lead examiner.  


*BOLD INDICATES CRITICAL STEP SHIFT TURNOVER INFORMATION
*BOLD INDICATES CRITICAL STEP SHIFT TURNOVER INFORMATION 1.0 INITIAL CONDTIONS:
 
===1.0 INITIAL===
CONDTIONS:
Time in Core Life: BOL Tavg: 589 o F Reactor Power: 100% RCS Pressure: 2235 psig Turbine Load:1200 Mwe Xenon: Equil Boron Concentration:1263 ppm Rod Control:        AUTO Rod Height: CB D @ 215steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:
Time in Core Life: BOL Tavg: 589 o F Reactor Power: 100% RCS Pressure: 2235 psig Turbine Load:1200 Mwe Xenon: Equil Boron Concentration:1263 ppm Rod Control:        AUTO Rod Height: CB D @ 215steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:
TS# Description Reason    3.7.5  AFW                  AFW Pump 1-01 OOS for Oil Sample  
TS# Description Reason    3.7.5  AFW                  AFW Pump 1-01 OOS for Oil Sample 3.0 CLEARANCES IN EFFECT:
 
AFW Pump 1-01 OOS for Oil Sample 4.0 SAFETY SYSTEM SETTING BYPASS/MALFUNCTIONS None    5.0  DEGRADED EQUIPMENT 6.0 PLANNED EVOLUTIONS:
===3.0 CLEARANCES===
Return AFW Pump 1-01 to service when the oil sample is complete.
IN EFFECT:
7.0 TURNOVER INFORMATION:
AFW Pump 1-01 OOS for Oil Sample  
 
===4.0 SAFETY===
SYSTEM SETTING BYPASS/MALFUNCTIONS None    5.0  DEGRADED EQUIPMENT
 
===6.0 PLANNED===
EVOLUTIONS:
Return AFW Pump 1-01 to service when the oil sample is complete.  
 
===7.0 TURNOVER===
INFORMATION:
Unit 1 and Unit 2 are at 100% power.
Unit 1 and Unit 2 are at 100% power.
U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil.
U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil.

Revision as of 02:31, 14 July 2019

03-2005-Draft-Operating Exam
ML051250478
Person / Time
Site: Comanche Peak  Luminant icon.png
Issue date: 03/28/2005
From:
Operations Branch IV
To:
TXU Power
References
50-445/05-301, 50-446/05-301 50-445/05-301, 50-446/05-301
Download: ML051250478 (195)
v  d  e


Text

Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY System: Conduct of Operations JTA Task #: (New) Task Title: Determine Pressuriz er Heater Op erability KSA Ref: 2.1.3 3 PEO: RO: 3.4 SRO: 4.0 Operator's Name: Performance Environment:

C L A S S R O O M CONT ROL ROOM S I M U L A T O R Performance Method:

PERFORM E D SIMULATED D I S C U S SE D Time to co mplete JP M: Estim a t e d 1 5 m i n u t e s A c t u a l The operator's perform a nce was evalua ted against the standards contained in this JPM and was determ ined to be: SATISF ACTORY UNS ATISF ACTORY Reason, if unsatisfactory:

Evaluato r's Signatur e: Date: Comm e n t s (l i s t a l l step s not satisfact orily com p leted):

References:

IPO-001A "Plant Heatup from Cold Shutdo w n t o Hot Standby" Tools, Equipm ent, Job Aids, etc:

Selected param e ters from the plant, captured on Attachm e nt 1 of this JPM, and a calculator.

Page 1 of 5 Rev Date: 1/19/05 Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY Saf e ty Considera tions: If this JPM is to be perform e d in the plant/c ontrol room , the candidate is NOT to m a nipulate any plant com ponents unless he/she has perm ission from the Shift/Unit Supervisor.

Hum a n Perform ance Measures

During this Job Performance Measure, MONITOR for de monstrations of the following as outlin ed in Operations departm e nt guidance
Peer check ing Three-way comm unications Phonetic alphabet Self checkin g ALM use Unit designators Conservative decision making Procedure p l ace keep ing Procedure rules of usage Comm e n t s: Instru c t i o n s: You m a y us e any approved reference m a terials, incl uding logs. Make or sim u late all written/oral reports as if the evolution is ac tually being perform e d. You a r e expected to discuss all steps you would take, including id entifying wh at switches/i ndications you would use Initiating Cue:

The plant is ready to enter Mode 3. The Unit Supervisor has directed you to determ ine the operability of the Pressurizer Heaters by perfor m i ng step 5.3.1 of IPO-001A, "Plant Heatup from Cold Shutdown to Hot Standby". Plant data is provided.

Term inating Conditions:

Calculations are com p lete and an Oper ability determ ination has been m a de. Page 2 of 5 Rev Date: 1/19/05 Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNS AT 1 Provide the candidate with the initiating cu e, the plant data sheet, and a copy of IPO-001A step 5.3.1.

Note Start time.

2 C a n d i d a t e correctly t r a n s f e r s data to the procedure.

See Attached Key 3 C a n d i d a t e perform s calcu lations. See Attached Key

  • 4 C a n d i d a t e determ i n e s operability TASK COM PLETE. B/U Heater Groups A, B and Control Heater Group C are OPER ABL E. B/U Heater Group D is INOPER AB LE Note Completion time.

Page 3 of 5 Rev Date: 1/19/05 Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY INITIATING CUE:

The plant is ready to enter Mode 3. The Unit Superv isor has directed you to dete rm ine the ope rab ility of the Pressurizer Heaters by perform i ng step 5.3.1 of IPO-001A, "Plant Heatup from Cold Shutdown to Hot Standby". Plant data is provided.

Plant Data Param e ter Value f r om Last Readin g Sheets (OPT-XXX) Current Value 1/1-PCPR1 Am ps 580 580 1/1-PCPR Amps 0 200 1/1-PCPR2 Am ps 565 565 1/1P-CPR3 Am ps 0 176 1B1 Volts 474 468 1B2 Volts 483 476 1B3 Volts 476 470 1B4 Volts 485 480 PC point V6303A 487.2 486.9 PC point V6302A 488.1 487.1 PC point V6301A 487.2 486.9 PC point V6304A 488.3 487.1 PC point A6801A 571.2 570.1 PC point A6802A 0 193 PC point A6803A 559.8 560 PC point A6804A 0 176 1EA1 Amps 282.7 261.4 1EA2 Amps 358.5 423.7 NOTE: The candidate can use either the MCB mete r am perages or the plant com puter values for heater am pe rages. The IPO allows both and there is no significant difference.

NOTE: The shaded param e ters should NOT be use

d. The following problem s exist with the shaded data: 1. The pressurizer heaters are supplied by 1EB1-4, NOT 1B1-4
2. 1EA1/2 am perage is not necessary to com p lete the calcu lation s. 3. Data from the last set of logs should NOT be used for the Operability determ ination. Plant conditions could have changed significantly si nce the readings were taken. The IPO wants curren t plan t data to d e te rm ine Operability.

Page 4 of 5 Rev Date: 1/19/05 Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY Page 5 of 5 Rev Date: 1/19/05 Circle the correct status for each Bank of Pressurizer Heaters Heater Bank Status Status B/U Heater Grp. A Operable Inoperable B/U Heater Grp. B Operable Inoperable Control Grp. C Operable Inoperable B/U Heater Grp. D Operable Inoperable Example of the completed procedure:

5.3 Heatup And Pressurization For MODE 3 Entry

[C] This section describes steps for heatup and pressurization to enter MODE 3. 5.3.1 Verify at least two groups of pressurizer heaters have a capacity of at least 150KW each.(TS SR 3.4.9.2) A. Energize each group of heaters, as required, to measure current. _____

B. Record voltage and current AND calculate power for each group of heaters. (Voltage x current x 0.001732 = power)

Backup Heater Group A 1EB3 1-II-PCPR1or Or 486.9__x or _570.1 _

x 0.001732 =

480.77 KW _____

V6303A A6801A Backup Heater Group B 1EB2- 1-II-PCPR2 or 487.1 x or _193 _

x 0.001732 =

162.8 KW _____

V6302A A6803A  ! Control Heater Group C 1EB1 1-II-PCPR or 486.9 x or __560 x 0.001732 =

_472.54_ KW _____

V6301A A6803A  ! Backup Heater Group D 1EB4 1-II-PCPR3 or 487.1 x or _176 x 0.001732 =

__148.5__ KW _____

V6304A A6804A C. Operate pressurizer heaters as needed for plant conditions. _____

D. IF any group(s) of pressurizer heaters does NOT have a capacity of > 150KW, THEN initiate a LCOAR per ODA-308. _____

Initial License Exam 03/2005 Job Performance Measure JPM: RO A1.b KEY Page 1 of 5 Rev Date: 1/24/05 System: Conduct of Operations JTA Task #: (New) Task Title: Calculate RCS Leakrate KSA Ref: 2.1.23 PEO: RO: 3.9 SRO: 4.0 Operator's Name:

Performance Environment:

CLASSROOM CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 15 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

ABN-103 "Excessive Reactor Coolant Leakage" Tools, Equipment, Job Aids, etc:

Selected parameters from the plant, captured on Attachment 1 of this JPM, and a calculator.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A1.b KEY Page 2 of 5 Rev Date: 1/24/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The plant is operating at 100% power , BOL. The crew is responding to the indications of a Reactor Coolant System leak. The Unit Supervisor has directed you to determine the size of the leak by performing Attachment 1 of ABN-103, "Excessive Reactor Coolant Leakage". Plant data is provided. Terminating Conditions:

Calculations are complete and a RCS Leak Rate determination has been made.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A1.b KEY Page 3 of 5 Rev Date: 1/24/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Provide the candidate with the initiating cue, the plant data sheet, and a copy of ABN-103 Attachment 1.

Note Start time.

2 Candidate correctly transfers data to the procedure.

See Attached Key 3 Candidate performs calculations.

See Attached Key

  • 4 Candidate determines operability TASK COMPLETE. Leak rate is determined to be approx 5 gpm.

See key for allowed variances in parameters Note Completion time.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A1.b KEY Page 4 of 5 Rev Date: 1/24/05 INITIATING CUE:

Parameter Value at 1429 Value at 1446 CHG FLO (F6138A) 140.7 143.8 LTDN FLO (F6134A) 130.9 130.9 FR-157 (RCP 1 Leak Off) 2.8 2.8 FR-156 (RCP 1 Leak Off) 2.8 2.8 FR-155 (RCP 1 Leak Off) 2.8 2.8 FR-154 (RCP 1 Leak Off) 2.8 2.8 VCT LVL (L6112A) 52.8 50.4 T0400A (Loop 1 Tave) 589.8 589.8 T0420A (Loop 2 Tave) 588.6 588.6 T0440A (Loop 3 Tave) 589.7 589.7 T0460A (Loop 4 Tave) 588.7 588.7 L6480A (PZR Level 1) 60 59.5 L6481A (PZR Level 2) 60 59.5 L6482A (PZR Level 3) 60 59.5 NOTE: There was no VCT auto make-up. There we re no diversions of letdown flow during this period.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A1.b KEY Page 5 of 5 Rev Date: 1/24/05 Attachment 1 CPSES ABNORMAL CONDITIONS PROCEDURES MANUAL UNIT 1 AND 2 PROCEDURE NO.

ABN-103 EXCESSIVE REACTOR COOLANT LEAKAGE REVISION NO 8 PAGE 22 OF 28 ATTACHMENT 1 PAGE 2 OF 2 PARAMETER INITIAL VALUE FINAL VALUE AVERAGE VALUE TIME (-) __1429____ + __1446____ = ____17___ t

  • CHRG FLO (F6138A) __140.7____ + ___143.8___

(__________284.5____________) 2 = __142.25___ GPM

  • LTDN HX OUT FLOW (F6134A) ___130.9__ + ___130.9___

(__________261.8______________) 2 = __130.9__ GPM

  • RCP SEAL LKOFF FLO (FR-157, 156, 155

& 154) ___11.2______ + ____11.2____

(___________5.6______________

.) 2 = ___11.2___ GPM

  • VCT LVL (L6112A) (_52.8___ - __50.4___)(19.4gal/%)

(_________46.56__________________) (__17____)t in MIN)

= __2.74___ GPM RC LOOP 1-4 TAVE (T0400A,T0420A,T0440A OR T0460A)

(________ - ________)(93gal/°F)

(_____________0__________________) (_____17_____)t in MIN)

= ____0___ GPM PRZR LVL (L6480A,L6481A OR L6482A) (_60___ - ___59.5__)(65gal/%)

(_________32.5___________________) (__17_____)t in MIN)

= ___1.9___ GPM Shaded areas NOT REQUIRED CALCULATION FORMULA Flow adjust method: (+) ________

CHRG FLO -________

LTDN FLOW -________

SEAL LKOFF FLO -( )_________

TAVG ADJUST

+( )________

PRZR LVL ADJUST = ______GPM RCS LEAKAGE OR VCT level adjust method ( )__2.74___ VCT LVL ADJUST Allowed (2.5-3.0)

-( )_0___ TAVG ADJUST +(+ )__1.9__

PRZR LVL ADJUST Allowed (1.6 -

2.2) = __4.65_GPM RCS LEAKAGE Allowed (4.1

- 5.2)

  • Either Chrg Flo, Ltdn Flow, and RCP Seal Lkoff Flo (Flow adjust method) OR VCT Lvl (VCT level adjust method) should be used, but NOT both.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A1.b KEY Page 6 of 5 Rev Date: 1/24/05

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 1 of 13 Rev Date: 1/25/05 System: Equipment Control JTA Task #: (New) Task Title: Check Completed Surveillance Procedure for Accuracy KSA Ref: 2.2.12 PEO: RO: 3.0 SRO: 3.4 Operator's Name:

Performance Environment:

CLASSROOM CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 15 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

OPT-207A "Service Water System" Tools, Equipment, Job Aids, etc:

Selected parameters from the plant, captured on Attachment 1 of this JPM..

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 2 of 13 Rev Date: 1/25/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The plant is operating at 100% power , BOL. You are the CPC RO. Th e Unit Supervisor has directed you to review the just completed OPT-207 A, Service Water System, for accuracy. Circle any mistakes in the OPT and return the marked up copy to the Lead Examiner. Terminating Conditions:

The OPT has been reviewed and 2 of the three errors have been correctly identified.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 3 of 13 Rev Date: 1/25/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Provide the candidate with the initiating cue.

Note Start time.

2 Candidate reviews completed data sheet.

See Attached Key

  • 3 Candidate determines the errors in the completed OPT.

TASK COMPLETE. Two of the three errors are identified. See Attached Key for the three errors.

Note Completion time.

NOTE: The

vibration alert error should be noted in 4 places.

It is critical that the ODA -308

Tracking LOCAR be noted. The others are less important.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 4 of 13 Rev Date: 1/25/05 INITIATING CUE:

The plant is operating at 100% power , BOL. You are the CPC RO. Th e Unit Supervisor has directed you to review the just completed OPT-207A, Service Water System, for accuracy. Circle any mistakes in the OPT and return the marked up copy to the Lead Examiner.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 5 of 13 Rev Date: 1/25/05 Attachment 1. Completed OPT.

NOTE TO EXAMINER: Ensure candida te is provided the filled out OPT. This must be done manually.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 6 of 13 Rev Date: 1/25/05 ROUTINE TEST-SURVEILLANCE page 1 WORK ORDER Resp. Group: POSS OPS SHIFT MANAGER WO # : 5-05-505395-AA Tag #: CP1-SWAPSW-01 Unit: 1 Train (Sys) : A See Equipment List System: SW Train (Elect) : NA More Tags and Locations Bldg/Elev : SI 0796 Room: X-275 Tag Desc: STATION SERVICE WATER PUMP 1-01 Comp't Quality: Y Safety Class: 3 SEIS CAT: I MOV XI: N PVO: A EQ: M ***************************************** SURVEILLANCE

SUMMARY

                                                                                                          • DESC: OPT-207A, TRN A STATION SERVICE WATER PMP/VLV OPERBILITY TEST Compliance Date/Time : 03/21/2005 10:05 Source Doc't : IST Violation Date/Time : 04/05/2005 10:05 Test Section : 8.2 Adj Schedule Date/Time : __/__/____ Test Procedure: OPT-207A Work Week Test Type : FI Frequency : 92 Days Last Performed Date/Time : 01/09/2005 10:005 Last Perf. WO  : 5-04-505395-AE
                                    • SPECIAL INSTRUCTI ONS**********************
                                                          • Permit-RWP  : N #: ____________________ Confined Space  : N #: ____________________ Fire Permit : N #: ____________________ Combust. Loading  : N #: ____________________ Fire Impair : N #: ____________________ Cleanliness Class: C Housekeeping Zone: IV Clearance/MTD : N #: ____________________ STA-720 Req'd : No Barrier Impair Form: No Postwork Testing Reqt: N Ventilation Pressure Boundary Breach: No
                        • APPROVAL/AUTHORIZATION TO START*************************************** Ops-Shift Manager Technical  : _____________________________ Date: __/__/____ Radiation Protection  : _____________________________ Date: __/__/____ Shift Manager  : _____________________________ Date: __/__/____ Ops-Shift Manager Safety  : _____________________________ Date: __/__/____ Revisions 1 2 3 4 5 6 ------------------------------------------------------------------------------------- POSS ______ ______ ______ ______ ______ ______ QC ______ ______ ______ ______ ______ ______ ANII ______ ______ ______ ______ ______ ______ RP ______ ______ ______ ______ ______ ______ Ops SM ______ ______ ______ ______ ______ ______ ********************************************INITIAL SURVEILLANCE RESULTS********************************************** As Found Condition: _____ Unsat (Sign&Date) ____________________________ Date: __/__/____ Shift Manage Informed (Sign&Date) _________________________________ Date: __/__/____ ***************************************FINAL SURVEILLANCE RESULTS*************************************************** Duration (Est/Act) 7 / ___ Start Time ____ Date: __/__/____ Test Completed: ___ Sat ___ Unsat Tech Spec Acceptance Checked: ___ Sat ___ Unsat Test Completed by: ________________________________________ Time: ____ Date: __/__/____ ************************************SURVEILLANCE ACCEPTANCE******************************************************* Tech Spec Acceptance Criteria Met: ___ Sat ___ Unsat Shift Manager: ________________________________________ Date: __/__/____ Time: ____ ************************************** SURVEILLANCE REVIEWS******************************************************** Ops-Shift Manager  : _____________________________ Date: __/__/____ Ops-Shift Manager  : _____________________________ Date: __/__/____ Ops-Shift Manager  : _____________________________ Date: __/__/____ Ops-Shift Manager  : _____________________________ Date: __/__/____ *******************************************************************************************************************************

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 7 of 13 Rev Date: 1/25/05 ROUTINE TEST-SURVEILLANCE page 2 WORK ORDER Tag # CP1-SWAPSW-01 WO # : 5-04-505395-AA ********************************************** WORK PLAN ****************************************************************

MANPOWER ESTIMATES MEASURING AND TEST EQUIPMENT (enter actual manhours)

Discipline MANHOURS CAL DUE CAL DUE Code Est/Act M&TE TAG# DATE M&TE TAG# DATE IWCM 0/ ___ ___________ __/__/__ ___________ __/__/__ POS 0/ ___ ___________ __/__/__ ___________ __/__/__ POSS 0/

_1_ ___________ __/__/__ ___________ __/__/__ ______ ___ / ___ ___________ __/__/__ ___________ __/__/__ ______ ___ / ___ ___________ __/__/__ ___________ __/__/__ ______ ___ / ___ ___________ __/__/__ ___________ __/__/__ ______ ___ / ___ ___________ __/__/__ ___________ __/__/__ ______ ___ / ___ ___________ __/__/__ ___________ __/__/__ ______ ___ / ___ ___________ __/__/__ ___________ __/__/__

                                                                      • SPECIAL PARTS AND SPECIAL TOOLS *******************************************

Enter actual quantity used and unique identifier such as Serial #, Heat # RR#, RIR #, QAT # etc. if applicable Unique ID ISSUE/ Qnty UI Qnty It ID) (SN, RR, RIR, STAGED PMMS Reqd Used (TSN) QAT, HT# etc) Description Flag STATUS ----- ---- ----- ------- ---------------- --------------------------- ---- ----------

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

N/A ___ ___ ____ ___________ __________________ ___ ______

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 8 of 13 Rev Date: 1/25/05 ROUTINE TEST-SURVEILLANCE pa ge 3 WORK ORDER Tag # CP1-SWAPSW-01 WO # : 5-05-505395-AA ************************************RELATED EQUIPMENT / VERIFICATION LIST***********************************

+ Stop + Locate + Touch +Verify + Anticipate + Manipulate + Observe +

Verify the Equipment Tags being worked / tested relate to the work order. Verify W.O. tags using the following related equipment / verification list.

Tag Number Bldg-El Room Tag Sys Elec ASME Saf Seis Q E Description Stat Trn Trn III/XI CL CTGY R Q **************************************************************************************************** CP1-SWAPSW-01 SI-0796 X-275 ACT A N/A 3 N 3 I Y M Un: 1 Sys: SW Station Service Water Pump 1-01 Specific Loc: SSW PMP 1-01 Bay Comments: _______________________________________________________________ Failure Code: NA *******************************************************************************************************************************

1-HV-4286 SI-0796 X-275 ACT A N/A 3 N 3 I Y M Un: 1 Sys: SSW PMP 1-01 DISCH VLV Specific Loc: Comments: _______________________________________________________________ Failure Code: NA *******************************************************************************************************************************

1-HV-4393 SG-810 1-082 A N/A 3 N 3 I Y M Un: 1 Sys: Hallway Comments: _______________________________________________________________ Failure Code: NA *******************************************************************************************************************************

1-SW-0374 SG-810 1-082 A N/A 3 N 3 I Y M Un: 1 Sys: DISCH OF PMP Comments: _______________________________________________________________ Failure Code: NA Other Tags / Comments: ________________________________________________________________________________ ________________________________________________________________________________________________________________________________________________________________________________________________________

                                                                                            • PROCEDURES***************************************************************

OPT-207A SERVICE WATER SYSTEM

                                                                                            • INSTRUCTIONS*************************************************************

Resp Planner: Harold (Chuck) Jackson X 5953 This test will verify the Service Water System; Train A, Pump and Valve operability as defined by ASME,Section XI requirements. This test will be performed at least once per ninety-two days in all operation Modes. *******************************************************************************************************************************

Step Instructions continued on next page --------- >

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 9 of 13 Rev Date: 1/25/05 ROUTINE TEST-SURVEILLANCE page 4 WORK ORDER Tag # CP1-SWAPSW-01 WO #: 5-05-505395-AA INSTUCTIONS (continued)

< ---------------- Step Instruction Continued from Previous Page

  • This test may be performed in any mode.
  • Performance of this test satisfies RI-IST requirements: CP1-SWAPSW-01 (PT/3M) 1-HV-4286 (ET-0/ET-C/18M) 1-HV-4393 (ET-0/18M) 1SW-0374 (CV-C/CV0/3M)
  • QC Support required for acoustic monitoring per STA-750. Required Contacted: _____________________/ ____ Yes____ No ____
  • PROMPT TEAM support required to monitor pump vibration
  • Both Trains of SSW are in service (SOP-501A).
  • Computer is available to obtain flow data and observe bearing temperatures.
  • Data Sheet OPT-207A-4. *******************************************************************************************************************************
    • 1. QC or other applicable test personnel install acoustic QC/OPS ____ emission test equipment in accordance with STA-750 if required.
2. Perform OPT-207A, Section 8.2, Train A, Station OPS ____ Service Water Pump 1-01 Operability Test
3. QC record acoustic emission data in accordance QC/OPS ____ with STA-750 if required.
4. PROMPT TEAM record pump vibration data. PT/OPS ____
5. QC remove acoustic emission test equipment QC/OPS ____ if installed.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 10 of 13 Rev Date: 1/25/05 ROUTINE TEST-SURVEILLANCE page 5 WORK ORDER Tag # CP1-SWAPSW-01 WO #: 5-05-505395-AA

                                                                            • WORK PERFORMED / PR OBABLE CAUSE *************************************

As found condition:_________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________

_________________________________________________________________________________________

Corrective Action Taken:___________________________________________________________________________________ _____________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________

___________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________

As Left Condition:________________________________________________________________________________ ____________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________

Probable Cause of Problem/Failure:___________________________________________________________________________ ____________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________

Work Duration (Est./Act.) 7.0 / ___

Work Completed by: ______________________________________ Date: __/__/__

Work Supervisor: _________________________________________ Date: __/__/__

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 11 of 13 Rev Date: 1/25/05 ROUTINE TEST-SURVEILLANCE pa ge 6 WORK ORDER Tag # CP1-SWAPSW-01 WO #: 5-05-505395-AA ********************************************RELATED WORK ORDERS*************************************************

    • NO RELATED WORK ORDERS **
                                                                                          • RELATED ACTIVITIES*******************************************************
    • NO RELATED ACTIVITIES **
                                                                                        • OTHER RELATIONSHIPS**************************************************** Rel Rel Type Related Item Number Sheet # Related Item Description Class DOC OPT-207A Service Water System Proc SPTOOL Accelerometer, 196 1 EA XREF SPTOOL Pocket Dial, Therm 1 EA XREF SPTOOL Smartmeter, 1330 1 EA XREF SPTOOL Stopwatch 1 EA XREF SPTOOL Therm, Type 3 +/ - 5D 1 EA or Better XREF
                                                                                        • RELATED CLEARANCE******************************************************
    • NO OTHER CLEARANCE **
                                                                                • SURVEILLANCE REQUIREMENTS**********************************************

Surveillance Requirement Su rveillance Requirement Description 5.5.8 Refer to Tech Spec Manual

    • END OF REPORT**
                                                                                                      • BOTTOM OF DATA*****************************************************

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 12 of 13 Rev Date: 1/25/05 SSWP 1-01 DATA SHEET NOTE: This for is used to record test data as required by section 8.2 STEP OBSERVED ACCEPTANCE CRITERA INITIALS 6.2 PREREQUISITES MET N/A N/A _____ 8.2 D. X-LI-4288 LEVEL

_____ N/A _____ E. Reference Discharge Pressure PSIG N/A _____ G. P3251A Discharge Pressure

PSIG N/A _____ And Time _____ N/A _____ I. F6258A SSWP 1 DISCH FLO

________ + ________ + ________ + ________ + ________ + GPM GPM GPM GPM GPM

________ + ________ + ________ + ________ + ________ = GPM GPM GPM GPM GPM

_______TOTAL _____

J. AVERAGE FLOW

___________ ÷ 10 = _________ GPM _____ (Total Step 8.2.1) Average Refer Action Limit Alert Limit Average Action Limit Units Value Low Low Value High 12.918 <12,014 <12,272 ________ >14,210 GPM _____

K. VIBRATION AMPLITUDE Test Refer Calculated Alert Limit Action Limit Parameter Value Value High High Units Initials MOH 0.064 _____ >0.160 >0.384 in/sec pk _____ MOV 0.071 _____ >0.178 >0.426 in/sec pk _____ MOA 0.054 _____ >0.135 >0.324 in/sec pk _____

OPT-207A-4 Page 1 of 2 R-11

Initial License Exam 03/2005 Job Performance Measure JPM: RO A2 Page 13 of 13 Rev Date: 1/25/05 SSWP 1-01 DATA SHEET STEP OBSERVED ACCEPTANCE CRITERIA INITIALS 8.2 O 1-HV-4286 Open/Closed OPEN _____ P SSWP 1 (NOTE 1) ____ sec / Reverse Rotation < 5 sec Reverse Rotation _____ Q 1-SW-0023 Locked Open/ Closed N/A _____ R 1-HV-4286 10% Open/Open 10% Open _____ T 1-HV-4286 Open/ 10%Open Open _____ U 1 FI-4258A Flow (NOTE 2)

________ GPM 16,456 GPM

_____ V 1-HV-4393 Open/Closed OPEN _____ W Measured Data within Limits Yes / No N/A _____ ODA-308 Initiated Yes / No N/A _____ Technical Specification Action Required Yes / No N/A _____ COMPONENT OSBSERVED POSITION REQUIRED VERIFIED 9.0 B 1-SW-0023 Locked Open/___

Locked Open

_____ 1-HS-4286 Auto Open/_____

Auto Open

_____ NOTE 1: SSWP rotating in the reverse direction 5 sec satisfies the full closure stroke of 1SW-0374. NOTE 2: Flow 16,456 gpm satisfied the fill open stroke of 1SW-0374.

Comments/Discepancies:____________________________________________________________________ ___________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________

Corrective Actions:__________________________________________________________________________________ ___________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________

Performed by: ____________________________________________ Date: __________

Reviewed by: ____________________________________________ Date: __________

OPT-207A-4 Page 1 of 2 R-11

Initial License Exam 03/2005 Job Performance Measure JPM: RO A3 Page 1 of 4 Rev Date: 2/7/05 System: Radiation Control JTA Task #: (New) Task Title: Evaluate Radiological Condition for Task Performance KSA Ref: 2.3.10 PEO: RO: 2.9 SRO: 3.3 Operator's Name:

Performance Environment:

CLASSROOM CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 15 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

GAP# 2005-01 STA-656 RPI-606 Tools, Equipment, Job Aids, etc:

Copy of the GAP and the applicable Survey Map for the task.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A3 Page 2 of 4 Rev Date: 2/7/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.

You are to evaluate the radiolog ical condition in the area and provide the requested information. Terminating Conditions:

Answers to questions are pr ovided to the evaluator.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A3 Page 3 of 4 Rev Date: 2/7/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Provide the candidate with the initiating cue, the GAP and the Survey Map.

Note Start time.

  • 2 Candidate correctly answers two of the three questions.

TASK COMPLETE. See Attached Key Note Completion time

Initial License Exam 03/2005 Job Performance Measure JPM: RO A3 Page 4 of 4 Rev Date: 2/7/05 INITIATING CUE:

You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.

You are to evaluate the radiological condition in the area and provide the requested information.

NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.

1. The area where the valve is located is a:

A) Locked High Radiation Area B) Contaminated Area C) Posted High Radiation Area D) General Radiation Area

2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.

A) 50 minutes B) 5 minutes C) 25 minutes D) 2.5 minutes

3. Circle three areas on the Survey Map that require contact with RP prior to entry.

Initial License Exam 03/2005 Job Performance Measure JPM: RO A3 Page 5 of 4 Rev Date: 2/7/05

-KEY- INITIATING CUE:

You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152. You are to evaluate the radiological condition in the area and provide the requested information.

NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.

1. The area where the valve is located is a:

E) Locked High Radiation Area F) Contaminated Area G) Posted High Radiation Area H) General Radiation Area

2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.

E) 50 minutes F) 5 minutes G) 25 minutes H) 2.5 minutes

3. Circle three areas on the Survey Map that require contact with RP prior to entry.
1) The area where the valve to be operated is. 2) The CA I/S Pit 3) The contaminated area.

The RWP map was removed from this page of the exam by the chief examiner because it was considered potential SUNSI material due to the equipment locations on the map.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY Page 1 of 5 Rev Date: 1/19/05 System: Conduct of Operations JTA Task #: (New) Task Title: Determine Pressurizer Heater Operability KSA Ref: 2.1.33 PEO: RO: 3.4 SRO: 4.0 Operator's Name:

Performance Environment:

CLASSROOM CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 15 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

IPO-001A "Plant Heatup from Cold Shutdown to Hot Standby" Tools, Equipment, Job Aids, etc:

Selected parameters from the plant, captured on of this JPM, and a calculator.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY Page 2 of 5 Rev Date: 1/19/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The plant is ready to enter Mode 3. The Unit Supervisor has directed you to determine the operability of the Pressurizer Heaters by performing step 5.3.1 of IPO-001A, "Plant Heatup from Cold Shutdown to Hot Standby". Plant data is provided. Terminating Conditions:

Calculations are complete and an Operability determination has been made.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY Page 3 of 5 Rev Date: 1/19/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Provide the candidate with the initiating cue, the plant data sheet, and a copy of IPO-001A step 5.3.1.

Note Start time.

2 Candidate correctly transfers data to the procedure.

See Attached Key 3 Candidate performs calculations.

See Attached Key

  • 4 Candidate determines operability TASK COMPLETE. B/U Heater Groups A, B and Control Heater Group C are OPERABLE. B/U Heater Group D is INOPERABLE Note Completion time.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY Page 4 of 5 Rev Date: 1/19/05 INITIATING CUE:

The plant is ready to enter Mode 3. The Unit Superv isor has directed you to determine the operability of the Pressurizer Heaters by performing step 5.3.1 of IPO-001A, "Plant Heatup from Cold Shutdown to Hot Standby". Plant data is provided.

Plant Data Parameter Value from Last Reading Sheets (OPT-XXX)

Current Value 1/1-PCPR1 Amps 580 580 1/1-PCPR Amps 0 200 1/1-PCPR2 Amps 565 565 1/1P-CPR3 Amps 0 176 1B1 Volts 474 468 1B2 Volts 483 476 1B3 Volts 476 470 1B4 Volts 485 480 PC point V6303A 487.2 486.9 PC point V6302A 488.1 487.1 PC point V6301A 487.2 486.9 PC point V6304A 488.3 487.1 PC point A6801A 571.2 570.1 PC point A6802A 0 193 PC point A6803A 559.8 560 PC point A6804A 0 176 1EA1 Amps 282.7 261.4 1EA2 Amps 358.5 423.7 NOTE: The candidate can use either the MCB meter amperages or the plant computer values for heater amperages. The IPO allows both and there is no significant difference.

NOTE: The shaded parameters should NOT be used. The following problems exist with the shaded data: 1. The pressurizer heaters are supplied by 1EB1-4, NOT 1B1-4 2. 1EA1/2 amperage is not necessary to complete the calculations. 3. Data from the last set of logs should NOT be used for the Operability determination. Plant conditions could have changed significantly si nce the readings were taken. The IPO wants current plant data to determine Operability.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO/RO A1.a KEY Page 5 of 5 Rev Date: 1/19/05 Circle the correct status for each Bank of Pressurizer Heaters Heater Bank Status Status B/U Heater Grp. A Operable Inoperable B/U Heater Grp. B Operable Inoperable Control Grp. C Operable Inoperable B/U Heater Grp. D Operable Inoperable Example of the completed procedure:

5.3 Heatup And Pressurization For MODE 3 Entry

[C] This section describes steps for heatup and pressurization to enter MODE 3. 5.3.1 Verify at least two groups of pressurizer heaters have a capacity of at least 150KW each.(TS SR 3.4.9.2) A. Energize each group of heaters, as required, to measure current. _____

B. Record voltage and current AND calculate power for each group of heaters. (Voltage x current x 0.001732 = power)

Backup Heater Group A 1EB3 1-II-PCPR1or Or 486.9__x or _570.1 _

x 0.001732 =

480.77 KW _____

V6303A A6801A Backup Heater Group B 1EB2- 1-II-PCPR2 or 487.1 x or _193 _

x 0.001732 =

162.8 KW _____

V6302A A6803A  ! Control Heater Group C 1EB1 1-II-PCPR or 486.9 x or __560 x 0.001732 =

_472.54_ KW _____

V6301A A6803A  ! Backup Heater Group D 1EB4 1-II-PCPR3 or 487.1 x or _176 x 0.001732 =

__148.5__ KW _____

V6304A A6804A C. Operate pressurizer heaters as needed for plant conditions. _____

D. IF any group(s) of pressurizer heaters does NOT have a capacity of > 150KW, THEN initiate a LCOAR per ODA-308. _____

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A1.b Page 1 of 4 Rev Date: 1/19/05 System: Administrative Procedures JTA Task #: (Bank 2001) Task Title:

Determine Staff Working Hours KSA Ref: 2.1.5 PEO: RO: 2.3 SRO: 3.4 Operator's Name:

Performance Environment:

CLASSROOM CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 10 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

Technical Specifications STA-615, "Staff Work Hours" Tools, Equipment, Job Aids, etc:

Technical Specifications STA-615, "Staff Work Hours"

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A1.b Page 2 of 4 Rev Date: 1/19/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs with the exeption of the Plant Computer. Make or simulate all written/oral reports as if th e evolution is actually being performed. You are expected to discuss all steps you would ta ke, including identifying what switches/indications you would use Initiating Cue:

You are the Unit Supervisor and one of the assigned ROs called in sick. You need to find a replacement RO. Assuming today is March 23 (0630), based on the work hour history, determine which of the following 5 ROs could perform safety-related functions until 1830 without advanced

approval. 1. RO1 has been on-shift since 0200 (March 23). 2. On March 22, RO2 worked from 0630 until 1900 (includes a 1/2 hour shift turnover). 3. RO3 worked from 1430 on March 22 to 0030 on March 23. 4. RO4 has been on vacation for the past two days (March 21 and 22), but worked 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> on March 17, 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> on March 18, 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> on March 19, and 14 hours1.62037e-4 days <br />0.00389 hours <br />2.314815e-5 weeks <br />5.327e-6 months <br /> on March 20. 5. On March 22, RO5 worked from 0630 until 1930 (includes a 1/2 hour shift turnover).

Terminating Conditions:

Determine that 2 out of the 5 ROs available meet the work hour requirement to relieve the shift.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A1.b Page 3 of 4 Rev Date: 1/19/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Provide candidate with completed copy of the initiating cue Candidate should review Admin JPM and initiating cue Note Start time.

  • 2 Review work hour history and determine that only 2 of the 5 ROs could work without advanced approval.

TASK COMPLETE RO1 - no, would work

16.5 hrs straight RO2 - Yes, would work

24 hrs in 48 hrs RO3 - No, less than 8

hours between work periods RO4 -Yes, would work 70 hrs in 7 days RO5 - No, would work

24.5 hrs in 48 hrs.

Pass criteria is 4 of the 5 ROs work hour status being correctly determined No - cannot work Yes - can work Note Completion time.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A1.b Page 4 of 4 Rev Date: 1/19/05 INITIATING CUE:

You are the Unit Supervisor and one of the assigned ROs called in sick. You need to find a replacement RO. Assuming today is March 23 (0630), based on the work hour history, determine which of the following 5 ROs could perform safety-related functions until 1830 without advanced approval.

1. RO1 has been on-shift since 0200 (March 23). 2. On March 22, RO2 worked from 0630 until 1900 (includes a 1/2 hour shift turnover). 3. RO3 worked from 1430 on March 22 to 0030 on March 23. 4. RO4 has been on vacation for the past two days (March 21 and 22), but worked 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> on March 17, 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> on March 18, 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> on March 19, and 14 hours1.62037e-4 days <br />0.00389 hours <br />2.314815e-5 weeks <br />5.327e-6 months <br /> on March 20. 5. On March 22, RO5 worked from 0630 until 1930 (includes a 1/2 hour shift turnover).

Initial License Exam JPM: SROA2 0312005 KEY Job Performance Measure system: Equipment Control JTA Task #: (New) Task Title: Complete Technical Specification Paperwork for INOP PZR Heaters (Tracking LOCAR)

KSA Ref: 2.2-23 PEO: RO: 2.6 SRO: 3.8 Operator's Name: Performance Environment:

CLASSROOM CONTROL ROOM SIMULATOR Performance Method: PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 15 minutes Actual The operator's performance was evaluated against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory: Evaluator's Signature: Date: Comments (list steps not satisfactorily completed):

References:

ODA-308 Technical Specification 3.4.9 Tools, Equipment, Job Aids, etc:

Blank LOCAR Form. Page 1 of 4 Rev Date: 2/7/05 Initial License Exam Job Performance Measure PM: SROA2 Safety Considerations:

If this JPM is to be performed in the planthontrol room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor.

Human Performance Measures: During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all writtedoral reports as if the evolution is actually being performed.

You are expected to discuss all steps you would take, including identifying what switcheshdications you would use Initiating Cue:

Bank D of the Pressurizer Heaters was declared INOPERABLE today at 083 1 due to KW output less than minimum. You have been directed to fill out the Tracking LOCAR.

Because of a server problem, the electronic LOCAR system is unavailable.

The SM has called the Prompt team and they will call with the LOCAR number when it is generated. Terminating Conditions: Completed Tracking LOCAR provided to the evaluator.

Page 2 of 4 Rev Date: 2/7/05 Initial License Exam JPM: SROA2 P STEP# *Critical 1 "2 03/2005 Job Performance Measure ELEMENT Provide the candidate with the initiating cue, the applicable Technical specification and the blank LOCAR form.. Candidate correctly fills out the form. The KEY indicates the required minimum fields. Three of the four minimum fields must be correct to pass the JPM. TASK COMPLETE.

STANDARD See Attached Key Note Completion time NOTES Note Start time.

SAT/ IJNSAT Page 3 of 4 Rev Date: 2/7/05 Initial License Exam 03/2005 Job Performance Measure JPM: SROA2 INITIATING CUE: Bank D of the Pressurizer Heaters was declared INOPERABLE today at 083 1 due to KW output less than minimum.

You have been directed to fill out the Tracking LOCAR. Because of a server problem, the electronic LOCAR system is unavailable.

The SM has called the Prompt team and they will call with the LOCAR number when it is generated.

Page 4 of 4 Rev Date:

2/7/05 Pressurizer 3.4.9 SURVEILLANCE SR 3.4.9.1 Verify pressurizer water ievel is 592%. ACTIONS (continued)

FREQUENCY 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> CONDITION SR 3.4.9.2 Verify capacity of each required group of pressurizer heaters is 2 150 kW. B. One required group of pressurizer heaters inoperable.

18 months C. Required Action and associated Completion Time of Condition B not met. REQUIRED ACTION B. 1 Restore required group of pressurizer heaters to OPERABLE status. c. 1 Be in MODE 3. c.2 Be in MODE 4. COMPLETION TIME 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> 6 hours 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> COMANCHE PEAK - UNITS 1 AND 2 3.4-20 Amendment No. 64 Pressurizer 3.4.9 3.4 REACTOR COOLANT SYSTEM (RCS) 3.4.9 Pressurizer LCO 3.4.9 The pressurizer shall be OPERABLE with: a. Pressurizer water level 592%; and b. Two groups of pressurizer heaters OPERABLE with the capacity of each group 2 150 kW. APPLICABILITY:

MODES 1, 2, and 3 ACT IONS CONDITION A. Pressurizer water level not within limit. REQUIRED ACTION A. 1 Be in MODE 3. A.2 Fully insert all rods. A.3 Place Rod Control System in a condition incapable of rod withdrawal.

A.4 Be in MODE 4. COMANCHE PEAK - UNITS 1 AND 2 3.4-1 9 COMPLETION TIME 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> 6 hours 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> 12 hours (con tin ued) Amendment No. 64 a 0 0 a 8 Y s P ol In .- 01 E I=- 3 \ 0" s C 0 aJ .- Y - n U . i v) E l-c a, a, 6 IIIIIIIII IIIIIIIII IIIIIIIII IIIIIIIII 11111111I IIIIIIIII IIIIIIIII IIIIIIIII iiiiiiiii IIIIIIIII IIIIIIIII IIIIIIIII IIIIIIIII . . . . . . . . . QI I I I I I I I I AI I I I I I I I I *IlIIIIIII I I .I .I .I .I .I .I . I IIIIIIIII 81 . \ I I I I I I I I 4 I I I I I I I I YJl I I I I I I I \I,* I I It I I I II~IIIII 31IIIIIII IIIIIIII 4 I I I I I I I I 4IIIIIIII 3 PI I I I I I I I I IIIIIIIII rn m - .- .- c - 0 ? 5 E d i= . a, c D 1 - E u P El 0 a D E! 8 >. El .. D a, .K 0 2 c a, .K 0) K 0 3 K .- c .- c s 0 I- z w 5 E 2 B a: 3 CY z I- 0 w I- . . E 5 d 3 a, E $28 BBd czc mam cv LL TO . ... i: a, m m r" .. a, z E . c .- 5 E a D 0 g! . ! f d

  • 2 a, c K 0 m .- c .- a, I- 0 4-s .= .= 55 c ; -0 m a, -1 .. 0 z E b U T! 0 .. 0 z .. a, c d rnrn 56 .. .. a,a, cc zz .. cc .- .- KK 33 .. D a, m D c 9 rn g 0 m Initial License Exam 03/2005 Job Performance Measure JPM: SRO A3 Page 1 of 4 Rev Date: 2/7/05 System: Radiation Control JTA Task #: (New) Task Title: Evaluate Radiological Condition for Task Performance KSA Ref: 2.3.10 PEO: RO: 2.9 SRO: 3.3 Operator's Name:

Performance Environment:

CLASSROOM CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 15 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

GAP# 2005-01 STA-656 RPI-606 Tools, Equipment, Job Aids, etc:

Copy of the GAP and the applicable Survey Map for the task.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A3 Page 2 of 4 Rev Date: 2/7/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.

You are to evaluate the radiolog ical condition in the area and provide the requested information. Terminating Conditions:

Answers to questions are pr ovided to the evaluator.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A3 Page 3 of 4 Rev Date: 2/7/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Provide the candidate with the initiating cue, the GAP and the Survey Map.

Note Start time.

  • 2 Candidate correctly answers two of the three questions.

TASK COMPLETE. See Attached Key Note Completion time

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A3 Page 4 of 4 Rev Date: 2/7/05 INITIATING CUE:

You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152.

You are to evaluate the radiological condition in the area and provide the requested information.

NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.

1. The area where the valve is located is a:

A) Locked High Radiation Area B) Contaminated Area C) Posted High Radiation Area D) General Radiation Area

2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.

A) 50 minutes B) 5 minutes C) 25 minutes D) 2.5 minutes

3. Circle three areas on the Survey Map that require contact with RP prior to entry.

Initial License Exam 03/2005 Job Performance Measure JPM: SRO A3 Page 5 of 4 Rev Date: 2/7/05

-KEY- INITIATING CUE:

You are on tour in the Safeguards Building. The US directs you to isolate the air to HV-8152. You are to evaluate the radiological condition in the area and provide the requested information.

NOTE: Circle the correct answers to the following questions and provide the evaluator with your completed paperwork.

1. The area where the valve is located is a:

E) Locked High Radiation Area F) Contaminated Area G) Posted High Radiation Area H) General Radiation Area

2. If the area where the air isolation valve is located is a 60 mr/hr field, how long before your dosimeter will alarm if it is at the lower setting allowed by the GAP.

E) 50 minutes F) 5 minutes G) 25 minutes H) 2.5 minutes

3. Circle three areas on the Survey Map that require contact with RP prior to entry.
1) The area where the valve to be operated is. 2) The CA I/S Pit 3) The contaminated area.

The RWP map was removed from this page of the exam by the chief examiner because it was considered potential SUNSI material due to the equipment locations on the map.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.1 Page 1 of 4 Rev Date: 1/18/05 System: Emergency Plan JTA Task #:

SRO A4.1 Task Title:

Event Classification KSA Ref: 2.4.41 EAL Classification PEO: RO: 2.3 SRO: 4.1 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 10 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

EPP-201 "Assessment of Emergency Action Levels, Emergency Classification, and Plan Activation" Tools, Equipment, Job Aids, etc:

Static simulator at the completion of Scenario #1.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.1 Page 2 of 4 Rev Date: 1/18/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The simulator is in freeze. Based on current plant conditions and events during the scenario, determine the emergency classification. Terminating Conditions:

Event is classified as a Site Area Emergency.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.1 Page 3 of 4 Rev Date: 1/18/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Candidate diagnoses plant conditions and determines the emergency classification for Safety System Malfunction or Failure Referencing Chart 6 of EPP-201, the candidate determines that 6A is TRUE, 6B is TRUE, 6C is FALSE, 6F is False Note Start time.

  • 2 Candidate declares Site Area Emergency based on Chart 6 TASK COMPLETE Site Are Emergency declared IAW Chart 6 Note Completion

time.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.1 Page 4 of 4 Rev Date: 1/18/05 INITIATING CUE:

The simulator is in freeze. Based on current plant conditions and events during the scenario, determine the emergency classification.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.2 Page 1 of 4 Rev Date: 1/18/05 System: Emergency Plan JTA Task #:

SRO A4.2 Task Title:

Event Classification KSA Ref: 2.4.41 EAL Classification PEO: RO: 2.3 SRO: 4.1 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 10 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

EPP-201 "Assessment of Emergency Action Levels, Emergency Classification, and Plan Activation" Tools, Equipment, Job Aids, etc:

Static simulator at the completion of Scenario #1.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.2 Page 2 of 4 Rev Date: 1/18/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The simulator is in freeze. Based on current plant conditions and events during the scenario, determine the emergency classification. Terminating Conditions:

Event is classified as a Site Area Emergency.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.2 Page 3 of 4 Rev Date: 1/18/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Candidate diagnoses plant conditions and determines the emergency classification for Loss of Reactor or Secondary Coolant Referencing Chart 2 of EPP-201, the candidate determines that 2A is TRUE, 2B is FALSE Note Start time.

2 Candidate declares Notification of Unusual Event based on Chart 2.

NOTE: Depending on the actual scenario times, this classification may not be necessary. If the 12 gpm leak was not present for > 15 min, it is not reasonable to expect the

candidate to recognize this initial classification.

Notification of Unusual Event declared IAW Chart 2 3 Candidate diagnoses plant conditions and determines the emergency classification for Loss of Reactor or Secondary Coolant Referencing Chart 2 of EPP-201, the candidate determines that 2A is TRUE, 2B is TRUE, 2C is TRUE, 2D is FALSE, 2G is FALSE.

  • 4 Candidate declares Site Area Emergency based on Chart 2.

TASK COMPLETE Site Are Emergency declared IAW Chart 2.

Note Completion

time.

Initial License Exam 03/2005 Job Performance Measure JPM: A4.2 Page 4 of 4 Rev Date: 1/18/05 INITIATING CUE:

The simulator is in freeze. Based on current plant conditions and events during the scenario, determine the emergency classification.

Initial License Exam 03/2005 Job Performance Measure JPM: P1 Page 1 of 4 Rev Date: 1/27/05 System: 118 AC Distribution System & Inverters JTA Task #: (NEW) Task Title:

Bypass Inverter KSA Ref: APE.057.EA1.01 PEO: RO: 3.7 SRO: 3.7 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 5 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

SOP-607A, "118 VAC Distribution System and Inverters" Tools, Equipment, Job Aids, etc:

Working copy of SOP-607A, Section 5.5.5 (1 page)

Initial License Exam 03/2005 Job Performance Measure JPM: P1 Page 2 of 4 Rev Date: 1/27/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The Unit Supervisor has directed you to transfer distribution panel 1PC1 to its alternate power supply using SOP-607A, Section 5.5.5. A crew brief has been held and the Reactor Operator is ready to assist you. Proceed directly to the Inverter and make the transfer. Terminating Conditions:

Distribution panel 1PC1 is energized from the alternate power supply.

Initial License Exam 03/2005 Job Performance Measure JPM: P1 Page 3 of 4 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Ensure 1EC3/2/BKR, 118 VAC INSTRUMENT DISTR PANEL 1PC1 FEEDER BREAKER is ON CUE: Breaker position is ON.

The breaker operator is

pointing to the ON position.

CSR 807' South Wall Note Start time.

  • 2 Perform the following SIMULTANEOUSLY to transfer Panel 1PC1 to the alternate source:

Turn OFF 1PC1/00/BKR-1, IV1PC1 TO 118 VAC INSTRUMENT DISTR PANEL 1PC1 PREFERRED FEEDER BREAKER.

Turn ON 1PC1/00/BKR-2, 1EC3 TO 118 VAC INSTRUMENT DISTR PANEL 1PC1 ALTERNATE FEEDER BREAKER.

CUE : Breaker 1 indicates OFF and Breaker 2 indicates ON TASK COMPLETE At Panel 1PC1:

1PC1/00/BKR-1 is

moved to the OFF position.

1PC1/00/BKR-2 is moved to the ON position.

Note Completion time.

NOTE: Breakers are interlocked via a slide bar such when BKR 1is opened, BKR 2 closes.

Initial License Exam 03/2005 Job Performance Measure JPM: P1 Page 4 of 4 Rev Date: 1/27/05 INITIATING CUE:

The Unit Supervisor has directed you to transfer di stribution panel 1PC1 to its alternate power supply using SOP-607A, Section 5.5.5. A crew brief has been he ld and the Reactor Operat or is ready to assist you. Proceed directly to the Inverter and make the transfer.

Initial License Exam 03/2005 Job Performance Measure JPM: P2 Page 1 of 6 Rev Date: 1/26/05 System: Control Room Evacuation JTA Task #: (Direct)AO5412C Task Title:

Transfer Charging Pump Suction and Isolate Dilution Paths (Alternate Path)

KSA Ref: APE.068.AA1.22 PEO: RO: 4.0 SRO: 4.3 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 20 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

ABN-905A/B, "Loss of Control Room Habitability", Attachment 4. Tools, Equipment, Job Aids, etc:

Attachment 4 of ABN-905A/B (working copy)

Initial License Exam 03/2005 Job Performance Measure JPM: P2 Page 2 of 6 Rev Date: 1/26/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

NOTE TO EXAMINER: Review note at step 8 of JPM to ensu re candidate is notified by RSP.

This JPM is designed to work on e ither Unit for ease of scheduling. Note which Unit is used in the comment section.

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The control room has been evacuated per ABN-905A (B). You are requested to align the charging pump suction to the RWST and isolate RCS dilution paths per Attachment 4.

NOTE: The Control Room has been evacuated and is inaccessible Terminating Conditions:

Charging pump suction has been transferred to the RWST and the RCS dilution paths have been isolated. Attachment 4 is complete.

Initial License Exam 03/2005 Job Performance Measure JPM: P2 Page 3 of 6 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Open RWST u-01 to CHRG PMP SUCT VLV u-LCV-112D MOT BKR.

CUE: Breaker indicates in the OFF position.

u-EB3-1/8C/BKR, switch rotated to LEFT (OFF position).

Note Start time.

SFGD 790'-South (North for U2) Hallway West Side. U1-Room 1-070 U2-Room 2-070 2 Open VCT CTRL u-01 to CHRG PMP SUCT VLV u-LCV-112B MOT BKR CUE: Breaker indicates in the OFF position.

u-EB3-1/5F/BKR switch rotated to LEFT (OFF position).

3 Open RWST u-01 to CHRG PMP SUCT VLV 112E MOT

BKR CUE: Breaker indicates in the OFF position.

1EB4-1/8F/BKR (2EB4-1/9F/BKR) switch rotated to LEFT (OFF position).

AB 790'-By FDT

  1. 3 Door for U1.

U2-810'Room X-207. 4 Open VCT u-01 to CHRG PMP SUCT VLV 0112C MOT BKR. CUE: Breaker indicates in the OFF position.

1EB4-1/8C/BKR (2EB4-1/9C/BKR) switch rotated to LEFT (OFF position).

  • 5 Manually open valve u-LCV-0112D RWST 1-01 TO CHRG PMP SUCT VLV.

CUE: u-LCV-112D has stopped moving and indicates

in the OPEN position.

u-LCV-112D clutch lever depressed while

hand wheel is turned counter clockwise and position indication is checked. NOTE: Either

step 5 or 6 is critical, not both.

AB 810' Southside Corridor about halfway down the corridor outside room. *6 Manually open valve u-LCV-0112E RWST 1-01 TO CHRG PMP SUCT VLV.

CUE: u-LCV-112E has stopped moving and indicates

in the OPEN position.

u-LCV-112E clutch lever depressed while

hand wheel is turned counter clockwise and position indication is checked. LCV-112E is Southeast of LCV-112D.

Unit 2 next to Room X-207.

Initial License Exam 03/2005 Job Performance Measure JPM: P2 Page 4 of 6 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT *7 Manually close valve u-LCV-0112B VCT u-01 to CHRG PMP UPSTRM LVL CTRL VLV. CUE: u-LCV-112B has stopped moving and indicates

in the CLOSED position.

u-LCV-112B clutch lever depressed while

hand wheel is turned clockwise and position indication is checked NOTE: Either step 7 or 8 is critical, not both.

AB 810' charging pump valve room South end, inside the Contaminated area for Unit 1. Unit 2 - Room X-

207. CUE: Remote Shutdown

Panel reports ZL-8220 and ZL-8221 were verified closed.

  • 8 Manually close valve u-LCV-112C VCT u-01 to CHRG PMP DNSTRM LVL CTRL

VLV. CUE: u-LCV-112C has stopped moving and indicates

in the CLOSED position.

u-LCV-112C clutch lever depressed while

hand wheel is turned clockwise and position indication is checked.

Next to LCV-112B. . 9 Isolate dilution paths by closing uCS-8455 RMUW to CVCS BA BLNDR u-01 UPSTRM ISOL VLV.

CUE: uCS-8455 hand wheel turns but the stem does not move. u CS-8455 hand wheel rotated clockwise AUX 822' blender room SE corner 1' above floor *10 Closes u CS-8560-RO, u CVCS CHRG PMP SUCT MU ISOL VLV RMT OPER CUE: uCS-8560 remote operator has stopped moving

and indicates CLOSED u CS-8560 remote operator rotated

clockwise.

AUX 822' blender room.

Order of valve

operation in following steps not critical.

Initial License Exam 03/2005 Job Performance Measure JPM: P2 Page 5 of 6 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT *11 Closes u-FCV-0111B (fail air), RCS MU TO VCT u-01 ISOL VLV by closing u-FCV-0111B-AS1 and depressurizing air regulator.

CUE: u-0111B-AS1 closed and no air is escaping.

u-0111B-AS1 is rotated clockwise and vent on bottom of regulator is rotated counterclockwise.

SFGD 832, RM u-090, VCT VLV RM *12 Closes u CS-8439-RO, U u CVCS CHRG PMP EMER BORATE MAN VLV RMT OPER. CUE: uCS-8439-RO has stopped moving and indicates closed. u CS-8439-RO rotated clockwise.

AUX 822' blender room.

  • 13 Closes u CS-8441, U u RMUW TO EMER BORATE FLSH VLV. CUE: uCS-8441 has stopped moving and indicates CLOSED u CS-8441 rotated clockwise.

AUX 822' blender room.

  • 14 Closes u CS-8453, CVCS CHEM MIX TK u-01 IN VLV CUE: uCS-8453 has stopped moving and indicates CLOSED u CS-8453 rotated clockwise.

AUX 822' blender room.

15 Notify the Reactor Operator that charging pump suction has been transferred to the RWST and dilution paths have been isolated.

TASK COMPLETE RO at the RSP notified that charging pump suction has been transferred to the RWST and dilution paths have been

isolated.

Note Completion

time.

Initial License Exam 03/2005 Job Performance Measure JPM: P2 Page 6 of 6 Rev Date: 1/26/05 INITIATING CUE:

The Control Room has been evacuated per ABN-905A (B). You are requested to align the charging pump suction to the RWST and isolate RCS dilution paths per Attachment 4.

NOTE: The Control Room has been evacuated and is inaccessible.

Initial License Exam 03/2005 Job Performance Measure JPM: P3 Page 1 of 7 Rev Date: 1/15/05 System: Auxiliary Feedwater System JTA Task #:

AO 6415 Task Title: Fill the CST from the Fire Protection Header KSA Ref: EPE.074.EA1.107 PEO: RO: 4.2 SRO: 4.3 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 20 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

ABN-305 Auxiliary Feedwater System Malfunction Tools, Equipment, Job Aids, etc:

None Initial License Exam 03/2005 Job Performance Measure JPM: P3 Page 2 of 7 Rev Date: 1/15/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

While responding to an Inadequate Core Cooling problem CST level dr opped below 10%. The US has directed you to align the Fire Protection Header to the CST by completing the first 4 steps of Attachment 4 of ABN-305. In addition, the US has directed you that 1FP-0627 SFGD BLDG EL 800 DG FP HOSE STA 1-22 is the preferred source of water, and it should be connected to the CT pump discharge vent valve. Terminating Conditions:

One fire protection hose is simulated run from the fire protection header to the effected AFW pump.

Initial License Exam 03/2005 Job Performance Measure JPM: P3 Page 3 of 7 Rev Date: 1/15/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Ensure the following valves are closed. NOTE: All AF valves are located in the Condensate Storage Tank Room. Note Start time.

1.a 1AF-0108, CNDS TO CT PMP 1-01 SUCT UPSTRM ISOL VLV CUE: The handwheel will not turn any further, and the valve stem is all the way down. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

1.b 1AF-0109, CNDS TO CT 1-01 SUCT DNSTRM ISOL VLV CUE: The handwheel will not turn any further, and the valve stem is all the way down. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

1.c 1AF-0200, 1-01 CT PMP DISCH ISOL VLV CUE: The handwheel will not turn any further, and the valve stem is all the way down. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

Initial License Exam 03/2005 Job Performance Measure JPM: P3 Page 4 of 7 Rev Date: 1/15/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1.d 1AF-0110 CST TO CT PMP 1-01 SUCT UPSTRM ISOL VLV CUE: The handwheel will turn clockwise, and the valve stem is all the way up.

2 nd CUE: the handwheel will not turn any further, and the valve stem is all the way down. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

NOTE: After the

operator starts to close the valve, give the 2 nd CUE. 1.e 1AF-0111 CST TO CT PMP 1-01 SUCT DNSTRM ISOL

VLV CUE: The handwheel will turn clockwise, and the valve stem is all the way up.

2 nd CUE: the handwheel will not turn any further, and the valve stem is all the way down. The Locking device is

verified installed. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

NOTE: After the operator starts to close the valve, give the 2 nd CUE. 1.f 1AF-0156, CT PMP 1-01 DISCH VNT VLV CUE: The handwheel will turn clockwise, and the valve stem is all the way up.

2 nd CUE: the handwheel will not turn any further, and the valve stem is all the way down. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

NOTE: After the

operator starts to close the valve, give the 2 nd CUE.

Initial License Exam 03/2005 Job Performance Measure JPM: P3 Page 5 of 7 Rev Date: 1/15/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1.g 1AF-0113, CT PMP 1-01 DISCH TD DRN VLV CUE: The handwheel will not turn any further, and the valve stem is all the way down. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

1.h 1AF-0112, CT PMP 1-01 DISCH TD DRN VLV CUE: The handwheel will not turn any further, and the valve stem is all the way down. The handwheel is rotated in the clockwise direction until handwheel will not turn and valve stem is in the closed position.

2 Connect selected fire protection supply lines from Page 2 or 3 of the attachment to one or more of the following AFW valves.

  • 2.a 1AF-0156, CT PMP 1-01 DISCH VNT VLV CUE: The hose is flaked out and the connection to the vent valve is made. Continue with step 3. The operator correctly identifies the preferred Hose Station (1FP-0627 SFGD BLDG EL 800 DG FP HOSE STA 1-22) and simulates running the hose from the station to the CT pump. The operator will need to procure a 3/4" NPT connection for

the AF connection.

Initial License Exam 03/2005 Job Performance Measure JPM: P3 Page 6 of 7 Rev Date: 1/15/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 3 OPEN the following valves:

  • 3.a 1AF-0110 CST TO CT PMP 1-01 SUCT UPSTRM ISOL VLV CUE: The handwheel will not turn any further and the stem is in the open position.

The handwheel is rotated in the counter clockwise direction until handwheel will not turn and valve stem is in the open position.

  • 3.b 1AF-0111 CST TO CT PMP 1-01 SUCT DNSTRM ISOL VLV CUE: The handwheel will not turn any further and the stem is in the open position.

The handwheel is rotated in the counter clockwise direction until handwheel will not turn and valve stem is in the open position.

4 OPEN the selected AF fill valves: *4.a 1AF-0156, CT PMP 1-01 DISCH VNT VLV CUE: The handwheel will not turn any further and the stem is in the open position.

The handwheel is rotated in the counter clockwise direction until handwheel will not turn and valve stem is in the open position.

5 Informs the Control Room that steps 1-4 of attachment 4 of ABN-305 is complete. TASK COMPLETE Note Completion time.

Initial License Exam 03/2005 Job Performance Measure JPM: P3 Page 7 of 7 Rev Date: 1/15/05 INITIATING CUE:

While responding to an Inadequate Core Cooling problem CST level dropped below 10%. The US has directed you to align the Fire Protection Header to the CST by completing the first 4 steps of Attachment 4 of ABN-305. In addition, the US has directed you that 1FP-0627 SFGD BLDG EL 800 DG FP HOSE STA 1-22 is the preferred source of water, and it should be connected to the CT pump discharge vent valve.

Initial License Exam 03/2005 Job Performance Measure JPM: S-1 Page 1 of 5 Rev Date: 12/23/04 System: Reactor Coolant System JTA Task #:

RO*1111 Task Title: Verify Natural Circulation (Alternate Path)

KSA Ref: EPE.011.EA2.09 PEO: RO: 4.2 SRO: 4.3 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 10 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

EOS-0.1A Reactor Trip Response (Rev 7) Tools, Equipment, Job Aids, etc:

Reset to IC 20 and then:

Trip the Reactor, Enter Malfunction ED01, Start Emergency boration, Stop the TDAFWP when SG levels are @ 25%, Throttle remaining AFW to 120 per SG, manually control ARV's until Auct. CET start to increase. Ensure the simulator remains in FREEZE until right before the candidate starts the task. Ensure Steam Tables are available.

Initial License Exam 03/2005 Job Performance Measure JPM: S-1 Page 2 of 5 Rev Date: 12/23/04 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Evaluator should ensure the simulator remains in FREEZE until right before the candidates starts the task.

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The crew is responding to a loss of offsite power. Sa fety Injection is not actuated or required. The RCP's cannot be restarted. The US directs you to verify Natural Circulation per EOS 0.1A step 8 and Attachment 3 of the same procedure. (Provide candidate a copy of EOS-0.1A)

Terminating Conditions:

Attachment 3 is complete and the candidate has increased steam flow rate from the ARV's.

Initial License Exam 03/2005 Job Performance Measure JPM: S-1 Page 3 of 5 Rev Date: 12/23/04 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Verify RCS subcooling > 25ºF.

CUE: Subcooling is 35ºF. Operator verifies subcooling using 1-TI-3611/3612-1 on CB-05.

Note Start time.

2 Check Steam Generator Pressures-STABLE OR DECREASING CUE: All SG pressures are INCREASING. Operator checks SG pressures using 1-PI-514/524/534/544A on CB-08 3 Check RCS Hot Leg Temperatures- STABLE OR DECREASING CUE: All Hot Leg Temperatures are stable. Operator checks hot leg temperatures using 1-TR-433/434A on CB-

06. 4 Check core exit TC's- STABLE OR DECREASING CUE: Core Exit TC's are 605º and slowly increasing. Operator checks core

exit TC's on plant computer, OR 1-TI-3611/3612-2 on CB-05 Note: Candidate may immediately increase steam flow from ARV's. 5 Check RCS cold leg temperatures-AT SATURATION TEMPERATURE FOR SG PRESSURE CUE: Cold leg temperatures are 551º F and SG pressures

are 1050 psig. Operator checks RCS cold leg temperatures using 1-TR-413B/23B and 433B/43B on CB05 and compares to SG pressures using 1-

PI-514/524/534/544A on CB-08 Initial License Exam 03/2005 Job Performance Measure JPM: S-1 Page 4 of 5 Rev Date: 12/23/04 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT *6 Natural Circulation is NOT verifed, Increase Steam Flow from SG ARV's.

CUE: Core Exit TC are trending lower.

TASK COMPLETE Operator opens SG ARV's using 1-PK-2325/26/27/28 on CB08. Note Completion

time.

Initial License Exam 03/2005 Job Performance Measure JPM: S-1 Page 5 of 5 Rev Date: 12/23/04 INITIATING CUE:

The crew is responding to a loss of offsite power. Sa fety Injection is not actuated or required. The RCP's cannot be restarted. The US directs you to ve rify Natural Circulation per EOS 0.1A step 8 and Attachment 3 of the same procedure.

Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 1 of 8 Rev Date: 1/27/05 System: Pressurizer Pressure Control System JTA Task #: (Modified) RO*1209 Task Title: Control Pressurizer Pressure KSA Ref: SF3.010.A1.07 PEO: RO: 3.7 SRO: 3.7 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 30 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

IPO-005A, Step 5.1.5 Tools, Equipment, Job Aids, etc:

Reset to IC 5 with Tave appx. 557 F, RCS Pressure appx. 2235 psig, and a small cooldown in progress.

Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 2 of 8 Rev Date: 1/27/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

A plant shutdown and cooldown for REFUELING is in progress. The RCS is currently at appx.

557 F and 2235 psig. You are currently in IPO-005A, at step 5.1.5 with a 50 F/Hr cooldown in progress. The BOP is controlling the cooldown. The US has instructed you to initiate a reduction of RCS Pressure per step 5.1.5 and 5.1.6 and stabilize pressure at 1925 psig (+ or- 25 psig), and then BLOCK SI, while the RCS Cooldown is continuing. The Extra RO will perform OPT-407 and RCP data monitoring. Terminating Conditions:

Przr Spray Valve Controllers in MANUAL (AMBER & GREEN) Lights with zero (0) output, ZL Lights GREEN, and RCS Pressure at 1925 + or - 25 psig

Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 3 of 8 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT *1 Place Pressurizer Spray Valve Controller(s) in MANUAL CUE: Przr Spray Valve Controllers u-PK-455B and u-PK-455C indicate zero (0) output with AMBER and GREEN Lights ON. Depress "AMBER"

P/B on PK-455B and PK-455C and verify controllers are in MANUAL by observing the AMBER

Light ON and the WHITE (Auto) Light OFF. Note Start time PK-455B and PK-

455C are located on CB-05 (VERTICAL BOARD) Controller output should be zero (0) with GREEN Light ON.

  • 2 THROTTLE OPEN one or both pressurizer spray valve to begin a slow RCS Pressure reduction.

CUE: The Przr Spray Valve(s) ZL lights are RED and GREEN for the Spray Valve operated.

Depress the RED P/B

on either PK-455B and/or PK-455C and verify controller response by observing the controller output and indicating lights (ZL-455B or ZL-455C)

on Control Board (Vertical Board Section).

When the RED

P/B is depressed the GREEN P/B Light should go OUT and the output meter

should begin to increase (from 9% toward 100%). As the valve begins to

throttle the ZL LIGHTS (ZL-455A or ZL-

455B) will indicate THROTTLED by having both RED and GREEN

LIGHTS ON Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 4 of 8 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 3 Monitor RCS Pressure for DECREASE CUE: RCS pressure is decreasing and ALARMS 1.6 and 2.6 on ALB-5B have annunciated.

Verify RCS Pressure

decrease using Narrow Range Pressure Instruments or Recorder. u-PI-455A u-PI-456 u-PI-457 u-PI-458 u-PI-455 RCS Press (NR) instruments u-PI-455A, u-PI-456, u-PI-457, and/or u-PI-458 located on CB-05 OR RCS Press Recorder u-PR-455 located on

CB-05 NOTE: ALB-5B 1.6 & 2.6 annunciate at 2185 psig 4 ACKNOWLEDGE Annunciators 1.6 and 2.6 on ALB-5B. Depress the ACKNOWLEDGE P/B at the Annunciator Controls on CB-05

  • 5 As PRZR PRESS channels approach 1925 psig, adjust pressurizer heaters and spray valves as necessary to maintain RCS pressure between1900 psig and 1950 psig. . CUE: RCS Pressure indicates 1925 psig on u-PI-455A, u-PI-456, 457, 458, and recorder u-PR-455. Verify RCS Pressure

decrease using Narrow Range Pressure Instruments or Recorder. u-PI-455A u-PI-456 u-PI-457 u-PI-458 u-PI-455 Manually controls pressurizer sprays and heaters to stabilize RCS pressure at 1925 psig.

  • If RCS pressure decreases to below 1820 psig, SI will actuate and will result in a failure of the JPM.

The US DIRECTS you to stabilize RCS pressure and Block SI per the IPO step in effect.

Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 5 of 8 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 6 WHEN RCS pressure is below 1960 psig, THEN perform the following:

A. Ensure RCS has been borated to a Shutdown Margin for RCS #350°F(reference Step 5.2.3 A).

CUE: The US informs the RO that the RCS is borated for SDM for 350°F The RCS is borated for SDM for 350°F 7 Verify 1-PCIP, 2.6, PRZR PRESS SI BLK PERM P-11 is ON. CUE: CB-07, PCIP alarm window 2.6 is lit. CB-07, PCIP alarm

window 2.6 is lit (blue). 8 Verify the following status lights are OFF:

1-TSLB-9, 1.3, PRZR PRESS SI PERM PB-455B 1-TSLB-9, 2.3, PRZR PRESS

SI PERM PB-456B 1-TSLB-9, 3.3, PRZR PRESS

SI PERM PB-457B CUE: Windows 1.3, 2.3, and

3.3 on TSLB 9 are dark.

On CB-04, 1-TSLB-9, windows: 1.3 is dark 2.3 is dark 3.3 is dark

Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 6 of 8 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT *9 Turn BOTH MSL ISOL SI RESET/BLOCK switches to BLOCK and release:

1/1-SLSIRBA, MSL ISOL SI RESET/BLOCK 1/1-SLSIRBB, MSL ISOL SI RESET/BLOCK CUE: The handswitch moved

counterclockwise and stopped.

On CB-08, in the MSL

Isolation section:

Turns handswitch 1/1-SLSIRBA counter clockwise to block Turns handswitch 1/1-SLSIRBA counter clockwise to block 10 Verify the following are ON:

1-PCIP, 3.8, MSL PRESS LO TRN A SI BLK 1-PCIP, 4.8, MSL PRESS LO TRN B SI BLK CUE: PCIP windows 3.8 and

4.8 are LIT.

CB-07, PCIP alarm

window: 3.8 is ON.

4.8 is ON.

  • 11 Turn BOTH PRZR PRESS SI RESET/BLOCK switches to BLOCK and release:

1/1-PPSIRBA, PRZR PRESS SI RESET/BLOCK 1/1-PPSIRBB, PRZR PRESS

SI RESET/BLOCK CUE: The handswitch moved

counterclockwise and stopped.

On CB-08, in the SI BLOCK section:

Turns handswitch 1/1-PPSIRBA counter clockwise to block Turns handswitch 1/1-PPSIRBB counter clockwise to block

Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 7 of 8 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 12 Verify the following are ON:

1-PCIP, 3.7, PRZR PRESS LO TRN A SI BLK 1-PCIP, 4.7, PRZR PRESS LO TRN B SI BLK CB-07, PCIP alarm

window: 3.7 is ON.

4.7 is ON.

13 Report that RCS pressure is

stable at 1925 psig and that SI has been blocked. IPO-

005A step 5.1.5 has been completed.

TASK COMPLETE RCS pressure is stable or slightly decreasing at less than 1950 psig.

Note completion time.

Initial License Exam 03/2005 Job Performance Measure JPM: S2 Page 8 of 8 Rev Date: 1/27/05 INITIATING CUE:

A plant shutdown and cooldown for REFUELING is in progress. The RCS is currently at appx. 557 F and 2235 psig. You are currently in IPO-005A, at step 5.1.5 with a 50 F/Hr cooldown in progress.

The BOP is controlling the cooldown.

The US has instructed you to initiate a reduc tion of RCS Pressure per step 5.1.5 and 5.1.6 and stabilize pressure at 1925 psig (+ or- 20 psig), and then BLOCK SI, while the RCS Cooldown is continuing. The Extra RO will perform OPT-407 and RCP data monitoring.

Initial License Exam 03/2005 Job Performance Measure JPM: S3 Page 1 of 5 Rev Date: 1/28/05 System: CVCS JTA Task #: (NEW) Task Title: Emergency Borate Using Chemical And Volume Control System (Alternate Path)

KSA Ref: SF1.004.A4.18 PEO: RO: 4.3 SRO: 4.1 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 10 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

ABN-107, "Emergency Boration", Tools, Equipment, Job Aids, etc:

Initialize into any shutdown IC above 550°F Tave. Insert Malf. CV19A(Boric Acid Transfer Pump 1 Trip)

Insert Override LOCVAPBA1 to ON. (Boric Acid

Transfer Pump 1 Green Light) ABN-107, Attachment 2

Initial License Exam 03/2005 Job Performance Measure JPM: S3 Page 2 of 5 Rev Date: 1/28/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

You have been directed by the Unit Supervisor to commence Emergency Boration using Attachment 2 of ABN-107, "Emergency Boration". Inform the Unit Supervisor when the attachment is complete. Terminating Conditions:

Emergency boration established through the Normal Boration valves.

Initial License Exam 03/2005 Job Performance Measure JPM: S3 Page 3 of 5 Rev Date: 1/28/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Place 1/u-MU, RCS MU MAN ACT switch in - STOP. CUE: 1/u-MU is in the STOP position 1/u-MU rotated in the

counterclockwise direction until it is in the STOP position.

Note Start time.

  • 2 Open 1/u-FCV-110B, RCS MU TO CHRG PMP SUCT ISOL VLV.

CUE: 1/u-FCV-110B is in the OPEN position and the red light is LIT.

1/u-FCV-110B rotated in the clockwise position from AUTO to OPEN. *3 Start a boric acid transfer pump: 1/u-APBA1, BA XFER PMP 1

- AUTO (AFTER START)

CUE: The green light is ON

and the red light is OFF.

1/u-APBA2, BA XFER PMP 2

- AUTO (AFTER START)

CUE: The green light is OFF

and the red light is ON.

Rotates handswitch

1/u-APBA1 in the clockwise direction to the START position.

Rotates handswitch 1/u-APBA1 from the Pull Out position in the clockwise direction to the START position.

The green light is ON (normal) but the pump will not start. The candidate must take the pump 02

out of Pull Out and start it.

  • 4 Open 1/u-FCV-110A, BA BLNDR FLO CTRL VLV.

CUE: 1/u-FCV-110B is in the OPEN position and the red light is ON.

1/u-FCV-110A rotated in the clockwise position from AUTO to OPEN.

Initial License Exam 03/2005 Job Performance Measure JPM: S3 Page 4 of 5 Rev Date: 1/28/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 5 Verify flow on u-FR-110 (RED PEN), BA FLOW TO BLNDR CUE: Boric acid flow is 38 gpm. Using the RED pen on

u-FR-110, verify that flow is between 35 and 40 gpm. 6 Verify flow on u-FI-121A, CHRG FLOW CUE: Charging flow indicates 130 gpm. TASK COMPLETE Using u-FI-121A, verifies that Charging flow is going to the RCS. Note Completion

time.

Initial License Exam 03/2005 Job Performance Measure JPM: S3 Page 5 of 5 Rev Date: 1/28/05 INITIATING CUE:

You have been directed by the Unit Supervisor to commence Emergency Boration using Attachment 2 of ABN-107, "Emergency Boration". Inform the Unit Supervisor when the attachment is complete.

Initial License Exam 03/2005 Job Performance Measure JPM: S4 Page 1 of 5 Rev Date: 1/27/05 System: Small Break LOCA JTA Task #: (NEW) Task Title: Perform Attachment 2 of EOP-0.0A (Alternate Path)

KSA Ref: EPE.009.EA1.08 PEO: RO: 4.0 SRO: 4.1 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 20 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

EOP-0.0A "Reactor Trip or Safety Injection" Tools, Equipment, Job Aids, etc:

Initialize into IC-15.

Enter the following Malfunctions: RP09A and RP09B, RH01B. (Make trigger file to remove Malf when H/S to start) Insert Overrides LOCHHS 5729 2, and LOCCHS 6202 5 to ON. Use Malf. RC08A1 to cause a Reactor Trip and SI. After the Seq has timed out FREEZE. Attachment 2 of EOP-0.0A, Safety Injection Actuation Alignment.

Initial License Exam 03/2005 Job Performance Measure JPM: S4 Page 2 of 5 Rev Date: 1/27/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

NOTE TO EXAMINER: This JPM is constructed to list the failures that the candidate will encounter while performing Attachment 2. It will only list the critical steps. To follow along as the candidate performs the attachment, ut ilize and INFO ONLY copy of Attachment 2. Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

Automatic Reactor Trip and Safety Injection have occurred The crew is at step 5 of EOP-0.0A.

The Unit Supervisor has directed you to perform Attachment 2 of EOP-0.0A. Inform the Unit Supervisor when the attachment is complete. Terminating Conditions: Attachment 2 is complete with the following exceptions: Phase A was manually actuated. The B RHR pump did not auto start and was manually started. The Primary Plant Supply Fan 20 is running. The Spent Fuel Pool Exhaust fan 36 is running.

Initial License Exam 03/2005 Job Performance Measure JPM: S4 Page 3 of 5 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Provide the candidate with a working copy of EOP-0.0A, attachment 2.

The candidates are expected to complete Attachment 2 independently and without error.

Note Start time.

It is managements expectation that the candidate will place keep the procedure by marking completed steps and indicating any exceptions.

  • 2 Step 3. Verify Containment Isolation Phase A-Appropriate MLB LIGHT INDICATION (RED WINDOWS)

CUE: The RED LIGHTS on

the MLB's 1A1, 1A2, 1B1, and 1B2 are dark. All others are LIT. The RED LIGHTS will

be dark. The candidate must manually initiate Phase using HS 1/1-CIPAA1 on CB-02 in the SFGD MAN

ACT/RESET section, by rotating the switch in the clockwise direction to ACT.

  • 3 Step 6. Verify RHR pumps-RUNNING. CUE: The red light is lit and the green light is dark.

For RHR Pump 1-02 the red light will be off and green light will be on. The candidate must attempt a manual start by rotating 1/1-APRH2 in the clockwise direction to the START position.

.

Initial License Exam 03/2005 Job Performance Measure JPM: S4 Page 4 of 5 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT *4 Step 13, Attachment 1. X-HS-6202 on CV-01, STOPPED.

On Ventilation Panel CV-01 Primary Plant Supply Fan 20 will indicate RUNNING. The candidate must attempt to stop the fan

by rotating X-HS-6202 counterclockwise direction to the STOP position.

NOTE: It is not critical that the candidate rotate the switch, but the exception MUST be documented, either by oral report or place keeping the procedure.

  • 5 Step 13, Attachment 1. X-HS-5729 on CV-03, STOPPED.

On Ventilation Panel CV-03 Spent Fuel Pool Exhaust fan will indicate RUNNING. The candidate must attempt to stop the fan

by rotating X-HS-5729 counterclockwise direction to the STOP position.

NOTE: It is not critical that the candidate rotate the switch, but the exception MUST be documented, either by oral report or place keeping the procedure.

6 Report the completion of Attachment 2 to the Unit

Supervisor and note exceptions to the requirements of the Attachment. TASK COMPLETE Candidate must indicate the above exceptions.

Note Completion time.

Initial License Exam 03/2005 Job Performance Measure JPM: S4 Page 5 of 5 Rev Date: 1/27/05 INITIATING CUE:

Automatic Reactor Trip and Safety Injection have o ccurred. The crew is at step 5 of EOP-0.0A. The Unit Supervisor has directed you to perform Attachment 2 of EOP-0.0A. Inform the Unit Supervisor when the attachment is complete.

Initial License Exam 03/2005 Job Performance Measure JPM: S5 Page 1 of 5 Rev Date: 1/27/05 System: Containment Spray JTA Task #: (Modified) RO2003 Task Title: Operate the Containment Spray System (Alternate Path)

KSA Ref: SF6.026.A4.01 PEO: RO: 4.5 SRO: 4.3 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 5 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

SOP-204A/B, "Containment Spray System", u

-ALB-2B, "ALM-0022A/B" Tools, Equipment, Job Aids, etc:

Simulator Setup: OVERRIDE 1TI-4793 (RWST Temperature) to 45°F, activate HS-4776 override after CSP's have been started.

Initial License Exam 03/2005 Job Performance Measure JPM: S5 Page 2 of 5 Rev Date: 1/27/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

Temperature is 45°F in the RWST, the Unit Supervis or directs you to recirc the RWST with Train "A" Containment Spray Pumps. Containment Sp ray is in Standby per SOP-204A/B Section 5.1.1. Crew briefing is completed and PCS trends are initiated. Terminating Conditions:

Containment Spray Pumps have been stopped.

Initial License Exam 03/2005 Job Performance Measure JPM: S5 Page 3 of 5 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Place CS HX1 Outlet Vlv to Pull-Out Pull-outs 1-HS-4776, acknowledges SSII Train A Note Start time. SSII alarms 2 Verify chemical additive tanks discharge valve is closed CUE: u-HS-4754 green light lit Checks u-HS-4754 closed. 3 Contact PEO to Unlock and Open u CT-0050 CUE: PEO reports u CT-0050 open Reverse Operated Valve 4 Initiate a trend of selected pump parameters on the plant computer.

CUE: The extra RO has initiated the trend of the pump parameters This has already been done by extra RO

  • 5 Start Containment Spray Pump 1-01 CUE: "RED" light lit on u-HS-4764, u-FI-4772-1 (0 gpm), u-PI-4774-1 (300 psig)

Places u-HS-4764 1-01 Containment Spray Pump in "START" on and checks flow and pressure Steps 5 and 6 can be done in either order *6 Start Containment Spray Pump 1-03 CUE: "RED" light lit on u-HS-4765, u-FI-4772-2 (0 gpm), u-PI-4774-2 (300 psig)

CUE: Alarm window 3.5 CS HX 1 OUT VLV NOT CLOSE

HV-4776 on ALB 2B Places u-HS-4765 1-03 Containment Spray in

"START" and checks flow and pressure Override HS-

4776 to OPEN, via the handswitch on mimic display CB02 Initial License Exam 03/2005 Job Performance Measure JPM: S5 Page 4 of 5 Rev Date: 1/27/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 7 Monitor CSP discharge flow CUE: u-FI-4772-1 indicates 3000 gpm, u-FI-4772-2 indicates 3100 gpm Monitors u-FI-4772-1, u-FI-4772-2 flow indicators 8 Ensure CS HX OUT VLV is closed CUE: u-HS-4776 red light LIT CUE: "CNTMT SMP 1, 2 FILL RATE INCREASE" and "ANY CNTMT SMP PMP RUN" alarm ON MCB Checks position of u-HS-4776 *9 Stop CNMT Spray Pumps CUE: u-HS-4764 and u-HS-4765 red and green lights are dark TASK COMPLETE Go to stop (or PULL OUT) on u-HS-4764 and u-HS-4765 Note Completion

time.

Initial License Exam 03/2005 Job Performance Measure JPM: S5 Page 5 of 5 Rev Date: 1/27/05 INITIATING CUE:

Temperature is 45°F in the RWST, the Unit Supervisor directs you to recirc the RWST with Train "A" Containment Spray Pumps. Containment Spray is in Standby per SOP-204A/B Section 5.1.1. Crew briefing is completed and PCS trends are initiated.

Initial License Exam 03/2005 Job Performance Measure JPM: S6 Page 1 of 7 Rev Date: 1/26/05 System: Emergency Diesel Generator JTA Task #: (Modifed)RO4032 Task Title: Load Diesel Generator (Alternate Path)

KSA Ref: SF6.064.A4.06 PEO: RO: 3.9 SRO: 3.9 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 20 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

SOP-609A OPT-214A ABN-501 Tools, Equipment, Job Aids, etc:

OPT-214A (Working Copy) Simulator set-up: Any at power IC, go to RUN, START DG 1. Set up trigger file to insert malfunction SW01A when EDG load is 2.7 MW.

Initial License Exam 03/2005 Job Performance Measure JPM: S6 Page 2 of 7 Rev Date: 1/26/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

OPT-214A, Diesel Generator Operability Test is being performed on DG 1 for a normal 30 day test. You are on step 8.1.S, the DG is running at 60 Hz and 6.9 kV. The PEO at the DG has reported that the DG is running prop erly. Continue with the test. Terminating Conditions:

The Emergency Diesel Generator ha s been placed in "Pull Out".

Initial License Exam 03/2005 Job Performance Measure JPM: S6 Page 3 of 7 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Refer to OPT-214A, Step 8.1.S. OPT-214A entered at step 8.1.S Note Start time.

  • 2 Turn the Synchroscope for DG1 to the "ON" position.

CUE: The synchroscope switch is in the ON position.

Synchroscope Switch (SS-1EG1) in the ON position.

The operating handle is STAR-shaped. The Synchroscope Switch (SS-1EG1) is located

above DG1 output breaker on CB-11 (Beveled Section). The switch is 2-

Position MAINTAIN SWITCH. The ON position is to the right.

3 Compare incoming voltage to running voltage.

CUE: V-1EG1 reads 6900 volts and V-1EA1 reads 7000

volts. V-1EG1 and V-1EA1 checked. V-IN and V-RUN

are preferred, any indications listed in OPT-214A are acceptable for use. 4 Adjust the DG voltage to slightly greater than that on the BUS. CUE: DG voltage slightly greater than BUS voltage (50-

100v) Voltage control switch (90-1EG1) taken to RAISE or LOWER until DG 1 volts (V-1DG1) is 50 - 100 volts greater than BUS

1EA1 volts (V-1EA1).

The DG output voltage (6900 Volts) is to agree with 1EA1-1 BUS Voltage (6900 Volts). These meters are located on CB-11 (Vertical Section). The DG Voltage Control Handswitch (90-1EG1) is a 3-POSITION SRING RETURN to OFF type switch. Located on CB-11 (A SEC)

Initial License Exam 03/2005 Job Performance Measure JPM: S6 Page 4 of 7 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 5 Check DG speed CUE": Synchroscope is rotating in counter-clockwise direction.

Synchroscope checked (On CB-11) Lights are a

backup to the sync scope (OFF when in phase, ON when out of phase). 6 Adjust the speed so the Synchroscope is moving slowly in the fast direction.

CUE: Synchroscope is rotating 2-4 RPM in the fast

direction.

Speed Control Handswitch (65-1EG1) taken to RAISE and synchroscope checked until rotating SLOWLY in FAST

direction (2-4 RPM_.

(65-u EG1 taken to LOWER if speed too fast.) Handswitch (65-1EG1) is a 3-POSITION SPRING RETURN TO OFF type switch

located on CB-11 (Apron Section).

The INCREASE position is to the RIGHT. The

FAST Direction is CLOCKWISE.

  • 7 Close the DG breaker when the Synchroscope is slightly before

the 12 O'CLOCK position and moving slowly in the FAST Direction.

CUE: ALB-10B 3.5 alarm has annunciated and the

breaker red light lit and green light off.

DG Breaker (CS-u EG1) is closed and position is checked. (Indicated by Annunciator Alarm (ALB-10B 3.5), Handswitch FLAG (RED FLAG) and indication Lights.

Handswitch (65-1EG1) is a 3 POSITION, SPRING RETURN TO AUTO type

switch. Located on CB-11 (Apron Section).

Indicating lights on Handswitch

should be RED (Green Light out) with RED FLAG

indication.

Annunciator ALB-10B 3.5 (6.9KV BUS 1EA1/1EA2

PARALELLED) ON (energized).

Initial License Exam 03/2005 Job Performance Measure JPM: S6 Page 5 of 7 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT *8 Immediately pick-up at least 2.2-2.5 MW for stability CUE: When load is first checked, DG1 MW Meter (W-1EG1) indicates ZERO MW; when load is checked after going to RAISE, W-1EG1 indicates 2.1 MW.

SPEED CONTROL HANDSWITCH 65-1EG1, taken to RAISE to pick up sufficient load to prevent a reverse power trip of

DG 1. DG1 MW Meter (W-1EG1) located on CB-11 (Vertical Section).

Handswitch (65-

1EG1) is a 3-Position Spring Return to OFF type switch.

Located on CB-

11 (Apron Section). The RAISE position is

to the RIGHT.

9 Turn the Synchroscope to the "OFF" position.

CUE: The Synchroscope switch is in the OFF position.

Synchroscope Switch (SS-1EG1) in the OFF position.

The Synchroscope Switch (SS-1EG1) is located above DG1 output breaker on

CB-11 (Beveled Section). The switch is a 2-Position MAINTAIN Switch. The OFF position is to the LEFT. 10 Maintain 0-500 KVAR OUT , CUE: When KVARS first checked, meter indicate 500 KVARS (to left of ). When switch is taken to RAISE and KVARS checked, give readings indicating KVAR increasing or for LOWER<

KVAR decreasing.

Reactive load maintained 0-500 KVAR OUT; DG1 Voltage Control

Handswitch (90-1EG1) taken to RAISE to increase KVARS or LOWER to decrease

KVARS as on DG1 KILOVAR Meter (VAR-1EG1) checked.

(This step should be

repeated as the DG is loaded.)

Initial License Exam 03/2005 Job Performance Measure JPM: S6 Page 6 of 7 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 11 Load the selected DG to 6.0 MW over a 20 minute period.

CUE: Us informs you to load DG to 6 MW immediately.

CUE: When switch is taken to RAISE and W-uEG2 is observed, give reading indication incr easing MW or for Lower, decreasing MW. DG1 loaded to 6.0 MW over a 20 minute period

( .3 MW/min) by moving the Speed Control Handswitch (65-1EG1) to RAISE direction and observing the DG1 MW Meter (W-1EG1).

Speed Control

Handswitch (65-u EG1) located on CB-11 (Apron Section) DG1 MW Meter (W-1EG1) located on CB-11 (Vertical

Section). As LOAD is increased the KILOVARS will decrease toward 0 (zero). 12 Acknowledge and respond to 1-ALB-01 window 1.8 "SSWP 1/2 OVRLOAD/TRIP Refer to ALM-01-1.8 and/or ABN-501.

  • 13 Determines that EDG 1-01 should be in "Pull Out" .

ALM -01 (1.8) and Initial Operator Action from ABN-501, Service Water Malfunction.

TASK COMPLETE Places EDG 1-01 in "Pull Out" using CS-1EG1. Note Completion time.

Initial License Exam 03/2005 Job Performance Measure JPM: S6 Page 7 of 7 Rev Date: 1/26/05 INITIATING CUE:

OPT-214A, Diesel Generator Operability Test is being performed on DG 1 for a normal 30 day test. You are on step 8.1.S, the DG is running at 60 Hz a nd 6.9 kV. The PEO at the DG has reported that the DG is running properly. Continue with the test.

Initial License Exam 03/2005 Job Performance Measure JPM: S7 Page 1 of 5 Rev Date: 1/26/05 System: Nuclear Instrumentation System JTA Task #: NEW Task Title: Respond To Source Range Instrumentation Malfunction (Alternate Path)

KSA Ref: APE.032.AK3.01 PEO: RO: 3.2 SRO: 3.6 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 8 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

IPO-002A, "Plant Startup from Hot Standby to Minimum Load", ABN-701, ALM-0064A Tools, Equipment, Job Aids, etc:

IPO-002A, ABN-701, Simulator: Load IC 7, actuate malfunction RP01. Following initiating CUE, go to run. Actuate Malf N101A @ severity 1E6 when the candidate start to dilute or when referencing the SOP.

Initial License Exam 03/2005 Job Performance Measure JPM: S7 Page 2 of 5 Rev Date: 1/26/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

Preparations are underway for RX startup. You are at step 5.2.1 of IPO-002. You have been directed to dilute 200 gallons to reach critical boron concentration. Terminating Conditions:

The Reactor has been tripped by de energizing the Rod Drive MG's.

Initial License Exam 03/2005 Job Performance Measure JPM: S7 Page 3 of 5 Rev Date: 1/26/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Prepare for Dilution.

Refers to SOP-104A step 5.1.3. Note Start Time 2 Recognize First Out alarm is LIT Red and the need for a Reactor Trip. CUE: SR FLUX HI RX TRIP Alarm 6C (1.5) is in Alarm and lit RED. Respond to SR FLUX HI RX TRIP Alarm 6C (1.5) 3 Manually trips Reactor.

CUE: 1/1-RTC rotated but the Trip Breakers did not open. On CB07 turns 1/1-RTC "Rx Trip Bkr" in the counter clockwise direction 4 Manually trips Reactor.

CUE: 1/1-RTC rotated but the

Trip Breakers did not open.

On CB010 turns 1/1-RT "Rx Trip" in the counter clockwise direction

  • 5 Momentarily deenergizes the Rod Drive MG sets by opening 480 VAC MCC supply breakers 1B3 and 1B4.

CUE: All DRPI rod bottom lights are LIT.

TASK COMPLETE Rotates CS-1B3-1

counterclockwise to open and then clockwise back to close. Rotates CS-1B4-1 counterclockwise to open and then clockwise back to close. Note Completion Time

Initial License Exam 03/2005 Job Performance Measure JPM: S7 Page 4 of 5 Rev Date: 1/26/05 INITIATING CUE:

Preparations are underway for RX startup. You are at step 5.2.1 of IPO-002. You have been directed to dilute 200 gallons to reach critical boron concentration.

Initial License Exam 03/2005 Job Performance Measure JPM: S-8 Page 1 of 5 Rev Date: 1/19/05 System: Component Cooling Water System JTA Task #: (Bank NRC 2002) Task Title: Shift CCW Pumps with CCW Pump Trip (ALTERNATE PATH)

KSA Ref: APE.026.AK3.04 PEO: RO: 3.5 SRO: 3.7 Operator's Name:

Performance Environment:

PLANT CONTROL ROOM SIMULATOR Performance Method:

PERFORMED SIMULATED DISCUSSED Time to complete JPM: Estimated 9 minutes Actual The operator's performance was evalua ted against the standards contained in this JPM and was determined to be: SATISFACTORY UNSATISFACTORY Reason, if unsatisfactory:

Evaluator's Signature:

Date: Comments (list all steps not satisfactorily completed):

References:

SOP-502A, "CCW System" ABN-502, "Component Cooling Water System Malfunction" Tools, Equipment, Job Aids, etc:

Simulator:

1) Any IC above Mode 4. 2) Insert and activate MALF-CC03B 3) Insert MALF-CC02B on a key. When CCW pump 1-01 is stopped, activate malfunction.

Initial License Exam 03/2005 Job Performance Measure JPM: S-8 Page 2 of 5 Rev Date: 1/19/05 Safety Considerations:

If this JPM is to be performed in the plant/control room, the candidate is NOT to manipulate any plant components unless he/she has permission from the Shift/Unit Supervisor. Human Performance Measures:

During this Job Performance Measure, MONITOR for demonstrations of the following as outlined in Operations department guidance:

Peer checking Three-way communications Phonetic alphabet Self checking ALM use Unit designators Conservative decision making Procedure place keeping Procedure rules of usage Comments:

NOTE to EXAMINER: during the CCWP shift, CCWP2 will trip off after CCWP1 has been secured. CCWP1 fails to autostart when CCWP2 trips, so the operator will have to manually restart CCWP1. The operator may attempt to trip the reactor based on loss of CCW instead of attempting to restart CCWP1; if he attempts a reactor trip, stop him and end the JPM (failure). The Reactor must not be tripped because it would interfere with another JPM being conducting concurrently.

Instructions:

You may use any approved reference materials, including logs. Make or simulate all written/oral reports as if the evolution is actually being performed. You are expected to discuss all steps you would take, including identifying what switches/i ndications you would use Initiating Cue:

The Unit Supervisor directs you to shift CCW pumps (start CCWP1-02, and secure CCWP1-01 per SOP-502) in preparation for maintenance. Terminating Conditions:

CCWP1 Running again (after CCWP2 trips off)

Initial License Exam 03/2005 Job Performance Measure JPM: S-8 Page 3 of 5 Rev Date: 1/19/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 1 Ensure SSWP2 is running CUE: SSWP2 indication is RED. Operator visually verifies SSWP2 is running by verifying handswitch indication is RED. Note Start time.

Give applicant a copy of SOP-502A 2 Ensure oil level in bearing housings for CCWP2 are normal. CUE: bearing housing oil levels are normal. Operator directs PEO to verify oil level for CCWP2. *3 Start CCWP2 CUE: u-HS-4519A handswitch light indication is RED.

Take handswitch u-HS-4519A to the start

position and verify red light indication on the handswitch.

4 Ensure the following equipment are removed from service before securing CCWP1: RHR Pumps 1-01, CS Pumps 1-01/03/

CUE: Listed Pumps are removed from service. Same as Element.

RHR and CS pumps that are loads supplied from the CCWP1 should be secured before securing the CCWP1.

Initial License Exam 03/2005 Job Performance Measure JPM: S-8 Page 4 of 5 Rev Date: 1/19/05 STEP# *Critical ELEMENT STANDARD NOTES SAT/ UNSAT 5 Stop CCWP1 CUE: u-HS-4518A handswitch light indication is green. (CCWP2 trips):

u-HS-4519A green light and white trip light lit. Annunciator Alarms: CCWP 1/2 OVRLOAD/TRIP, CCW TRN A/B SFGD LOOP PRESS LO, CCW HX 1/2 OUT & RECIRC FLO LO, CCW HX 1/2 SPLY FLO LO Operator holds the u-HS-4518A handswitch in STOP until flow and pressure stabilize and then releases handswitch. WARNING:

Operator MAY attempt to trip RX (per section 6.0 of ABN-502A "Loss of all CCW

Flow") when CCWP2 trips; BUT, operator SHOULD go to section 2.0

ofABN-502A "CCW Pump Trip" and attempt to start CCWP1; DO NOT allow operator to trip RX (it would interfere with JPMS3 running concurrently).

6 Verify unaffected train CCW Pump - RUNNING. NOTE: CCWP1 fails to auto start, and must be manually restarted.

CUE: u-HS-4518A handswitch light indication is green.

Operator recognizes that CCWP 1 is not running by noting u-HS-4518A handswitch

indication is GREEN on CB-3 If operator attempts to trip the RX, DO NOT allow RX trip, and terminate the

JPM. *7 Manually Start u-HS-4518A CCWP 1 CUE: u-HS-4518A RED light lit and flow restored.

TASK COMPLETE Take handswitch u-HS-4518A to the start position and verify red light indication on the handswitch and flow restored.

Give applicant a

copy of ABN-502 if he/she wishes to refer to it.

Note Completion

time.

Initial License Exam 03/2005 Job Performance Measure JPM: S-8 Page 5 of 5 Rev Date: 1/19/05 INITIATING CUE:

The Unit Supervisor directs you to shift CCW pumps (start CCWP1-02, and secure CCWP1-01 per SOP-502) in preparation for maintenance.

Revision 0 Appendix D Scenario Outline Form ES-D-1 Facility:

CPSES Scenario No.:

1 Op-Test No.:

1 Examiners:

Operators:

Note: (NEW) Do SRO Admin A.4.1, Emerg. Class. with this Scenario (SAE). Initial Conditions: BOL, 100% power Eq. Xenon. Unit 2 is at 100% power. The A MDAFWP is OOS for oil contamination. ( 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> into LCO)

IC-15, REMF FWR20 in Rackout with H/S in P.O and Red Tagged.

Turnover:

Unit 1 and Unit 2 are at 100% power. U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil.

Maintenance is in the process of changing the oil and the pump should be ready for test in the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. The Generation Controller has declared an ALERT

due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. There are no surveillances planned for this shift and the orders are to maintain current load and unit availability.

Event No. Malf. No.

Event Type* Event Description 1 T=1 MS13D I (RO) I (BOP) I (SRO) SG Pressure channel for ARV #4 fails high. (ARV fails full

open) 2 T=7 RX15A @ 100% C (RO) C (SRO) PZR Spray valve fails open. (Set up trigger to remove Malf when the Manual PB is selected) 3 T=13 ED05F M (ALL) Loss of 1EA2 (86-2) 4 T=13 FW09A C (BOP) C (SRO) TDAFWP Overspeed. (will not come in until pump starts) 5 T=28 N (BOP) R (RO) N (SRO) Perform Plant Shutdown due to loss of 2 AFWP's. (Directed

by SM) 6 T=43 FW25C

@ 4e6 M (ALL) Feedline Break ORC 7 T=43 ED05I C (ALL) Loss of 1EA2 (86-1) 8 T=43 SI04A C (BOP) C (SRO) SI pump fails to start on Safety Injection. (Must be manually started. Set up trigger file to remove Malf when HS is turned

.) * (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor

Revision 0 Appendix D Narrative Description Op-Test No:

1 Scenario No:

1 Event No: Page 2 of 16 The objective of this scenario is to evaluate the operators ability to change Reactor power in a controlled manner when required by plant conditions, respond to various instrument and component failures, and to carry out the requisite emergency procedures to miti gate the consequences of a Lo ss of Heat Sink event.

Event One.

A failure high of the Main Steam Line Pressure channel that feeds the #4 SG ARV occurs. This failure will cause the ARV to open. Operator feedback for this event is an unexpected increase in Reactor Power that can exceed licensed limits and a decrease in RCS temperature with constant Turbine Load.

It is expected that the operators will:

Recognize that Reactor Power is increasing Take steps to reduce Reactor Power in acco rdance with Management Expectations and Pre Shift Briefings Diagnose plant conditions and determine that the ARV should NOT be open Enter the correct ABN procedure Place the controller in manual and close the valve Make the necessary notifications and refer to Technical Specifications.

Event Two.

One of the two Pressurizer Spray valves fails fully open. This is a failure of the valve in automatic and manual control remains available. Feedback to t he operators is evidenced by a decrease in Reactor Coolant system pressure that is not explained by plant conditions and can lead to a Reactor Protection System actuation. It is ex pected that the operators will:

Recognize that RCS pressure is decreasing Diagnose plant conditions and determine that RCS pressure should NOT be decreasing. Determine that the cause of the dec rease is the Spray valve failure. Take manual control of the spray valve and close it Enter the correct ABN procedure Make the necessary notifications and refer to Technical Specifications Event Three and Four.

Safeguards bus 1EA2 deenergizes due to an 86-2 lockout relay. An 86-2 lockout is caused by a phase to ground fault on the bus. The bus normal supply br eaker will open, the EDG will start, and the bus will be re-energized from the EDG. The bus will rema in powered by the EDG for the remainder of the scenario. Operator feedback is provided by alar m annunciation and equipment started by the Blackout Sequencer. It is expected that the operators will:

Respond to Alarms and determine the loss of bus 1EA2. Determine that the BOS has actuated. Evaluate plant conditions and determine if the st art of the TDAFWP has caused Reactor Power to increase above license limits and meet management expectations to reduce power Enter the correct ABN procedure Stop unnecessary equipment started by the BOS Make the necessary notifications and refer to Technical Specifications Determine that the TDAFWP oversped on the BOS start signal It is expected that the SRO will recognize t he loss of 2 AFW pumps and determine the need to shutdown the plant per the Limiting Conditions for Operations.

Revision 0 Appendix D Narrative Description Op-Test No:

1 Scenario No:

1 Event No: Page 3 of 16 Event Five. Inoperable equipment requires a forced down power maneuver to meet license requirements.

In order to preclude unnecessary delay while the SRO communicates with plant management about plant conditions and make recommendations, the lead evaluator may direct the staff to act as SM and instruct the SRO to commence an immediate plant shutdown.

Operator feedback for the need to shutdown the plant will be Technical Specification LCO's or plant management di rection. It is expected that the crew will:

Refer to the appropriate plant procedure Complete a reactivity brief. Commence boration and reduce power using the Turbine Digital Control System Event Six, and Seven and Eight.

When power has been reduced enough to meet the requirements of NUREG 1021 and at the lead examiners discretion, a Main Feed System leak w ill occur outside the Reactor Containment Building.

Operator feedback for this event is decreasing st eam generator levels and increasing Main Feed Pump Speed. Annunciation will occur at the designed parameter

s. Concurrent with the Main Feedline Break, bus IEA2, (earlier energized by the ED G) will fault in such a manner t hat it cannot be re-energized.

Note: Noteworthy is that at this point there are NO AFW pumps available, the Main Feed and Condensate systems are unavailable due to the feed break, and that heat removal by the secondary system is not possible. It is inevitable that the crew will have to initiate feed and bleed of the RCS to remove decay heat.

When FRH-0.1A is entered, step 2 asks if BOTH CCP's are available. Due to the loss of 1EA2, the CCP 1-02 is unavailable. The crew should trip the RCP's and immediately go to step 11 and initiate feed and bleed. The crew will note at step 12 of FRH-0.1A that no SIP's are operating and take action to start at least one SIP.

It is expected that the crew will:

Recognize the need to trip the Reactor and initiate Safety Injection or respond to the automatic actuations. Enter the correct EOP and carry out the Immediate Actions Verify automatic actions have occurred, or take actions to compensate for the lack of automatic actions Initiate monitoring of the Critical Safety Function Status Trees Transition to the correct FRG when conditions are met. Initiate Feed and Bleed to remove decay heat from the core. Start SIP per step 12 of the FRG.

Revision 0 Appendix D Narrative Description Op-Test No:

1 Scenario No:

1 Event No: Page 4 of 16 Note: In the CPSES Probabilistic Risk Analysis, import ant operator actions are evaluated in Table 9 of the PRA Summary Document. Operator action to establish feed and bleed is the most important action listed with a normalized value of 100.

The scenario may be terminated when safety injection is providing cooling to the core and the Pressurizer PORV's are open to remove decay heat.

Recommended Critical Tasks:

Fails to control Pressurizer Pressure resulting in a Reactor Trip or Safety Injection. Fails to start a Safety Injection Pump prior to the initiation of Feed and Bleed. Fails to establish core cooling through initiation of Feed and Bleed when plant conditions are met.

Revision 0 Appendix D Op-Test No:

1 Scenario No:1 Event No:1 Page 5 of 16 Event

Description:

SG Pressure channel for ARV #4 fails high. (ARV fails full open)

Time RO BOP SRO Applicant's Actions or Behavior Recognizes that plant condi tions are not normal by observation of Nuclear power increasing RCS temperature decreasing ALB-6D, window 1.10 "AVE TAVE-TREF DEV" Lit Turbine Load is constant.

Diagnose plant conditions and determines that SG #4 ARV is open by its RED light, LIT and green light OFF.

Determine that the ARV should be closed. MSL pressure is normal, and one

channel indicates failure HIGH. (1-PI-2328, MSL 4 PRESS)

Enter ABN-709, section 2. STEAM LINE PRESSURE INSTRUMENT

MALFUNCTION Step 1. Check ONE Main Steamline Pressure Channel indicating -

GREATER THAN 60 psig differ ence between remaining channels.

NOTE: 1-PI-2328, MSL 4 PRESS is failed high.

Step 2. Verify Steam Generator At mospheric Relief Valves - CLOSED:

NO Step 2, RNO. Perform following:

a. IF pressure is less than 1125 psig, THEN manually close affected atmospheric relief valve.
b. Notify Chemistry that a release has occurred and for Chemistry to determine if a release permit is required per STA-603.
c. GO TO Step 11.

Step 11. Refer to Techni cal Specifications per Attachment 6.

Attachment 6 indicates TS are NA.

  • BOLD INDICATES CRITICAL STEP

Revision 0 Appendix D Op-Test No:

1 Scenario No:1 Event No:2 Page 6 of 16 Event

Description:

PZR Spray valve fails open.

Time RO BOP SRO Applicant's Actions or Behavior 3.1 Symptoms

a. Annunciator Alarms PRZR 1 OF 4 PRESS LO (5B-3.4) PRZR 1 OF 4 SI PRESS LO (5B-4.4) PRZR LO PRESS PORV 456 BLK (5B-1.6) PRZR LO PRESS PORV 455A BLK (5B-2.6
b. Plant Indication Spray valve indicated open when not called for by master controller.

3.2 Automatic Actions

a. Control response for failed open spray valve(s)
1) Control and backup heaters come on.

1/u-PCPR, PRZR CTRL HTR GROUP C 1/u-PCPR1, PRZR BACKUP HTR GROUP A 1/u-PCPR2, PRZR BACKUP HTR GROUP B 1/u-PCPR3, PRZR BACKUP HTR GROUP D

2) Reactor trip at 1880 psig.
3) Safety Injection at 1820 psig.

Enter section ABN-705, section 3, Pressurizer Spray Valve Failure Step 1. CLOSE Pressurizer Spray Valve(s) u-PK-455B, RC LOOP 1 PRZR SPR VLV CTRL u-PK-455C, RC LOOP 4 PRZR SPR VLV CTRL Step 2. Check RCS pressure stable or increasing.

Sep 3. Verify RCS pressure returning to 2235 psig.

Step 4. Refer to the following Technical Specifications:

3.3.1, Reactor Trip Syst em (RTS) Instrumentation 3.3.2, Engineered Safety Features Actuation System (ESFAS)

Instrumentation 3.3.3, Post Accident Monitoring (PAM) Instrumentation 3.3.4, Remote Shutdown Instrumentation 3.4.1, RCS Pressure, Temperature, and Flow Departure from

Nucleate Boiling (DNB) Limits 3.4.14, RCS Pressure Isolation Valves (PIV) Leakage 13.4.14, Reactor Coolant System Pressure Isolation Valves

  • BOLD INDICATES CRITICAL STEP Revision 0 Appendix D Op-Test No:

1 Scenario No:1 Event No:3 Page 7 of 16 Event

Description:

86-2 LOR on Bus 1EA2 (Bus will be powered by the EDG)

Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciator Alarms:

6.9 KV BUS uEA1 LOR TRIP (10B-1.5) 6.9 KV ANY BUS LOR LOSS OF CONTINUITY (10B-1.7) 6.9 KV ANY 1E XFMR BKR OPEN (10B-1.11) 6.9 KV BUS uEA2 LOR TRIP (10B-2.5) 6.9 KV BUS uEA1/uEA2 VOLTLOSS (10B-2.6) 6.9 KV BUS uEA1/uEA2 NOT PW RD FROM PREF OFFSITE PWR (10B-3.6) 6.9 KV/480V ANY 1E SECOND LVL UNDRVOLT (10B-4.5)

b. Plant Indications 345 KV supply outside of 340-361 KV 138 KV supply outside of 135-144 KV 6.9 KV or 480 V buses outside normal voltage limits 6.9 KV Voltage Limits = 6480 V to 7150 V 480 V Voltage Limits = 455 V to 508 V Slow transfer of a 6.9 KV safeguard bus Diesel generator supplying power to the bus Loss of transformer XST1, XST2, or XST1/2 6.9 KV bus uEA1 or uEA2 de-energized Lockout relay (LOR) trip of any 6.9 KV safeguard bus A 6.9 KV bus de-energized with no apparent causes.

2.2 Automatic Actions Second level undervoltage at 6192 V (6.9 KV bus) or 442.4 V (480 V bus) will trip 6.9 KV safeguard bus preferred and alternate feeds. lists spec ific undervoltage response. Diesel generators auto-start and energize affected safeguard bus, loading via blackout sequencer. A ttachment 2 lists specific sequence. Transformer XST2 or XST1/2 f aults isolate 1EA1 and 1EA2 preferred source, causing slow transfer. Transformer 1ST fault momentar ily de-energizes XST2, causing a slow transfer. Transformer XST1 fault isolates 2EA1 and 2EA2 preferred source, causing slow transfer. Both affected 6.9 KV safeguard bus offsite feeder breakers open. Associated diesel generator starts Equipment powered from affected bus de-energizes.

  • BOLD INDICATES CRITICAL STEP Revision 2 Appendix D Op-Test No:

1 Scenario No:1 Event No:3 Page 8 of 16 Event

Description:

LOR on 1EA2 (Bus will be de-energized resulting in loss of all AFW)

Time RO BOP SRO Applicant's Actions or Behavior CAUTION:

Only ONE attempt to close a tr ipped breaker should be allowed; provided NO obvious equipment damage or fault is indicated. Further attempts should NOT be made until checked by Electrical Maintenance. When a 6.9 KV safeguard bus fault prevents running a SSWP, DG

run time should be limited to approximately 15 minutes unloaded, 1 minute loaded to prevent damage due to loss of cooling. Following overcurrent or instantaneous overcurrent relay operations, the CTs should be checked by Meter & Relay for proper operation. (ONE 97-806) A fter approximately 120 seconds BOS Operator Lockout (OL) signal automatically resets, as indicated by associated BOS OL light OFF and RMUW pump restart when BOS has timed out. Should an OL not automatically reset, resetting the sequencer may correct the condition.

NOTE: It is probable that the crew will decrease Turbine Load approx. 50 MW in response the AFW pump start.

Step 1 Check Unit MODE - 1, 2, 3 OR 4 Step 2 Check 6.9 KV safeguard bus - AT LEAST ONE ENERGIZED CAUTION: If power is greater than 10%. MDAF W should be allowed to run until the sequencer times out. The pumps will be stopped in Section 8.0, if not required. DO NOT throttle AFW above 10% power. The AFWP flow control and isolation valves are required to be fully

open when above 10% power per TS 3.7.5.

NOTE: An emergency start will allow DG breaker to automatically close on a phase to ground bus DG breaker will not automatically or manually close when a phase to phase bus fault (LOR An Operator Lockout signal from Blackout Sequencer (BOS) opens TDAFWP steam supply valves. The BOS also starts associated train MDAFWP. It may be necessary to limit AFW flow to prevent

excessive RCS cooldown, or other adverse condition. Placing the TDAFW Pump in PULL-OUT with one safeguards bus de-energized will result in two inoperable AFW Pumps per TS 3.7.5. Throttling any train of AFW above 10% power renders the train Attachment 4 contains steps to deenergize the sequencer if the bus will not be needed. This would restore common equipment available to the other unit (e.g CRACs, UPS).

  • BOLD INDICATES CRITICAL STEP Revision 2 Appendix D Op-Test No:

1 Scenario No:1 Event No:3 Page 9 of 16 Event

Description:

LOR on 1EA2 (Bus will be de-energized resulting in loss of all AFW)

Time RO BOP SRO Applicant's Actions or Behavior Step 3 Check 6.9 KV safeguard buses - BOTH ENERGIZED

a. Bus voltage, 6500-7100 volts
b. Bus frequency, 59.5-60.5 Hz
c. GO TO Step 5.

Step 5 Monitor blackout sequencer status:

a. Affected bus - ENERGIZED
b. Verify Blackout Sequencer -OPERATED OUTPUT-STEP TIME lights -ALL LIT OR Automatic lockouts AL light -LIT
c. Verify all required equipment actuated per Attachment 2.
d. Recover from blackout s equencer operation per Section 8 while continuing.

NOTE: After crew completes Att 2, and the SM is notified that the TD AFW Pump is INOPERABLE, the Booth Operator calls US as Shift Manager and inform the crew that the CPC RO will take over the ABN.

The crew should focus on the plant Shutdown.

  • BOLD INDICATES CRITICAL STEP

Revision 0 Appendix D Op-Test No:

1 Scenario No:

1 4 Page 10 of16 Event

Description:

TDAWP Overspeeds on Auto Start Time RO BOP SRO Applicant's Actions or Behavior 4.1 Symptoms

a. Annunciator Alarms TD AFWP OVRSPD TRIP (8B-4.6)
b. Plant Indications Rapidly fluctuating AFWPT speed u-SI-2452A, AFWPT SPD 4.2 Automatic Action None Enter ABN-305 Aux Feedwater Malfunction Step1 Verify Turbine Driven Auxiliary Feedwater Pump malfunctioning by one or more of the following indications:

AFWPT TRIP light on u-HS-2452F - LIT Step 2 Verify Turbine Driven Auxiliary Feedwater Pump - NOT TRIPPED Step 2 RNO. Perform the following:

a. Ensure at least one steam supply valve open: u-HS-2452-1, AFWPT STM SPLYVLV-MSL 4 u-HS-2452-2, AFWPT STM SPLYVLV-MSL 1
b. Lower u-SK-2452A, AFWPT SPD CTRL to 0% output.
c. Direct Plant Equipment Operator to perform the following per Attachment 1 1) Reset overspeed trip linkage.
2) Slowly open u-HV-2452, AFWPT u-01 TRIP AND THROT VLV
d. Verify u-HS-2452 G/H, AFWPT TRIP & THROTTLE VALVE open AND valve red lights are lit.
e. Adjust u-SK-2452A, AFWPT SPD CTRL to desired output.
f. Return to procedure and step in effect.
  • BOLD INDICATES CRITICAL STEP Revision 0 Appendix D Op-Test No:

1 Scenario No:

1 Event No: 5 Page 11 of 16 Event

Description:

Power Reduction (Directed by the Shift Manager)

Time RO BOP SRO Applicant's Actions or Behavior Review IPO-003A, Power Operations Notifies Generation Controller prior to reducing load.

Notifies Chemistry and Radiation Prot ection if power will be reduction will be

> 15% in one hour Notifies Reactor Engineering of power reduction > 25%.

Calculates the amount of boration required Calculates the rate of boration Reviews AFD guidance Initiates boration Sets in the desired unloading rate and amount using the Digital Control System Maintains AFD in the target band Maintains rods above the Rod Insertion Limit Maintains Tave with 1 degree of Tref

  • BOLD INDICATES CRITICAL STEP

Revision 0 Appendix D Op-Test No:

1 Scenario No:1 Event No:6&7 Page 12 of 16 Event

Description:

Feedline Break Outside Containment/LOR on 1EA2 Time RO BOP SRO Applicant's Actions or Behavior Annunciators ALB-08A, SG3 FW NZL FLO HI ALB-08A, SG3 STM & FW FLO MISMATCH ALB-08A, SG3 LLVL DEV ALB-08A, SG3 LVL LO Plant Indications Tave decreasing Bank D rods moving out Nuclear Power increasing MFP speed increasing Diagnose plant conditions and determi nes that a Feedwater Leak is occurring outside the Reactor Containment Building.

Orders a reactor trip and enters EOP-0.0A.

Step 1. Verify Reactor Trip

a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
a. AC safeguards busses -

AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)

b. AC safeguards busses - BOTH ENERGIZED Step b. RNO Restore power to de-energized AC Safeguards bus per ABN-601 or 602, when time permits.

NOTE: It is probable that the crew will place the B EDG in Pull Out.

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Revision 0 Appendix D Op-Test No:

1 Scenario No:1 Event No:6&7 Page 13 of 16 Event

Description:

Feedline Break Outside Containment/LOR on 1EA2 Time RO BOP SRO Applicant's Actions or Behavior Step 4. Check SI Status:

a. Check If SI is Actuated:

SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON

b. Verify Both Trains DI Actuated:

SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.

IF SI is NOT required, THEN go to EOS-0.1 A, REACTOR TRIP RESPONSE The CPC RO will refer to ABN-602 for 1EA2 Bus LOR

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Revision 0 Appendix D Op-Test No:

1 Scenario No:1 Event No:6&7 Page 14 of 16 Event

Description:

Feedline Break Outside Containment/LOR on 1EA2 Time RO BOP SRO Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RcCS Average Temperature - STABLE AT OR TRENDING TO 557° F.

Step 2. Check FW Status:

a. Verify reactor trip and bypass breaker - OPEN
b. Check RCS average temperatures - LESS THAN 564° F.
c. Verify Feedwater Isolation - ISOLATION COMPLETE
d. Verify total AFW to SGs - GREATER THAN 460 GPM.

Step 3. Check PRZR Level Control:

a. Level - GREATER THAN 17%
b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE step c RNO. Perform the following to place letdown in service NOTE: There was previously a leak in the letdown line. The crew should NOT establish letdown flow at this point.
d. Level - TRENDING TO 25%

Step 4. Check PRZR Pressure Control:

a. Pressure - GREATER THAN 1820 PSIG
b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:
a. Narrow Range Level - GREATER THAN 5%
b. Control Feed flow to maintain narrow range level between 5% and 50%.

NOTE: The crew may get to this point or even further before the Heat Sink Red Path come in.

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Revision 0 Appendix D Operator Actions Op-Test No:

1 Scenario No:

1 Event No: 8 Page 15 of 16 Event

Description:

Loss of Heat Sink ( with SI Pump Failure)

Time RO BOP SRO Applicant's Actions or Behavior Steam Generator Levels will continue to decrease. There is no AFW flow and the plant condition continues to degrade. As it becomes clear to the crew that the location of the feed break precludes the establishment of normal feed to the Steam Generator s the crew will enter FRH-0.1A, Response to a Loss of Secondary Heat Sink.

At approximately 8 minutes after the Feed break, AFW flow to the SG's will still be 0 and the narrow range level will be <5%.

Enter FRH-0.1A Loss of Heat Sink Step 1 Check If Se condary Heat Sink is Required:

a. RCS pressure - GREATER THAN ANY NON_FAULTED SG PRESSURE b. RCS temperature - GREATER THAN 320°F Yes, continue to step 2.

Step 2. Check CCP Status - BOTH AVAILABLE Step 2, RNO. Immediately perform the following:

a. STOP ALL RCP's
b. Got to Step 11. OBSERVE CAUTION PRIOR TO STEP 11.

CAUTION: Steps 11 through 20 must be performed quicly in order to establish RCS removal by RCS bleed and feed.

Step 11. Actuate SI.

Step 12. Verify RCS Feed Path:

a. Check Pump Status: CCP's BOTH RUNNING OR AT LEAST ON CCP AND AT LEAST ONE SI PUMP-RUNNING B. Check valve alignment for operating pumps - PROPER EMERGENCY ALIGNMENT PER ATTACHMENT 3.

Step 12, RNO. Manually start pumps and align valves as necessary to establish feed path.

Step 13. IF the Diesels are Running, THEN place Both DG EMERG STOP/START Handswitches in START.

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1 Scenario No:

1 Event No: 8 Page 16 of 16 Event

Description:

Loss of Heat Sink ( with SI Pump Failure) Time RO BOP SRO Applicant's Actions or Behavior Step 14. Reset SI Step 15. Reset SI Sequencers Step 16. Reset Containment Isolation Phase A and B.

Step 17. Reset Containment Spray Signal Step 18. Establish Instrument Air And Nitrogen to Containment.

a. Establish instrument air:
1) Verify air compressor running and establish instrument air to containment.
b. Establish nitrogen
1) Verify ACCUM 1-4 VENT CTRL, 1-HC-943 - CLOSED 2) Open SI/PORV ACCUM N2 ISOL VLV, 1/1-8880.

Step 19. Establish RCS Bleed Path:

a. Verify power to PRZR PORV block valves - AVAILABLE b. Verify PRZR PORV block valves - BOTH OPEN
c. Open both - PRZR PORV's.

Step 20. Verify Adequate RCS Bleed Path:

PRZR PORV's - BOTH OPEN PRZR PORV block valves - BOTH OPEN The Scenario may be terminated at the Lead Examiners discretion.

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SHIFT TURNOVER INFORMATION 1.0 INITIAL CONDTIONS:

Time in Core Life: BOL Tavg: 589 o F Reactor Power: 100%

RCS Pressure: 2235 psig Turbine Load:1200 Mwe Xenon: Equil Boron Concentration:1263 ppm Rod Control: AUTO Rod Height: CB D @ 215steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:

TS# Description Reason 3.7.5 AFW AFW Pump 1-01 OOS for Oil Sample 3.0 CLEARANCES IN EFFECT:

AFW Pump 1-01 OOS for Oil Sample 4.0 SAFETY SYSTEM SETTING BYPASS/MALFUNCTIONS None 5.0 DEGRADED EQUIPMENT 6.0 PLANNED EVOLUTIONS:

Return AFW Pump 1-01 to service when the oil sample is complete.

7.0 TURNOVER INFORMATION:

Unit 1 and Unit 2 are at 100% power. U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil. Maintenance is in the process of changing the oil and the pump should be ready for test in the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. The Generation Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. There are no surveillances planned for this shift and the orders are to maintain current load and unit availability.

Revision 0 Appendix D Scenario Outline Form ES-D-1 Facility:

CPSES Scenario No.:

2 Op-Test No.:

1 Examiners:

Operators:

Note: (NEW) Do SRO Admin A.4.2, Emerg. Class. With this Scenario (SAE). Initial Conditions: 40% power, Xenon building in, plant start-up in progress. Unit 2 is at 100%. (IC-13. Preload malfunctions RP07A, and RP07B Train A/B Auto SI failure.)

Turnover:

Unit 1 is at 40% power and increasing per IPO-003A, step 5.4.19. Shift orders are to increase reactor power during the shift. The "A" MDAFWP is OOS due to

contamination in the oil. Maintenance is in the process of changing the oil and the pump should be ready for test in the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. The Generation Controller

has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. The expectation is that the ALERT will last until midnight. There are no surveillances planned for this shift.

Event No. Malf. No.

Event Type* Event Description 1 T=0 N (SRO) R (RO) N (BOP) Increase Reactor Power 2 T=13 RX04B @ 100% I (SRO) I (BOP) SG level transmitter LT-552 fails high.

3 T=23 CV01B C (RO) C (SRO) Trip of Running CCP 4 T=33 CV13A

@12gpm C (SRO) C (RO) Letdown Leak inside containment 5 T=40 RC15A C (ALL) RCP Seized Shaft 6 T=45 RC09A2 M (ALL) LBLOCA 7 T=45 RH01B C(ALL) RHRP1-2 Trip NOTE: Make new IC that has second MFP running and equil xenon. * (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor

Revision 0 Appendix D Narrative Description Op-Test No:

1 Scenario No:

2 Event No: Page 2 of 24 The objective of this scenario is to evaluate the operator's ability to change Reac tor power in a controlled manner, respond to various instrument and component failures, and to carry out the requisite emergency procedures to mitigate the consequences of a Loss of Coolant Accident.

Event One.

The operators are directed to c ontinue the plant startup.

In order to preclude unnecessary delay, the shift turnover will direct the crew to start the power increase immediately upon taking the watch. The customary reactivity brief will be allowed, but due to the ALERT for grid condi tions, an extensive pre job brief will not be held.

Operator feedback for the need to increas e power will be the ALERT condition or plant management direction. It is expected that the crew will:

Refer to the appropriate plant procedure Complete a reactivity brief. Commence dilution and increase power using the Turbine Digital Control System Event Two.

When power has been increased enough to meet t he requirements of NUREG 1021 and at the lead examiners discretion, the controlling level channel on SG 1-02 will fail high. This will cause the feed regulating valve to go closed more than normal due to the high indicated SG level. Operator feedback for this event is SG level alarms, steam flow/feed flow mismatch alar ms and increasing Reactor Coolant Average temperature due to lower than normal SG le vel. It is expected that the crew will:

Evaluate plant conditions and determine that SG 1-02 level is NOT normal Recognize that the feed flow does not match steam flow Determine that the level indicator LI-552 is reading higher than the other channels Take manual control of the FRV and match steam and feed flow Refer to the correct ABN procedure Make the necessary notifications and refer to Tec hnical Specifications. It is expected that the SRO will stop the power increase during this event.

Event Three.

The running CCP (CCP 1-01) trips. All charging and seal injection flow is lost. Without charging flow to cool the regenerative heat exchanger, letdown will flas h and cause the letdown relief to lift. Operator feedback for this event is provided by annunciation for the CCP trip and various annunciations due to loss of letdown. It is expec ted that the operator will:

Verify that CCW is at least 35 gpm to the RCP Thermal Barrier Heat Exchangers (Initial Operator Action) Isolate letdown (Initial Operator Action) Refer to the correct ABN procedure. Start the CCP 1-02 Establish charging flow to support letdown flow Establish letdown Make the necessary notifications and refer to Technical Specifications

Revision 0 Appendix D Narrative Description Op-Test No:

1 Scenario No:

2 Event No: Page 3 of 24 Event Four. Due to the previous valve, temperature and pressure cycles on the letdown system, a small leak occurs on the Letdown Isolation Valve LCV-460. The leak size is 12 gpm and is evidenced by, increasing charging flow, decreasing VCT level, increased make up to the VCT, and increasing radioactive gas levels inside the Containment. Due to the plant star tup in progress, which results in large dilutions and RCS tave leading turbine load, a decrease in PZR le vel may not be the first indication of the loss of inventory. It is expected that the crew will:

Respond to alarms and determine that pr essurizer level is decreasing. Verify that charging flow has incr eased to maintain pressurizer level Refer to the correct ABN procedure Increase charging and/or decrease letdown to maintain pressurizer level. Evaluate plant conditions and determine that the leak is greater than allowed by Technical Specifications and comply with t he Limiting Condition for Operation.

Event Five Failure of the seal package caused by the cycling of seal injection lead to the RCP 1-01 experiencing a seized shaft. If reactor power is

<48%, then the operator feedback will be MCB alarms for low flow and RCP trip. The operators should trip the Reactor to meet the requirements of the ABN procedures. If reactor power is > 48%, then a Reactor Trip will occu

r. Automatic Reactor Trips were blocked in the scenario setup.

NOTE: The evaluator should also note the crew's res ponse to the SG level in the 1-01 SG. RCS flow will be reversed and SG level will be abnormally high. It is not uncommon for a crew to believe that a SGTR has occurred due to this thermo hydraulic behavior.

It is expected that the operator will:

Respond to alarms and determine that the RCP has tripped. Trip the reactor (Initial Operator Action) Refer to the correct ABN procedure Enter the correct EOP and continue with the ABN procedure. Perform the Immediate Operator Actions from memory. Evaluate plant conditions and determine what Te chnical Specification Limiting Condition for Operations apply. Evaluate the level change in the 1-01 SG and determi ne that the level increase is due to reverse RCS flow through the SG.

Revision 0 Appendix D Narrative Description Op-Test No:

1 Scenario No:

2 Event No: Page 4 of 24 Event Six and Seven.

On the loop with the tripped RCP, a Large Break LOCA o ccurs. Safety Injection first out alarms will come in. The pressurizer will rapidly empty and containment pressure will rapidly increase to the HI-3 setpoint and containment spray will actuate.

It is expected that the crew will:

Recognize that a Safety Injection is required and initiate a Manual SI. Enter the correct EOP. Perform the Immediate Operator Actions from memory. Verify automatic actions, and determi ne that the RHR pump 1-02 has tripped. Trip RCP's when plant conditions meet those listed on the Fold Out page. Transition to the correct EOP Transition to the correct EOS Procedure when conditions are met Establishes at least one train of cold leg recirculation NOTE: In the CPSES Probabilistic Risk Analysis, import ant operator actions are evaluated in Table 9 of the PRA Summary Document. For this scenario, it is important that the Operators establish cold leg recirculation when required. Failure to establish long term cooling for the LBLOCA are major contributors to both the CDF and LERF considerations The scenario may be terminated when one train of cold leg recirculation has been established or at the discretion of the Lead Evlauator.

Recommended Critical Tasks Fails to manually control SG level, resulting in a Reactor Trip on SG Level. Fails to manually initiate Safety Injection when required by plant conditions. Fails to trip RCP's when required by plant conditions.

Revision 0 Appendix D Operator Actions Op-Test No:

1 Scenario No:

2 Event No: 1 Page 5 of 24 Event

Description:

Increase Reactor Power Time RO BOP SRO Applicant's Actions or Behavior Review IPO-003A, Power Operations Notifies Generation Controller prior to increasing load.

Calculates the amount of dilution required Calculates the rate of dilution Reviews AFD guidance Initiates boration Sets in the desired loading rate and amount using the Digital Control System Maintains AFD in the target band Maintains rods above the Rod Insertion Limit Maintains Tave with 1 degree of Tref

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Appendix D Op-Test No:

1 Scenario No:

2 Event No: 2 Page 6 of 24 Event

Description:

SG Level Transmitter LT-552 Fails High Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciator Alarms SG 2 LVL LO (8A-2.6) SG 2 LVL DEV (8A-2.12) SG 2 STEM & FW FLO MISMATCH
b. Plant Indications
1) One steam generator level instrument indicating higher or lower than the other steamgenerators level instruments.

u-LI-552, SG 2 LVL (NR) CHAN II 2.2 Automatic Actions NOTE: Control responses will occur only if the failed channel is selected for control. Steam Generator Level Channel failing HIGH will cause the feedwater control valve to CL OSE, thereby decreasing steam generator level. (Unit 1 LO LEVEL REACTOR TRIP at 25%) (Unit 2 LO LEVEL REACTOR TRIP at 35.4%)

Diagnose Failed SG Level Controller and Enter ABN-710.

Step 1 Verify controlling level channel -FAILED.

Step 2 Manually control the following, as necessary to maintain SG - 2 AT PROGRAMMED LEVEL.

u-FK-520, SG 2 FW FLO CTRL u-SK-509A, FWPT MASTERSPD CTRL Step 3 Verify instruments on comm on instrument line - NORMAL (See )

CAUTION: Turbine Trip AND Feedwater Isolation will occur if 2 or more of the 3 HI-HI level bistables for the SAME steam generator are TRIPPED. IF preferred level control channel has failed (551, 552, 553, or 554)

A ND automatic steam generator water level control is restored using alternate levelcontrol channel, THEN Step 9 must be completed within SIX hours for requiredchannel protection coincidence.

Step 4 Verify ALL other HI-HI level bistable windows on TSLB-3 for affected SG- DARK SG 2(Channels 527, 528, and 529) windows 1.3, 3.3, and 4.3

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Appendix D Op-Test No:

1 Scenario No:

2 Event No: 2 Page 7 of 24 Event

Description:

SG Level Transmitter LT-552 Fails High (cont) Time RO BOP SRO Applicant's Actions or Behavior Step 5 Verify automatic SG level control - DESIRED

a. Alternate level control channel responding normally.
b. Automatic level control desired,as determined by UnitSupervisor.

Step 6 Select alternate channel: u-LS-529C, SG 2 LVL CHAN SELECT Step 7 Verify affected SG conditions for auto level control. Feedwater and steam flows matched. SG level stable at program.

Step 8 Place Feedwater Flow OR Feedwater Bypass Control Valve in automatic AND ensure proper control.

Step 9 Within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />, have an I&C Tec hnician place bistable test switches

for failed level channel in CLOSE utilizing Attachments 2 and 3.

Step 10 Verify appropriate Alarms AND Trip Status Lights LIT per AND note this verification in the Unit Log. Step 11 Refer to Technical Specifications, per Attachment 4.

RX trip Inst. Table 3.3.1-1 item #14 ESF Inst Table 3.3.2-1 item 6C Accidnet Monitoring Table 3.3.3-1 item # 13

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Revision 0 Appendix D Op-Test No:

1 Scenario No:

2 Event No: 3 Page 8 of 24 Event

Description:

Trip of Running CCP Time RO BOP SRO Applicant's Actions or Behavior 3.1 Symptoms

a. Annunciator Alarms ANY RCP SEAL WTR INJ FLO LO (5A-1.6) PRZR LVL DEV LO (5C-1.2) ANY CHRG PMP OVRLOAD/TRIP (6A-1.7) REGEN HX LTDN OUT TEMP HI (6A-1.4) CHRG FLO HI/LO (6A-3.4)
b. Plant Indications
1. Amber MISMATCH or trip light(s) ON at the charging pump control switch.1/u-APPD, PDP 1/u-APCH1, CCP 1 1/u-APCH2, CCP 2 2. Pressurizer level indicating lower than program level during steady state conditions. u-LR-459, PRZR LVL/PRZR LVL SET PT u-LI-459A, PRZR LVL CHAN I u-LI-460A, PRZR LVL CHAN II u-LI-461, PRZR LVL CHAN III 3. Charging Flow will indicate 0 gpm u-FI-121A, CHRG FLO 3.2 Automatic Actions
a. Letdown line isolation occurs at 17% pressurizer level AND pressurizer heaters will deenergize.

Diagnose CCP Trip and Enter ABN-105 NOTE: Step 1 and 2 may be performed concurrently. Step 1. (Initial Operator Action ) Verify Component Cooling Water flow to RCP Thermal Barrier HX(s)-GREATER THAN 35 GPM:

u-FI-4678, RCP 1 THBR CLR CCW RET FLO u-FI-4682, RCP 2 THBR CLR CCW RET FLO u-FI-4686, RCP 3 THBR CLR CCW RET FLO u-FI-4690, RCP 4 THBR CLR CCW RET FLO

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Revision 0 Appendix D Op-Test No:

1 Scenario No:

2 3 Page 9 of 24 Event

Description:

Trip of Running CCP Time RO BOP SRO Applicant's Actions or Behavior Step 2. (Initial Operator Action ) Verify Letdown Flow - ISOLATED 1/u-8149A, LTDN ORIFICE ISOL VLV (45 GPM) - CLOSED 1/u-8149B, LTDN ORIFICE ISOL VLV (75 GPM) - CLOSED 1/u-8149C, LTDN ORIFICE ISOL VLV (75 GPM) -CLOSED 1/u-LCV-459, LTDN ISOL VLV -CLOSED 1/u-LCV-460, LTDN ISOL VLV -CLOSED Step 3. Verify at least one Charging Pump - RUNNING Step 3. (RNO)

Start a Charging Pump.

Step 4 Verify Seal Injection Flow to each RCP - BETWEEN 6 GPM AND 13 GPM Step 5 Verify RCP Parameters in - NORMAL OPERATING RANGE:

6 Verify PRZR level-GREATER THAN 17% AND INCREASING Step 7 Establish normal Letdown:

a. OPEN Letdown Isolation Valves: 1/u-LCV-460, LTDN ISOL VLV 1/u-LCV-459, LTDN ISOL VLV 1/u-8152, LTDN CNTMT ISOL VLV ORC 1/u-8160, LTDN CNTMT ISOL VLV IRC
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Revision 0 Appendix D Op-Test No:

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2 3 Page 10 of 24 Event

Description:

Trip of Running CCP Time RO BOP SRO Applicant's Actions or Behavior

b. Manually OPEN u-PK-131, LTDN HX OUT PRESS CTRL to 30% DEMAND (50% if restori ng two orifice valves).
c. Manually OPEN u-TK-130, LTDN HX OUT TEMP CTRL to 50%

DEMAND. d. Adjust charging to desired flow WH ILE maintaining seal injection flow between 6 and 13 gpm.

e OPEN selected Letdown Orifice Isolation Valve(s).

f Adjust u-PK-131, LTDN HX OUT PRESS CTRL to maintain approximately

310 psig AND place in AUTO.

g Adjust u-TK-130, LTDN HX OUT TEMP CTRL to maintain approximately

95°F AND place in AUTO.

Step 8 Verify RCS leakage - NORMAL

a. PRZR level stable at OR trending to program.
b. Charging flow less than 15 GPM above letdown flow.

Step 9 Refer to Technical Specifications listed in Section 9.1, this procedure.

9.1 Technical Specifications/Requirements 3.4.13, RCS Operational Leakage 3.4.14, RCS Pressure Is olation Valve (PIV) Leakage 3.4.15, RCS Leakage Detect ion Instrumentation 3.5.2, ECCS - Operating 3.5.3, ECCS - Shutdown 13.1.31, Boration Injection System - Operating 13.1.32, Boration Inject ion System - Shutdown

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Revision 0 Appendix D Op-Test No:

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2 4 Page 11 of 24 Event

Description:

Letdown Leak Inside Containment Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciator Alarms CNTMT SMP 1 FILL RATE INCREASE (2A-1.6) CNTMT SMP 1 LVL HI-HI (2A-1.7) CNTMT SMP 2 LVL HI-HI (2A-1.8) CNTMT SMP 2 FILL RATE INCREASE (2A-2.6) RX CAV SMP LVL HI-HI (2A-2.7) CNTNT FAN CLR 3 & 4 CNDS FILL RATE HI (2B-3.12) CNTNT FAN CLR 1 & 2 CNDS FILL RATE HI (2B-4.12) PRZR LVL DEV LO (5C-1.2) CHRG FLO HI/LO (6A-3.4) 2.1 b. Plant Indications Containment humidity high or increasing Containment radiation levels high or increasing Incore instrument leakage alarm Containment temperature high or increasing Containment pressure high or increasing Containment dew point increasing Increased reactor coolant make-up frequency VCT level decreasing Charging flow increasing Pressurizer relief and safety valve temperature high Pressurizer level decreasing Condenser off gas radiation level increasing 2.2 Automatic Actions
a. IF pressurizer level decreases to the low level alarm (5B-3.6), THEN letdown will isolate and pressurizer heaters will be blocked.
b. IF VCT level decreases to the lo-l o level alarm (6A-4.5), THEN charging pump suction will transfer to the RWST.

Enters ABN-103 RCS Leak Step 1 Verify charging pump - AT LEAST ONE RUNNING 1/u-APPD, PDP 1/u-APCH1, CCP 1 1/u-APCH2, CCP 2

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Revision 0 Appendix D Op-Test No:

1 Scenario No:

2 Event No: 4 Page 12 of 24 Event

Description:

Letdown Leak Inside Containment Time RO BOP SRO Applicant's Actions or Behavior Step 2 Ensure Pressurizer level - AT OR TRENDING TO PROGRAM LEVEL SETPOINT a. Verify running charging pump cont roller automatically maintaining Pressurizer level at program setpoint u-FK-121, CCP CHRG FLOCTRL u-SK-459A, PDP SPD CTRL Step 2 (RNO). Place the running charging pump controller in MANUAL AND adjust charging flow to maintain pressu rizer level at program level setpoint Step 3 Check PRZR Status a. PRZR PORVs - CLOSED 1/u-PCV-455A, PRZR PORV 1/u-PCV-456, PRZR PORV b. PRZR Safety Valves - CLOSED u-ZL-8010A, PRZR SFTY VLV A u-ZL-8010B, PRZR SFTY VLV B u-ZL-8010C, PRZR SFTY VLV C c. PRZR Spray Valves - RESPONDING NORMALLY TO CONTROL

PRESSURE u-ZL-455B, RC LOOP 1 PRZRSPR VLV u-ZL-455C, RC LOOP 4 PRZR SPR VLV

d. Pressurizer Relief Tank level AND temperature - NO SIGNIFICANT INCREASE u-TI-468, PRT TEMP u-LI-470, PRT LVL u-PI-469, PRT PRESS
d. Check PRZR PORV AND Safety Valves for indication of leakage: u-TI-463, PRZR PORV OUT TEMP u-TI-464, PRZR SFTY VLV C OUT TEMP u-TI-465, PRZR SFTY VLV B OUT TEMP Step 4 Verify AUTO makeup in service 1/u-MU, RCS MU MAN ACT -START 43/u-MU, RCS MU MODE SELECT- AUTO Step 5 Verify 1/u-LCV-112A, VCT LVL CTRL VLV - ALIGNED TO VCT.

Step 6 Check Steam Generator status:

a. All Steam Generator levels - NORMAL
b. Verify SG feedwater/steam flow - NO SIGNIFICANT MISMATCH
c. Monitor PC-11 trends on affected Steam Generators for increased

radioactivity.

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Revision 0 Appendix D Op-Test No:

1 Scenario No:

2 Event No: 4 Page 13 of 24 Event

Description:

Letdown Leak Inside Containment Time RO BOP SRO Applicant's Actions or Behavior Step 7 Verify primary sampling valves closed - u-MLB-1A2- LIGHTS DARK 1.1 u-HV-4165, PRZR STM SMPL ISOL VLV OPEN 2.1 u-HV-4166, PRZR LIQ SMPL ISOL OPEN 3.1 u-HV-4168, HL 1 SMPL ISOL OPEN 4.1 u-HV-4169, HL 4 SMPL ISOL OPEN Step 8 Announce over plant page:

"ATTENTION ALL PERSONNEL. WE HAVE INDICATION OF A LEAK FROM THE UNIT RCS. BE AWAR E OF POSSIBLE INCREASED RADIATION LEVELS OUTSIDE CONTAINMENT BUILDING. REPORT ANY

WATER SPILLAGE, OBSERVED LEAKS, OR UNEXPECTED TANK OR SUMP LEVEL INCREASES TO UNIT u CONTROL ROOM".

Step 9 Dispatch personnel to search for leak while continuing with this

procedure:

a. Check the following:
1) Residual Heat Removal Line pressure - NORMAL FOR CONDITIONS Piping temperature - AMBIENT NO piping leaks 2) Safety Injection NO piping leaks Piping temperature - AMBIENT
3) RCS Letdown and Makeup NO piping leaks Filter Drains - CLOSED NO pump leakage NO BTRS drain valve or diaphragm valve leakage.
4) Auxiliary Building AND SFGD bu ilding sump levels - NO UNEXPECTED INCREASE *BOLD INDICATES CRITICAL STEP

Revision 0 Appendix D Op-Test No:

1 Scenario No:

2 Event No: 4 Page 14 of 24 Event

Description:

Letdown Leak Inside Containment Time RO BOP SRO Applicant's Actions or Behavior Step 10. Check areas AND sy stems for signs of leakage:

a. Verify PC-11 Trends - NORMAL Main Steam Line Monitors SFGDs Building ARMs Auxiliary Building ARMs Containment Building ARMs AND PIG Component Cooling Water Process Monitors b. Verify Accumulator Tank levels - NORMAL c.Verify Containment Building Sumps - NOT INCREASING:

u-LI-5160, CNTMT SMP 1 LVL u-LI-5161, CNTMT SMP 2 LVL u-LI-5164, RX CAV SMP LVL d. Verify Reactor Coolant Drain Tank level AND discharge flow - NORMAL Step 11 Check letdown and normal charging for leakage.

a. Area Radiation Monitor in vicini ty of letdown and charging - NORMAL PPAu21, HRAM PIPE PENET N(S). 810 (u-RE-6259B)
b. Check FFLu60, FAILED FUEL (u-RE-0406) for loss of flow.
c. Verify VCT level - NORMAL
d. Verify RCS Makeup Flow and makeup intervals - NORMAL
e. Verify NO reports of leakage observed.
f. Letdown flow - LESS THAN 140 gpm
2) Isolate Letdown and normal charging as follows:

A) Close Orifice Isolation Valves: 1/u-8149A, LTDN ORIFICE ISOL VLV (45 GPM) 1/u-8149B, LTDN ORIFICE ISOL VLV (75 GPM) 1/u-8149C, LTDN ORIFICE ISOL VLV (75 GPM) B) Close Letdown Isolation Valves: 1/u-LCV-460, LTDN ISOL VLV 1/u-LCV-459, LTDN ISOL VLV Note: The crew may not get to this point. The next event will happen at the discretion of the lead evaluator.

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Description:

RCP Seized Shaft Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciators Alarm ANY RCP TRIP (5B-1.1) 1 OF 4 RCP UNDRVOLT (5B-1.2) RC LOOP 1 1 OF 3 FLO LO (5A-1.3) 1 OF 4 RCP UNDRFREQ (5B-2.2) RC LOOP 2 1 OF 3 FLO LO (5A-2.3) RC LOOP 3 1 OF 3 FLO LO (5A-3.3) RC LOOP 4 1 OF 3 FLO LO (5A-4.3)
b. Plant Indications Low flow indication on any reactor coolant loop. Breaker TRIP or MISMATCH light illuminated on any RCP handswitch. Motor amps on any RCP motor reading zero.

2.2 Automatic Actions Reactor trip occursin the event of one reactor coolant pump trip with

reactor power greater than 48% (P-8 permissive annunciator NOT LIT). Reactor trip occurs in the event of two reactor coolant pumps trip

with reactor power orturbine power greater than 10% (P-7 permissive annunciator NOT LIT).

If the crew enters ABN-101 the first step is:

Step 1. (Initial Operator Action) Check Plant status

a. Verify Reactor - Tripped
b. GO TO EOP-0.0A/B while other qualified operators continue with this procedure.
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Description:

RCP Seized Shaft Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciators Alarm RX> 48% PWR 1 OF 4 RC LOOP FLO LO (6C-4.2) RX> 10% PWR PRZR PRSS LO (6C-1.3) SG2 LVL LO (6C-2.6)

Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Reactor Trip breakers open and the turbine trips Orders a reactor trip and enters EOP-0.0A.

Step 1. Verify Reactor Trip

a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
a. AC safeguards busses -

AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)

b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
a. Check If SI is Actuated:

SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON

b. Verify Both Trains DI Actuated:

SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.

IF SI is NOT required, THEN go to EOS-0.1 A, REACTOR TRIP RESPONSE

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Description:

Reactor Trip Response Time RO BOP SRO Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557° F.

Step 2. Check FW Status:

a. Verify reactor trip and bypass breaker - OPEN
b. Check RCS average temperatures - LESS THAN 564° F.
c. Verify Feedwater Isolation - ISOLATION COMPLETE
d. Verify total AFW to SGs - GREATER THAN 460 GPM.

Step 3. Check PRZR Level Control:

a. Level - GREATER THAN 17%
b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE
d. Level - TRENDING TO 25%

Step 4. Check PRZR Pressure Control:

a. Pressure - GREATER THAN 1820 PSIG
b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:
a. Narrow Range Level - GREATER THAN 5%
b. Control Feed flow to maintain narrow range level between 5% and 50%.

NOTE: Because of the RCP Trip, the level in the #1 SG will be higher than in the other SGs. The crew should NOT believe that this is indication of a SGTR. If they do, however, it will not effect the outcome of the scenario

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Description:

LB LOCA (Auto SI Fails) Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciators Alarm PRZR PRESS LO SI ACT (6C-2.7) CNTMT PRESS HI SI ACT (6C-4.7)

Plant Indications RCS pressure and temperature rapidly dropping, Pressurizer level and pressure dropping and Containment Temperature and Pressure increasing rapidly. Automatic Actions Automatic SI will not function and RHR Pump 1-02 fails to start.

NOTE: It is expected that the operator will initiate Manual SI prior to procedure entry.

Transitions to EOP-0.0A.

Step 1. Verify Reactor Trip

a. Verfiy the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
a. AC safeguards busses -

AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)

b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
a. Check If SI is Actuated:

SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON

b. Verify Both Trains DI Actuated:

SI Actuated blue status light - ON NOT FLASHING Step 4 RNO. Check if SI required (YES) Manually Initiate SI.

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Description:

LB LOCA (Auto SI Fails) Time RO BOP SRO Applicant's Actions or Behavior Step 5. Ensure Proper Saf eguards Equipment Operation Per Attachment 2.

NOTE: It is expected that the RHR pump trip will be noticed and documented during the performance of Attachment 2.

Step 6. Verify AFW Alignment

a. MDAFWP - RUNNING
b. Turbine Driven AFW Pump - RUNNING IF NECESSARY
c. AFW total flow - GREATER THAN 460 GPM
d. AFW Valves alignment - PROPER ALIGNMENT Step 7. Verify Containment Spray Not Required :
a. Containment Pressure - HAS REMAINED LESS THAN 18 PSIG (NO)

Step a RNO. Perform the following:

1) Verify Containment Spray inititated. 2) Verify appropriated MLB indication for CNTMT SPRAY (BLUE WINDOWS) AND PHASE B (ORANGE WINDOWS) 3) Verify containment spray flow 4) Esnure CHEM ADD TK DISCH VLVs - OPEN
5) Stop all RCPs. (NOTE: The crew will stop RCPs at this point instead of waiting until step 11. They may also have stopped the RCPs per the fold out page for this procedure.) 6) Go to step 8.

Step 8. Check if Main Steamlines should be Isolated:

a. Verify the following: Containment Pressure - GR EATER THAN 6 PSIG (YES)
b. Verify main steam isolation complete.

Step 9. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557°F.

Step 9 RNO. Throttle AFW and stop dumping steam.

Step 10. Check PRZR Valve Status:

a. PRZR Safeties - CLOSED
b. Normal PRZR Spray valves - CLOSED c. PORVs - CLOSED
d. Power to at least one block valve - AVAILABLE e. Block valves - AT LEAST ONE OPEN
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Description:

LB LOCA (Auto SI Fails) Time RO BOP SRO Applicant's Actions or Behavior Step 11. Check if RCPs should be stopped:

a. ECCS pumps - AT LEAST ONE RUNNING CCP -OR- SI pump b. RCS subcooling - LESS THAN 25° F (55° F FOR ADVERSE CONTAINMENT)
c. Stop all RCPs.

Step 12. Check if any SG is Faulted:

a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER

-OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 13.

b. Go to EOP-2.0A, FAULTED STEAM GENERATOR ISOLATION, Step 1.

Step 13.Check if SG Tubes Are Not Ruptured:

Condenser off gas radiation

- NORMAL (COG-182, 1RE-2959) Main steamline radiation - NORMAL (MSL-178-181, 1RE-2325 -

2328) SG blowdown and sample radiation monitor - NORMAL (SGS-164, 1RE-4200) No Steam Generator level increasing in an uncontrolled manner NOTE: See previous note about SG level response to a tripped RCP Step 14. Check If RCS Is Intact:

Containment pressure - LESS THAN 1.3 PSIG Containment recirculation sump levels - NORMAL Containment radiation - NORMAL (GRID 4)

Step 14 RNO, Got to EOP-1.0A, LO SS OF REACTOR OR SECONDARY COOLANT *BOLD INDICATES CRITICAL STEP Revision 0 Appendix D Op-Test No:

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Description:

LB LOCA (Auto SI Fails) EOP 1.0A Loss of Reactor or Secondary Coolant Time RO BOP SRO Applicant's Actions or Behavior NOTE: It is expected that the RWST level will be at 45% within 17 minutes of the LBLOCA. The progress through EOP-1.0A will vary with each crew dependent upon how fast they proceed. Actual progress is not important, but the transition to EOS-1.3 A, Trans fer to Cold Leg Recirculation, when plant conditions require, is.

Transitions to EOP-1.0A , Loss of Reactor or Secondary Coolant Step 1. Check if RCPs should be stopped:

a. ECCS pumps - AT LEAST ONE RUNNING CCP -OR- SI pump b. RCS subcooling - LESS THAN 25° F (55° F FOR ADVERSE CONTAINMENT)
c. Stop all RCPs.

NOTE: ALL RCPs SHOULD BE ST OPPED AT THIS POINT.

Step 2. Check if any SG is Faulted:

a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER

-OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 3.

b. Go to EOP-2.0A, FAULTED ST EAM GENERATOR ISOLATION, Step 1.

Step 3. Check SG Levels:

a. Narrow Range Level - GREATER THAN 5%
b. Control Feed flow to maintain narrow range level between 5% and 50%.

Step 4.Check Secondary Radiation - NORMAL Condenser off gas radiation

- NORMAL (COG-182, 1RE-2959) Main steamline radiation - NORMAL (MSL-178-181, 1RE-2325 -

2328) SG blowdown and sample radiation monitor - NORMAL (SGS-164, 1RE-4200)

When RWST LVL LO-LO Alarm comes in, transition to EOS-1.3A, Transfer to Cold Leg Recirculation. (Reference EOP-1.0A fold out page and ALM 1-ALB-4B, 3.7)

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Description:

LB LOCA (Auto SI Fails) EO2 1.3A Transfer to Cold Leg Recirculation Time RO BOP SRO Applicant's Actions or Behavior Caution: Steps 1 through 3 should be performed without delay. FRGs should not be implemented prior to completion of these steps.

Step 1. Reset SI Step 2. Verify CCW Flow From RHR And Containment Spray Heat Exchangers.

Caution: Any ECCS pump taking suction from RWST should be stopped upon RWST EMPTY alarm at 12% level. Any Containment Spray pump taking suction from RWST should be stopped when RWST level reaches 6%.

Caution: Any ECCS or Containment Spray pump that loses suction or shows indication of cavitation should be stopped.

Caution: SI pumps should be stopped if RCS pressure is greater than their shutoff head pressure.

Step 3. Align ECCS For Cold Leg Recirculation

a. Check open CNTMT SMP TO RHRP 1 AND 2 SUCT ISOL VLVS: 1/1-8811A 1/1-8811B
b. Close RWST TO RHRP 1 AND RHRP 2 SUCT VLVS 1/1-8812A 1/1-8812B
c. Close SIP 1 AND SIP 2 MINIFLO VLVS:

1/1-8814A 1/1-8814B 1/1-8813 d. Close RHRP 1 AND RHRP 2 XTIE VLVS:

1/1-8716A 1/1-8716B

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Description:

LB LOCA (Auto SI Fails) EO2 1.3A Transfer to Cold Leg Recirculation Time RO BOP SRO Applicant's Actions or Behavior

e. Close the CCP ALT MINIFLO ISOL VLVS:

1/1-8511A 1/1-8512B 1/1-8511B 1/1-8512A

f. Open SI < -- > CHRG SUCT HDR XTIE VLVS:

1/1-8807A 1/1-8807B

g. Open RHRPs TO CCP/SIP SUCT VLVS:

1/1-8804A 1/1-8804B NOTE: Due to the RHR pump trip, only one train will be lined up for Cold Leg Recirculation.

Step 4. Align Containment Spray System for Recirculation:

a. Check RWST level - LESS THAN 24%.

Step a RNO. If Containment Spray ACTUATED, then continue with step 5. b. Realign Containment Spray System as follows:

1) Open CNTMT SMP TO CSP 1 & 3 AND 2 & 4 SUCT ISOL VLVS:

1-HS-4782 1-HS-4783

2) Close RWST TO CSP 1 & 3 AND 2 & 4 SUCT VLVS 1-HS-4758 1-HS-4759
3) IF the containment spray pumps have been stopped due to RWST

level, THEN perform the following:

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Description:

LB LOCA (Auto SI Fails) EO2 1.3A Transfer to Cold Leg Recirculation Time RO BOP SRO Applicant's Actions or Behavior A) Ensure CS HX 1 AND 2 OUT VLVs closed, and handswitches in PULL-OUT: 1-HS-4776 1-HS-4777 B) Perform steps C) and D) simultaneously.

C) Open CS HS 1 AND 2 OUT VLVS:

1-HS-4776 1-HS-4777 D) WHEN CS HX OUT VLVs begin to open, THEN start CS PUMPS:

1-HS-4764 AND 1-HS-4765 1-HS-4766 AND 1-HS-4767

4) Verify containment spray flow.

The scenario may be terminated at the discretion of the Lead Examiner.

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SHIFT TURNOVER INFORMATION 1.0 INITIAL CONDTIONS:

Time in Core Life: BOL Tavg: 572.6 o F Reactor Power: 40%

RCS Pressure: 2251 psig Turbine Load: 425 Mwe Xenon: Equil Boron Concentration: 2251 ppm Rod Control: MAN Rod Height: CB D @ 189 steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:

3.0 CLEARANCES IN EFFECT:

TS# Description Reason 3.7.5 AFW AFW Pump 1-01 OOS for Oil Sample 3.0 CLEARANCES IN EFFECT:

4.0 SAFETY SYSTEM SETTING BYPASS/MALFUNCTIONS None 5.0 DEGRADED EQUIPMENT 6.0 PLANNED EVOLUTIONS:

Return AFW Pump 1-01 to service when the oil sample is complete.

7.0 TURNOVER INFORMATION:

Unit 1 is at 40% power and increasing per IPO-003A, step 5.4.19. Shift orders are to increase reactor power during the shift. The "A" MDAFWP is OOS due to contamination in the oil. Maintenance is in the process of changing the oil and the pump should be ready for test in t he next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. The Generation Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. The expectation is that the

ALERT will last until midnight. There are no surveillance's planned for this shift.

Revision 0 Appendix D Scenario Outline Form ES-D-1 Facility:

CPSES Scenario No.:

3 Op-Test No.:

1 Examiners:

Operators:

Note: (NEW) Initial Conditions: BOL, 100% power Eq Xenon. The A MDAFWP is OOS for oil contamination. ( 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> into LCO)

IC-15, REMF FWR20 in Rackout with H/S in P.O and Red Tagged.

Turnover:

Unit 1 and Unit 2 are at 100% power. U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil.

Maintenance is in the process of changing the oil and the pump should be ready for test in the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. The Generation Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. There are no surveillances planned for this shift and the orders are to maintain current load and unit availability.

Event No. Malf. No.

Event Type* Event Description 1 T=0 SG01C

@ 8 gpm C (SRO) C (RO) SGTL on #3 Steam Generator 2 T= 7 RP06D@

150% I (SRO) I (RO) Loop 4 N-16 Instrument fails high.

3 T=7 RD08 C (SRO) C (RO) Rods move in the opposite direction (Auto only) 4 T=20 N (SRO) R (RO) N (BOP) Plant Shutdown Required by Steam Generator Tube Leak >

150 gpd. (May be directed by Duty Manager) 5 T=34 RD13B8

@ 6 RD03F8 C (SRO) C (RO) Two rods misaligned by more than 12 steps (Manual Rx trip

required). CBC Rod B8 slips to 6 steps and CBA rod F-8 drops to the bottom.

6 T=38 SG01C @ 675gpm M (ALL) SGTL increases to SGTR at 675 gpm 7 T=38 RP09A & B C (SRO) C (BOP) Phase A fails to actuate on SIS 8 T=46* MS13C

@ 100% I (SRO) I (BOP) The ARV on the ruptured SG fails open due to Main Steam

line pressure xmtr failure. May be manually closed.

  • (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor

Revision 0 Appendix D Narrative Description Op-Test No:

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3 Event No: Page 2 of 19 The objective of this scenario is to evaluate the operator's ability to change Reac tor power in a controlled manner, respond to various instrument and component failures, and to carry out the requisite emergency procedures to mitigate the consequences of a Steam Generator Tube Rupture Accident.

Event One.

The 1-03 Steam Generator develops a tube leak at 8 gpm. This small leak will not be able to be diagnosed by comparing steam flow and feed flow for a mismatch. Operator feedback for the SGTL will be the Radiation Monitoring system and further investigation by the crew will reveal a small mismatch

between charging flow and letdown flows that is larger than usual. The first indication will be a Radiation Monitor alarm from the Main Steam line N-16 moni tors. Subsequent to the N-16 alarms, the Condenser Off Gas monitor will alarm followed by the less sensitiv e MSL radiation monitors. It is expected that the operators will:

Respond to the Radiation Monitor alarms Determine the SG 1-03 has a tube leak Refer to the correct ABN procedure Evaluate plant conditions and determine that condi tions require a plant shutdown to less than 50% in one hour and Mode 3 in two hours Make the necessary notifications and refer to Technical Specifications.

NOTE: The SRO will find that two ABN procedures apply. ABN-106, "High Secondary Activity" and ABN-103, "Excessive RCS Leakage" are both applicable to th is event. ABN-106 is c onstructed to evaluate SGTL size and then directs the crew to take actions based on leak size. ABN-103 is a diagnostic tool used to locate and isolate the leak. ABN-106 will not DIRECT the operator to ABN-103 because the leak is < 15gpm. It is expected that the crew will recognize the leak is in a steam generator and cannot be isolated, determine the need to shutdown the plant and proceed to IPO-003A for guidance to shutdown the plant.

Event Two and Three.

Prior to the crew commencing a plant shutdown, t he Loop 4 N-16 Reactor Protection channel fails high.

This failure will cause the Control Banks for the Rod Control System to demand an inward sequence.

This failure is further compounded by a problem in the Rod Control system that c auses the rods to move out when inward direction is required. Operat or feedback for these events will be various alarms generated by the N-16 failure, turbine load and reactor stable, and rods moving in the outward direction with power matched and no significant RCS temperature indication. It is expected that the operators will:

Evaluate plant conditions and determine that Rod Motion is not warranted. Determine that Rod Control has malfunctioned and t hat rods are moving in the WRONG directionPlace Rod Control in MANUAL Refer to the correct ABN procedure Select out the failed channel Make the necessary notifications and refer to Technical Specifications. Determine that Rod Control should remain in MANUAL.

NOTE: Rod Control will remain in Manual for the re st of the scenario. It is not expected that the Operators will initiate a Reactor Trip for these ev ents. For the case of an unexpected RX trip, the scenario has been evaluated against the requirement and still exceeds minimum requirements if the next event is NOT completed,(misaligned rods) but may need to be evaluated to ensure Normal and Reactivity requirements for the candidates are met with res pect to the plant shutdown.

Revision 0 Appendix D Narrative Description Op-Test No:

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3 Event No: Page 3 of 19 Event Four. The SGTL requires a forced down power maneuver to meet management expectations and license requirements. In order to preclude unnecessary delay while the SRO communicates with plant management about plant conditions and make recommendations, the lead evaluator may direct the staff to act as SM and instruct the SRO to commence an immediate plant shutdown.

Operator feedback for the need to shutdown the plant will be ABN procedure r equirements, Technical S pecification LCO's, or plant management direction. It is expected that the crew will:

Refer to the appropriate plant procedure Complete a reactivity brief. Commence boration and reduce power using the Turbine Digital Control System Event Five When power has been reduced enough to meet the requirements of NUREG 1021 and at the lead examiners discretion, a continuati on of the previous problem with Rod Control will be encountered. One Control Rod, CBA, Rod F-8, drops to the bottom and Control Rod CBC, Rod B8 slips to 6 steps.

Feedback to the operators for this event will be alarms that indicate rods are misaligned by more than 12 steps and one control rod is at the bottom of the core. It is expected that the operators will:

Evaluate plant conditions and determine that more than one control rod is misaligned by more than 12 steps Recognize that ABN procedures require a Manual Reactor Trip or enter the correct ABN and comply with direction to trip the reactor.

Manually trip the reactor Enter the appropriate Emergency Procedure Complete the required Immediate Actions from memory.

Determine that Safety Injection is NOT required.

Transition to the appropriate Optimal Recovery procedure.

Event Six and Seven.

Shortly after the reactor trip, due to stresses caused by t he trip, the tube that started to leak finally severs completely. The failure results in a Steam Generat or Tube Rupture event at 675 gpm. Concurrent with the SGTR, both trains of Containment Isolation Phase A system fail to respond in auto. Manual operation is available and it is expec ted that the operator manually init iate the Phase A using the manual handswitches. Operator feedback for this event is rapi dly decreasing pressurizer pressure and level, and increasing level in SG 1-03. The Phase A failu re will be evidenced by numerous components indicated on the Monitor Light Boxes not being in the positions called for in Attachment 2 of EOP-0.0A. It is expected that the operators will:

Evaluate pressurizer and SG parameters and deter mine the need for Safety Injection or respond to the automatic SI Refer to correct Emergency procedure Complete Immediate Operator actions from memory Verify automatic actions have occurred. Take actions to compensate for lack of automatic actions if required. Diagnose Plant conditions and transition to the correct Optimal Recovery Procedure Identify the ruptured Steam Generator Isolate the ruptured Steam Generator Cool down and depressurize the RCS to minimize RCS leakage.

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3 Event No: Page 4 of 19 Event Eight.

After the SGTR has been diagnosed, and at the Lead Examiners discretion, the Main Steam Line pressure transmitter for the Ruptured Steam Generator fails high. This will c ause the ARV to go fully open. The valve will go open regardless of whether or not the operator has adjusted the setpoint to 1160 psig as required by EOP-3.0A. Operator feedback will be decreasing pressure in the ruptured steam generator, valve position indicating lights on the MCB, and RCS temperature decrease. It is expected that the operators will:

Evaluate plant conditions and determine that an uncontrolled RCS cooldown is in progress. Recognize that SG 1-03 pressure is not high enough for the ARV to be fully open. Recognize that the ruptured SG is no longer ISOLATED. Take manual control of the ARV and close it. Make the necessary notifications NOTE: The Lead Evaluator should carefully consider when to insert the ARV malfunction. If it is entered after the operator controlled cool down has been started, an important aspect of the feedback consideration will be lost.

NOTE: The CPSES PRA Assessment Summary document contains the following paragraph:

A SGTR event represents a unique challenge to the RCS safety systems. The SGTR combines a very small LOCA and an interfacing system LOCA. A rupture of the SG tubes results in leakage fro the RCS to the secondary-side which allows RCS inventory to bypass the containment. Thus, SGTR are important to both the CDF and LERF considerations. The operator must reduce RCS pressure and isolate the affected steam generator in order to re-establish adequate RCS integrity. One difference between the SGTR and the very small LOCA is that any water lost through the break to the SG will be lost from the containment and will become unavailable for re circulation. Therefore, it is important that the leakage from the RCS be minimized as soon as possible to preclude long term inventory problems. The loss of a steam generator reduces the number of steam generators available for decay heat removal and can lead to a loss of the auxiliary feedwater steam driven pump if the faulted steam generator is not isolated from the steam supply line .

The scenario may be terminated when the RCS has been cooled down and depressurized to less than ruptured SG pressure or at the discretion of the Lead Evaluator.

Recommended Critical Tasks Fails to identify and isolate the ruptured Steam Generator when required by plant conditions. Fails to manually initiate Phase A when required by plant conditions. Fails to manually close the failed open ARV on the ruptured Steam Generator.

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Description:

Steam Generator Tube Leak on #3 SG Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciator Alarms None
b. Plant Indications An abnormal increase in steam gener ator specific activity as reported by Chemistry. An abnormal increase in steam generator sampling radiation as indicated by u-RE-4200 (SGS-u64). An abnormal increase in condenser off-gas radiation as indicated by u-RE-2959(COG-u82). An abnormal increase in main steamline leak rate as indicated on u-RE-2325A (N16-u74), u-RE-2326A (N16-u75), u-RE-2327A (N16-u76), and u-RE-2328A (N16-u77). Computer points R7749A(R7753A) thru R7752A(R7756A).

2.2 Automatic Actions Steam Generator Blowdown will isolate on high radiation as indicated on u-RE-4200 (SGS-u64). u-HS-2397, SG 1 BLDN ISOL VLV u-HS-2398, SG 2 BLDN ISOL VLV u-HS-2399, SG 3 BLDN ISOL VLV u-HS-2400, SG 4 BLDN ISOL VLV 2.3 Operator Actions Step 1. Verify main steamline radiation alarms - CLEAR u-RE-2325 (MSL-u78) u-RE-2326 (MSL-u79) u-RE-2327 (MSL-u80) u-RE-2328 (MSL-u81)

NOTE: u-RE-2327 (MSL-u80) will be in alarm on the PC-11 Step 1 RNO. Go to Section 3 of this procedure.

Section 3 Step 1.

Verify main steamline radiation alarms - CLEAR u-RE-2325 (MSL-u78) u-RE-2326 (MSL-u79) u-RE-2327 (MSL-u80) u-RE-2328 (MSL-u81)

Step 1 RNO.

a. Reduce power to 50% in 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> AND Be in MODE 3 in the next 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.
b. GO TO Step 5.
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3 Event No: 1 Page 6 of 19 Event

Description:

Steam Generator Tube Leak on #3 SG Time RO BOP SRO Applicant's Actions or Behavior Step 5 Check plant conditions:

a. Turbine-Generator load - STEADY AT DESIRED POWER
b. Verify charging flow within 15 gpm of letdown flow AND both flows STABLE u-FI-121A, CHRG FLO u-FI-132, LTDN FLO c. Verify PRZR level - STABLE OR TRENDING TO NORMAL LEVEL u-LI-459A, PRZR LVL CHAN I u-LI-461, PRZR LVL CHAN III u-LI-460A, PRZR LVL CHAN II Step 6. Adjust affected Steam Gener ator Atmospheric Relief Controller setpoint to 1160 PSIG per TDM-501A/B.

Step 7. Verify affected Steam Generator - NOT SG #1 or SG #4 Step 8. Isolate Auxiliary Steam supplied from the affected unit by closing the applicable valves:

NOTE: The US will call the PEO to isolate the appropriate valves.

Step 9 Verify NO significant increase exists, as indicated on PC-11, from system(s) drains that discharge to the LVW:

u-RE-4200, (SGS-u64) BLOWDOWN SMPL u-RE-2959, (COG-u82) CONDENSER OFF GAS u-RE-2325, (MSL-u78) MAIN STEAM LINE #1 u-RE-2326, (MSL-u79) MAIN STEAM LINE #2 u-RE-2327, (MSL-u80) MAIN STEAM LINE #3 u-RE-2328, (MSL-u81) MAIN STEAM LINE #4 u-RE-2325A, (N16-u74) MAIN STEAM LINE #1 LEAK RATE u-RE-2326A, (N16-u75) MAIN STEAM LINE #2 LEAK RATE u-RE-2327A, (N16-u76) MAIN STEAM LINE #3 LEAK RATE u-RE-2328A, (N16-u77) MAIN STEAM LINE #4 LEAK RATE Step 10 Monitor position of Steam Generator Atmospheric Relief AND Safety Valves during perfo rmance of this procedure:

a. Verify relief AND safety valves remain - CLOSED
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3 Event No: 2 & 3 Page 7 of 19 Event

Description:

Loop 4 N-16 Instrument Fails High and Rods move the wrong way Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciator Alarms ANY N16 DEV HI/LO (5C-1.5) 1 of 4 OT N16 HI (5C-2.5) ANY Tave DEV HI/LO (5C-3.5) 1 of 4 OP N16 HI (5C-2.6) AVE Tave-Tref DEV (6D-1.10) AVE Tave HI (6D-2.10) 1 of 4 Tave LO-LO (6D-3.10) Tref-AUCT LO TAVE MISMATCH (6D-3.13) AUCT TAVE LO (6D-4.13) 1 of 4 OT N16 ROD STOP & TURB RUNBACK (6D-3.14) 1 of 4 OP N16 ROD STOP & TURB RUNBACK (6D-2.13)
b. Plant Indications:
3) One N-16 channel higher or lower than the other three.

u-JI-411A/B, RC LOOP 1 N16 PWR CHAN I u-JI-421A/B, RC LOOP 2 N16 PWR CHAN II u-JI-431A/B, RC LOOP 3 N16 PWR CHAN III u-JI-441A/B, RC LOOP 4 N16 PWR CHAN IV 2.2 Automatic Actions

a. Any failure that results in an increased Loop Tave will cause Average Tave to be higher with the following actions:

Rapid control rod insertion due to Tave-Tref mismatch if in AUTO. Steam dumps will open if armed with a C-7 (loss of load). Pressurizer reference level increase (to a maximum of 60%) with charging flow increase when in auto.

NOTE: This should alert the crew that rods moving OUT is a malfunction and action should be taken.

NOTE: Rod Control should remain in MANUAL until all channels are operable. This does not preclude placing rods in AUTO during rapidly changing transient conditions such as runbacks, etc. as long as rod control is returned to MA NUAL when the plant is stabilized.

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Description:

Loop 4 N-16 Instrument Fails High and Rods move the wrong way Time RO BOP SRO Applicant's Actions or Behavior Step 1 Place Control Rods in - MANUAL NOTE: The RO should recognize that rods moved the wrong way, report this to the US, and recommend driving rods IN to match Tave to Tref.

Step 2 Select the failed channel on:

u-TS-412T, Tave CHAN DEFEAT Step 3 Verify Steam Dump System: NOT actuated NOT armed.

Step 4 Restore Tave to within 1°F of Tref.

Step 5 Select the failed channel on:

1/u-JS-411E, N16 PWR CHAN DEFEAT Step 6 Ensure a valid N16 channel is supplying the recorder:

1/u-TS-411E, u-TR-411 CHAN SELECT Step 7 Verify Steam Dumps not arm ed by observing the following light DARK: TURB LOAD REJ STM DMP ARMED C-7 (PCIP - 3.4)

Step 8 IF Steam Dumps were blocked in Step 2, THEN restore to service byreturning following switches to ON:

43/u-SDA, STM DMP INTLK SELECT 43/u-SDB, STM DMP INTLK SELECT Step 9 Within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />, have I&C place bistable test switches for failed channel in CLOSED position per Attachments 1 and 2.

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Description:

Loop 4 N-16 Instrument Fails High and Rods move the wrong way Time RO BOP SRO Applicant's Actions or Behavior Step 10 Verify appropriate alarms and trip status lights ON per Attachment 3 AND note verification in Unit Log.

Step 11 Refer to Technical Specificati ons listed in Section 3.1 of this procedure to determine applicable LCOAR conditions.

3.1 Technical Specifications/Requirements 3.3.1, Reactor Trip Syst em (RTS) Instrumentation 13.1.38, Control Bank Insertion Limits

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Description:

Power Reduction Time RO BOP SRO Applicant's Actions or Behavior Review IPO-003A, Power Operations Notifies Generation Controller prior to reducing load.

Notifies Chemistry and Radiation Prot ection if power reduction will be > 15%

in one hour Notifies Reactor Engineering of power reduction > 25%.

Calculates the amount of boration required Calculates the rate of boration Reviews AFD guidance Initiates boration Sets in the desired unloading rate and amount using the Digital Control System Maintains AFD in the target band Maintains rods above the Rod Insertion Limit Maintains Tave with 1 degree of Tref

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Description:

Two dropped rods (Manual Reactor Trip Required) Time RO BOP SRO Applicant's Actions or Behavior 3.1 Symptoms

a. Annunciator Alarms PR CHAN DEV (6D-3.4) DRPI ROD DEV (6D-3.5) ANY ROD AT BOT (6D-3.7) > 2 ROD AT BOT (6D-4.7) QUADRANT PWR TILT (6D-4.10)
b. Plant Indications Plant parameters changing abnormally during rod position changes NIS Power Range instruments power or AFD indications disagree DRPI Rod Bottom Light(s) lit for rods which should be withdrawn DRPIs in a bank disagree by greater than 12 steps DRPI disagrees with its group step counter by greater than 12 steps 3.2 Automatic Actions Possible Reactor trip Automatic control rod motion Ensure 1/u-RBSS, CONTROL ROD BANK SELECT - NOT IN AUTO.

2 Check Reactor - CRITICAL.

Verify Number of Rods Misaligned from Step Counter by >12 steps -

< ONE Step 3 RNO: a) IF two or more rods dropped, THEN trip Reactor AND GO TO EOP-0.0A/B. b) Within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> verify SDM OR in itiate boration to restore SDM.

c) Within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> place unit in HOT STANDBY per IPO-003A/B (TS 3.1.4).

NOTE: Crew should trip the Reactor and go to EOP-0.0A

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Appendix D Op-Test No:

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Description:

Two dropped rods (Manual Reactor Trip Required) EOP-0.0A Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciators Alarm MAN RX TRIP (6C-1.1)

Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Reactor Trip breakers open and the turbine trips Orders a reactor trip and enters EOP-0.0A.

Step 1. Verify Reactor Trip

a. Verify the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
a. AC safeguards busses -

AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)

b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
a. Check If SI is Actuated:

SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON

b. Verify Both Trains DI Actuated:

SI Actuated blue status light - ON NOT FLASHING Step 4, RNO.

IF SI is NOT required, THEN go to EOS-0.1 A, REACTOR TRIP RESPONSE

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Description:

EOS-0.1 A, REACTOR TRIP RESPONSE Time RO BOP SRO Applicant's Actions or Behavior Transitions to EOS-0.1A, Reactor Trip Response Step 1. Check RCS Average Temperature - STABLE AT OR TRENDING TO 557° F.

Step 2. Check FW Status:

a. Verify reactor trip and bypass breaker - OPEN
b. Check RCS average temperatures - LESS THAN 564° F.
c. Verify Feedwater Isolation - ISOLATION COMPLETE
d. Verify total AFW to SGs - GREATER THAN 460 GPM.

Step 3. Check PRZR Level Control:

a. Level - GREATER THAN 17%
b. Verify charging - IN SERVICE c. Verify letdown - IN SERVICE
d. Level - TRENDING TO 25%

Step 4. Check PRZR Pressure Control:

a. Pressure - GREATER THAN 1820 PSIG
b. Pressure - STABLE AT OR TRENDING TO 2235 Step 5. Check SG Levels:
a. Narrow Range Level - GREATER THAN 5%
b. Control Feed flow to maintain narrow range level between 5% and 50%.

NOTE: 4 minutes after the manual RX Trip, the SGTR becomes active at 675 GPM. If not done automatically, the crew should Initiate a Safety Injection and transition to EOP-0.0A, step 1.

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Description:

SGTR with failure of Phase A to auto actuate Time RO BOP SRO Applicant's Actions or Behavior 2.1 Symptoms

a. Annunciators Alarm PRZR PRESS LO SI ACT (6C-2.7)

Plant Indications Various First Out Annunciator al arms and changing plant conditions Automatic Actions Safety Injection and ECCS actuations Step 1. Verify Reactor Trip

a. Verify the following: Reactor Trip and bypass breakers- OPEN, AND Neutron Flux- DECREASING
b. All control position rod bottom lights-ON Step 2. Verify Turbine Trip:
a. All turbine stop valves - CLOSED Step 3. Verify Power to AC Safeguards Busses:
a. AC safeguards busses -

AT LEAST ONE ENERGIXED AC safeguards bus voltage _ 6900 Volts (6500-7100 volts)

b. AC safeguards busses - BOTH ENERGIZED Step 4. Check SI Status:
a. Check If SI is Actuated:

SI actuation as indicated on the First Out Ann 1-ALB-6C SI Actuated blue status light - ON

b. Verify Both Trains SI Actuated:

SI Actuated blue status light - ON NOT FLASHING

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Description:

SGTR with failure of Phase A to auto actuate Time RO BOP SRO Applicant's Actions or Behavior Step 5. Ensure Proper Safeguards Equipment Operation Per .

NOTE: It is expected that the failure of Phase A to actuate will be noted and a manual Phase A initiated while is being performed.

Step 6. Verify AFW Alignment

a. MDAFWP - RUNNING
b. Turbine Driven AFW Pump - RUNNING IF NECESSARY
c. AFW total flow - GREATER THAN 460 GPM
d. AFW Valves alignment - PROPER ALIGNMENT Step 7. Verify Containment Spray Not Required :
1) a. Containment Pressure -

HAS REMAINED LESS THAN 18 PSIG Step 8. Check if Main Steamlines should be Isolated:

a. verify the following: Containment Pressure - GR EATER THAN 6 PSIG (YES)
b. Verify main steam isolation complete.

Step 9. Check RCS Average Temperatue - STABLE AT OR TRENDING TO 557°F.

Step 9 RNO. Throttle AFW and stop dumping steam.

Step 10. Check PRZR Valve Status:

a. PRZR Safeties - CLOSED
b. Normal PRZR Spray valves - CLOSED c. PORVs - CLOSED
d. Power to at least one block valve - AVAILABLE e. Block valves - AT LEAST ONE OPEN
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Description:

SGTR with failure of Phase A to auto actuate Time RO BOP SRO Applicant's Actions or Behavior Step 11. Check if RCPs should be stopped:

a. ECCS pumps - AT LEAST ONE RUNNING CCP -OR- SI pump b. RCS subcooling - LESS THAN 25° F (55° F FOR ADVERSE CONTAINMENT)
c. Stop all RCPs.

Step 12. Check if any SG is Faulted:

a. Check pressures in all SGs: ANY SG DECREASING IN AN UNCONTROLLED MANNER

-OR- ANY SG COMPLETELY DEPRESSURIZED Step a RNO, Go to Step 13.

b. Go to EOP-2.0A, FAULTED STEAM GENERATOR ISOLATION, Step 1.

Step 13.Check if SG Tubes Are Not Ruptured:

Condenser off gas radiation

- NORMAL (COG-182, 1RE-2959) Main steamline radiation - NORMAL (MSL-178-181, 1RE-2325 -

2328) SG blowdown and sample radiation monitor - NORMAL (SGS-164, 1RE-4200) No Steam Generator level increasing in an uncontrolled manner Note: Steam Generator #3 is rupt ured at 675 GPM. The crew should transistion to EOP-3.0A, Steam Generator Tube Rupture

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3 Event No: 6 & 7 Page 17 of 19 Event

Description:

SGTR EOP-3.0A Steam Generator Tube Rupture Time RO BOP SRO Applicant's Actions or Behavior Step 1. Check if RCPs should be stopped:

a. ECCS pumps - AT LEAST ONE RUNNING CCP -OR- SI pump b. RCS subcooling - LESS THAN 25° F (55° F FOR ADVERSE CONTAINMENT)
c. Stop all RCPs.

Step 2. Identify Ruptured SG (s):

Unexpected increase in any SG narrow range level

-OR- High Radiation form any SG blowdown sample line (SGS-164, 1 RE-

4200) -OR- High Radiaiton from any Main steamline. (MSL-178-181, 1 RE-

2325-2328)

Step 3 Isolate Flow From Ruptured SG(s):

a. Adjust ruptured SG(s) atmospheric controller setpoint to 1160 PSIG.
b. Check ruptured SG(s) atmospheric - CLOSED
c. Close ruptured SG(s) main steam line isolation and ensure bypass valve closed. d. Pull-Out steam supply valve handswitc h from ruptured SG(s) to Turbine Driven AFW pump.
e. Close ruptured SG drippot isolation valve.
f. Verfy blowdown isolation valves from ruptured SG(s) - CLOSED Step 4 Check Ruptured SG(s) Level:
a. Narrow range level - GREATER THAN 5% (26% FOR ADVERSE CONTAINMENT)
b. Stop AFW flow to ruptured SG(s).

Notes that the #3 ARV is open. Verify the SG pressure is less than 1160, places the controller in manual, and closes the ARV.

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Description:

Time RO BOP SRO Applicant's Actions or Behavior Step 5 Check Ruptured SG(s) Pressure - GREATER THAN 420 PSIG.

Step 6 Initiate RCS Cooldown:

a. When PRZR pressure decreases to less than 1960 psig, block the low steamline pressure SI signal.
b. Determine required core exit temperature from Table 1.

NOTE: It is probable that the temperature selected from the Table will be 485°F. c. Dump steam to condenser from intact SG(s) at maximum rate and avoid main steam isolation.

1) Transfer Steam Dump to steam pressure mode. 2) Place the steam pressure controller in manual increase demand. 3) When P-12 (553°F TAVG is reached, select bypass interlock on Steam Dumps and continue cooldown.
d. Core exit TCs - LESS TH AN REQUIRED TEMPERATURE Step 6d RNO Continue with step 7.

WHEN core exit TCs less than required temperature, THEN do step 6e and 6f.

Step 7. Check Intact SG Levels:

a. Narrow Range Level - GREAT ER THAN 5%(26% FOR ADVERSE CONTAINMENT)
b. Control Feed flow to maintain narrow range level between 5% and 50%.

Step 8. Check PRZR PORVs and Block Valves:

a. Power to block valves - AVAILABLE
b. PORVs - CLOSED
c. Block valves - AT LEAST ONE OPEN Step 9. IF the Diesels Are Running, THEN Place Bothe DG EMER STOP/START Handswitches in START.

Step 10. Reset SI.

Step 11. Reset SI sequencers.

Step 12. Reset Containment Isolation Phase A and B.

Step 13. Reset Containment Spray Signal.

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Description:

Time RO BOP SRO Applicant's Actions or Behavior Step 14. Establish Instrument Air And Nitrogen to Containment.

a. Establish instrument air:
1) Verify air compressor running and establish instrument air to containment.
b. Establish nitrogen
1) Verify ACCUM 1-4 VENT CTRL, 1-HC-943 - CLOSED 2) Open SI/PORV ACCUM N2 ISOL VLV, 1/1-8880.

Step 15. Check if RHR Pumps Should be Stopped:

a. RCS pressure - GREATER THAN 325 PSIG (425 PSIG FOR ADVERSE CONTAINMENT) b. Stop RHR Pumps and place in standby c. Reset RHR auto switchover.

Step 16. Check If RCS Cooldwon Should Be Stopped:

a. Core exit TC's - LESS THAN REQUIRED TEMPERATURE
b. Verify Steps 6 e and 6 f are complete.

Step 17. Check Ruptured SG(s) Pressure - STABLE OR INCREASING Step 18. Check RCS subcooling - GREATER THAN 45°F (75°F FOR ADVERSE CONTAINMENT)

Step 19. Depressurize the RCS to Minimize Break Flow and Refill PRZR:

a. Normal Spray - AVAILABLE b. Place all PRZR heater sw itches in OFF position. c. Spary PRZR with maximum available spray until ANY of the the following conditions satisfied: 1) RCS pressure - LESS THAN RUPTURED SG(s)

PRESSURE 2) PRZR level - GREATER THAN 6% (34% FOR ADVERSE CONTAINMENT

-OR-PRZR level GREATER THAN 74% (65% FOR ADVERSE CONTAINMENT)

-OR-RCS subcooling - At 25°F (55°F FOR ADVERSE

CONTAINMENT)

The scenario may be terminat ed at the discretion of the lead examiner.

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Time in Core Life: BOL Tavg: 589 o F Reactor Power: 100% RCS Pressure: 2235 psig Turbine Load:1200 Mwe Xenon: Equil Boron Concentration:1263 ppm Rod Control: AUTO Rod Height: CB D @ 215steps 2.0 LCOAR/TECHNICAL SPECIFICATION ACTIONS IN EFFECT:

TS# Description Reason 3.7.5 AFW AFW Pump 1-01 OOS for Oil Sample 3.0 CLEARANCES IN EFFECT:

AFW Pump 1-01 OOS for Oil Sample 4.0 SAFETY SYSTEM SETTING BYPASS/MALFUNCTIONS None 5.0 DEGRADED EQUIPMENT 6.0 PLANNED EVOLUTIONS:

Return AFW Pump 1-01 to service when the oil sample is complete.

7.0 TURNOVER INFORMATION:

Unit 1 and Unit 2 are at 100% power.

U1 has been at 100% for the last 15 days following refueling. The "A" MDAFWP is OOS due to contamination in the oil.

Maintenance is in the process of c hanging the oil and the pump should be ready for test in the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. The G eneration Controller has declared an ALERT due to the loss of several peaking plants and all of the Big Brown units due to a common mode failure. There are no surveillances planned for this shift and the

orders are to maintain current load and unit availability.

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