2016-09 Draft Op Test

ML16280A456
Person / Time
Site:	River Bend
Issue date:	09/30/2016
From:	Vincent Gaddy Operations Branch IV
To:
References
Download: ML16280A456 (300)
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RJPM-NRC-S16-A1 Rev 1 Perform a Manual Tagout for Control Rod Drive Pump B CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License Level RO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate Simulator Control Room X Classroom Prepared: Dave Bergstrom Date: June 29, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 11

RJPM-NRC-S16-A1 Rev. 0 EXAMINER INFO SHEET Task Standard: The applicant identified the components and sequence for a manual tagout on Control Rod Drive Pump B IAW the attached key.

Synopsis: eSOMS Clearance Module is unavailable due to a network failure. This task will have the applicant write a paper tagout using the form found in the attachments of EN-OP-102-01.

NOTE: This JPM is Administrative and will be performed in a classroom.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

2) Initiating Cues:

The CRS has directed you to identify the components and sequence for a manual tagout on Control Rod Drive Pump B using Attachment 9.3 of EN-OP-102-01, Tagout Tags Sheet.

3) Initial Conditions:

The plant is Mode 1, 100%.

Maintenance is scheduled to replace pump oil on CRD-PC001B, Control Rod Drive Pump B.

The eSOMS Clearance Module is unavailable due to problems with the network.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A1 Rev 0 Page 2 of 11

RJPM-NRC-S16-A1 Rev. 0 ANSWER KEY Critical Items are:

• Danger NNS-SWG1B ACB18 OPEN, RACKED OUT or REM

• Danger SCA-PNL8B1 BKR14 OFF

• Danger C11-VF014B CLOSED

• Danger C11-VF015B CLOSED RJPM-NRC-S16-A1 Rev 0 Page 3 of 11

RJPM-NRC-S16-A1 Rev. 0 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Perform Hand Written Tagout for 300095003001 G 2.1.29 4.1 CRD Pump B Oil Replacement

REFERENCES:

APPLICABLE OBJECTIVES PID-36-01A, Rev 21 RLP-HLO-0201, Obj 4 SOP-0002, Rev 47 EE-001G, Rev 11 ESK-05RDS02, Rev 18 ESK-07RDS01, Rev 04 EN-OP-0102, Rev 18 EN-OP-0102-01, Rev 10 Archived Tagout 1-C15-01 052-001-C11-PC001B REQUIRED MATERIALS:

PID-36-01A, Rev 21 SOP-0002, Rev 47 EE-001G, Rev 11 ESK-05RDS02, Rev 18 ESK-07RDS01, Rev 04 .3 of EN-OP-0102-1 (attached)

LICENSE LEVEL: SRO / RO SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams must be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant identified the components and sequence for a manual tagout on Control Rod Drive Pump B IAW the attached key.

RJPM-NRC-S16-A1 Rev 0 Page 4 of 11

RJPM-NRC-S16-A1 Rev. 0 PERFORMANCE:

START TIME:

1. Procedure Step: Applicant uses drawings and EN-OP102-01 Att 9.3 to complete required tagout list Standard Applicant uses Att 9.3 to complete the task Cue Notes Provide applicant with attachments as necessary

2. *Procedure Step: Identify the components to be tagged and the proper sequence for a manual tagout of Control Rod Drive Pump B.

Standard Applicant identified the components and proper sequence for the tagout in accordance with the attached key. The critical items are as follows:

Danger NNS-SWG1B ACB18 OPEN, RACKED OUT or REM Danger SCA-PNL8B1 BKR14 OFF Danger C11-VF014B CLOSED Danger C11-VF015B CLOSED Cue Notes Results SAT UNSAT Terminating Cue: The applicant identified the components and sequence for a manual tagout on Control Rod Drive Pump B IAW the attached key.

This completes this JPM.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

RJPM-NRC-S16-A1 Rev 0 Page 5 of 11

RJPM-NRC-S16-A1 Rev. 0 CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A1 Rev 0 Page 6 of 11

RJPM-NRC-S16-A1 Rev. 0 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A1 Rev 0 Page 7 of 11

RJPM-NRC-S16-A1 Rev. 0 OPERATOR CUE SHEET Initiating Cues:

The CRS has directed you to identify the components and sequence for a manual tagout on Control Rod Drive Pump B using Attachment 9.3 of EN-OP-102-01, Tagout Tags Sheet.

Initial Conditions:

The plant is mode 1, 100%.

Maintenance is scheduled to replace pump oil on CRD-PC001B, Control Rod Drive Pump B.

The eSOMS Clearance Module is unavailable due to problems with the network.

RJPM-NRC-S16-A1 Rev 0 Page 8 of 11

RJPM-NRC-S16-A1 Rev. 0 RJPM-NRC-S16-A1 Rev 0 Page 9 of 11

RJPM-NRC-S16-A1 Rev. 0 RJPM-NRC-S16-A1 Rev 0 Page 10 of 11

RJPM-NRC-S16-A1 Rev. 0 RJPM-NRC-S16-A1 Rev 0 Page 11 of 11

RJPM-NRC-S16-A2 Rev 1 Determine Unidentified Leakage and Leak Rates Manually CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License Level RO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Dave Bergstrom Date: July 9, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 10

RJPM-NRC-S16-A2 Rev. 0 EXAMINER INFO SHEET Task Standard: The applicant calculated the identified and unidentified leakage rates IAW the attached key.

Synopsis: The Drains Process Computer is inoperable due to a component failure.

This task will have the applicant perform a manual leakage calculation using SOP-0104, Floor and Equipment Drain System, Section 5.2 Determining Identified and Unidentified Leakage Rates Manually.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The plant is operating at 100% power

• The Drains Process Computer is inoperable due to a component failure

• Sumps have been pumped down IAW section 5.2.3 of SOP-0104, Floor and Equipment Drains System, and the appropriate data entered on Attachment 6

3) Initiating Cues:

The CRS has directed you to determine identified and unidentified leakage rates manually IAW Section 5.2.3.5.3 of SOP-0104, Floor and Equipment Drains System.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A2 Rev 0 Page 2 of 10

RJPM-NRC-S16-A2 Rev. 0 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Determine Unidentified Leakage and 231014001001 G2.1.23 4.3 / 4.4 Leak Rates Manually 295036 EA1.01 3.2 /

3.3 REFERENCES

APPLICABLE OBJECTIVES SOP-0104, Floor and Equipment Drain RLP-HLO-405, Obj 1 System, Rev 39 Tech Spec 3.4.5 REQUIRED MATERIALS:

SOP-0104, Floor and Equipment Drain System, Rev 39 Marked up copy of Attachments 5 & 6 LICENSE LEVEL: SRO / RO SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams must be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant calculated the identified and unidentified leakage rates IAW the attached key.

RJPM-NRC-S16-A2 Rev 0 Page 3 of 10

RJPM-NRC-S16-A2 Rev. 0 ANSWER KEY

• Column H can be calculated as between 2.24 and 2.26 RJPM-NRC-S16-A2 Rev 0 Page 4 of 10

RJPM-NRC-S16-A2 Rev. 0 PERFORMANCE:

START TIME:

SOP-0104 Section 5.2.3.5

3) Record the following on Attachment 6, Manual Calculation - Current Leak Rate History on the hour:

1. Procedure Step: a) Present time under PUMP STOP TIME Standard NA Cue Notes The handout of Attachment 6 already has the current sump pumpdown data.

2. *Procedure Step: b) Under column D calculate the Unidentified Leakage (UL) by adding the changes in levels of column A to the changes in levels of column B since the previous hourly calculations Standard Applicant calculated the delta from column A (250-150) as 100 gallons, then calculated the delta from column B (225-190) as 35 gallons; applicant then added 100 plus 35 and recorded 135 gallons in column D Cue Notes Results SAT UNSAT RJPM-NRC-S16-A2 Rev 0 Page 5 of 10

RJPM-NRC-S16-A2 Rev. 0

3. Procedure Step: c) Under column E calculate the Identified Leakage (IL) by entering the changes in level of column C since the previous hourly calculations Standard Applicant calculated the delta from column C (280-150) and recorded 130 gallons in column E Cue Notes Results SAT UNSAT

4. Procedure Step: d) Under column F calculate the Total Leakage by adding the values of UL column D and IL column E.

Standard Applicant calculated the sum of column D and E (135+130) and recorded 265 gallons in column F Cue Notes Results SAT UNSAT

5. Procedure Step: e) Record 60 minutes in column G.

Standard Applicant recorded 60 minutes in column G.

Cue Notes Results SAT UNSAT RJPM-NRC-S16-A2 Rev 0 Page 6 of 10

RJPM-NRC-S16-A2 Rev. 0

6. *Procedure Step: f) Calculate Unidentified Leakage Rate (ULR) in column H by dividing the UL from column D by column G.

Standard Applicant calculated the quotient of column D by column G (135 / 60) and recorded a value of between 2.24 and 2.26 gallons per hour in column H.

Cue Notes Results SAT UNSAT

7. Procedure Step: g) Calculate Total Leakage Rate (TLR) in column J by dividing the TL in column F by column G.

Standard Applicant calculated the quotient of column F by column G (265 / 60) and recorded a value of 4.42 gallons per hour in column H.

Cue Notes Results SAT UNSAT RJPM-NRC-S16-A2 Rev 0 Page 7 of 10

RJPM-NRC-S16-A2 Rev. 0

8. Procedure Step: h) Calculate the 24-Hour Average Total Leakage Rate (TLR 24 AVG) in column K by dividing the sum of the present TLR column J and the previous 23 TLRs by 24 Standard Applicant calculated the average leak rate by:

1) adding 24 leak rates beginning at the 1530 entry on attachment 5 through the 1430 entry recorded in column J.

{2.16 + 2.25 + 2.16 + 2.08 + 2.08 + 2.08 + 2.08 + 2.16 + 2.16 + 2.17 + 2.17 + 2.58 +

2.33 + 2.50 + 2.67 + 2.58 + 2.58 + 2.92 + 3.00 + 2.92 + 3.00 + 3.50 + 3.83 +

4.42 = 62.29}

2) dividing the total 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> of leak rates by 24 {62.29 / 24}

3) recording a value between 2.59 and 2.60 in column K Cue Notes Results SAT UNSAT Terminating Cue: The applicant calculated the identified and unidentified leakage rates IAW the attached key.

This completes this JPM.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A2 Rev 0 Page 8 of 10

RJPM-NRC-S16-A2 Rev. 0 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A2 Rev 0 Page 9 of 10

OPERATOR CUE SHEET Initial Conditions:

• The plant is operating at 100% power

• The Drains Process Computer is inoperable due to a component failure

• Sumps have been pumped down IAW section 5.2.3 of SOP-0104, Floor and Equipment Drains System, and the appropriate data entered on Attachment 6.

Initiating Cues:

The CRS has directed you to determine identified and unidentified leakage rates manually IAW Section 5.2.3.5.3 of SOP-0104, Floor and Equipment Drains System.

River Bend Station Initial License Exam Page 10 of 10

RJPM-NRC-S16-A3 Rev 1 Determine the Effect of Removing a Fuse in RPS System CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License Level RO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate Simulator Control Room X Classroom Prepared: Dave Bergstrom Date: June 30, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 8

RJPM-NRC-S16-A3 Rev. 0 EXAMINER INFO SHEET Task Standard: The applicant determined the effects of removing fuse F50B in Panel P692 in accordance with the attached key.

Synopsis: The applicant will use plant drawings to determine the effects of removing a fuse in the RPS system to support a maintenance activity.

NOTE: This JPM is Administrative and will be performed in a classroom.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

2) Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following upon the removal of the fuse:

1. the scram condition of the RPS system: (circle one) no scram condition 1/2 scram full scram

2. Any component positions (other than relays) that are affected by the fuse removal and the associated affect

3) Initial Conditions:

A maintenance activity requires the removal of a fuse in the RPS system.

Electricians are ready to remove fuse F50B in Panel P692 for work to begin.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A3 Rev 0 Page 2 of 8

RJPM-NRC-S16-A3 Rev. 0 ANSWER KEY Critical Steps are marked with an asterisk (*)

Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following upon the removal of the fuse:

• 1. The scram condition of the RPS system: (circle one) no scram condition 1/2 scram full scram

• 2. Any component positions (other than relays) that are affected by the fuse removal and the associated affect.

• Div 2 solenoids for SDV vent and drain valves de-energize (Vent and Drain valves do not re-position)

• One backup scram header white lights go out RJPM-NRC-S16-A3 Rev 0 Page 3 of 8

RJPM-NRC-S16-A3 Rev. 0 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Use Plant Drawings to Determine 300246003001 G 2.2.15 3.9 Effect of Fuse Removal 299003001001

REFERENCES:

APPLICABLE OBJECTIVES GE-828E531AA RLP-HLO-542-1, Obj 5, 6, 7 REQUIRED MATERIALS:

GE-828E531AA Sheets 1, 2, 6, 9, and 11 LICENSE LEVEL: SRO / RO SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams must be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant determined the effects of removing fuse F50B in Panel P692 in accordance with the attached key.

RJPM-NRC-S16-A3 Rev 0 Page 4 of 8

RJPM-NRC-S16-A3 Rev. 0 PERFORMANCE:

START TIME:

1. *Procedure Step: Determine the scram condition of the RPS system.

Standard Applicant determined that is it not a scram condition (as indicated in the attached key).

Cue Notes Provide applicant with attachments as necessary Results SAT UNSAT

2. *Procedure Step: Determine component positions (other than relays) affected by removal of fuse F50B.

Standard Applicant determined that the Div 2 solenoids for SDV vent and drain valves de-energize (Vent and Drain valves do not re-position) and that one of the backup scram header white lights go out (as indicated in the attached key).

Cue Notes Provide applicant with attachments as necessary Results SAT UNSAT Terminating Cue: The applicant determined the effects of removing fuse F50B in Panel P692 in accordance with the attached key.

This completes this JPM.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

RJPM-NRC-S16-A3 Rev 0 Page 5 of 8

RJPM-NRC-S16-A3 Rev. 0

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A3 Rev 0 Page 6 of 8

RJPM-NRC-S16-A3 Rev. 0 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A3 Rev 0 Page 7 of 8

RJPM-NRC-S16-A3 Rev. 0 OPERATOR CUE SHEET Initial Conditions:

A maintenance activity requires the removal of a fuse in the RPS system.

Electricians are ready to remove fuse F50B in panel H13-P692 for work to begin.

Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following upon the removal of the fuse:

1. the scram condition of the RPS system: (circle one) no scram condition 1/2 scram full scram

2. Any component positions (other than relays) that are affected by the fuse removal and the associated affect.

RJPM-NRC-S16-A3 Rev 0 Page 8 of 8

RJPM-NRC-S16-A4 Rev 1 Determine Allowed Dose During Emergency Conditions CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License Level RO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate Simulator Control Room X Classroom Prepared: Dave Bergstrom Date: July 6, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 8

RJPM-NRC-S16-A4 Rev. 1 EXAMINER INFO SHEET Task Standard: The applicant determined admin dose limits are suspended and that the allowed dose for performing this task in a high rad area during an emergency is 4350 mrem exactly.

Synopsis:

NOTE: This JPM is Administrative and will be performed in a classroom.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

2) Initial Conditions:

• The Emergency Response Organization is operational and the site has declared a Site Area Emergency due to a station blackout with a leak in secondary containment.

• The leak is in the RWCU pump room

• Although automatic isolation occurred, leakage past isolation valve seats continue to cause elevated temperatures and radiation levels

• Efforts are underway to attempt to make entry into the RWCU Pump Room and manually seat various valves

• Dose rates in the vicinity of the steam leak isolation are 3 rem per hour.

3) Initiating Cues:

The CRS has directed you to determine the following:

1. The RBS Routine Administrative Total Effective Dose Equivalent (TEDE) whole body exposure limit is _____ per year; the 10CFR20 TEDE Radiation Exposure limit is _____ per year.

2. Based on the initial conditions, the administrative exposure limits of the RBS Radiation Protection Plan, RBNP-024 and RBNP-202 are applicable / suspended. (circle one)

3. Determine the dose allowed by an operator whose current yearly dose is 650 mrem to isolate the leak in the RWCU Pump Room without exceeding the correct limit.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A4 Rev 0 Page 2 of 8

RJPM-NRC-S16-A4 Rev. 1 ANSWER KEY Complete the following:

1. The RBS Routine Administrative Total Effective Dose Equivalent (TEDE) whole body exposure limit is _2 R (2000 mR)_ per year; the 10CFR20 TEDE Radiation Exposure limit is __5R (5000 mR)__ per year.

• 2. Based on the initial conditions, the administrative exposure limits of the RBS Radiation Protection Plan, RBNP-024 and RBNP-202 are applicable / suspended. (circle one)

• 3. Determine the dose allowed by an operator whose current yearly dose is 650 mrem to isolate the leak in the RWCU Pump Room without exceeding the correct limit.

5000 mrem (10CFR limit)

- 650 mrem (current dose) 4350 mrem (allowed dose)

RJPM-NRC-S16-A4 Rev 0 Page 3 of 8

RJPM-NRC-S16-A4 Rev. 1 DATA SHEET TASK TITLE: Task Number K&A SYSTEM: K&A RATING:

Determine Emergency Entry 300241004002 G 2.3.4 3.2 Requirements for a High Dose 301023005003 G 2.3.12 3.2 Situation.

REFERENCES:

APPLICABLE OBJECTIVES EN-RP-201, Dosimetry Administration, Rev 4 EIP-2-012, Radiation Exposure Controls, Rev 21 10CFR20.1201, Occupational Dose Limits REQUIRED MATERIALS:

Calculator LICENSE LEVEL: RO SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams may need to be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant determined admin dose limits are suspended and that the allowed dose for performing this task in a high rad area during an emergency is 4350 mrem exactly.

RJPM-NRC-S16-A4 Rev 0 Page 4 of 8

RJPM-NRC-S16-A4 Rev. 1 PERFORMANCE:

START TIME:

1. Procedure Step: Identify the Administrative and 10CFR dose limits.

Standard Applicant identified the Administrative and 10CFR dose limits are 2000mR and 5000mR (respectively), in accordance with the attached key.

Cue Notes

2. *Procedure Step: Determine Administrative Dose Limits should be suspended.

Standard Applicant determined that Administrative Dose Limits should be suspended in accordance with the attached key.

Cue Notes Results SAT UNSAT

3. *Procedure Step: Calculate the allowed dose for a task during emergency conditions.

Standard Applicant calculated allowed dose to be 4350 mrem (in accordance with attached key). No error bars allowed.

Cue Notes Results SAT UNSAT Terminating Cue: The applicant determined admin dose limits are suspended and that the allowed dose for performing this task in a high rad area during an emergency is 4350 mrem exactly.

This completes this JPM.

STOP TIME:

RJPM-NRC-S16-A4 Rev 0 Page 5 of 8

RJPM-NRC-S16-A4 Rev. 1 CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A4 Rev 0 Page 6 of 8

RJPM-NRC-S16-A4 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A4 Rev 0 Page 7 of 8

RJPM-NRC-S16-A4 Rev. 1 OPERATOR CUE SHEET Initial Conditions:

The Emergency Response Organization is operational and the site has declared a Site Area Emergency due to a station blackout.

An entry must be made to the RWCU Pump Room to stop a steam leak.

Dose rates in the vicinity of the steam leak isolation are 3 rem per hour.

Initiating Cues:

The CRS has directed you to determine the following:

1. The RBS Routine Administrative Total Effective Dose Equivalent (TEDE) whole body exposure limit is _____ per year; the 10CFR20 TEDE Radiation Exposure limit is _____ per year.

2. Based on the initial conditions, the administrative exposure limits of the RBS Radiation Protection Plan, RBNP-024 and RBNP-202 are applicable / suspended. (circle one)

3. Determine the dose allowed by an operator whose current yearly dose is 650 mrem to isolate the leak in the RWCU Pump Room without exceeding the correct limit.

RJPM-NRC-S16-A4 Rev 0 Page 8 of 8

RJPM-NRC-S16-A5 Rev 1 Evaluate a Manual Tagout for Control Rod Drive Pump B CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License Level SRO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate Simulator Control Room X Classroom Prepared: Dave Bergstrom Date: June 29, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 10

RJPM-NRC-S16-A5 Rev. 1 EXAMINER INFO SHEET Task Standard: Applicant reviewed the prepared tagout and determined that it is (1) not acceptable (2) due to not including:

C11-VF015B, CRD Pump B Recirc Line Isolation Valve CLOSED.

Synopsis: eSOMS Clearance Module is unavailable due to a network failure. This task will have the applicant review a paper tagout using the form found in the attachments of EN-OP-102-01 and determine if the tagout could be approved.

NOTE: This JPM is Administrative and will be performed in a classroom.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

2) Initiating Cues:

You are the CRS. Review the manual tagout and approve or disapprove as appropriate.

If disapproved, list the reason(s) why.

3) Initial Conditions:

The plant is Mode 1, 100%.

Maintenance is scheduled to replace pump oil on CRD-PC001B, Control Rod Drive Pump B.

The eSOMS Clearance Module is unavailable due to problems with the network.

A Reactor Operator has prepared a manual tagout using Attachment 9.3 of EN-OP-102-01, Tagout Tags Sheet.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A5 Rev 0 Page 2 of 10

RJPM-NRC-S16-A5 Rev. 1 ANSWER KEY Critical Items are:

• 1. Applicant does not approve the tagout as written

• 2. Applicant adds the following:

Danger C11-VF015B, CRD PUMP B RECIRC LINE ISOL VLV CLOSED RJPM-NRC-S16-A5 Rev 0 Page 3 of 10

RJPM-NRC-S16-A5 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Perform Hand Written Tagout for 300095003001 G 2.1.29 4.1 CRD Pump B Oil Replacement

REFERENCES:

APPLICABLE OBJECTIVES PID-36-01A, Rev 21 RLP-HLO-0201, Obj 4 SOP-0002, Rev 47 EE-001G, Rev 11 ESK-05RDS02, Rev 18 ESK-07RDS01, Rev 04 EN-OP-0102, Rev 18 EN-OP-0102-01, Rev 10 Archived Tagout 1-C15-01 052-001-C11-PC001B REQUIRED MATERIALS:

PID-36-01A, Rev 21 SOP-0002, Rev 47 EE-001G, Rev 11 ESK-05RDS02, Rev 18 ESK-07RDS01, Rev 04 .3 of EN-OP-0102-1 (attached)

LICENSE LEVEL: SRO / RO SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams must be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant identified the missing component for a manual tagout on Control Rod Drive Pump B IAW the attached key.

RJPM-NRC-S16-A5 Rev 0 Page 4 of 10

RJPM-NRC-S16-A5 Rev. 1 PERFORMANCE:

START TIME:

1. *Procedure Step: Determine if Tagout is approved for Control Rod Drive Pump B.

Standard Applicant used data provided to disapprove the tagout.

Cue Notes Provide applicant with attachments as necessary Results SAT UNSAT

2. *Procedure Step: List the reason(s) why this tagout is not approved.

Standard Applicant used data provided to state that the tagout did not include valve C11-VF015B or one other item.

Cue Notes Results SAT UNSAT Terminating Cue: Applicant reviewed the prepared tagout and determined that it is (1) not acceptable (2) due to not including the C11-VF015B valve.

This completes this JPM.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A5 Rev 0 Page 5 of 10

RJPM-NRC-S16-A5 Rev. 1 RJPM-NRC-S16-A5 Rev 0 Page 6 of 10

RJPM-NRC-S16-A5 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A5 Rev 0 Page 7 of 10

RJPM-NRC-S16-A5 Rev. 1 OPERATOR CUE SHEET Initiating Cues:

You are the CRS. Review the manual tagout and approve or disapprove as appropriate.

If disapproved, list the reason(s) why.

Initial Conditions:

The plant is Mode 1, 100%.

Maintenance is scheduled to replace pump oil on CRD-PC001B, Control Rod Drive Pump B.

The eSOMS Clearance Module is unavailable due to problems with the network.

A Reactor Operator has prepared a manual tagout using Attachment 9.3 of EN-OP-102-01, Tagout Tags Sheet.

RJPM-NRC-S16-A5 Rev 0 Page 8 of 10

RJPM-NRC-S16-A5 Rev. 1 RJPM-NRC-S16-A5 Rev 0 Page 9 of 10

RJPM-NRC-S16-A5 Rev. 1 RJPM-NRC-S16-A5 Rev 0 Page 10 of 10

RJPM-NRC-S16-A6 Rev 1 Determine Unidentified Leakage and Leak Rates Manually CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License level SRO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Dave Bergstrom Date: July 9, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 11

RJPM-NRC-S16-A6 Rev. 1 EXAMINER INFO SHEET Task Standard: The applicant calculated the identified and unidentified leakage rates and tech spec entry IAW the attached key.

Synopsis: The Drains Process Computer is inoperable due to a component failure.

This task will have the applicant perform a manual leakage calculation using SOP-0104, Floor and Equipment Drain System, Section 5.2 Determining Identified and Unidentified Leakage Rates Manually.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The plant is operating at 100% power

• The Drains Process Computer is inoperable due to a component failure

• Sumps have been pumped down IAW section 5.2.3 of SOP-0104, Floor and Equipment Drains System, and the appropriate data entered on Attachment 6

3) Initiating Cues:

The Shift Manager has directed you to determine identified and unidentified leakage rates manually IAW Section 5.2.3.5.3 of SOP-0104, Floor and Equipment Drains System and determine any tech spec entries (if any) that are required, with a basis for your conclusion.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A6 Rev 0 Page 2 of 11

RJPM-NRC-S16-A6 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Determine Unidentified Leakage and 231014001001 G2.1.23 4.3 / 4.4 Leak Rates Manually 295036 EA1.01 3.2 /

3.3 REFERENCES

APPLICABLE OBJECTIVES SOP-0104, Floor and Equipment Drain RLP-HLO-405, Obj 1 System, Rev 39 Tech Spec 3.4.5 REQUIRED MATERIALS:

SOP-0104, Floor and Equipment Drain System, Rev 39 Marked up copy of Attachments 5 & 6 LICENSE LEVEL: SRO / RO SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams must be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant calculated the identified and unidentified leakage rates and tech spec entry IAW the attached key.

RJPM-NRC-S16-A6 Rev 0 Page 3 of 11

RJPM-NRC-S16-A6 Rev. 1 ANSWER KEY

• Column H can be calculated as between 2.24 and 2.26 A paraphrase of the following must be written:

A Tech Spec entry exists for RCS Leakage where there must be less than or equal to a 2 gallon per minute increase in unidentified leakage within the previous 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period in mode 1. According to the 1430 calculations, a 2.08 gpm increase has occurred.

RJPM-NRC-S16-A6 Rev 0 Page 4 of 11

RJPM-NRC-S16-A6 Rev. 1 PERFORMANCE:

START TIME:

SOP-0104 Section 5.2.3.5

3) Record the following on Attachment 6, Manual Calculation - Current Leak Rate History on the hour:

1. Procedure Step: a) Present time under PUMP STOP TIME Standard NA Cue Notes The handout of Attachment 6 already has the current sump pumpdown data.

2. *Procedure Step: b) Under column D calculate the Unidentified Leakage (UL) by adding the changes in levels of column A to the changes in levels of column B since the previous hourly calculations Standard Applicant calculated the delta from column A (250-150) as 100 gallons, then calculated the delta from column B (225-190) as 35 gallons; applicant then added 100 plus 35 and recorded 135 gallons in column D Cue Notes Results SAT UNSAT RJPM-NRC-S16-A6 Rev 0 Page 5 of 11

RJPM-NRC-S16-A6 Rev. 1

3. Procedure Step: c) Under column E calculate the Identified Leakage (IL) by entering the changes in level of column C since the previous hourly calculations Standard Applicant calculated the delta from column C (280-150) and recorded 130 gallons in column E Cue Notes Results SAT UNSAT

4. Procedure Step: d) Under column F calculate the Total Leakage by adding the values of UL column D and IL column E.

Standard Applicant calculated the sum of column D and E (135+130) and recorded 265 gallons in column F Cue Notes Results SAT UNSAT

5. Procedure Step: e) Record 60 minutes in column G.

Standard Applicant recorded 60 minutes in column G.

Cue Notes Results SAT UNSAT RJPM-NRC-S16-A6 Rev 0 Page 6 of 11

RJPM-NRC-S16-A6 Rev. 1

6. *Procedure Step: f) Calculate Unidentified Leakage Rate (ULR) in column H by dividing the UL from column D by column G.

Standard Applicant calculated the quotient of column D by column G (135 / 60) and recorded a value of between 2.24 and 2.26 gallons per minute in column H.

Cue Notes Results SAT UNSAT

7. Procedure Step: g) Calculate Total Leakage Rate (TLR) in column J by dividing the TL in column F by column G.

Standard Applicant calculated the quotient of column F by column G (265 / 60) and recorded a value of 4.42 gallons per hour in column H.

Cue Notes Results SAT UNSAT RJPM-NRC-S16-A6 Rev 0 Page 7 of 11

RJPM-NRC-S16-A6 Rev. 1

8. Procedure Step: h) Calculate the 24-Hour Average Total Leakage Rate (TLR 24 AVG) in column K by dividing the sum of the present TLR column J and the previous 23 TLRs by 24 Standard Applicant calculated the average leak rate by:

1) adding 24 leak rates beginning at the 1530 entry on attachment 5 through the 1430 entry recorded in column J.

{2.16 + 2.25 + 2.16 + 2.08 + 2.08 + 2.08 + 2.08 + 2.16 + 2.16 + 2.17 + 2.17 + 2.58 +

2.33 + 2.50 + 2.67 + 2.58 + 2.58 + 2.92 + 3.00 + 2.92 + 3.00 + 3.50 + 3.83 +

4.42 = 62.29}

2) dividing the total 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> of leak rates by 24 {62.29 / 24}

3) recording a value between 2.59 and 2.60 in column K Cue Notes Results SAT UNSAT

9. *Procedure Step: Determine any Tech Specs entry.

Standard Applicant determined that TS should be entered based on greater than 2 gpm increase in unidentified leakage within the previous 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period.

Cue Notes Results SAT UNSAT Terminating Cue: The applicant calculated the identified and unidentified leakage rates and tech spec entry IAW the attached key.

This completes this JPM.

STOP TIME:

RJPM-NRC-S16-A6 Rev 0 Page 8 of 11

RJPM-NRC-S16-A6 Rev. 1 CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A6 Rev 0 Page 9 of 11

RJPM-NRC-S16-A6 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A6 Rev 0 Page 10 of 11

OPERATOR CUE SHEET Initial Conditions:

• The plant is operating at 100% power

• The Drains Process Computer is inoperable due to a component failure

• Sumps have been pumped down IAW section 5.2.3 of SOP-0104, Floor and Equipment Drains System, and the appropriate data entered on Attachment 6.

Initiating Cues:

The Shift Manager has directed you to determine identified and unidentified leakage rates manually IAW Section 5.2.3.5.3 of SOP-0104, Floor and Equipment Drains System and determine any tech spec entries (if any) that are required, with a basis for your conclusion.

River Bend Station Initial License Exam Page 11 of 11

RJPM-NRC-S16-A7 Rev 1 Determine the Effect of Removing a Fuse in RPS CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License Level RO??

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate Simulator Control Room X Classroom Prepared: Dave Bergstrom Date: June 30, 2016 Reviewed: John Fralick Date: July 8, 2014 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 7

RJPM-NRC-S16-A7 Rev. 1 EXAMINER INFO SHEET Task Standard: The applicant determined the effects of removing fuse F50B in Panel P692 in accordance with the attached key.

Synopsis: The applicant will use plant drawings to determine the effects of removing a fuse in the RPS system to support a maintenance activity.

NOTE: This JPM is Administrative and will be performed in a classroom.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

2) Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following upon the removal of the fuse:

1. The scram condition of the RPS system: (circle one) no scram condition 1/2 scram full scram

2. Any component positions (other than relays) that are affected by the fuse removal and the associated affect

3) Initial Conditions:

A maintenance activity requires the removal of a fuse in the RPS system.

Electricians are ready to remove fuse F50B in panel H13-P692 for work to begin.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A7 Rev 0 Page 2 of 7

RJPM-NRC-S16-A7 Rev. 1 ANSWER KEY Critical Steps are marked with an asterisk (*)

Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following upon the removal of the fuse:

• 1. The scram condition of the RPS system: (circle one) no scram condition 1/2 scram full scram

• 2. Any component positions (other than relays) that are affected by the fuse removal and the associated affect.

• Div 2 solenoids for SDV vent and drain valves de-energize (Vent and Drain valves do not re-position)

• One backup scram header white lights go out RJPM-NRC-S16-A7 Rev 0 Page 3 of 7

RJPM-NRC-S16-A7 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Use Plant Drawings to Determine 300246003001 G 2.2.15 3.9 Effect of Fuse Removal 299003001001

REFERENCES:

APPLICABLE OBJECTIVES GE-828E531AA RLP-HLO-542-1, Obj 5, 6, 7 REQUIRED MATERIALS:

GE-828E531AA Sheets 1, 2, 6, 9, and 11 SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams must be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant determined the effects of removing fuse F50B in Panel P692 in accordance with the attached key.

RJPM-NRC-S16-A7 Rev 0 Page 4 of 7

RJPM-NRC-S16-A7 Rev. 1 PERFORMANCE:

START TIME:

1. *Procedure Step: Determine the scram condition of the RPS system.

Standard Applicant determined the fail position in accordance with the attached key.

Cue Notes Provide applicant with attachments as necessary Results SAT UNSAT

2. *Procedure Step: Determine component positions affected by removal of fuse F50B.

Standard Applicant determined the position(s) of other components affected in accordance with the attached key.

Cue Notes Provide applicant with attachments as necessary Results SAT UNSAT Terminating Cue: The applicant determined the effects of removing fuse F50B in Panel P652 in accordance with the attached key.

This completes this JPM.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A7 Rev 0 Page 5 of 7

RJPM-NRC-S16-A7 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A7 Rev 0 Page 6 of 7

RJPM-NRC-S16-A7 Rev. 1 OPERATOR CUE SHEET Initial Conditions:

A maintenance activity requires the removal of a fuse in the RPS system.

Electricians are ready to remove fuse F50B in panel H13-P692 for work to begin.

Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following upon the removal of the fuse:

• 1. the scram condition of the RPS system: (circle one) no scram condition 1/2 scram full scram

• 2. Any component positions (other than relays) that are affected by the fuse removal and the associated affect.

RJPM-NRC-S16-A7 Rev 0 Page 7 of 7

RJPM-NRC-S16-A8 Rev 1 Determine Allowed Dose During Emergency Conditions and Identify Who Authorizes the Entry CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical No Alt Path NA License Level SRO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate Simulator Control Room X Classroom Prepared: Dave Bergstrom Date: July 6, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 8

RJPM-NRC-S16-A8 Rev. 1 EXAMINER INFO SHEET Task Standard: The applicant determined emergency allowed dose (9350 mrem) for performing a task in a high rad area and identified who authorizes the entry (the ED or EPM) IAW the attached key.

Synopsis:

NOTE: This JPM is Administrative and will be performed in a classroom.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

2) Initial Conditions:

• The Emergency Response Organization is operational and the site has declared a Site Area Emergency due to a station blackout with a leak in secondary containment.

• The leak is in the RWCU pump room

• Although automatic isolation occurred, leakage past isolation valve seats continue to cause elevated temperatures and radiation levels

• Efforts are underway to attempt to make entry into the RWCU Pump Room and manually seat various valves

• Dose rates in the vicinity of the steam leak isolation are 3 rem per hour.

3) Initiating Cues:

The CRS has directed you to determine the following:

1. The RBS Routine Administrative Total Effective Dose Equivalent (TEDE) whole body exposure limit is _____ per year; the 10CFR20 TEDE Radiation Exposure limit is _____ per year.

2. Based on the initial conditions, the administrative exposure limits of the RBS Radiation Protection Plan, RBNP-024 and RBNP-202 are applicable / suspended. (circle one)

3. Determine the dose allowed by an operator whose current yearly dose is 650 mrem to isolate the leak in the RWCU Pump Room without exceeding the correct limit.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A8 Rev 0 Page 2 of 8

RJPM-NRC-S16-A8 Rev. 1 ANSWER KEY Complete the following:

1. The RBS Routine Administrative Total Effective Dose Equivalent (TEDE) whole body exposure limit is _2 R (2000 mR)_ per year; the 10CFR20 TEDE Radiation Exposure limit is __5R (5000 mR)__ per year; and the Emergency TEDE limit for immediate actions taken to prevent major damage to equipment, prevent the release of radioactive materials, or control fires is

__10R (10,000 mR)__.

• 2. Based on the initial conditions, the administrative exposure limits of the RBS Radiation Protection Plan are applicable / suspended. (circle one)

• 3. Determine the dose allowed by an operator whose current yearly dose is 650 mrem to isolate the leak in the RWCU Pump Room without exceeding the correct limit.

10000 mrem (10CFR limit)

- 650 mrem (current dose) 9350 mrem (allowed dose)

• 4. Identify who must authorize this entry.

One of the following: Emergency Director or Emergency Plant Manager RJPM-NRC-S16-A8 Rev 0 Page 3 of 8

RJPM-NRC-S16-A8 Rev. 1 DATA SHEET TASK TITLE: Task Number K&A SYSTEM: K&A RATING:

Determine Emergency Entry 300241004002 G 2.3.4 3.7 Requirements for a High Dose 301023005003 G 2.3.12 3.7 Situation.

REFERENCES:

APPLICABLE OBJECTIVES EN-RP-201, Dosimetry Administration, Rev 4 EIP-2-012, Radiation Exposure Controls, Rev 21 10CFR20.1201, Occupational Dose Limits REQUIRED MATERIALS:

Calculator LICENSE LEVEL: SRO SIMULATOR CONDITIONS & SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup but pictures/diagrams may need to be developed for the applicants use.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: The applicant determined emergency allowed dose (9350 mrem) for performing a task in a high rad area and identified who authorizes the entry (the ED or EPM) IAW the attached key.

RJPM-NRC-S16-A8 Rev 0 Page 4 of 8

RJPM-NRC-S16-A8 Rev. 1 PERFORMANCE:

START TIME:

1. Procedure Step: Identify the Administrative, 10CFR, and emergency dose limits.

Standard Applicant identified the Administrative and 10CFR dose limits (2R, 5R, and 10R) in accordance with the attached key.

Cue Notes

2. *Procedure Step: Determine if Administrative Dose Limits should be suspended.

Standard Applicant determined that Administrative Dose Limits should be suspended in accordance with the attached key.

Cue Notes

3. *Procedure Step: Calculate the allowed dose for a task during emergency conditions.

Standard Applicant calculated allowed dose (9350 mrem) in accordance with attached key.

Cue Notes

4. *Procedure Step: Identify who must authorize this entry.

Standard Applicant identified position of person who must authorize dose (the ED or the EPM) in accordance with attached key.

Cue Notes Terminating Cue: The applicant determined emergency allowed dose (9350 mrem) requirements for performing a task in a high rad area and identified who authorizes the entry (the ED or the EPM)

IAW the attached key.

This completes this JPM.

RJPM-NRC-S16-A8 Rev 0 Page 5 of 8

RJPM-NRC-S16-A8 Rev. 1 STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A8 Rev 0 Page 6 of 8

RJPM-NRC-S16-A8 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-A8 Rev 0 Page 7 of 8

RJPM-NRC-S16-A8 Rev. 1 OPERATOR CUE SHEET Initial Conditions:

The Emergency Response Organization is operational and the site has declared a Site Area Emergency due to a station blackout.

An entry must be made to the RWCU Pump Room to stop a steam leak.

Dose rates in the vicinity of the steam leak isolation are 13 rem per hour.

Initiating Cues:

The CRS has directed you to determine the following:

1. The RBS Routine Administrative Total Effective Dose Equivalent (TEDE) whole body exposure limit is _______ per year; the 10CFR20 TEDE Radiation Exposure limit is _______ per year; and the Emergency TEDE limit for immediate actions taken to prevent major damage to equipment, prevent the release of radioactive materials, or control fires is

2. Based on the initial conditions, the administrative exposure limits of the RBS Radiation Protection Plan are applicable / suspended. (circle one)

3. Determine the dose allowed by an operator whose current yearly dose is 650 mrem to isolate the leak in the RWCU Pump Room without exceeding the correct limit.

4. Identify who must authorize this entry: _____________________________________

RJPM-NRC-S16-A8 Rev 0 Page 8 of 8

RJPM-NRC-S16-A9 Rev 1 Classify an Emergency CRITICAL TIME FRAME: Required Time (min): 15 Actual Time (min): NA PERFORMANCE TIME: Average Time (min): Actual Time (min):

VALIDATION TIME:

Time Critical Yes Alt Path NA License Level SRO EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate Simulator Control Room X Classroom Prepared: Dave Bergstrom Date: June 16, 2016 Reviewed: John Fralick Date: July 8, 2016 (Operations Representative)

Approved: Dan James Date: July 14, 2016 (Operations Management)

River Bend Station Initial License Exam Page 1 of 6

RJPM-NRC-S16-A9 Rev 1 EXAMINER INFO SHEET This is a Time Critical JPM Task Standard: Applicant classified the event as an ALERT (FA1, RC3) within fifteen minutes.

Synopsis: This JPM is based on simulator scenario #RSMS-OPS-508. The task will have the applicant determine the classification of an event. This is a TIME CRITICAL JPM.

NOTE: This JPM is Administrative and will be performed in a classroom.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

2) Initiating Cues:

You are the Emergency Director. Classify the event.

3) Initial Conditions:

The plant was operating at 100% power APRM G was in bypass due to its flow biased trip card requiring replacement Standby Gas Treatment B was tagged out for decay heat removal fan replacement APRM C failed downscale; CRD Flow Control Valve B failed closed and FCV A was placed in service; A steam leak occurred in the Drywell which forced the crew to insert a scram; EOP-1 was entered due to the steam leak; EOP-2 was entered due to High Drywell Temperature A fault developed on EJS-ACB 066 which caused 3 DW coolers to be unavailable Bypass Leakage was observed EOP-2 was entered for High Containment Pressure The highest unidentified leakage report was 50 gpm Emergency Depressurization was performed due to Pressure Suppression Pressure

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-A9 Rev 0 Page 2 of 6

RJPM-NRC-S16-A9 Rev 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Classify an Emergency 300001005003 G 2.4.41

4.6 REFERENCES

APPLICABLE OBJECTIVES EIP-2-001, Rev 26 RCBT-EP-SRORMED Obj 16 REQUIRED MATERIALS:

EIP-2-001, Rev 26 (Simulator Copy)

LICENSE LEVEL: SRO / RO SIMULATOR CONDITIONS &/or SETUP:

1. This is a classroom/Admin JPM - There is no simulator setup 2.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD:

Applicant classified the event as an ALERT (FA1, RC3) within fifteen minutes.

RJPM-NRC-S16-A9 Rev 0 Page 3 of 6

RJPM-NRC-S16-A9 Rev 1 PERFORMANCE:

START TIME:

1. *Procedure Step: 1 Classify the event.

Standard Applicant classified the event as a Site Area Emergency (SS3) within 15 minutes.

Cue Notes Results SAT UNSAT Terminating Cue: Applicant classified the event as an ALERT (FA1, RC3) within fifteen minutes.

This completes this JPM.

STOP TIME:

RJPM-NRC-S16-A9 Rev 0 Page 4 of 6

RJPM-NRC-S16-A9 Rev 1 JPM COMMENT SHEET CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-A9 Rev 0 Page 5 of 6

RJPM-NRC-S16-A9 Rev 1 OPERATOR CUE SHEET This is a Time Critical JPM Initiating Cues:

You are the Emergency Director. Classify the event.

Initial Conditions:

The plant was operating at 100% power APRM G was in bypass due to its flow biased trip card requiring replacement Standby Gas Treatment B was tagged out for decay heat removal fan replacement APRM C failed downscale; CRD Flow Control Valve B failed closed and FCV A was placed in service; A steam leak occurred in the Drywell which forced the crew to insert a scram; EOP-1 was entered due to the steam leak; EOP-2 was entered due to High Drywell Temperature A fault developed on EJS-ACB 066 which caused 3 DW coolers to be unavailable Bypass Leakage was observed EOP-2 was entered for High Containment Pressure The highest unidentified leakage report was 50 gpm Emergency Depressurization was performed due to Pressure Suppression Pressure Answer Below:

The Emergency Action Level (EAL) Classification is:

RJPM-NRC-S16-A9 Rev 0 Page 6 of 6

RJPM-NRC-S16-S1 Rev 1 RWL Functional Test CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 11

RJPM-NRC-S16-S1 Rev. 1 EXAMINER INFO SHEET Task Standard: ROD WITHDRAWAL LIMITER FUNCTIONAL TEST is completed and reactor power is reduced with critical steps completed satisfactory.

Synopsis: Operator performs ROD WITHDRAWAL LIMITER FUNCTIONAL TEST and when the ROD WITHDRAWAL BLOCK clears, a MSIV will close requiring reactor power to be reduced to 75%.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The reactor is at 87%.

3) Initiating Cues:

The CRS has directed you to perform STP-500-0704, ROD WITHDRAWAL LIMITER FUNCTIONAL TEST.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-S1 Rev 1 Page 2 of 11

RJPM-NRC-S16-S1 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Open MSIVs During Recovery from 239007001001 201005 A2.10 2.8 / 3.0 Automatic Isolation 295020 A3.04 3.3 /

3.3 REFERENCES

APPLICABLE OBJECTIVES STP-500-0704, RLP-STM-0500, Obj 7, 9, 13, 22 ROD WITHDRAWAL LIMITER FUNCTIONAL TEST REQUIRED MATERIALS: SAFETY FUNCTION:

STP-500-0704 __1__

LICENSE LEVEL: RO / SRO ALTERNATE PATH: YES SIMULATOR CONDITIONS & SETUP:

1. IC # 68 Run this with S6

2. Rx Power: above the RPCS high power set point (67.9%)

3. Insert MSS016 (Closes B21-F022A) when control rod block alarm clears.

4. STP-500-0704:

Step 6.4 3087 MWt Step 6.6 28-13 Start Position 10, Final Position 14 N/A section 7.2

5. INDIVID DRIVE light on.

6. Select rod 28-13 CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: ROD WITHDRAWAL LIMITER FUNCTIONAL TEST is completed and reactor power is reduced with critical steps completed satisfactory.

RJPM-NRC-S16-S1 Rev 1 Page 3 of 11

RJPM-NRC-S16-S1 Rev. 1 PERFORMANCE:

START TIME:

STP-500-0704, ROD WITHDRAWAL LIMITER FUNCTIONAL TEST Section 7.1, Reactor Power Above RPCS High Power Set Point

1. Procedure Step: 7.1.1. Verify the selected rod is in the start position recorded in Step 6.6.

Record rod position.

Standard Operator depressed the two numbers corresponding to the rod to be withdrawn. The full core display showed the rod position for the selected rod.

Cue N/A Notes Results SAT UNSAT

2. *Procedure Step: 7.1.2. On the ROD SELECT module, perform the following:

1. Deselect the rod.

Standard Operator depressed the Rod Select Clear pushbutton.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S1 Rev 1 Page 4 of 11

RJPM-NRC-S16-S1 Rev. 1

3. *Procedure Step: 2. Select the rod that corresponds to the rod coordinate position recorded in Step 6.6.

Standard Operator depressed the two numbers corresponding to the rod to be withdrawn. The full core display showed the rod position for the selected rod.

Cue N/A Notes Results SAT UNSAT

4. *Procedure Step: 7.1.3. Withdraw the rod two notches in the notch withdrawal mode.

Standard Operator depressed the WITHDRAW pushbutton until the IN indicator was on or the start of rod motion was observed. Released the WITHDRAW pushbutton until SETTLE light extinguished. Operator verified the rod notch position was at the next highest even number. Then depressed the WITHDRAW pushbutton until the IN indicator was on or the start of rod motion was observed to move the rod the second notch.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S1 Rev 1 Page 5 of 11

RJPM-NRC-S16-S1 Rev. 1

5. Procedure Step: 7.1.4. Check Annunciator P680-07A-C01, CONTROL ROD WITHDRAWAL BLOCK alarms.

Standard Operator verified the Annunciator P680-07A-C01, CONTROL ROD WITHDRAWAL BLOCK is in alarm.

Cue N/A Notes Results SAT UNSAT

6. *Procedure Step: 7.1.5. Check the rod withdrawal limiter stops rod motion at the second notch by attempting to withdraw the rod a third notch and verifying the rod does not move.

Standard Operator depressed the WITHDRAW pushbutton and verified no rod motion.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S1 Rev 1 Page 6 of 11

RJPM-NRC-S16-S1 Rev. 1

7. *Procedure Step: 7.3 Restoration 7.3.1. On the ROD SELECT module, perform the following:

1. Deselect the rod.

Standard Operator depressed the Rod Select Clear pushbutton.

Cue N/A Notes Results SAT UNSAT

8. *Procedure Step: 2. Select the rod that corresponds to the rod coordinate position recorded in Step 6.6.

Standard Operator depressed the two numbers corresponding to the rod to be withdrawn. The full core display showed the rod position for the selected rod.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S1 Rev 1 Page 7 of 11

RJPM-NRC-S16-S1 Rev. 1

9. Procedure Step: 7.3.2. Check Annunciator P680-07A-C01, CONTROL ROD WITHDRAWAL BLOCK is clear.

Standard Operator verified Annunciator P680-07A-C01, CONTROL ROD WITHDRAWAL BLOCK is clear.

Cue N/A Notes When the alarm is clear, the MSIV will close and H13-P680/06A/B06 will alarm.

Results SAT UNSAT ALTERNATE PATH

10. Procedure Step: Operator verifies Main Steam Isolation Valve Closure on P601.

Per H13-P680/06A/B06, MAIN STEAM ISOLATION VLVS CLOSURE:

1. If a Reactor Scram has occurred, THEN enter AOP-0001, Reactor Scram.

2. Determine cause of MSIV closure.

3. If operating with a Main Steam Line isolated, THEN reduce power to less than or equal to 75% per SOP-11, Main Steam System.

SOP-11, MAIN STEAM SYSTEM Precautions and Limitations 2.4 Reactor power shall be limited to less than or equal to 75% RTP with one Main Steam Line out of service.

Standard Operator may dispatch SNEO or maintenance to investigate MSIV closure.

Operator should inform CRS to reduce flow to 75%.

Cue Concur with recommendation to reduce flow to 75% using Recirc Flow Control Valves.

Notes Results SAT UNSAT RJPM-NRC-S16-S1 Rev 1 Page 8 of 11

RJPM-NRC-S16-S1 Rev. 1

11. *Procedure Step: Per the Reactivity Management Plan, Casualty Step Reduce reactor recirculation flowrate to reduce reactor power to 75%.

Standard Operator toggles B33-K603A(B), RECIRC LOOP A(B) FLOW CONTROL down and to the left to reduce flow in slow speed. The operator will alternate between A and B Recirc Loop Flow Control Valves to reduce power.

Cue N/A Notes The first step of the RMP casualty step requires recirc flow to be lowered to 80%. Then rods must be inserted to lower power to 75%.

Results SAT UNSAT Terminating Cue: ROD WITHDRAWAL LIMITER FUNCTIONAL TEST is completed and reactor power is reduced with critical steps completed satisfactory.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-S1 Rev 1 Page 9 of 11

RJPM-NRC-S16-S1 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-S1 Rev 1 Page 10 of 11

RJPM-NRC-S16-S1 Rev 1 OPERATOR CUE SHEET Initial Conditions:

• The reactor is at 100%.

Initiating Cues:

• The CRS has directed you to perform STP-500-0704, ROD WITHDRAWAL LIMITER FUNCTIONAL TEST.

• NCO has been informed of test performance.

RJPM-NRC-S16-S2 Rev 0 Align SU FRV in Auto CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 7 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 8

RJPM-NRC-S16-S2 Rev. 0 EXAMINER INFO SHEET Task Standard: SU FRV placed in manual after control failure with all critical steps completed.

Synopsis: SU FRV placed in AUTO per SOP-9, Section 4.7. Once FRV is in AUTO, the FRV will drift open requiring the operator to place the FRV back to MANUAL to restore reactor water level, per AOP-6.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The reactor is being shut down.

• Feed system is aligned to the vessel through the startup level control valve

• The startup level control valve is in manual per SOP-9, section 4.6 and tape is set at 25 inches.

3) Initiating Cues:

• The CRS has directed you to place the Startup Level Control in Automatic per SOP-9, Section 4.7.

• Adjust reactor water level to 27 inches narrow range.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-S2 Rev 0 Page 2 of 8

RJPM-NRC-S16-S2 Rev. 0 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

SU FRV placed in manual after control 259010001001 259001 K6.07 3.8 / 3.8 failure 259023001001 259001 A2.07 3.7 / 3.8 295008 AA1.01 3.7 /

3.7 REFERENCES

APPLICABLE OBJECTIVES SOP-0009, Rev 73 RLP-STM-0107, Obj 7, 10 AOP-0006, Rev 22 REQUIRED MATERIALS: SAFETY FUNCTION:

SOP-0009, Main Steam System (Sim Copy) __2__

AOP-0006, Condensate/Feedwater Failures (Sim Copy)

LICENSE LEVEL: SRO / RO ALTERNATE PATH: YES SIMULATOR CONDITIONS & SETUP:

1. IC # 67 Run with S8.

2. Reactor is critical.

3. Trigger 1 AO_FWVFF002 to 100 ramped over 2 minutes.

4. Trigger 2 Delete malfunction.

5. Event 1 AUTO Pushbutton for SUFRV zdi6(73)

6. Event 2 MANUAL Pushbutton zdi6(74)

7. STEAM TO AIR EJECT LOW P870_52A:H_3 to OFF nuisance alarm.

8. Thumbwheel 0 to 100% 35 = 58.4% 30=50.3% (0-60)

9. AI_C33_R602_CTW to 100 on event 1 ramped 30 seconds

10. Event 1 zdi6(74) SUFRV AUTO pushbutton

11. AI_C33_R602_CTW delete in 1 on event 2

12. Event 2 zdi6(73) SU FRV Man P/B CRITICAL ELEMENTS: Items marked with an

• and gray box are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: Feed system aligned on startup level control in manual operation with all critical steps completed.

RJPM-NRC-S16-S2 Rev 0 Page 3 of 8

RJPM-NRC-S16-S2 Rev. 0 START TIME:

SOP-9 Section 4.7, Placing Startup Level Control in Automatic

1. *Procedure Step: 4.7.1. Return C33 R602, START UP FWREG VALVE FLOW CONTROLLER to AUTO as follows:

1. Adjust tape set 2 inches above actual vessel level and observe the deviation signal is positive.

Standard Uses thumbwheel to adjust tape set to 2 inches above actual vessel level and verify the deviation signal is positive.

Cue N/A Notes Results SAT UNSAT

2. *Procedure Step: 2. Lower tape set 2 inches below actual vessel level and observe the deviation signal is negative.

Standard Uses thumbwheel to adjust tape set to 2 inches below actual vessel level and verify the deviation signal is negative.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S2 Rev 0 Page 4 of 8

RJPM-NRC-S16-S2 Rev. 0

3. *Procedure Step: 3. Match tape set to actual vessel level in order to null the deviation signal.

Standard Uses thumbwheel to adjust tape set to actual vessel level and verify the deviation signal is approximately zero.

Cue N/A Notes Results SAT UNSAT

4. *Procedure Step: 4. Depress the AUTO Pushbutton and check green light above the pushbutton is on.

Standard Operator depresses the AUTO pushbutton and verifies the green light is on.

Cue N/A Notes Results SAT UNSAT

5. *Procedure Step: 4.7.2. Adjust C33 R602, START UP FWREG VALVE FLOW CONTROLLER Tape Set to maintain the level requested by the OSM/CRS.

Standard Adjust C33 R602, START UP FWREG VALVE FLOW CONTROLLER Tape Set to 36 inches.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S2 Rev 0 Page 5 of 8

RJPM-NRC-S16-S2 Rev. 0 ALTERNATE PATH

6. *Procedure Step: AOP-6, 5.1, (Immediate Action) Manually control the feedwater level control system and/or reduce reactor power to mitigate any level transient.

AOP-6, 6.2, IF any of the following flow control valves have failed, THEN attempt to take manual control or isolate the flow control valve to control reactor vessel level:

Place C33 R602, START UP FWREG VALVE FLOW CONTROLLER in MANUAL.

FWS FV104, START UP RECIRC FCV isolated by closing FWS MOV103, LONG CYCLE CLEANUP ISOL Standard Start Up FWREG Valve Flow Controller MANUAL pushbutton is depressed.

Operator is able to manually restore reactor water level by depressing the open / closed pushbuttons on the controller to open / close the valve.

Cue N/A Notes Results SAT UNSAT Terminating Cue: SU FRV placed in manual after controller failure with all critical steps completed.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-S2 Rev 0 Page 6 of 8

RJPM-NRC-S16-S2 Rev. 0 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-S2 Rev 0 Page 7 of 8

RJPM-NRC-S16-S2 Rev 0 OPERATOR CUE SHEET Initial Conditions:

• The reactor is being shut down.

• Feed system is aligned to the vessel through the startup level control valve

• The startup level control valve is in manual per SOP-9, section 4.6.

Initiating Cues:

• The CRS has directed you to place the Startup Level Control in Automatic per SOP-9, Section 4.7.

• Adjust reactor water level to 36 inches narrow range.

RJPM-NRC-S16-S3 Rev 1 Reopen MSIVs Following Automatic Isolation CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 19

RJPM-NRC-S16-S3 Rev. 1 EXAMINER INFO SHEET Task Standard: All MSIVs are open with all critical steps completed correctly.

Synopsis: The reactor is shutdown, pressurized with the MSIVs closed following an automatic isolation. This task will re-open all MSIVs using SOP-0011, Main Steam System, Section 4.2, Opening MSIVs During Hot Startup/Recovery From Automatic Isolation.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The reactor is scrammed and pressurized.

• All MSIVs are closed (NSSSS isolation is clear).

• Main Condenser vacuum is established.

• The Circulating Water System is lined up in accordance with SOP-0006.

3) Initiating Cues:

The CRS has directed you to open the Main Steam Isolation Valves (MSIVs) in accordance with SOP-0011, Main Steam, Section 4.2.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-S3 Rev 1 Page 2 of 19

RJPM-NRC-S16-S3 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Open MSIVs During Recovery from 239007001001 239001 A4.01 4.2 / 4.0 Automatic Isolation 295020 AA1.01 3.6 /

3.6 REFERENCES

APPLICABLE OBJECTIVES SOP-0011, Rev 29 RLP-STM-0109, Obj 7, 12 REQUIRED MATERIALS: SAFETY FUNCTION:

SOP-0011, Main Steam System (Sim Copy) __3__

LICENSE LEVEL: SRO / RO ALTERNATE PATH: NO SIMULATOR CONDITIONS & SETUP:

1. IC # 66

2. Rx Power: Shutdown. pressurized

3. MSIVs closed on an initiation signal; (MSS021A&B) signal has been cleared.

4. Condenser Vacuum established, with Condenser Air Removal Pump A.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: All MSIVs are open with all critical steps completed correctly.

RJPM-NRC-S16-S3 Rev 1 Page 3 of 19

RJPM-NRC-S16-S3 Rev. 1 PERFORMANCE:

START TIME:

SOP-0011, Main Steam System Section 4.2, Opening MSIVs During Hot Startup/Recovery From Automatic Isolation CAUTION Bypassing the Condenser Low Vacuum trip and opening the MSIVs following an Automatic Isolation could result in a Condenser overpressurization condition. The Condenser Low Vacuum Bypass switches should only be used during startup.

1. Procedure Step: 4.2.1. IF Main Condenser vacuum is not established, THEN place the following switches in BYPASS:

• B21H S24A, DIV 1 CONDENSER LOW VACUUM BYPASS

• B21H S24B, DIV 2 CONDENSER LOW VACUUM BYPASS

• B21H S24C, DIV 3 CONDENSER LOW VACUUM BYPASS

• B21H S24D, DIV 4 CONDENSER LOW VACUUM BYPASS Standard N/A Cue N/A Notes Results SAT UNSAT

2. Procedure Step: 4.2.2. Verify the current alignment of the Circulating Water Pumps, Cooling Towers and Condenser Waterboxes is in accordance with SOP-0006, Circulating Water System.

Standard N/A Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 4 of 19

RJPM-NRC-S16-S3 Rev. 1

3. Procedure Step: 4.2.3. At H13 P601, place the following control switches in the CLOSE position:

• B21 AOVF022A, MSL A INBD MSIV

• B21 AOVF022B, MSL B INBD MSIV

• B21 AOVF022C, MSL C INBD MSIV

• B21 AOVF022D, MSL D INBD MSIV

• B21 AOVF028A, MSL A OUTBD MSIV

• B21 AOVF028B, MSL B OUTBD MSIV

• B21 AOVF028C, MSL C OUTBD MSIV

• B21 AOVF028D, MSL D OUTBD MSIV Standard No switch manipulation required.

Operator verified all four Inboard MSIV control switches to CLOSE.

Operator verified all four Outboard MSIV control switches to CLOSE.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 5 of 19

RJPM-NRC-S16-S3 Rev. 1 NOTE Step 2.11 contains the MSIV isolation signals.

2.11 The Main Steam System automatically isolates when any of the following conditions exist:

Reactor Low-Low-Low Water Level, Level 1 (-143 in.)

Main Steam Line High Flow

• MSL A, 185 psid

• MSL B, 189 psid

• MSL C, 189 psid

• MSL D, 189 psid Main Steam Line Low Pressure, 849 psig, bypassed when Reactor Mode Switch not in RUN position.

Steam Tunnel High Temperature, 173oF Low Condenser Vacuum, 8.5 inches Hg, may be bypassed during startup.

Manual Isolation via B21H-S25(A)(B)(C)(D), MANUAL ISOLATION Pushbuttons.

4. Procedure Step: 4.2.4. Check that an MSIV isolation signal is not present.

Standard Applicant verified that all MSIV isolation signals listed in Step 2.11 are clear.

Cue As backpanel operator, report that Main Steam Line Flow is zero psid.

As backpanel operator, report that Steam Tunnel Temperature is 126°F Notes Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 6 of 19

RJPM-NRC-S16-S3 Rev. 1

5. Procedure Step: 4.2.5. At H13 P680, check the Turbine Pressure Regulator setpoint is greater than RPV pressure.

Standard Applicant compared RPV Pressure to the Turbine Pressure Regulator Setpoint.

Cue N/A Notes Turbine Pressure Regulator Setpoint is located P680, Insert 7, 3rd and 4th squint meter above the red pushbuttons.

Results SAT UNSAT

6. *Procedure Step: 4.2.6. Depress the following pushbuttons to reset the inboard and outboard MSIV isolation logic:

• B21H S33, INBD ISOLATION SEAL IN RESET

• B21H S32, OUTBD ISOLATION SEAL IN RESET Standard Applicant depressed the B21H-S33, Inboard Isolation Seal-In Reset Pushbutton. Applicant depressed the B21H-S32, Outboard Isolation Seal-In Reset Pushbutton.

Cue N/A Notes The pushbuttons S33 and S32 need not be pressed in any particular order, but both must be pushed.

Indications after action, MSL Drains white light is on Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 7 of 19

RJPM-NRC-S16-S3 Rev. 1

7. *Procedure Step: 4.2.7. Verify open the following to equalize pressure across the outboard MSIVs:

• B21 MOVF067A, MSL A DRAIN VALVE

• B21 MOVF067B, MSL B DRAIN VALVE

• B21 MOVF067C, MSL C DRAIN VALVE

• B21 MOVF067D, MSL D DRAIN VALVE

• B21 MOVF086, MSL DRAIN HDR SHUTOFF VALVE PROCEDURE NOTE When opening B21-MOVF068, the valve should be cracked open a few percent and then slowly opened over a period of greater than a minute to allow any condensate to clear upstream of the valve. (Ref: EC-63114)

• B21-MOVF068, MSL DRAIN HDR COND DRAIN BYP VALVE Standard Applicant verified open the 67A, B, C, and D drain valves. No manipulation was required.

Applicant verified open the keylock B21-MOVF086 drain valve open, by verifying red light is ON and green light is OFF. No manipulation was required.

Applicant opened B21-MOVF068 drain valve by turning the switch to open and holding it until the red light is on and the green light is off. This is a throttle valve so the operator must hold the handswitch in the open position until the valve is open. Valve stroke takes about 65 seconds.

Cue N/A Notes The 6 valves in step 4.2.7 may be verified in any order.

Valve is open when red light is ON and green light is OFF.

Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 8 of 19

RJPM-NRC-S16-S3 Rev. 1

8. Procedure Step: 4.2.8. Verify B21 MOVF020, MSL WARMUP HDR SUPPLY VALVE is closed.

Standard Applicant verified the B21 MOVF020 valve was closed as indicated by the green light on and the red light off. No manipulation required.

Cue N/A Notes Results SAT UNSAT

9. Procedure Step: 4.2.9. IF the differential pressure across the outboard MSIVs is greater than 50 psid as indicated by the difference between MSS PI101, MAIN STEAM HEADER PRESSURE and Main Condenser Vacuum, THEN perform the following to reduce the differential pressure:

Standard Applicant identified that differential pressure is less than 50 psid as seen by comparing Main Steam Header Pressure and Condenser Vacuum.

Cue N/A Notes Main Condenser Vacuum is on the process computer to the left of the full core display in the middle of the screen.

Main steam header pressure is read on MSS PI101 on P870 Insert 52 in the middle of the panel.

Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 9 of 19

RJPM-NRC-S16-S3 Rev. 1

10. *Procedure Step: 4.2.10. Place the following control switches in AUTO:

• B21 AOVF028A, MSL A OUTBD MSIV

• B21 AOVF028B, MSL B OUTBD MSIV

• B21 AOVF028C, MSL C OUTBD MSIV

• B21 AOVF028D, MSL D OUTBD MSIV Standard Applicant rotated four Outboard MSIV control switches clockwise to AUTO.

These valves can be placed in AUTO in any order.

Cue N/A Notes Results SAT UNSAT

11. Procedure Step: 4.2.11. Check outboard MSIVs are open.

Standard Applicant checked all four outboard MSIVs indicate open by observing red lights on and green lights off.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 10 of 19

RJPM-NRC-S16-S3 Rev. 1

12. Procedure Step: 4.2.12. On H13 P623, observe the indicating lights and ammeters to confirm the energization of both solenoids on each outboard MSIV.

Standard N/A Cue As a backpanel operator, indicate MSIV solenoid lights are energized and ammeters readings are normal.

Notes No actions are taken by the applicant except to simulate going to the backpanel.

This panel is not in the simulator.

Results SAT UNSAT

13. *Procedure Step: 4.2.13. Verify closed the following:

• B21 MOVF021, MSL WARMUP HDR COND DRAIN BYP VALVE

• B21 AOVF033, MSL WARMUP HDR COND DRAIN VALVE

• B21 MOVF068, MSL DRAIN HDR COND DRAIN BYP VALVE

• B21 AOVF069, MSL DRAIN HDR COND DRAIN VALVE Standard B21 MOVF021 is verified closed. No manipulation required.

Applicant closed the drain valve by rotating the control switch from AUTO to CLOSE and verified the green light on and the red light off.

Applicant closed the drain bypass valve by rotating and holding the control switch in the close direction until the red light is off and the green light is on.

Applicant closed the drain valve by placing the control switch to CLOSE and verified the green light on and the red light off.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 11 of 19

RJPM-NRC-S16-S3 Rev. 1

14. *Procedure Step: 4.2.14. Verify open the following:

• B21 MOVF016, MSL WARMUP HDR INBD CONTMT ISOL VLV

• B21 MOVF019, MSL WARMUP HDR OUTBD CONTMT ISOL VLV

• B21 MOVF085, MSL WARMUP HDR SHUTOFF VALVE Standard Applicant opened the two warmup header valves by rotating the control switches to OPEN and checking the red lights on and the green lights off.

Applicant verified the B21 F085 valve open by checking the red light on and the green light off.

Cue N/A Notes Results SAT UNSAT PROCEDURE NOTE When opening B21-MOVF020 slowly, the valve should be cracked open a few percent and then slowly opened over a period of greater than a minute to allow any condensate to clear upstream of the valve. (Ref: EC-63114)

15. *Procedure Step: 4.2.15. Open slowly B21 MOVF020, MSL WARMUP HDR SUPPLY VALVE to equalize pressure across the inboard MSIVs.

Standard Applicant throttled opened the warmup header supply valve.

Cue N/A Notes Applicant will move back and forth between throttling the 20 valve and checking pressures per the next step.

How aggressively the applicant is willing to open the 20 valve will determine the time it takes to equalize pressure; It takes about 7 minutes to equalize pressure Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 12 of 19

RJPM-NRC-S16-S3 Rev. 1

16. Procedure Step: 4.2.16. Monitor differential pressure across the inboard MSIVs using the following:

• C33 R605, REACTOR PRESSURE

• MSS PI101, MAIN STEAM HEADER PRESSURE Standard Applicant monitored differential pressure across the inboard MSIVs using the appropriate meters.

Cue N/A Notes The Reactor Pressure meter is on insert 3 of the 680 panel The Main Steam pressure meter is on insert 52 of the 870 panel.

Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 13 of 19

RJPM-NRC-S16-S3 Rev. 1 NOTES Opening an MSIV can cause a Reactor water level transient.

Slowly opening the MSIV using the OPEN/SLOW TEST position and intermittent release of the TEST Pushbutton can mitigate the level transient.

If only one Main Steam Line is to be unisolated, then Main Steam Line A should be unisolated to ensure a vent path for the Reactor Vessel.

17. *Procedure Step: 4.2.17. WHEN differential pressure across the inboard MSIVs is less than or equal to 50 psid, THEN place the following switches in AUTO to open the inboard MSIVs:

• B21 AOVF022A, MSL A INBD MSIV

• B21 AOVF022B, MSL B INBD MSIV

• B21 AOVF022C, MSL C INBD MSIV

• B21 AOVF022D, MSL D INBD MSIV Standard Applicant placed the A, B, C, and D inboard MSIV switches to AUTO (AFTER d/p was equal or less than 50 psid). These may be placed in AUTO in any order.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 14 of 19

RJPM-NRC-S16-S3 Rev. 1

18. *Procedure Step: 4.2.18. Check inboard MSIVs are open.

Standard Applicant checked all four inboard MSIVs indicate open (Red lights on/Green lights off)

Cue N/A Notes Results SAT UNSAT

19. *Procedure Step: 4.2.19. On H13 P622, observe the indicating lights and ammeters to confirm the energization of both solenoids on each inboard MSIV.

Standard N/A Cue If requested, the lights are on and the ammeters are indicating normal.

Notes Results SAT UNSAT

20. *Procedure Step: 4.2.20. Close B21 MOVF020, MSL WARMUP HDR SUPPLY VALVE.

Standard B21 MOVF020, MSL WARMUP HDR SUPPLY VALVE, handswitch is rotated counter clockwise to CLOSE. This is a throttle valve so the handswitch must be held in CLOSE position until valve is fully closed.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S3 Rev 1 Page 15 of 19

RJPM-NRC-S16-S3 Rev. 1 NOTE When opening B21-MOVF021 and B21-MOVF068 slowly, the valves should be cracked open a few percent and then slowly opened over a period of greater than a minute to allow any condensate to clear upstream of the valve. (Ref: EC-63114)

21. *Procedure Step: 4.2.21. Slowly open the following:

• B21 MOVF021, MSL WARMUP HDR COND DRAIN BYP VALVE

• B21 MOVF068, MSL DRAIN HDR COND DRAIN BYP VALVE Standard Operator rotates both handswitches clockwise to OPEN. Valves are opened in any order. These are throttle valves so the handswitches must be held in CLOSE position until valves are fully closed.

Cue N/A Notes Results SAT UNSAT

22. *Procedure Step: 4.2.22. Open the following:

• B21 AOVF033, MSL WARMUP HDR COND DRAIN VALVE

• B21 AOVF069, MSL DRAIN HDR COND DRAIN VALVE Standard B21 AOVF033 and B21 AOVF069 handswitches are rotated clockwise to AUTO. Valves may be operated in any order.

Cue N/A Notes Results SAT UNSAT Terminating Cue: All MSIVs are open with all critical steps completed.

STOP TIME:

RJPM-NRC-S16-S3 Rev 1 Page 16 of 19

RJPM-NRC-S16-S3 Rev. 1 CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-S3 Rev 1 Page 17 of 19

RJPM-NRC-S16-S3 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-S3 Rev 1 Page 18 of 19

RJPM-NRC-S16-S3 Rev 1 OPERATOR CUE SHEET Initial Conditions:

• The reactor is shutdown and pressurized.

• All MSIVs are closed.

• Main Condenser vacuum is established.

• The Circulating Water System is lined up in accordance with SOP-0006.

Initiating Cues:

• The CRS has directed you to open the Main Steam Isolation Valves (MSIVs) in accordance with SOP-0011, Main Steam, Section 4.2.

RJPM-NRC-S16-S4 Rev 1 Align Division 3 DG to power ENS-SWGR1A CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 10 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 12

RJPM-NRC-S16-S4 Rev. 1 EXAMINER INFO SHEET Task Standard: ENS-SWG1A is aligned to Division 3 Diesel Generator completing all critical steps.

Synopsis: Division 3 Diesel Generator is aligned to ENS-SWG1A.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initiating Cues:

The CRS has directed you to energize ENS SWGR 1A from Division 3 Diesel Generator per AOP-50, Attachment 9, starting with step 2.5.

3) Initial Conditions:

• Station Blackout in progress.

• RCIC maintaining Reactor Water level.

• AOP-50, Steps 2.1-2.4 are complete.

4) Solicit and answer any questions the operator may have.

RJPM-AUD-D14-S4 Rev 1 Page 2 of 12

RJPM-NRC-S16-S4 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Manually tie HPCS Diesel Generator 258013001001 239003 AA1.02 4.2 / 4.3 to Dead Bus 1E22*S004

REFERENCES:

APPLICABLE OBJECTIVES AOP-50, Rev. 55 RLP-STM-0309H, Obj 8 REQUIRED MATERIALS: SAFETY FUNCTION:

AOP-50, Rev. 55 __3__

LICENSE LEVEL: SRO / RO ALTERNATE PATH: NO SIMULATOR CONDITIONS & SETUP:

1. IC # 69

2. Station instructor at P680 to silence alarms as they come in. Turns horns off after the expected alarm for the fast transfer.

3. Rx Power: Shutdown. pressurized

4. MSIVs closed on an initiation signal; (MSS021A&B) signal has been cleared.

5. Condenser Vacuum established, with Condenser Air Removal Pump A.

6. RHR-A in Suppression Pool Cooling

7. Several Alarms are forced on (they continue to come in and out, causing distraction)

P680_4-A5, A11, _5-C6 P870_52-E4, F1, G3, H1, H3 INSTALL ATTACHMENT FOR AOP ATTACHMENT 9.

CRITICAL ELEMENTS: Items marked with an

• and gray box are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: ENS-SWG1A is aligned to Division 3 Diesel Generator with all critical steps completed correctly.

RJPM-AUD-D14-S4 Rev 1 Page 3 of 12

RJPM-NRC-S16-S4 Rev. 1 START TIME:

AOP-0050 Attachment 9, Using the Division 3 Diesel Generator to supply power to ENS-SWG1A.

1. *Procedure Step: 2.5 On H13-P870, depress the STOP and LOCKOUT push buttons for the following pumps:

• SWP-P2A, STBY SVCE WTR PUMP 2A

• CCS-P1A, TPCCW PUMP 1A

• CCS-P1B, TPCCW PUMP 1B

• CCS-P1C, TPCCW PUMP 1C Standard Operator depresses the STOP pushbutton and then the LOCKOUT pushbuttons for the associated pumps.

Cue N/A Notes Results SAT UNSAT RJPM-AUD-D14-S4 Rev 1 Page 4 of 12

RJPM-NRC-S16-S4 Rev. 1

2. *Procedure Step: 2.6 On H13-P808, verify the following breaker alignment:

• NNS-ACB23, NNS SWGR 1C/1A BRKR is open.

• NNS-ACB25, HPCS BUS S004 BRKR is closed.

• NNS-ACB24, NNS SWGR 1C/1B BRKR is closed.

• NNS-ACB28, NNS SWGR 1B/1C BRKR is closed.

• NNS-ACB20, NNS SWGR 4B/1B BRKR is open.

• NNS-ACB14, NORM SUPPLY BRKR is open.

• NNS-ACB15, 4160V PFD SUPPLY BRKR is open.

Standard NNS-ACB23, 24, 20, and 15 switches must be operated to OPEN/CLOSE the breakers.

NNS-ACB-25, 28, and 14 only require verification. No manipulation required.

Cue N/A Notes Results SAT UNSAT

3. *Procedure Step: 2.7 On H13-P877, verify ENS-ACB04, ALTERNATE SUPPLY BRKR is open.

Standard ENS-ACB04 is verified open. No manipulation required.

Cue N/A Notes Results SAT UNSAT RJPM-AUD-D14-S4 Rev 1 Page 5 of 12

RJPM-NRC-S16-S4 Rev. 1

4. *Procedure Step: 2.8 On H13-P808, close NNS-ACB13, STBY BUS A ALTN SUPPLY.

Standard NNS-ACB13 is closed. No manipulation is required.

Cue N/A Notes Results SAT UNSAT

5. *Procedure Step: 2.9 WHEN Steps 2.2 through 2.8 have been completed, THEN in the Main Control Room, on H13-P601, energize NNS-SWG1C and NNS-SWG1B from Div III Diesel Generator as follows:

2.9.1. Place E22-ACB04, SYNC SWITCH in NRM/BUS.

Standard Operator rotates E22-ACB04, SYNC SWITCH to NRM/BUS.

Cue N/A Notes Results SAT UNSAT RJPM-AUD-D14-S4 Rev 1 Page 6 of 12

RJPM-NRC-S16-S4 Rev. 1

6. *Procedure Step: 2.9.2. Close E22-ACB04, HPCS BUS SUPPLY BRKR.

Standard Operator rotates E22-ACB04, HPCS BUS SUPPLY BRKR to trip then to close.

Cue N/A Notes Results SAT UNSAT

7. Procedure Step: 2.9.3. Place E22-ACB04, SYNC SWITCH in OFF.

Standard Operator rotates E22-ACB04, SYNC SWITCH to OFF.

Cue N/A Notes Results SAT UNSAT RJPM-AUD-D14-S4 Rev 1 Page 7 of 12

RJPM-NRC-S16-S4 Rev. 1

8. *Procedure Step: 2.10 Shutdown the HPCS Pump per SOP-0030, High Pressure Core Spray.

SOP-0030, Section 6 System Shutdown 6.1 Verify E22A-S2, HPCS MANUAL INITIATION collar is in the DISARM position.

6.2 Depress E22A-S7, HPCS INITIATION RESET Pushbutton and check the white light goes off.

6.3 Verify the following valves are closed:

6.3.1. E22-F023, HPCS TEST RETURN VLV TO SUPPRESSION POOL 6.3.2. E22-F010, HPCS TEST BYPASS VLV TO CST 6.3.3. E22-F011, HPCS TEST RETURN VALVE TO CST 6.3.4. E22-F004, HPCS INJECT ISOL VALVE 6.4 WHEN flow lowers below 625 gpm on E22-R603, HPCS FLOW, THEN verify E22 F012, HPCS MIN FLOW VALVE TO SUPPRESSION POOL opens.

6.5 IF E22-C003, HPCS LINE FILL PUMP is not running, THEN start E22-C003.

6.6 Trip E22-ACB02, HPCS PUMP SUPPLY BRKR.

6.7 WHEN HPCS Pump discharge pressure lowers below 300 psig on E22 R601, HPCS PUMP DISCH PRESSURE, THEN verify E22-F012, HPCS MIN FLOW VALVE TO SUPPRESSION POOL closes.

6.8 IF the HPCS DG is operating, THEN shut down the DG per SOP-0052, HPCS Diesel Generator.

Standard Operator depresses the HPCS initiation reset pushbutton and verifies the white light goes off.

Operator trips, HPCS pump supply breaker and verifies red light on, green light off.

Cue N/A Notes Results SAT UNSAT RJPM-AUD-D14-S4 Rev 1 Page 8 of 12

RJPM-NRC-S16-S4 Rev. 1 PROCEDURE NOTE Energizing ENS-SWG1A will allow the automatic sequencing of loads on the buses. The HPCS Diesel Generator load must be maintained less than 2850 KW.

9. *Procedure Step: 2.11 On H13-P877, energize ENS-SWG1A, EJS-SWG1A, and EJS-SWG2A as follows:

2.11.1. Place ENS SWG1A SYNCHRONIZING Switch in ALTN.

Standard Operator rotates ENS SWG1A SYNCHRONIZING Switch to ALTN.

Cue N/A Notes Results SAT UNSAT

10. *Procedure Step: 2.11.2. Close ENS ACB04, ALTERNATE SUPPLY BRKR.

Standard Operator rotates hand switch for ENS ACB04, ALTERNATE SUPPLY BRKR to close.

Cue N/A Notes Results SAT UNSAT RJPM-AUD-D14-S4 Rev 1 Page 9 of 12

RJPM-NRC-S16-S4 Rev. 1

11. Procedure Step: 2.11.3. On V 1EGSA08, STBY BUS A VOLTS Indication, verify standby bus voltage normal.

Standard Bus voltage will indicate in normal range (green band).

Cue N/A Notes Results SAT UNSAT

12. Procedure Step: 2.11.4. Place ENS SWG1A SYNCHRONIZING Switch in OFF.

Standard Operator rotates t-handle switch to OFF.

Cue N/A Notes Results SAT UNSAT Terminating Cue: ENS-SWG1A is aligned to Division 3 Diesel Generator completing all critical steps.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-AUD-D14-S4 Rev 1 Page 10 of 12

RJPM-NRC-S16-S4 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-AUD-D14-S4 Rev 1 Page 11 of 12

RJPM-AUD-D14-S4 Rev 1 OPERATOR CUE SHEET Initiating Cues:

The CRS has directed you to energize ENS SWGR 1A from Division 3 Diesel Generator per AOP-50, Attachment 9, starting with step 2.5.

Initial Conditions:

• Station Blackout in progress.

• RCIC maintaining Reactor Water level.

• AOP-50, Attachment 9 Steps 2.1-2.4 are complete.

RJPM-NRC-S16-S5 Rev 0 Isolate Auxiliary Building CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 9

RJPM-NRC-S16-S5 Rev. 0 EXAMINER INFO SHEET Task Standard: Isolate auxiliary building with all critical tasks completed satisfactory.

Synopsis: Auxiliary building HVAC is required to be isolated due to high radiation levels per EOP-3 and OSP-53 Attachment 21. The ventilation system isolation is manually initiated with two dampers failing to close and one of the standby gas systems fails to automatically start (must be manually started).

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The reactor scrammed one hour ago.

• Auxiliary Building rad levels have risen to EOP-3 entry conditions.

• Reactor pressure 390 psig.

3) Initiating Cues:

The CRS has directed you to isolate the auxiliary building per OSP-53, Attachment 21 in order to reduce radiation levels and allow re-entry.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-S5 Rev 0 Page 2 of 9

RJPM-NRC-S16-S5 Rev. 0 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

REFERENCES:

APPLICABLE OBJECTIVES OSP-53, Attachment 21 RLP-STM-XXXX, Obj X, XX SOP-53, Section 4.1 REQUIRED MATERIALS: SAFETY FUNCTION:

OSP-53, Attachment 21 __9__

SOP-53, Section 4.1 LICENSE LEVEL: SRO / RO ALTERNATE PATH: YES SIMULATOR CONDITIONS & SETUP:

1. IC # 67 Performed with S7

2. Note: GTS Reset/Lockout is labeled backwards in the computer. 2(448) GTS Fan A start and 2(466) GTS Fan B start.

3. P863_73a:e6 Off - SGT Filter Train INOP

4. P863_73a:d6 Off - SGT Filter Train INOP

5. LO_GTS_FN1A_W ON - SGT EXH FAN A WHITE CONTROL POWER LIGHT

6. LO_GTS_FN1B_W ON - SGT EXH FAN B WHITE CONTROL POWER LIGHT

7. DI-GTS_FN1AL RESET - GTS FN 1 A LOCKOUT SWITCH

8. DI-GTS_FN1BL RESET - GTS FN 1 B LOCKOUT SWITCH

9. DI_GTS_FN1AL RESET - Delete in 1 sec on event 3

10. DI_GTS_FN1BL RESET - Delete in 1 sec on event 4

11. Event 3: zdi2(448) GTS FN 1A Start Switch

12. Event 4: zdi2(466) GTS FN 1B Start Swith CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: Isolate auxiliary building with all critical tasks completed satisfactory.

RJPM-NRC-S16-S5 Rev 0 Page 3 of 9

RJPM-NRC-S16-S5 Rev. 0 PERFORMANCE:

START TIME:

OSP-53, EMERGENCY AND TRANSIENT RESPONSE SUPPORT PROCEDURE Attachment 21, Operating Auxiliary Building Ventilation

1. Isolate Auxiliary Building as follows

1. *Procedure Step: 1.1 Perform the following:

• Place HVR-AOD22A, ANNULUS MIX SPLY TO SGT in Man Init.

Standard HVR-AOD22A, ANNULUS MIX SPLY TO SGT hand switch rotated to Man Init.

Cue N/A Notes Results SAT UNSAT

2. *Procedure Step:

• Place HVR-AOD22B, ANNULUS MIX SPLY TO SGT in Man Init.

Standard HVR-AOD22B, ANNULUS MIX SPLY TO SGT hand switch rotated to Man Init.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S5 Rev 0 Page 4 of 9

RJPM-NRC-S16-S5 Rev. 0

3. *Procedure Step:

• Depress AUX BLDG TO SGT FLTR A MANUAL INITIATION Man Initiate Pushbutton.

Standard AUX BLDG TO SGT FLTR A MANUAL INITIATION Man Initiate Pushbutton is depressed.

Cue N/A Notes Results SAT UNSAT

4. *Procedure Step:

• Depress AUX BLDG TO SGT FLTR B MANUAL INITIATION Man Initiate Pushbutton.

Standard AUX BLDG TO SGT FLTR B MANUAL INITIATION Man Initiate Pushbutton is depressed.

Cue N/A Notes Results SAT UNSAT ALTERNATE PATH RJPM-NRC-S16-S5 Rev 0 Page 5 of 9

RJPM-NRC-S16-S5 Rev. 0

5. *Procedure Step: 1.2 Verify the following dampers are closed:

• HVR AOD143, DN STREAM ISOL SUPPLY

• HVR AOD164, UP STREAM ISOL SUPPLY

• HVR AOD263, SGT UPSTREAM SPLY ISOL

• HVR AOD264, SGT DNSTREAM SPLY ISOL

• HVR AOD262, AUX/CNTMT BLDG EXH ISOL

• HVR AOD214, AUX/CNTMT BLDG EXH ISOL

• HVR AOD161, ANNULUS PRESS CONT SUCT

• HVR AOD142, APC UP STREAM DISCH

• HVR AOD261, APC DN STREAM DISCH Standard The division 2 dampers have to be manually closed.

Cue N/A Notes Results SAT UNSAT

6. Procedure Step: 1.3 Verify both divisions of GTS Start.

Standard Operator depressed GTS A(B) start and holds it until suction damper GTS-AOD1A(B) is full open.

Cue N/A Notes RJPM-NRC-S16-S5 Rev 0 Page 6 of 9

RJPM-NRC-S16-S5 Rev. 0 Results SAT UNSAT Terminating Cue: Isolate auxiliary building with all critical tasks completed satisfactory.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-S5 Rev 0 Page 7 of 9

RJPM-NRC-S16-S5 Rev. 0 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-S5 Rev 0 Page 8 of 9

RJPM-NRC-S16-S5 Rev 0 OPERATOR CUE SHEET Initial Conditions:

• The reactor scrammed one hour ago.

• Auxiliary Building rad levels have risen to EOP-3 entry conditions.

• Reactor pressure 390 psig.

Initiating Cues:

The CRS has directed you to isolate the auxiliary building per OSP-53, Attachment 21 in order to reduce radiation levels and allow re-entry.

RJPM-NRC-S16-S6 Rev 0 Transfer NPS SWG1A and NPS SWG1B from preferred to normal CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 14

RJPM-NRC-S16-S6 Rev. 0 EXAMINER INFO SHEET Task Standard: NPS-SWG1A and NPS-SWG1B are aligned to Normal completing all critical steps satisfactory.

Synopsis: NPS SWG1A and NPS SWG1B are swapped from preferred to normal sources of power.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• Reactor power is approximately 9%.

• Fast transfer function has been verified OPERABLE by verifying STP-302-0603 has been performed and is current.

3) Initiating Cues:

The CRS has directed you to transfer NPS SWG1A and NPS SWG1B from preferred to normal sources of power per GOP-1, Attachment 1, Step 9 (p. 51) using SOP-45, Sections 5.1.1 and 5.1.2.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-S6 Rev 0 Page 2 of 14

RJPM-NRC-S16-S6 Rev. 0 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Open MSIVs During Recovery from 239007001001 262001 A4.01 3.4 / 3.7 Automatic Isolation 262001 A4.04 3.6 /

3.7 REFERENCES

APPLICABLE OBJECTIVES SOP-46, Rev 51 RLP-STM-0300, Obj 9 REQUIRED MATERIALS: SAFETY FUNCTION:

SOP-0046, 4.16 KV SYSTEM (Sim Copy) __6__

LICENSE LEVEL: SRO / RO ALTERNATE PATH: NO SIMULATOR CONDITIONS & SETUP:

1. IC # 65 CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: NPS-SWG1A and NPS-SWG1B are aligned to Normal completing all critical steps satisfactory.

RJPM-NRC-S16-S6 Rev 0 Page 3 of 14

RJPM-NRC-S16-S6 Rev. 0 PERFORMANCE:

START TIME:

SOP-0045 Section 5.1, Transfer of Power Source from Preferred Station Service Transformers to Normal Station Service Transformers NOTE Operation of the tap changer on RTX-XSR1E and RTX-XSR1F in the automatic mode or the electrically driven manual mode can be prevented if the manual operating handle is not fully inserted into its storage apparatus. With this handle not fully inserted, the tap changer will not operate in automatic or electrically driven manual mode which does not allow movement of the tap changer from its current position. The storage apparatus is designed to prevent automatic and electrically driven manual operation when the crank handle is removed, because the removed handle could be in use manually operating the tap changer.

1. *Procedure Step: 5.1.1. Transfer NPS SWG1A from preferred to normal source as follows:

1. Turn 13.8KV SYNC SELECT Switch to NORM for NPS SWG1A.

Standard Operator placed handle in sync select notch. Then rotated handle clockwise to NORM.

Cue N/A.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 4 of 14

RJPM-NRC-S16-S6 Rev. 0

2. Procedure Step: 2. On V 1NPSA08, 13.8KV NORM SUPPLY VOLTS Indication, check voltage is in normal band.

Standard Operator verifies voltage is in normal band.

Cue N/A.

Notes Results SAT UNSAT

3. Procedure Step: 3. Check sync scope pointer is at approximately 12 O'clock and motionless.

Standard Operator verifies sync scope is at 12 Oclock and motionless.

Cue N/A.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 5 of 14

RJPM-NRC-S16-S6 Rev. 0

4. Procedure Step: 4. Check breaker sync permissive red light above the breaker indicating lights is on.

Standard Operator verifies breaker sync permissive red light is on.

Cue N/A.

Notes Results SAT UNSAT NOTE Due to switchgear rating, both supply breakers should only remain closed for the minimum possible time and in all cases less than 15 seconds.

5. *Procedure Step: 5. Close NPS ACB09, 13.8KV NORM SUPPLY BRKR.

Standard Operator rotates NPS ACB09 breaker hand switch clockwise to close.

Cue N/A.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 6 of 14

RJPM-NRC-S16-S6 Rev. 0

6. Procedure Step: 6. On A 1SPSA03, 13.8KV NORM SUPPLY AMPS Indication, check amperage increase.

Standard Operator verified amperage increase on A 1SPSA03, 13.8KV NORM SUPPLY AMPS Indication.

Cue N/A.

Notes Results SAT UNSAT

7. *Procedure Step: 7. Trip NPS ACB11, 13.8KV PFD SUPPLY BRKR as soon as possible by depressing TRIP Pushbutton.

Standard Operator tripped NPS ACB11, 13.8KV PFD SUPPLY BRKR Cue N/A.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 7 of 14

RJPM-NRC-S16-S6 Rev. 0

8. Procedure Step: 8. Place 13.8KV SYNC SCOPE Switch to OFF for NPS SWG1A.

Standard Operator rotates 13.8KV SYNC SCOPE Switch counter clockwise to OFF.

Cue N/A.

Notes Results SAT UNSAT NOTE Operation of the tap changer on RTX-XSR1E and RTX-XSR1F in the automatic mode or the electrically driven manual mode can be prevented if the manual operating handle is not fully inserted into its storage apparatus. With this handle not fully inserted, the tap changer will not operate in automatic or electrically driven manual mode which does not allow movement of the tap changer from its current position. The storage apparatus is designed to prevent automatic and electrically driven manual operation when the crank handle is removed, because the removed handle could be in use manually operating the tap changer.

9. Procedure Step: 5.1.2. Transfer NPS SWG1B from preferred to normal source as follows:

1. At RTX XSR1F Transformer Control Cabinet, place the Tap Changer Control Switch in LOCAL CONTROL.

2. Hold the MANUAL RAISE/LOWER Switch to move the tap changer to the 3 LOWER position; which is 3 steps counterclockwise from zero.

Standard Operator contacts SNEO to place the Tap Changer Control Switch in LOCAL CONTROL and the tap changer is in 3 LOWER position.

Cue Report as SNEO that the Tap Changer Control Switch is in LOCAL CONTROL and the tap changer is in 3 LOWER position.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 8 of 14

RJPM-NRC-S16-S6 Rev. 0

10. *Procedure Step: 3. Turn 13.8KV SYNC SELECT Switch to NORM for NPS SWG1B.

Standard Operator moves handle to NPS SWG1B switch and turned 13.8KV SYNC SELECT Switch to NORM for NPS SWG1B.

Cue N/A.

Notes Results SAT UNSAT

11. Procedure Step: 4. On V 1NPSB08, 13.8KV NORM SUPPLY VOLTS Indication, check voltage is in normal band.

Standard Operator verifies voltage is in normal band.

Cue N/A.

Notes Results SAT UNSAT

12. Procedure Step: 5. Check sync scope pointer is at approximately 12 Oclock and motionless.

Standard Operator verifies sync scope is at 12 Oclock and motionless.

Cue N/A.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 9 of 14

RJPM-NRC-S16-S6 Rev. 0

13. Procedure Step: 6. Check breaker sync permissive red light above the breaker indicating lights is on.

Standard Operator verifies breaker sync permissive red light is on.

Cue N/A.

Notes Results SAT UNSAT NOTE Due to switchgear rating, both supply breakers should only remain closed for the minimum possible time and in all cases less than 15 seconds.

14. *Procedure Step: 7. Close NPS ACB25, 13.8KV NORM SUPPLY BRKR.

Standard Operator closed NPS ACB25, 13.8KV NORM SUPPLY BRKR.

Cue N/A.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 10 of 14

RJPM-NRC-S16-S6 Rev. 0

15. Procedure Step: 8. On A 1SPSB03, 13.8KV NORM SUPPLY AMPS Indication, check amperage increase.

Standard Operator verified amperage increase on A 1SPSA03, 13.8KV NORM SUPPLY AMPS Indication.

Cue N/A.

Notes Results SAT UNSAT

16. *Procedure Step: 9. Trip NPS ACB27, 13.8KV PFD SUPPLY BRKR as soon as possible by depressing TRIP Pushbutton.

Standard Operator tripped NPS ACB27, 13.8KV PFD SUPPLY BRKR.

Cue N/A.

Notes Results SAT UNSAT

17. Procedure Step: 10. Place 13.8KV SYNC SELECT Switch to OFF for NPS SWG1B.

Standard Operator rotated 13.8KV SYNC SELECT Switch counter clockwise to OFF for NPS SWG1B.

Cue N/A.

Notes Results SAT UNSAT RJPM-NRC-S16-S6 Rev 0 Page 11 of 14

RJPM-NRC-S16-S6 Rev. 0 Terminating Cue: NPS-SWG1A and NPS-SWG1B are aligned to Normal completing all critical steps satisfactory.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-S6 Rev 0 Page 12 of 14

RJPM-NRC-S16-S6 Rev. 0 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-S6 Rev 0 Page 13 of 14

RJPM-NRC-S16-S6 Rev 0 OPERATOR CUE SHEET Initial Conditions:

• Reactor power is approximately 35%.

• Fast transfer function has been verified OPERABLE by verifying STP-302-0603 has been performed and is current.

Initiating Cues:

The CRS has directed you to transfer NPS SWG1A and NPS SWG1B from preferred to normal sources of power per GOP-1, Attachment 1, Step 9 (p. 51) using SOP-45, Sections 5.1.1 and 5.1.2.

River Bend Station Initial License Exam Page 14 of 14

RJPM-NRC-S16-S7 Rev 1 DRIVE IN IRM/SRM DETECTORS FOLLOWING A SCRAM Bank: RJPM-AUD12-S6 CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 15 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 12

RJPM-NRC-S16-S7 Rev. 1 EXAMINER INFO SHEET Task Standard: SRM and IRM detectors driven full in and IRMs down-ranged to appropriately monitor power with all critical steps completed satisfactory.

Synopsis: This task will insert the SRM and IRM detectors following a scram and adjust IRM range settings to monitor core power.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• A reactor scram has just occurred from extended power operation.

• SRM mode switches are in OPERATE.

3) Initiating Cues:

The CRS has directed you to drive in the SRM and IRM detectors, in accordance with AOP-0001, using the guidance in SOP-0074 Section 5.1.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-S7 Rev 1 Page 2 of 12

RJPM-NRC-S16-S7 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

DRIVE IN SRM/IRM DETECTORS 215003001001 215003 A1.01 3.4/3.3 215003 A4.03 3.6/3.4 215003 A4.06 3.0/2.9 215003 A4.07 3.6/3.6 215004 A1.01 3.0/3.1 215004 A4.04 3.2/3.2 215004 A4.07 3.4/

3.6 REFERENCES

APPLICABLE OBJECTIVES SOP-0074, Rev 307, Section 5.1 RLP-STM-0503 Objective 2, 10, 15 REQUIRED MATERIALS: SAFETY FUNCTION:

SOP-0074, Rev 307, Section 5.1 __7__

LICENSE LEVEL: SRO / RO ALTERNATE PATH: NO SIMULATOR CONDITIONS & SETUP:

1. IC # 67 Performed with S5.

2. Reactor scram occurred.

3. Reactor pressure 390 psig.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: SRM and IRM detectors driven full in and IRMs down-ranged to appropriately monitor power with all critical steps completed.

RJPM-NRC-S16-S7 Rev 1 Page 3 of 12

RJPM-NRC-S16-S7 Rev. 1 PERFORMANCE:

START TIME:

SOP-0007, Neutron Monitoring System Section 5.1, Inserting SRM/IRM Detectors

1. Procedure Step: 5.1.1. IF undervessel access has been permitted during a plant outage, THEN perform the following:

1. Verify that the CRD Removal Platform is stowed and locked in its proper position.

2. Verify that the SRM/IRM cover plates have been removed from the CRD Removal Platform.

3. Verify that the SRM/IRM cables are in the proper position to allow for inserting detectors.

Standard N/A. The detectors are not inserted during a plant outage.

Cue N/A Notes Results SAT UNSAT

2. *Procedure Step: 5.1.2. Depress the SRM/IRM POWER ON Pushbutton.

Standard The SRM/IRM POWER ON Pushbutton is depressed. Verified POWER ON light is lit.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S7 Rev 1 Page 4 of 12

RJPM-NRC-S16-S7 Rev. 1

3. Procedure Step: 5.1.3. Check position indication of the detectors.

Standard Candidate located/identified the detector position indicating light and verified the detector is OUT by checking the OUT light is ON and the IN light is OFF.

Cue N/A Notes Results SAT UNSAT

4. *Procedure Step: 5.1.4. Depress the SRM/IRM SELECT Pushbuttons for the SRM/IRM detectors to be inserted.

Standard Candidate located/identified the SRM/IRM SELECT Pushbuttons and selected all 4 SRMs and all 8 IRMs by depressing the associated pushbutton and verifying the pushbutton light illuminated indicating that it was depressed/selected.

Cue N/A Notes The standard listed here will drive in all detectors simultaneously. The candidate may elect to drive in the SRMs and IRMs separately. Either way is acceptable.

Results SAT UNSAT RJPM-NRC-S16-S7 Rev 1 Page 5 of 12

RJPM-NRC-S16-S7 Rev. 1 PROCEDURE NOTE Observation of changing indicated power levels provides verification of detector movement.

5. *Procedure Step: 5.1.5. IF driving in SRMs, THEN depress the DRIVE IN Pushbutton as necessary to maintain SRM counts greater than or equal to 1 x 103 and less than or equal to 1 x 105 CPS.

Standard Candidate located/identified and depressed the DRIVE IN pushbutton and monitored SRM count rate.

Cue N/A Notes Takes approximately 3 minutes 20 seconds from full out to full in.

Results SAT UNSAT PROCEDURE CAUTION Premature down ranging of the IRM Range Switches can result in a Reactor Scram. Do not down range IRMs until the detectors are fully inserted in the core to prevent possible RPS actuation.

6. Procedure Step: 5.1.6. IF driving in IRMs, THEN perform the following:

1. Place IRM/APRM Recorder Switches to the IRM position.

Standard Candidate located/identified the IRM/APRM Recorder Switches and placed them all into the IRM position by manipulating the toggle switch to IRM.

Cue N/A Notes Not critical because the SRM detectors are already on service.

Results SAT UNSAT RJPM-NRC-S16-S7 Rev 1 Page 6 of 12

RJPM-NRC-S16-S7 Rev. 1

7. Procedure Step: 5.1.6. IF driving in IRMs, THEN perform the following:

2. Range IRMs as necessary to maintain power level indication greater than or equal to 15/125 and less than or equal to 75/125.

Standard N/A. SRMs are on range.

Cue N/A Notes Results SAT UNSAT

8. *Procedure Step: 5.1.7. Depress the DRIVE IN Pushbutton.

Standard Candidate located/identified and depressed the DRIVE IN Pushbutton and monitored IRM power levels.

Cue N/A Notes Takes approximately 3 minutes 20 seconds from full out to full in.

Results SAT UNSAT

9. Procedure Step: 5.1.8. Check the DRIVE IN and DRIVING IN Indicator Lights are on.

RJPM-NRC-S16-S7 Rev 1 Page 7 of 12

RJPM-NRC-S16-S7 Rev. 1 Standard Candidate located/identified and verified the DRIVE IN and DRIVING IN lights are on for all detectors.

Cue N/A Notes Results SAT UNSAT

10. Procedure Step: 5.1.9. IF the detector was out of the core, THEN check the OUT Indicator Lights go off.

Standard Candidate located/identified and verified the OUT indicating light for each detector extinguished.

Cue N/A Notes Results SAT UNSAT

11. Procedure Step: 5.1.10. WHEN the detectors are fully inserted into the core, THEN perform the following:

1. Check the IN Lights are on.

2. Check the DRIVING IN Light is off.

Standard Candidate located/identified and verified the IN indicating light for each detector was ON.

Candidate located/identified and verified the DRIVING IN indicating light for each detector was OFF.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S7 Rev 1 Page 8 of 12

RJPM-NRC-S16-S7 Rev. 1

12. *Procedure Step: 5.1.10. WHEN the detectors are fully inserted into the core, THEN perform the following:

3. Depress the DRIVE IN Pushbutton.

Standard Candidate located/identified and depressed the DRIVE IN pushbutton.

Cue N/A Notes Results SAT UNSAT

13. *Procedure Step: 5.1.10. WHEN the detectors are fully inserted into the core, THEN perform the following:

4. Depress the SRM/IRM SELECT Pushbuttons to de select the detector drive motors.

Standard Candidate located/identified the SRM/IRM SELECT Pushbuttons and de-selected all 4 SRMs and all 8 IRMs by depressing the associated pushbutton and verifying the pushbutton light extinguished indicating that it was no longer depressed/de-selected.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S7 Rev 1 Page 9 of 12

RJPM-NRC-S16-S7 Rev. 1

14. *Procedure Step: 5.1.11. Depress SRM/IRM POWER ON Pushbutton to turn off power.

Standard Candidate located/identified and depressed the SRM/IRM POWER ON Pushbutton to turn the power off and verified the POWER ON light extinguished.

Cue N/A Notes Results SAT UNSAT Terminating Cue:

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-S7 Rev 1 Page 10 of 12

RJPM-NRC-S16-S7 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-S7 Rev 1 Page 11 of 12

RJPM-NRC-S16-S7 Rev 1 OPERATOR CUE SHEET Initial Conditions:

• A reactor scram has just occurred from extended power operation.

• Reactor pressure 390 psig.

Initiating Cues:

The CRS has directed you to drive in the SRM and IRM detectors, in accordance with AOP-0001, using the guidance in SOP-0074 Section 5.1.

RJPM-NRC-S16-S8 Rev 0 PLACE RHR A IN SUPPRESSION POOL COOLING MODE Bank: RJPM-OPS-204-01A CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

X Perform Plant Simulate X Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Danny James Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 10

RJPM-NRC-S16-S8 Rev. 0 EXAMINER INFO SHEET Task Standard: RHR A aligned in suppression pool cooling and RHR A pump secured with all critical steps completed satisfactory.

Synopsis: RHR A aligned in suppression pool cooling. When flow is established the pump amps will be high and require the pump to be secured.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• RHR A is in Standby. Suppression Pool temperature is 80ºF

3) Initiating Cues:

• The CRS directs you as Unit Operator to place RHR A in Suppression Pool Cooling per SOP-0031 Section 4.6 in preparation for upcoming scheduled RCIC run.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-S8 Rev 0 Page 2 of 10

RJPM-NRC-S16-S8 Rev. 0 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Place RHR A in Suppression Pool 205012001001 219000K1.01 3.8/3.9 Cooling Mode with high pump amps 21900 A4.02 3.7/3.5 21900 A4.01 3.8/3.7 21900 A4.05 3.4/3.4 21900 K3.01 3.9/4.1 21900 K4.07 3.0/3.1 21900 K4.09 3.3/3.4 21900 G04 3.9/3.9 21900 A1.01 4.0/4.0 21900 G07 4.0/4.1 21900 A1.02 3.5/3.5 21900 A1.08 3.7/

3.6 REFERENCES

APPLICABLE OBJECTIVES SOP-0031, Residual Heat Removal HLO-021-07, Obj 2, 3, 6, 8, and 11.

ARP-P601-20 ALARM RESPONSE REQUIRED MATERIALS: SAFETY FUNCTION:

SOP-0031, Residual Heat Removal __3__

ARP-P601-20 ALARM RESPONSE LICENSE LEVEL: SRO / RO ALTERNATE PATH: YES / NO SIMULATOR CONDITIONS & SETUP:

Required Power: Reactor Shutdown IC No.: 67 Performed with S2 Notes: Set up on trigger 1 the following Annunicator and meter Override on E12-F024A control switch Annunicator Override p601_20a:a_4 RHR PUMPA OVERLOAD PRE-TRIP WARNING t1 d00:0:30 Meter Override AO_E12-C002A-M 601-20B RHR PUMP A MOTOR AMPS MT t1 s-130 r00:00:30 CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: RHR A aligned in suppression pool cooling and RHR A pump secured with all critical steps completed.

RJPM-NRC-S16-S8 Rev 0 Page 3 of 10

RJPM-NRC-S16-S8 Rev. 0 PERFORMANCE:

START TIME:

SOP-0031, Residual Heat Removal Section 4.6, Suppression Pool Cooling Mode Startup

1. Procedure Step: 4.6.1. IF Standby Service Water is supplying service water loads, THEN verify closed SPC-AOV16, SPC HX SW DISCH VLV.

Standard N/A. Normal service water is supplying service water loads.

Cue N/A Notes Results SAT UNSAT PROCEDURE CAUTION Opening E12-F024A(B), RHR PUMP A(B) TEST RTN TO SUP PL partially or fully, with the associated RHR Pump shutdown can cause water hammer when the pump is started. Do not allow a pump start until the loop has been filled and vented if E12-F024A(B) has been opened with the pump shutdown.

2. Procedure Step: 4.6.2. Verify the RHR Heat Exchangers are being supplied by either Normal or Standby Service Water.

Standard Operator verifies the RHR Heat Exchangers are being supplied by Normal Service Water.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S8 Rev 0 Page 4 of 10

RJPM-NRC-S16-S8 Rev. 0 PROCEDURE NOTE Per ER 98-0273 - 5800 gpm of Normal Service Water may be supplied to each Division of the RHR Hxs during ATWS conditions provided the guidelines outlined in the P&Ls are observed.

Normal Service Water can be supplied to both RHR Heat Exchangers to support modes of operation in both loops, provided the COMBINED Normal Service Water flow does not exceed 5800 gpm.

Two Standby Service Water Pumps are required in each loop when operating the Standby Service Water System for heat removal through the RHR Heat Exchangers.

3. *Procedure Step: 4.6.3. On H13-P870, throttle open E12-F068A, RHR HX A SVCE WTR RTN to establish less than or equal to 5800 gpm flow as indicated on E12 R602A, RHR HX A SVCE WTR FLOW.

Standard Operator throttles open E12-F068A, on the P870, to establish less than or equal to 5800 gpm flow as indicated on E12 R602A, on the P601.

Cue N/A Notes Results SAT UNSAT

4. Procedure Step: 4.6.4. IF performing this Section for RHR Heat Exchanger service water flushing only, WHEN 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> have elapsed, THEN go to Step 6.3.4 to secure from flushing.

Standard N/A Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S8 Rev 0 Page 5 of 10

RJPM-NRC-S16-S8 Rev. 0

5. *Procedure Step: Start the E12-C002A, RHR PUMP A.

Standard Operator rotates hand switch clockwise to start the pump. Red light off and green light on.

Cue N/A Notes Expected annunciator P601-19-F07 Div 1 ADS LOGIC LPCS/LPCI OPR PERMISSIVE.

Results SAT UNSAT

6. *Procedure Step: 4.6.6. Open E12-F024A, RHR PUMP A TEST RTN TO SUP PL.

1. WHEN flow exceeds 1100 gpm, THEN verify E12-F064A, RHR PUMP A MIN FLOW TO SUP PL closes.

Standard Operator opens E12-F024A and observes the E12-F064A closes.

Cue N/A Notes Results SAT UNSAT

7. *Procedure Step: 4.6.7. Check running pump amps are less than or equal to 91 amps.

Standard Operator verifies running pump amps are less than or equal to 91 amps.

Cue N/A Notes When the operator verifies pump amps, they will indicate greater than 105 amps.

Results SAT UNSAT RJPM-NRC-S16-S8 Rev 0 Page 6 of 10

RJPM-NRC-S16-S8 Rev. 0 ALTERNATE PATH

8. Procedure Step: Per H13-P601/20A/A04, RHR PUMP A OVERLOAD PRE-TRIP WARNING

1. Verify the following:

• RHR Pump A discharge flow is less than 5950 gpm.

• E12-F064A, RHR PUMP A MIN FLOW TO SUP PL is closed.

Standard Operator verifies pump A discharge flow is less than 5950 gpm and the E12-F064A is closed.

Cue N/A Notes Results SAT UNSAT NOTE RHR Pump A trips if current reaches 150 amps. RHR Pump A full load motor current is 91 amps.

9. *Procedure Step: 2. Reduce pump motor amps by throttling closed any of the following valves:

• E12-F003A, RHR A HX OUTLET VALVE

• E12-F048A, RHR A HX BYPASS VALVE Standard The operator will throttle closed either the E12-F003A or E12-F048A.

Cue N/A Notes Results SAT UNSAT RJPM-NRC-S16-S8 Rev 0 Page 7 of 10

RJPM-NRC-S16-S8 Rev. 0

10. *Procedure Step: 3. IF pump motor amps cannot be reduced below 105 amps AND RHR A is not needed for level control, THEN stop RHR Pump A.

Standard Operator will stop RHR Pump A.

Cue N/A Notes Results SAT UNSAT Terminating Cue: RHR A aligned in suppression pool cooling and RHR A pump secured with all critical steps completed.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-S8 Rev 0 Page 8 of 10

RJPM-NRC-S16-S8 Rev. 0 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-S8 Rev 0 Page 9 of 10

RJPM-NRC-S16-S8 Rev 0 OPERATOR CUE SHEET Initial Conditions:

• RHR A is in Standby. Suppression Pool temperature is 80ºF Initiating Cues:

• The CRS directs you as Unit Operator to place RHR A in Suppression Pool Cooling per SOP-0031 Section 4.6 in preparation for upcoming scheduled RCIC run.

RJPM-NRC-S16-P1 Rev 2 Alternating CRD Discharge Filters CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

Perform X Plant X Simulate Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: A. Willson Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 9

RJPM-NRC-S16-P1 Rev. 2 EXAMINER INFO SHEET Task Standard: CRD pump discharge filters swapped and discharge filter B placed back in service with all critical tasks completed satisfactory.

Synopsis: Operator will attempt to place CRD pump discharge filter A on service.

While placing A on service a high D/P will occur requiring B to be placed back in service.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The reactor is critical.

• CRD pump discharge filter B is in service.

3) Initiating Cues:

• The CRS has directed you to swap CRD discharge filters IAW SOP-2, Section 5.3.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-P1 Rev 2 Page 2 of 9

RJPM-NRC-S16-P1 Rev. 2 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Alternate CRD Discharge Filters 201005001001 201001 A2.05 2.9 / 2.9 201009001004

REFERENCES:

APPLICABLE OBJECTIVES SOP-0002, Section 5.4 RLP-STM-0109, Obj 7, 12 REQUIRED MATERIALS: SAFETY FUNCTION:

SOP-0002, Section 5.4 __1__

LICENSE LEVEL: SRO / RO ALTERNATE PATH: YES SIMULATOR CONDITIONS & SETUP:

N/A for plant JPM CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: CRD pump discharge filters swapped and discharge filter A placed back in service with all critical tasks completed satisfactory.

RJPM-NRC-S16-P1 Rev 2 Page 3 of 9

RJPM-NRC-S16-P1 Rev. 2 PERFORMANCE:

START TIME:

SOP-0002, CONTROL ROD DRIVE HYDRAULICS Section 5.3, Alternating Discharge Filters

1. Procedure Step: 5.3.1. Verify the C11 PDIS N002, Filter Differential Pressure Indicating Switch is in operation.

Standard Operator verifies C11 PDIS N002 is in operation. Isolation valves are open.

Cue Gauge indicates 12 psid (11-13 psid).

Notes Results SAT UNSAT

2. *Procedure Step: 5.4.2. Perform the following for the filter to be placed in operation.

1. Open C11 VF020A(B), CRD PMP DISCH FILTER D003A(B) INLET ISOL VLV.

Standard Operator rotates C11 VF020A, CRD PMP DISCH FILTER D003A INLET ISOL VLV counter clockwise.

Cue Stem rises and resistance felt in the counter clockwise direction.

Notes Results SAT UNSAT RJPM-NRC-S16-P1 Rev 2 Page 4 of 9

RJPM-NRC-S16-P1 Rev. 2

3. *Procedure Step: 2. Vent the filter as follows:

1) Open C11 VF022A(B), CRD PMP DISCH FILTER D003A(B) VENT VLV.

Standard Operator rotates C11 VF022A, CRD PMP DISCH FILTER D003A VENT VLV in the counter clockwise direction.

Cue Resistance is felt in the counter clockwise direction.

Notes Results SAT UNSAT

4. *Procedure Step: 2) Throttle open DER V8(V10), C11 FLTD003A(B) VENT VALVE to vent air from the filter.

Standard Operator rotates DER V8, C11 FLTD003A VENT VALVE clockwise.

Cue After the handwheel is rotated approximately 1/2 turn counter clockwise, report air is streaming from the valve for approximately 3 seconds. Then a steady stream of water is coming from the vent valve.

Notes Results SAT UNSAT

5. *Procedure Step: 3) WHEN air free water is vented from filter, THEN close the following valves:

• DER V8(V10)

• C11 VF022A(B)

Standard Operator rotates DER V8 and C11 VF022A clockwise.

Cue Resistance felt in the clockwise direction for each valve closed.

Notes Results SAT UNSAT RJPM-NRC-S16-P1 Rev 2 Page 5 of 9

RJPM-NRC-S16-P1 Rev. 2

6. *Procedure Step: 3. Slowly open C11 VF021A(B), CRD PMP DISCH FILTER D003A(B)

OUTLET ISOL VLV.

Standard Operator rotates C11 VF021A, CRD PMP DISCH FILTER D003A OUTLET ISOL VLV counter clockwise.

Cue Resistance felt in the counter clockwise direction.

Notes Results SAT UNSAT CAUTION Backflow through the filter could damage the filter cartridge. Do not close C11-VF020A(B) before closing C11-VF021A(B).

7. *Procedure Step: 5.3.3. Perform the following for the filter being removed from service:

1. Close C11 VF021A(B), CRD PMP DISCH FILTER D003A(B) OUTLET ISOL VLV.

Standard Operator rotates C11 VF021B, CRD PMP DISCH FILTER D003B OUTLET ISOL VLV clockwise.

Cue Resistance felt in the counter clockwise direction.

Notes Results SAT UNSAT

8. Procedure Step: 2. Verify proper filter operation by observing C11 PDIS N002 is in normal band.

Standard Operator verifies D/P by observing C11 PDIS N002.

Cue C11 PDIS N002 indicates 0-30 psid. Raise half inch increments until 28 psid.

Notes Discharge filter high D/P alarms at 20 psid at P601 in control room. A low suction pressure alarm and pump trip occur at 25 inches Hg absolute which initiates an alarm on P601 in control room.

Results SAT UNSAT RJPM-NRC-S16-P1 Rev 2 Page 6 of 9

RJPM-NRC-S16-P1 Rev. 2 ALTERNATE PATH

9. *Procedure Step: Per EN-OP-120, Operator Fundamentals Program Monitoring: Identify degrading parameter and equipment trends.

Control: Anticipate the impact of component operation prior to its operation, and then verify that the expected effects occur during and following the operation.

Standard Operator rotates C11 VF021B, CRD PMP DISCH FILTER D003B OUTLET ISOL VLV. counter clockwise.

Cue Resistance felt in the counter clockwise direction.

C11_PDIS_N002 indicates as is.

Notes Results SAT UNSAT Terminating Cue: CRD pump discharge filters swapped and discharge filter A placed back in service with all critical tasks completed satisfactory.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-P1 Rev 2 Page 7 of 9

RJPM-NRC-S16-P1 Rev. 2 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-P1 Rev 2 Page 8 of 9

RJPM-NRC-S16-P1 Rev 2 OPERATOR CUE SHEET Initial Conditions:

• The reactor is critical.

• CRD pump discharge filter B is in service.

Initiating Cues:

• The CRS has directed you to swap CRD discharge filters IAW SOP-2, Section 5.3.

RJPM-NRC-S16-P2 Rev 1 AOP-31, Attachment 12, ATC actions CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

Perform X Plant X Simulate Simulator Control Room Prepared: Gabe Kimich Date: 7/8/2016 Reviewed: Scott Dallas Date: 7/21/2016 (Operations Representative)

Approved: John Fralick Date: 8/5/2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 11

RJPM-NRC-S16-P2 Rev. 1 EXAMINER INFO SHEET Task Standard: SOP-31, Attachment 12, Sections 1.1.4-1.1.6 critical tasks completed satisfactory.

Synopsis: Operator completes ATC actions for control room evacuation due to fire at the remote shutdown panel.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM. When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

• The reactor is shutdown.

• Crew is manning the remote shutdown panel due to smoke in the control room.

3) Initiating Cues:

The CRS has directed you to complete AOP-31, (SHUTDOWN FROM OUTSIDE THE MAIN CONTROL ROOM) Sections 1.1.4-1.1.6.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-P2 Rev 1 Page 2 of 11

RJPM-NRC-S16-P2 Rev. 1 DATA SHEET K&A SYSTEM: K&A RATING:

203000 K4.14 3.6 /

3.7 REFERENCES

APPLICABLE OBJECTIVES SOP-0031 RLP-STM-200, Obj 3, 11 REQUIRED MATERIALS: SAFETY FUNCTION:

SOP-0031, Section 1.1.4-1.1.6 __2__

LICENSE LEVEL: SRO / RO ALTERNATE PATH: NO SIMULATOR CONDITIONS & SETUP:

N/A CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: SOP-31, Attachment 12, Sections 1.1.4-1.1.6 critical tasks completed satisfactory.

RJPM-NRC-S16-P2 Rev 1 Page 3 of 11

RJPM-NRC-S16-P2 Rev. 1 PERFORMANCE:

START TIME:

SOP-31, SHUTDOWN FROM OUTSIDE THE MAIN CONTROL ROOM Section 1.1.4-1.1.6

1. *Procedure Step: 1.1.4. WHEN informed by the CRS per Step 5.9, THEN At C61-P001, REMOTE SHUTDOWN PANEL, perform the following:

1. Place S8, TRANSFER SWITCH FOR E12-F027A, E12 F042A, E12 F053, in EMERG.

Standard S8, TRANSFER SWITCH FOR E12-F027A, E12 F042A, E12 F053, rotated to EMERG.

Cue S8 switch has been rotated to EMERG position.

Notes Results SAT UNSAT

2. Procedure Step: 2. IF RHR A was in Shutdown Cooling, THEN place the E12-F004A, RHR PUMP A SUP PL SUCTION VALVE Control Switch in the CLOSE position.

Standard N/A. Initial conditions do not mention RHR A in shutdown cooling.

Cue N/A. If asked, RHR A was not in shutdown cooling.

Notes Results SAT UNSAT RJPM-NRC-S16-P2 Rev 1 Page 4 of 11

RJPM-NRC-S16-P2 Rev. 1

3. *Procedure Step: 3. Place the following Transfer Switches in EMERG:

1) S6, TRANSFER SWITCH FOR E12-F048A, E12 F008, E12 F006A, E12 F004A Standard S6 handswitch rotate clockwise to EMERG position.

Cue You hear click sound and resistance in clockwise direction.

Notes Results SAT UNSAT

4. *Procedure Step: 3. Place the following Transfer Switches in EMERG:

2) S12, TRANSFER SWITCH FOR E12-C002A Standard S12, TRANSFER SWITCH FOR E12-C002A, rotated clockwise to EMERG position.

Cue You hear click sound and resistance in clockwise direction.

Notes Results SAT UNSAT RJPM-NRC-S16-P2 Rev 1 Page 5 of 11

RJPM-NRC-S16-P2 Rev. 1

5. *Procedure Step: 3. Place the following Transfer Switches in EMERG:

3) S7, TRANSFER SWITCH FOR E12-F068A, E12 F047A, E12 F003A, E12 F024A Standard S7, TRANSFER SWITCH FOR E12-F068A, E12 F047A, E12 F003A, E12 F024A, is rotated clockwise to EMERG position.

Cue You hear click sound and resistance in clockwise direction.

Notes Results SAT UNSAT

6. Procedure Step: 4. IF RHR A was in Shutdown Cooling, THEN verify that E12-F040, RHR A TO RADWASTE DN STREAM ISOL VALVE Control Switch in the CLOSE position.

Standard N/A. Initial conditions do not mention RHR A in shutdown cooling.

Cue N/A. If asked, RHR A was not in shutdown cooling.

Notes Results SAT UNSAT

7. *Procedure Step: 5. Place S9, TRANSFER SWITCH FOR E12-F064A, E12 F037A, E12 F040, E12-F026A, E12-F011A in EMERG.

RJPM-NRC-S16-P2 Rev 1 Page 6 of 11

RJPM-NRC-S16-P2 Rev. 1 Standard S9 rotated clockwise to EMERG position.

Cue You hear click sound and resistance in clockwise direction.

Notes Results SAT UNSAT PROCEDURE NOTE If the Division I Emergency Diesel Generator tripped due to a high Lube Oil or Jacket Water outlet temperature, the UO may have already placed 43-1SWP A05 and 43-1SWP A08 to EMERG.

8. *Procedure Step: 1.1.5. At RSS-PNL101, BOP REMOTE SHUTDOWN PNL, the far right panel, verify the following RSS Transfer Switches in EMERG:

1. 43-1SWP A05, CONTACT TRANSFER SWITCH Standard Operator rotates handle for 43-1SWP A05, CONTACT TRANSFER SWITCH clockwise to EMERG position.

Cue You hear click sound and resistance in clockwise direction.

Notes Results SAT UNSAT

9. *Procedure Step: 1.1.5. At RSS-PNL101, BOP REMOTE SHUTDOWN PNL, the far right panel, verify the following RSS Transfer Switches in EMERG:

2. 43-1SWP A08, CONTACT TRANSFER SWITCH Standard Operator rotates handle for 43-1SWP A08, CONTACT TRANSFER SWITCH clockwise to EMERG position.

RJPM-NRC-S16-P2 Rev 1 Page 7 of 11

RJPM-NRC-S16-P2 Rev. 1 Cue You hear click sound and resistance in clockwise direction.

Notes Results SAT UNSAT

10. Procedure Step: 1.1.6. Report to the CRS that Attachment 12, ATC Operator Actions is complete.

Standard Operator reports Attachment 12 is complete.

Cue Acknowledge attachment 12 is complete.

Notes Results SAT UNSAT Terminating Cue: SOP-31, Attachment 12, Sections 1.1.4-1.1.6 critical tasks completed satisfactory.

STOP TIME:

RJPM-NRC-S16-P2 Rev 1 Page 8 of 11

RJPM-NRC-S16-P2 Rev. 1 CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-P2 Rev 1 Page 9 of 11

RJPM-NRC-S16-P2 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-P2 Rev 1 Page 10 of 11

RJPM-NRC-S16-P2 Rev 1 OPERATOR CUE SHEET Initial Conditions:

• The reactor is shutdown.

• Crew is manning the remote shutdown panel due to smoke in the control room.

Initiating Cues:

The CRS has directed you to complete AOP-31, (SHUTDOWN FROM OUTSIDE THE MAIN CONTROL ROOM) Sections 1.1.4-1.1.6.

RJPM-NRC-S16-P3 Rev 1 Align Instrument Air System (IAS) to Safety Relief Valve Air System (SVV)

CRITICAL TIME FRAME: Required Time (min): NA Actual Time (min): NA PERFORMANCE TIME: Average Time (min): 20 Actual Time (min):

EVALUATION METHOD: EVALUATION LOCATION:

Perform X Plant X Simulate Simulator Control Room Prepared: Dave Bergstrom Date: September 11, 2013 Reviewed: A. Willson Date: July 21, 2016 (Operations Representative)

Approved: John Fralick Date: August 5, 2016 (Facility Reviewer)

River Bend Station Initial License Exam Page 1 of 13

RJPM-NRC-S16-P3 Rev. 1 EXAMINER INFO SHEET Task Standard: Backup air is lined up to Supply each SRV Division Separately from IAS using AOP-0050, Attachment 6 and all critical steps completed satisfactory.

Synopsis: During a station blackout event, power is lost to the SVV Compressors. This JPM provides a method for providing a backup source of air to the SRVs.

This task will align the Instrument Air System (IAS) to the Safety Relief Valve Air System (SVV) using AOP-0050, Station Blackout. An Alternate Path is taken when the SVV Header fails to pressurize.

1) Read to the operator:

I will provide the initial conditions and initiating cues to you. I may also provide cues during the performance and ask follow-up questions at the conclusion of this JPM.

When you complete the task successfully, the objective for this JPM will be satisfied.

Inform me when you have completed the task.

NOTE: If in the Plant or the Control Room, Caution the operator NOT to MANIPULATE the controls, but to make clear what they would do if this were not a simulated situation.

2) Initial Conditions:

A station blackout is in progress.

SRVs are required to be cycled to stabilize reactor pressure The IAS Diesel Air Compressor is operating, lined up to supply air to the Instrument Air System.

3) Initiating Cues:

The CRS has directed you to provide backup air from the Instrument Air System (IAS) to the SRVs per Attachment 6 of AOP-0050.

4) Solicit and answer any questions the operator may have.

RJPM-NRC-S16-P3 Rev 1 Page 2 of 13

RJPM-NRC-S16-P3 Rev. 1 DATA SHEET TASK

Title:

Task Number K&A SYSTEM: K&A RATING:

Align the Instrument Air System (IAS) 278001004004 218000 A2.03 3.4 / 3.6 to the Safety Relief Valve Air System 300000 K4.02 3.0 / 3.0 (SVV) in accordance with AOP-0050, 295003 AK1.06 3.8 / 4.0 Attachment 6.

REFERENCES:

APPLICABLE OBJECTIVES AOP-0050, Rev 55 RLP-HLO-541, Obj 7 REQUIRED MATERIALS: SAFETY FUNCTION:

AOP-0050, Rev 48, Attachment 6 __8__

LICENSE LEVEL: SRO / RO ALTERNATE PATH: YES SIMULATOR CONDITIONS & SETUP:

1. NA - This is an In Plant JPM.

CRITICAL ELEMENTS: Items marked with an

• are Critical Steps and are required to be performed. Failure to successfully complete a Critical Step requires the JPM to be evaluated as Unsatisfactory.

TASK STANDARD: Backup air is lined up to Supply each SRV Division Separately from IAS using AOP-0050, Attachment 6 and all critical steps completed satisfactory.

RJPM-NRC-S16-P3 Rev 1 Page 3 of 13

RJPM-NRC-S16-P3 Rev. 1 PERFORMANCE:

START TIME:

AOP-0050, Station Blackout Attachment 6, IAS Diesel Air Compressor Backup to SVV Header Procedure Step: 1. Contact the Aux Control Room, verify Diesel Air Compressor is lined up and operating to supply air to the IAS System.

Standard NA Cue NA Notes Applicant has no actions to perform in this step per initial conditions.

1. Procedure Step: 2. Proceed to Turbine Building 95 ft el, northeast corner, next to the Auxiliary Building door, and perform the following:

Standard Applicant arrived at the designated location.

Cue NA Notes Results SAT UNSAT

2. Procedure Step: 2.1 Open AOP-0050, Station Blackout, IAS Diesel Air Compressor Backup to SVV Header Supply Kit, and verify the kit contains the following equipment:

Standard Applicant located and identified the kit.

Cue Do not allow the applicant to open the kit.

Notify the applicant that all required equipment is present and that movement of equipment will be simulated.

Notes Results SAT UNSAT RJPM-NRC-S16-P3 Rev 1 Page 4 of 13

RJPM-NRC-S16-P3 Rev. 1

3. Procedure Step: 2.2 Move the needed contents of this kit to the Aux Building 141 ft el.

Standard Applicant arrived at the designated location.

Cue NA Notes Results SAT UNSAT PROCEDURE NOTE It is preferable to supply the SVV header via the IAS system per Section 3 of this attachment rather than supplying each SRV division separately from IAS per Section 4.

4. Procedure Step: 3.1 On IAS-V345, IAS SUPPLY ROOT, behind HVR-FLT2, next to door to SBGT Train A, install a 90° elbow with tee fitting.

Standard Applicant located/identified IAS-V345 and simulated installing the elbow and T-fitting.

Cue Elbow and t-fitting installed as simulated.

Notes Valve is located about 7 foot off the floor.

Results SAT UNSAT RJPM-NRC-S16-P3 Rev 1 Page 5 of 13

RJPM-NRC-S16-P3 Rev. 1

5. Procedure Step: 3.2 At SVV-V3000, AIR HEADER X-CONNECT DRAIN, located five feet northeast of PVLCS Skid A Accumulator Tank, install a quick connect fitting Standard Applicant located/identified SVV-V3000 and simulated installing the quick connect fitting.

Cue Quick connect fitting installed as simulated.

Notes There is a cap installed.

Results SAT UNSAT

6. Procedure Step: 3.3 Make a hose connection between IAS-V345, IAS SUPPLY ROOT and SVV-V3000, AIR HEADER X-CONNECT DRAIN.

Standard Applicant stated/simulated connecting a hose between the IAS-V345 and SVV-V3000.

Cue Hose is connected as simulated.

Notes Results SAT UNSAT

7. Procedure Step: 3.4 Close the bleed valve on the tee fitting at IAS-V345, IAS SUPPLY ROOT.

Standard Applicant located/identified stated that the bleed valve on the tee fitting has been closed by turning in the clockwise direction until motion stopped.

Cue Resistance is felt in the clockwise direction.

Notes Results SAT UNSAT RJPM-NRC-S16-P3 Rev 1 Page 6 of 13

RJPM-NRC-S16-P3 Rev. 1

8. Procedure Step: 3.5 OPEN IAS-V345, IAS SUPPLY ROOT.

Standard Applicant has stated that valve IAS-V345 has been opened by turning the handwheel in the counter-clockwise direction until valve motion stopped.

Cue Stem rises and resistance if felt in the counter-clockwise direction.

Notes Results SAT UNSAT

9. Procedure Step: 3.6 OPEN SVV-V3000, AIR HEADER X-CONNECT DRAIN Standard Applicant has stated that valve SVV-V3000 has been opened by turning the handwheel in the counter-clockwise direction until valve motion stopped.

Cue Stem rises and resistance is felt in the counter-clockwise direction.

Notes Results SAT UNSAT

10. Procedure Step: 3.7 At the SVV Dryer Panel, observe SVV header pressure on SVV-PI38A or 38B. IF SVV header pressure can NOT be maintained greater than 101 psig, THEN disconnect the hookup per steps 3.8.1 through 3.8.6 and proceed to section 4 of this attachment.

Standard Applicant located/identified SVV-PI38A or 38B.

{Cue}

Applicant transitions to step 3.8.1 Cue Indicate a pressure of 90 psig Notes Results SAT UNSAT RJPM-NRC-S16-P3 Rev 1 Page 7 of 13

RJPM-NRC-S16-P3 Rev. 1 ALTERNATE PATH

11. Procedure Step: 3.8.1 Close IAS-V345, IAS SUPPLY ROOT.

Standard Applicant has stated that valve IAS-V345 has been closed by turning the handwheel in the clockwise direction until valve motion stopped.

Cue Resistance is felt in the clockwise direction.

Notes Results SAT UNSAT

12. Procedure Step: 3.8.2 Close SVV-V3000, AIR HEADER X-CONNECT DRAIN Standard Applicant has stated that valve SVV-V3000 has been closed by turning the handwheel in the clockwise direction until valve motion stopped.

Cue Resistance is felt in the clockwise direction.

Notes Results SAT UNSAT

13. Procedure Step: 3.8.3 At IAS-V345, IAS SUPPLY ROOT open the bleed valve on the tee fitting.

Standard Applicant located/identified stated that the bleed valve on the tee fitting has been opened by turning in the counter-clockwise direction until motion stopped.

Cue Resistance is felt in the counter-clockwise direction.

Notes Results SAT UNSAT RJPM-NRC-S16-P3 Rev 1 Page 8 of 13

RJPM-NRC-S16-P3 Rev. 1

14. Procedure Step: 3.8.4 Disconnect the hose from IAS-V345, IAS SUPPLY ROOT and SVV-V3000, AIR HEADER X-CONNECT DRAIN.

Standard Applicant stated/simulated disconnecting a hose between the IAS-V345 and SVV-V3000.

Cue Hose is as simulated.

Notes Results SAT UNSAT

15. Procedure Step: 3.8.5 Remove the tee fitting from IAS-V345, IAS SUPPLY ROOT.

Standard Applicant simulated removing the elbow and T-fitting.

Cue Elbow and t-fitting are as simulated.

Notes Results SAT UNSAT

16. Procedure Step: 3.8.6 At SVV-V3000, AIR HEADER X-CONNECT DRAIN, remove the quick connect fitting.

Standard Applicant simulated removing the quick connect fitting.

Cue Quick connect fitting is as simulated.

Notes Results SAT UNSAT RJPM-NRC-S16-P3 Rev 1 Page 9 of 13

RJPM-NRC-S16-P3 Rev. 1 Section 4 Supplying each SRV Division Separately from IAS.

17. *Procedure Step: 4.1 On IAS-V345, IAS SUPPLY ROOT, behind HVR-FLT2, next to door to SBGT Train A, install a 90° elbow with cross fitting.

Standard Applicant located/identified IAS-V345 and simulated installing the elbow and cross fitting.

Cue Elbow and cross fitting are installed as simulated.

Notes IAW step 10 of this JPM, applicant performed procedure steps 3.8.1 through 3.8.6 then proceeds to step 4.

Results SAT UNSAT

18. *Procedure Step: 4.2 At SVV-V48, HDR A OUTBOARD LEAKAGE MONITORING CONNECTION, located 4 feet southeast of LPCS Injection Valve, E21-MOVF005, install a quick connect fitting.

Standard Applicant located/identified SVV-V48 and simulated installing the quick connect fitting.

Cue Quick connect fitting is installed as simulated.

Notes Ask student if he can point out the valve without going down the ladder.

If able, dont go down ladder.

Best access for the valve is using the LPCS pit ladder; can be seen best from the top of the other pit (to the east).

Results SAT UNSAT RJPM-NRC-S16-P3 Rev 1 Page 10 of 13

RJPM-NRC-S16-P3 Rev. 1

19. *Procedure Step: 4.3 At SVV-V51, HDR B OUTBOARD LEAKAGE MONITORING CONNECTION, located 2 feet south of HPCS Injection Valve E22-MOVF004, install a quick connect fitting.

Standard Applicant located/identified SVV-V51 and simulated installing the quick connect fitting.

Cue Ask the applicant to point out the valve without going down the ladder.

If able, dont go down ladder.

After pointing out the correct valve, inform the applicant that another operator will complete this task.

Notes This is a manual valve located below the HPCS injection valve handwheel.

Results SAT UNSAT Terminating Cue: Backup air is lined up to Supply each SRV Division Separately from IAS using AOP-0050, Attachment 6.

This completes this JPM.

STOP TIME:

CRITERIA FOR SATISFACTORY EVALUATION

1. 100% of critical elements/steps identified in the JPM successfully completed.

2. Critical Time Frame is met if applicable.

3. No actual safety violation (radiological or industrial) requiring evaluator intervention.

CRITERIA FOR UNSAT EVALUATION

1. Any critical element/step is graded as "UNSAT"

2. Critical Time Frame is not met if applicable. *

3. Actual safety violation (radiological or industrial) requiring evaluator intervention.

4. Operator's actions would have damaged plant equipment, created a personnel safety hazard, or otherwise reduced the level of safety of the plant RJPM-NRC-S16-P3 Rev 1 Page 11 of 13

RJPM-NRC-S16-P3 Rev. 1 VERIFICATION OF COMPLETION Operator: License (Circle one): RO / SRO Evaluator:

Follow-up Questions:

Follow-up Question Response:

Time to complete JPM: minutes Comments / Feedback:

RESULT: Satisfactory / Unsatisfactory Note: An "Unsatisfactory" requires comments.

Evaluator's Signature: Date:

RJPM-NRC-S16-P3 Rev 1 Page 12 of 13

RJPM-NRC-S16-P3 Rev 1 OPERATOR CUE SHEET INITIAL CONDITIONS:

A station blackout is in progress.

SRVs are required to be cycled to stabilize reactor pressure The IAS Diesel Air Compressor is operating, lined up to supply air to the Instrument Air System.

INITIATING CUE:

The CRS has directed you to provide backup air from the Instrument Air System (IAS) to the SRVs per Attachment 6 of AOP-0050.

River Bend Station Initial License Exam Page 13 of 13

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 1 Page 1 of 6 Facility: River Bend Nuclear Station Scenario No.: 1 Op-Test No.: NRC LOT 2016 Examiners: ____________________________ Operators: _____________________________

Initial Conditions: Operating at 100% power.

Inoperable Equipment: None Turnover:

Severe Thunderstorm warning in effect for West Feliciana in effect. All required actions per AOP-29 (Severe Weather Operation) are complete.

Scenario Notes:

This scenario is a NEW Scenario.

Validation Time: 60 minutes

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 1 Page 2 of 6 Event Malf. No. Event Type Event No. Description C (BOP)

HPCS Inadvertent Initiation. AOP 6, Condensate/Feedwater 1 HPCS004 TS (CRS)

Failures. TS 3.5.1 AOP Isophase Bus Duct Cooling Fan Trips. SOP 67, Isolated 2 MGEN005B C (BOP)

Phase Bus Duct Cooling System. ARP P870-54-B-1 C (ATC) Degraded Grid. Adjust MVARs per AOP 64, Degraded Grid.

3 AOP ARP 680-P808-86-H-1.

C (ATC) FWS Pump A motor failure (amps increasing/secure pump).

AO_FWS-4 AOP 6, Condensate/Feedwater Failures. AOP 24, Thermal A03-M AOP Hydraulics Stability Controls. ARP P680-3-C-1.

P680-6A-IA_8 SDV level instrument fails high 1 of 4 instruments. TS 3.3.1.1.

5 TS (CRS)

(1/2 scram ARP P680-5-B-10, P680-5-A-10, P680-6-A-8 signal) 6 ED002B M (CREW) NPS-B Fault/Trip. Complete loss of feedwater. EOP 1 7 C (BOP) RCIC trips due to malfunction. Restore HPCS.

RWCU line break in the steam tunnel 100 gpm ramp for 3 minutes after mode switch taken to shutdown. ARPs P601-8 WCS006 M (CREW) 21-A-1, P601-21-A-6, P601-21-B-1, P601-21-A-3, P601-21-B-

3. EOP 3 WCS004 WCS005 9 C (ATC) G33-MOV-1 and G33-MOV-4 fail to auto close. AOP 3 MSS024D MSS025D (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (A)bnormal (TS) Tech Spec Quantitative Attributes Table Normal Events 0 EOP Contingency Procedures Used 1 Total Malfunctions 9 Simulator Run Time 60 Malfunctions After EOP Entry 2 EOP Run Time 30 AOP Events 3 Critical Tasks 2 Major Transients 2 Reactivity Manipulations 1 EOPs Used (Requiring measurable action) 2

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 1 Page 3 of 6 SCENARIO ACTIVITIES:

HPCS Inadvertent Initiation:

A. After turnover and at the direction of the lead evaluator trigger Event 1.

B. The BOP will override HPCS off. This will prevent further automatic initiation.

Degraded Grid:

A. After CRS enters TS 3.5.1 and/or at the direction of the lead evaluator trigger Event 2.

B. CRS will enter AOP 64 and dispatcher will notify control room to adjust MVARs.

C. MVARs will initially be 250 MVARs. ATC adjusts MVARs to 200 MVARs per AOP 64, Degraded Grid and ARP 680-P808-86-H-1.

Isophase Bus Duct Cooling Fan Trips:

A. After ATC adjusts MVARs and/or at the direction of the lead evaluator trigger Event 3.

B. The BOP will restart Isophase Bus Duct Cooling Fan per SOP 67, Isolated Phase Bus Duct Cooling System and ARP P870-54-B-1.

FWS Pump A Motor Failure:

A. After BOP restarts Isophase Bus Duct Cooling Fan and/or at the direction of the lead evaluator trigger Event 4.

B. The ATC will recognize the increasing FW motor amps and secure the FWS Pump A per AOP 6 (Condensate/Feedwater Failures), AOP 24 (Thermal Hydraulics Stability Controls), ARP P808-86-H-1, and ARP P680-3-C-1.

SDV level instrument fails high:

A. After ATC trips the FWS Pump A and/or at the direction of the lead evaluator trigger Event 5.

B. 1 of 4 SDV level instruments fails high. CRS enters TS 3.3.1.1.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 1 Page 4 of 6 NPS-B Fault/Trip, Complete loss of feedwater,:

A. After CRS enters TS 3.3.1.1 and/or at the direction of the lead evaluator trigger Event 6.

B. Crew will manually scram the reactor due to the complete loss of feedwater. The automatic RPS scram will occur at 9.7 reactor water level if manual action is not taken first.

RCIC malfunction A. Crew will recognize RCIC malfunction and restore HPCS injection to maintain reactor water level in expanded level band.

RWCU line break in the steam tunnel:

A. 5 minutes after automatic or manual scram, Event 7 will automatically trigger.

B. Indications of high temperatures in the steam tunnel will cause isolation signals.

G33-MOV-1 and G33-MOV-4 will fail to auto close.

C. Crew will shut the failed isolation valves.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 1 Page 5 of 6 Critical Task Number Description Basis Per EOP basis, An area temperature above its maximum normal operating level is an indication that steam from a primary system may be discharging into the secondary containment. As temperatures continue to Per EOP-3, close one RWCU isolation increase, the continued operability of valve (G33-MOV-1 OR G33-MOV-4) equipment needed to carry out EOP actions 1 after failure to close on group 15 isolation may be compromised. High area temperatures before completion of step 5.9 of AOP-3 also present a danger to personnel, a (EOP-3, SC-4) consideration of significance since access to the secondary containment may be required by actions specified in the EOPs.

(EPSTG*0002, B-9-3)

Per EOP basis, Submergence is the preferred method for cooling the core. The core is adequately cooled by submergence when it Restore HPCS injection prior to can be determined that RPV water level is at 2 Emergency Depressurization (EOP-1, or above the top of the active fuel. All fuel ALC-8). nodes are then assumed to be covered with water and heat is removed by boiling heat transfer.

(EPSTG*0002, B-3-1)

• Critical Task (As defined in NUREG 1021 Appendix D)

Simulator Notes:

Prior to scenario, ensure GML Fan 1 is running Prior to scenario, adjust MVAR to 250 MVARs Event 4, get to 360 amps quicker and then ramp to 440 amps slower.

Event 8, need to delete leak once valve is closed.

Provide graphic for the SPI-REC102 to indicate values consistent with grid.

Screen C11NC036 needs to indicate one trip unit in TRIP.

When restoring HPCS during leak, if asked to fill and vent system, expedite the process.

Questions For the isophase fan trouble ARP states, Check computer alarm typer Points GMLFC01 and GMLFC02 to determine which device is causing alarm. May need to provide screen shot to provide proper indications.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 1 Page 6 of 6 SIMULATOR SET UP:

SCHEDULE FILE PICTURE DIRECTOR FILE PICTURE Provide the following:

• Turnover briefing sheets and reactivity management briefing materials.

• Marked up copy of AOP-29, Severe Weather May need screen shot of SPI-REC102 for event 2.

Also screen shot for event 3 computer points GMLFC01 and 02 to determine causing alarm.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 1 of 17 Event No: 1 Event

Description:

HPCS Inadvertent Initiation After turnover and at the direction of the lead evaluator trigger Event 1.

TIME Position Applicants Actions or Behavior o Diagnose and report HPCS initiation per:

o H13-P601/16A/A04, HPCS INITIATION LOW RX WATER LEVEL 2.

BOP o H13-P601/16A/C02, DIV III D/G ENGINE RUNNING.

o Dispatch SNEO to monitor running Division 3 Diesel Generator.

o Request I&C investigate HPCS inadvertent initiation.

o When I&C requested to investigate inadvertent initiation of HPCS, wait 5 minutes and report B21-LISN673R and B21-LISN673C both failed Booth downscale.

o Acknowledge as SNEO to monitor running Division 3 Diesel Generator.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 2 of 17 o Recognize and direct BOP to restore HPCS to standby per SOP-0030, HIGH PRESSURE CORE SPRAY SYSTEM.

o Recognize and enter Tech Spec 3.5.1 ECCS -Operating:

B. High Pressure Core Spray (HPCS) System inoperable.

B.1 Verify by administrative means RCIC System is OPERABLE when RCIC is required to be OPERABLE. 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> completion time.

AND B.2 Restore HPCS System to OPERABLE status. 14 days completion time.

o Recognize and enter Tech Spec 3.3.5.1 Emergency Core Cooling System (ECCS) Instrumentation CRS Table 3.3.5.1-1 3. High Pressure Core Spray System

a. Reactor Vessel Water Level-Low Low, Level 2 - 4 required channels per function. Conditions referenced from required action A.1: B.

B. As required by Required Action A.1 and referenced in Table 3.3.5.1-1.

B.1 Declare supported feature inoperable when its redundant feature ECCS initiation capability is inoperable. 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> from discovery of loss of initiation capability for feature in both divisions.

AND B.2 Declare HPCS system inoperable. 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> from discovery of loss of HPCS initiation capability.

AND B.3 Place channel in trip. 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> completion time.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 3 of 17 o Verify by two independent means the HPCS initiation was inadvertent.

Then place HPCS in standby per OSP-53, Attachment 5 Terminating and Preventing Injection from HPCS (HARDCARD):

BOP o Verify the E22-F004, HPCS INJECT ISOL VALVE (closed) amber override light is lit.

o Stop the HPCS pump. (Trip E22-ACB02, HPCS PUMP SUPPLY BRKR.)

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 4 of 17 Event No: 2 Event

Description:

Isophase Bus Duct Cooling Fan Trips After ATC adjusts MVARs and/or at the direction of the lead evaluator trigger Event 2.

TIME Position Applicants Actions or Behavior o Diagnose and report isophase bus duct cooling fan trips. References H13-P870/54A/B01, ISOL PHASE BUS DUCT COOLING SYS FAILURE alarm.

o Per ARP H13-P870/54A/B01, check computer alarm typer Points GMLFC01 and GMLFC02 to determine which device is causing alarm.

BOP o Per ARP H13-P870/54A/B01, if needed, swap to the standby fan per SOP-0067, Isolated Phase Bus Duct Cooling System.

o Start Isophase Bus Duct Cooling Fan per SOP 67, Isolated Phase Bus Duct Cooling System, section 5.1.1:

In the Main Control Room on H13-P870, start the alternate GML fan by depressing GML-FN1 DUCT FAN 1, START Pushbutton.

o Recognize and direct BOP to start Isophase Bus Duct Cooling Fan per CRS SOP 67, Isolated Phase Bus Duct Cooling System, section 5.1.1.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 5 of 17 Event No: 3 Event

Description:

Degraded Grid After HPCS in standby, CRS enters TS 3.3.5.1 & 3.5.1, and/or at the direction of the lead evaluator trigger Event 3.

TIME Position Applicants Actions or Behavior o Recognize and report degraded grid per ARP P808-86-H-1, GRID BOP TROUBLE alarm.

o Diagnose and report high MVARs per AOP 64, step 5.3 (0 and +230 MVARS).

ATC o MVARs will raise to approximately 270 MVARs as a result of the grid transient.

o Recognize and enter AOP 64, DEGRADED GRID.

o Contact SOC to determine cause of grid transient and desired actions.

CRS Recommend lowering MVARS.

o Direct ATC to lower Generator MVARS to +200 MVARS.

o If SOC is called before diagnosing grid transient, report no known cause and request recommendation from the plant.

Booth o SOC should ask for recommendation to correct plant conditions. When CRS recommends reducing MVARs, the SOC will concur with plan to reduce MVARs (0 to +230 MVARS).

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 6 of 17 Adjusting Generator VARS with the Voltage Regulator in Auto per SOP-80, Section 5.9:

o Verify the VOLTAGE REGULATOR MODE SELECT Switch in AUTO.

o Adjust Generator VARS to the desired output per Attachment 9, MVAR vs. MW Limits or as directed by this procedure or the Load Dispatcher by performing the following:

ATC o IF VARS are high, THEN to lower VARS on the VOLTAGE REGULATOR AUTO ADJUST depress momentarily the LOWER Pushbutton, while monitoring VARS output on VAR-1SPGN05, GENERATOR VARS.

o Continue to perform previous step until the desired (+200) VARS reading is indicated on VAR-1SPGN05, GENERATOR VARS.

When trouble alarm comes in, MVARS will go up for 10 seconds to approximately 250 MVARS. (Override raise pushbutton for 10 seconds to raise to 250 MVARS).

Crew should diagnose the grid trouble and recognize the high MVARS.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 7 of 17 Event No: 4 Event

Description:

FWS Pump A Motor Failure After BOP starts Isophase Bus Duct Cooling Fan and/or at the direction of the lead evaluator trigger Event 4.

TIME Position Applicants Actions or Behavior o Diagnose and report rising FWS-P1A Motor amps using ARP P680 C-1, RX FWP 1A SUPPLY BRKR PRE-TRIP OL.

o Observe increasing motor amps using 1A RX FWP MOTOR AMPS, P680-3 (Second row, first small squint meter).

ATC o Dispatch SNEO to investigate abnormal 1A Reactor Feed water pump indications.

o Observe Recirculation FCV runback when feed pump trips.

o When SNEO dispatched to investigate abnormal 1A Reactor Feed Booth water pump indications, wait 3 minutes and report the motor is hot to touch and no other abnormal indications.

o Recognize and enter AOP 6 (Condensate/Feedwater Failures) and AOP 24 (Thermal Hydraulics Stability Controls).

CRS o Direct ATC to reduce power to 85% using FCVs.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 8 of 17 Reduce reactor power to 85% using recirculation FCVs per SOP-3, Section 5.9 Maintaining Reactor Power with Reactor Recirculation Flow:

o Determine which B33-K603A(B), RECIRC LOOP A(B) FLOW CONTROL is to be adjusted by observing Loop Flows on B33-R612A and B33-R612B. Both loops may have to be adjusted to obtain the desired Reactor Power while maintaining Loop Flow mismatch within ATC specification.

o Lower Reactor Recirculation Flow by toggling momentarily B33 K603A(B) controller in the closed direction using the slow detent while observing a servo error deviation in the negative direction.

o Observe B33-HYVF060A(B), FLOW CONTROL VALVE position, generator load, MWt, APRMs and loop flows for expected changes.

o Once power is reduced to 85%, direct ATC to secure FWS-P1A, CRS Feedwater Pump A per SOP-9, Section 6.1 Reactor Feed Pump Shutdown.

o Secure FWS-P1A, Feedwater Pump A per SOP-9, Section 6.1 Reactor Feed Pump Shutdown:

o Stop FWS P1A, RX FWP P1A.

ATC o Verify CNM H/A68A, RX FWP 1A MIN FLOW FLOW CONTROLLER is in AUTO for the Reactor Feed Pump that was secured.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 9 of 17 Event No: 5 Event

Description:

SDV level instrument fails high After ATC trips the FWS Pump A and/or at the direction of the lead evaluator trigger Event 5.

TIME Position Applicants Actions or Behavior o Recognize and report division 2 half scram using:

o H13-P680/05A/A10 RPS TRIP LOGIC B OR D ACTIVATED o H13-P680/05A/B10 RPS SYSTEM B OR D INOPERATIVE ATC o H13-P680/06A/A08 CRD SCRAM DISCH VOL HIGH WATER LEVEL o Division 2 RPS white lights are out (under full core display on P680).

o Dispatch I&C to investigate half scram.

BOP o Dispatch SNEO to investigate high Scram Discharge Volume.

o Backpanel indications have C11-LIS N601 B offscale high and the other three are reading 0.

o When I&C dispatched to investigate Division 2 half scram, wait 5 Booth minutes and report failed SDV level instrument high.

o When SNEO dispatched to investigate high scram discharge volume, wait 3 minutes and report no local indications of high scram discharge volume.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 10 of 17 o Recognize 1 of 4 SDV level instruments fails high.

o Recognizes and enters Tech Spec 3.3.1.1 Reactor Protection System (RPS) Instrumentation Table 3.3.1.1-1, 8. Scram Discharge Volume Water Level High

a. Transmitter/Trip Unit - 2 required channels per trip system.

CRS Conditions referenced from required action D.1: H A. One or more required channels inoperable.

A.1 Place channel in trip. Completion time 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

OR A.2 Place associated trip system in trip. Completion time 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 11 of 17 Event No: 6 Event

Description:

NPS-B Fault/Trip, Complete loss of feedwater After CRS enters TS 3.3.1.1 and/or at the direction of the lead evaluator trigger Event 6.

TIME Position Applicants Actions or Behavior o Recognize and report loss of NPS-B trip and complete loss of feedwater.

o Per AOP-0006, place C71A S1, REACTOR SYSTEM MODE SWITCH, ATC to SHUTDOWN.

• • • Automatic scram on reactor water level 3 (9.7 inches) will occur in about 10 seconds.

o Enter the following abnormal and emergency procedures:

o AOP-1, REACTOR SCRAM CRS o AOP-6, CONDENSATE/FEEDWATER FAILURES o EOP-1, RPV CONTROL o Direct manual reactor scram due to complete loss of feedwater.

o SCRAM Report o Mode switch is in shutdown.

ATC o All rods are in.

o EOP 1 (RPV CONTROL) Entry Conditions:

o Level 3

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 12 of 17 Event No: 7 Event

Description:

RCIC malfunction E51-F045 will automatically (Event 7) fail closed.

TIME Position Applicants Actions or Behavior o Recognize the complete loss of feedwater and initiate RCIC in anticipation of and in an attempt to avoid a Level 2 initiation signal.

BOP o Diagnose and report failure of RCIC to start. E51-F045 fails to open.

o Dispatch SNEO to investigate and manually open E51-F045.

o When SNEO dispatched to investigate and manually open E51-F045, Booth wait 5 minutes and report valve is stuck.

o Recognize and direct BOP to restore HPCS.

o Per EOP-1, direct BOP to maintain reactor water level -20 to 51 inches wide range.

CRS o Per EOP-1, direct ATC to maintain reactor pressure 500-1090 psig using bypass and drain valves.

o Direct ATC to install enclosure 12, 16, 20, and 24.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 13 of 17 o Restore HPCS per OSP-53, Attachment 4, INITIATING HPCS:

o Verify Annunciator P601-16A-G04, HPCS INJECTION LINE PRESSURE LOW, is not lit.

o Arm and depress HPCS MANUAL INITIATION Pushbutton.

o Verify HPCS PUMP running.

o Verify E22-F004, HPCS INJECT ISOL VALVE, Opens.

BOP o Verify HPCS injection flow.

o Verify E22-F012, HPCS MIN FLOW VALVE TO SUPPRESSION POOL, Closes.

o Per EOP-1, maintain reactor water level -20 to 51 inches wide range.

Critical Task: Restore HPCS injection prior to Emergency Depressurization.

o Per EOP-1, maintain reactor pressure 500-1090 psig using bypass and drain valves.

ATC o Install enclosure 16 and 24.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 14 of 17 o Recognize and direct ATC to verify level 3 and level 2 isolations and CRS initiations.

ATC o Verify level 3 and level 2 reactor water level initiations and isolations.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 15 of 17 Event No: 8 Event

Description:

RWCU line break in the steam tunnel 5 minutes after the reactor scram (AUTOMATIC) or at the direction of the lead evaluator (MANUAL),

trigger Event 8.

NOTE: SP suction swap will occur with rising SP level. SP level steadies out at approximately 20 feet 3 inches.

Main Steam Line Tunnel Temperatures Max Safe 200F Isolation 173F Max Normal 144F TIME Position Applicants Actions or Behavior o Diagnose and report leak in the main steam tunnel using:

o P601-21-A-1, DIV I RCIC ISOL STM SPLY PRESS LOW o P601-21-A-6, RCIC ISOLATION MS TNL HI AMBIENT TEMP ATC o P601-21-B-1, DIV II RCIC ISOL STM SPLY PRESS LOW o P601-21-A-3, RCIC PUMP DISCHARGE FLOW LOW o P601-21-B-3, RCIC TURBINE STEAM SPLY WATER DRAIN TRAP LVL HI o Recognize and enter EOP-3, SECONDARY CONTAINMENT AND RADIOACTIVITY RELEASE CONTROL.

CRS o Recognize and direct ATC to verify high steam tunnel temperature isolations per AOP-3, Automatic Isolations.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 16 of 17 o Per EOP-3, indications of high temperatures in the steam tunnel will cause isolation signals.

Main Steam Line Tunnel Temperature High: 173°F Group 2, 6, 7, 15, and 16 valves isolate.

o Verify Group 15 Valves closed per AOP-3:

o G33 F004 o G33 F054 o G33 F039 o G33 F034 ATC o G33 F001 o G33 F053 o G33 F040 o G33 F028 o Recognize and report G33-MOV-1 and G33-MOV-4 failed to auto close.

o Manually close failed isolation valves.

Critical Task: Close one RWCU isolation valve (G33-MOV-1 OR G33-MOV-4) after failure to close on group 15 isolation before completion of step 5.9 of AOP-3

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Page 17 of 17 TERMINATION Once at least one RWCU isolation valve is shut and reactor water level is being controlled in band or as directed by Lead Evaluator:

• Take the simulator to Freeze and turn horns off.

• Stop and save the SBT report and any other recording devices.

• Instruct the crew to not erase any markings or talk about the scenario until after follow-up questions are asked.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 1 Give this page to the CRS Initial Conditions:

• Operating at 100% power.

Inoperable Equipment:

• None Turnover:

• Severe Thunderstorm warning in effect for West Feliciana in effect. All required actions per AOP-29 (Severe Weather Operation) are complete.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 2 Page 1 of 5 Facility: River Bend Nuclear Station Scenario No.: 2 Op-Test No.: NRC LOT 2016 Examiners: ____________________________ Operators: _____________________________

Initial Conditions: Operating at 100% power.

Inoperable Equipment: None Turnover:

Restore 3-element control for feedwater. I&C has completed maintenance and retest.

Severe Thunderstorm warning in effect for West Feliciana in effect. All required actions per AOP-29 are complete.

Main Turbine experienced increased (approximately 1 mil higher than normal) turbine vibrations on previous shift.

Scenario Notes:

This scenario is a NEW Scenario.

Validation Time: 60 minutes Need to evaluate new ATC bean before the major to replace the normal evolution.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 2 Page 2 of 5 Event Malf. No. Event Type Event No. Description 1 N (ATC) Restore 3-element control per SOP-9, Section 4.10 2 MSS010 C (BOP) Gland Seal Steam Supply Failure. ARP P870-54-E-05 C (BOP)

RHS isolation failure. ARP P870-56A-H-03. AOP-3 3 RHSAOV64 TS (CRS)

(Automatic Isolations). TS 3.6.1.3 AOP C (ATC) NJS-J malfunction. MFP A trip. FCV runback. B FCV fails to runback. Recirculation flow mismatch. AOP 2 (MAIN 4 RCS015B TS (CRS)

TURBINE AND GENERATOR TRIPS) AOP 6 (Condensate /

AOP Feedwater failures). TS 3.4.1 Main Turbine Vibrations increase to manual scram level.

5 ED004J M EOP 1 (RPV Control). OSP-53.

6 CRD014 M Hydraulic ATWS 65%. EOP 1A (RPV Control, ATWS).

7 SLC002A C (BOP) SLC Pump Failure.

8 MSS005E C (BOP) SRV (47B) stuck open. AOP-35 (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (A)bnormal (TS) Tech Spec Quantitative Attributes Table Normal Events 1 EOP Contingency Procedures Used 1 Total Malfunctions 7 Simulator Run Time 60 Malfunctions After EOP Entry 2 EOP Run Time 30 AOP Events 4 Critical Tasks 3 Major Transients 2 Reactivity Manipulations 1 EOPs Used (Requiring measurable action) 2

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 2 Page 3 of 5 SCENARIO ACTIVITIES:

Restore 3-element control A. After turnover the ATC will restore 3-element control for feedwater control using SOP-9, Section 4.10.

Gland Seal Steam Supply Failure:

A. After 3-element control has been restore and/or at the direction of the lead evaluator trigger Event 2.

B. The BOP will throttle open TME-MOVS2 SSE PRESS REG BYP VLV to restore seal steam header pressure per ARP P870-54-E-05.

RHS isolation failure:

A. After seal steam header pressure is restored and/or at the direction of the lead evaluator trigger Event 3.

B. The BOP will close RHS-AOV64, SPC Discharge Valve due to failure to isolate per ARP P870-56A-H-03 and AOP-3 (Automatic Isolations).

C. The CRS will enter TS 3.6.1.3.

NJS-J malfunction:

A. After RHS-AOV64 is closed, TS 3.6.1.3 entered, and/or at the direction of the lead evaluator trigger Event4.

B. FWP A will trip. An automatic FCV runback will occur. The B FCV fails to runback.

A large Recirculation flow mismatch will result.

C. The ATC will manually runback the B FCV to eliminate the flow mismatch per AOP 6 (Condensate / Feedwater failures).

D. The CRS will enter TS 3.4.1.

Main Turbine Vibrations:

A. After the B FCV has been manually runback, TS 3.4.1 entered, and/or at the direction of the lead evaluator trigger Event 5.

B. Vibrations continue to increase to 12 mils which require a manual scram and turbine trip per OSP-53.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 2 Page 4 of 5 ATWS:

A. After the ATC manually scrams the reactor, a 65% Hydraulic ATWS will occur automatically (Event 6 no trigger).

B. The crew will install EOP attachments and drive the control rods in.

SLC Pump Failure:

A. The first SLC pump started will have an automatic malfunction resulting in a failure to inject (Event 7 no trigger).

B. The second SLC pump will operate normally and inject boron as required.

SRV (47B) stuck open:

A. SRV (47B) will automatically open upon the reactor scram. The valve will shut when the hand switch is manually taken to close (Event 8 no trigger).

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 2 Page 5 of 5 Critical Task Number Description Basis With RPV injection terminated, RPV level and reactor power decrease at the maximum Per EOP-1A, RLA-13, terminate and possible rate allowed by boiloff. Failure to prevent all injection sources except completely stop RPV injection flow (with the 1

boron injection, CRD and RCIC prior to exception of CRD, RCIC, and boron injection) exceeding HCTL. would delay the reduction in core inlet subcooling, thus increasing the potential for flux oscillations. (EPSTG*0002, B-7-37)

A scram failure event with reactor power above 5% coupled with an MSIV isolation, however, may result in rapid heatup of the suppression pool due to the steam discharged from the RPV via SRVs. The challenge to containment thus becomes the limiting factor which defines the second of the two possible conditions requiring initiation of boron injection. If suppression pool temperature and RPV pressure cannot be maintained below the Heat Capacity Temperature Limit, emergency Per EOP-1A, RQA-4, inject SLC prior to depressurization will be required. To avoid suppression pool temperature reaching depressurizing the RPV with the reactor at 2

110F. power, it is desirable to shut down the reactor prior to reaching the Heat Capacity Temperature Limit. Suppression pool temperature of 110ºF represents the minimum Boron Injection Initiation Temperature (BIIT).

The suppression pool temperature at which a reactor scram is required by plant Technical Specifications (110ºF). River Bend Station uses the suppression pool temperature at which a reactor scram is required by plant Technical Specifications in place of a curve that is a function of reactor power for simplicity.

(EPSTG*0002, B-7-59)

Positive confirmation that the reactor will remain shutdown under all conditions is best obtained by determining that no control rod is withdrawn beyond the Maximum Subcritical Per EOP-1A, RQA-2, commence driving Banked Withdrawal Position (MSBWP). The 3 control rods in prior to exiting EP-1A. MSBWP is the greatest banked rod position at which the reactor will remain shutdown under all conditions. For the current fuel design and core load, the MSBWP is all control rods fully inserted. (EPSTG*0002, B-7-2)

• Critical Task (As defined in NUREG 1021 Appendix D)

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 2 Page 6 of 5 Simulator Notes:

For the increased turbine vibrations:

TMS003 2 on initiate TMS003 raise to 8.5 over 5 minutes

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 1 of 14 Event No: 1 Event

Description:

Restore 3-element control TIME Position Applicants Actions or Behavior Per SOP-9, Section 4.10 Single Element to Three Element Control Transfer:

o Verify feedwater flow is greater than 10% or 1.31 x 106 lbm/hr.

o Verify RPV level is stable and being controlled automatically by C33 R600, FW REG VALVES MASTER FLOW CONTROLLER.

o Place C33 R600, FW REG VALVES MASTER FLOW CONTROLLER in MANUAL.

o Depress 3 ELEM on the SINGLE ELEMENT THREE ELEMENT Select Switch.

o Place C33 R600, FW REG VALVES MASTER FLOW CONTROLLER in AUTO as follows:

ATC o Adjust tape set 2 inches above actual vessel level and observe the deviation signal is positive.

o Lower tape set 2 inches below actual vessel level and observe the deviation signal is negative.

o Match tape set to actual vessel level in order to null the deviation signal.

o WHEN the level signal is nulled, THEN depress the AUTO Pushbutton and check green light above the pushbutton is on.

o Readjust C33 R600, FW REG VALVES MASTER FLOW CONTROLLER Tape Set to maintain the reactor level requested by the OSM/CRS.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 2 of 14 Event No: 2 Event

Description:

Gland Seal Steam Supply Failure After 3-element control has been restore and/or at the direction of the lead evaluator trigger Event2.

TIME Position Applicants Actions or Behavior o Diagnose and report gland seal steam supply failure.

o References H13-P870/54A/E05, STEAM SEAL EVAP STEAM HEADER LOW PRESSURE:

o Verify header pressure on TME-PIEPR-4, ST SEAL HEADER BOP PRESSURE (3rd meter from the left) is approximately 4 psig. IF pressure is low due to failure of the pressure control valve (TME-PCVSSFV), THEN throttle open TME-MOVS2, SSE PRESS REG BYP VLV (Left of the acknowledge button).

• This handswitch is very sensitive and will require rapid manipulations.

o Recognize and direct BOP to manually restore seal steam header CRS pressure per H13-P870/54A/E05, STEAM SEAL EVAP STEAM HEADER LOW PRESSURE.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 3 of 14 Event No: 3 Event

Description:

RHS isolation failure After seal steam header pressure is restored and/or at the direction of the lead evaluator trigger Event 3.

TIME Position Applicants Actions or Behavior o Recognize and report abnormal reactor building storage pool level DETECTOR per:

o H13-P870 / 56A / H03, RX BLDG STORAGE POOL LEVEL HIGH/LOW.

BOP o H13-P601/20A/B02, SPC SUCTION PRESSURE LOW o H13-P601/20A/E02, SPC PUMP AUTO TRIP o 1SFC*LI11A DRYER STORAGE POOL LEVEL indication will be pegged low indicating a failed level transmitter.

o Recognize and enter AOP-3, Automatic Isolations. Direct BOP to verify isolation.

o Recognize and enter Tech Spec 3.6.1.3 for RHR-AOV64 fail to close.

3.6.1.3 CONTAINMENT SYSTEMS A. One or more penetrations flow paths with one PCIV inoperable except due to leakage not within limit.

A.1 Isolate the affected penetration flow path by the use of at least one CRS closed and de-activated automatic valve, closed manual valve, blind flange, or check valve with flow through the valve secured. Completion Time 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> except for main steam line and 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> form main steam line.

AND A.2 Verify the affected penetration flow path is isolated. Completion time once per 31 days for isolation devices outside primary containment, drywell, and steam tunnel AND Prior to entering MODE 2 or 3 from Mode 4, if not performed within the previous 92 days, for isolation devices inside primary containment, drywell, or steam tunnel.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 4 of 14 o Verify automatic isolation per AOP-3, Automatic Isolations and ARP H13-P870 / 56A / H03, RX BLDG STORAGE POOL LEVEL HIGH/LOW.

o RHS-AOV63, SPC SUCTION VALVE and RHS-AOV64, SPC DISCHARGE VALVE close at low level setpoint. (SFC-LT11A)

BOP

• RHS-AOV64 fails to automatically close. (Handswitch located P601 insert 20 above the silence pushbutton.)

o RHS-AOV62, SPC SUCTION VALVE, closes at low level setpoint.

(SFC-LT11B) o Dispatch SNEO and I&C to investigate spurious Reactor Building storage pool isolation.

o When SNEO dispatched to investigate spurious Reactor Building storage pool isolation, wait three minutes and report normal Reactor Building storage pool level.

Booth o When I&C dispatched to investigate spurious Reactor Building storage pool isolation, wait five minutes and report SFC-LT11A failed downscale.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 5 of 14 Event No: 4 Event

Description:

NJS-J malfunction After RHS-AOV64 is closed, TS 3.6.1.3 entered, and/or at the direction of the lead evaluator trigger Event 4.

TIME Position Applicants Actions or Behavior o Diagnose and report NJS-J malfunction per:

o H13-P808 / 86A / B05, NJS-LDC1A-M/U&V LOAD CENTER GROUND FAULT o H13-P808 / 86A / G05, NJS-LDC1J BLOWN FUSE BOP o H13-P808 / 86A / G07, NJS-LDC1J OR 1K UNDERVOLTAGE (RED) o H13-P808 / 86A / H04, NJS-LDC DIST BRKRS AUTO TRIP o Dispatch SNEO and electrical maintenance to investigate loss of NJS-J.

o When SNEO dispatched to investigate loss of NJS-J, wait 3 minutes and report 86 device (overcurrent) is actuated on feeder breaker.

Booth o When electrical dispatched to investigate loss of NJS-J, wait 10 minutes and report 86 device (overcurrent) is actuated on feeder breaker and tagout is being written to complete troubleshooting per EN-MA-125.

o Diagnose and report feedwater pump A trip and B Recirculation FCV fails to runback per:

o H13-P680 / 03A / A01, RX FW PUMP BREAKERS AUTO TRIP o H13-P680 / 03A / D01, RX FWP 1A DC OIL PUMPS RUNNING ATC o H13-P680/04A/A03, FCV A RUNBACK RFP TRIP o H13-P680/04A/A09, FCV B RUNBACK RFP TRIP - NOT LIT o Loop A/B Flow (C51-R614 Red A/ Blue B, Bottom right on vertical section Insert 4) has a large mismatch.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 6 of 14 o Recognize and enter the following AOPs:

o AOP 6, Condensate / Feedwater failures o AOP 24, THERMAL HYDRAULIC STABILITY CONTROLS o Direct ATC to balance recirculation loop flows due to failure of B Recirculation FCV.

CRS o The CRS will enter TS 3.4.1.

3.4.1 Recirculation Loops Operating A. Recirculation loop jet pump flow mismatch not within limits.

A.1 Shutdown one recirculation loop. Completion 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

o Runback B Recirculation FCV per H13-P680/04A/A09, FCV B RUNBACK RFP TRIP:

Verify both Reactor Recirc flow control valves close to approximately 60% drive flow position:

o Lower Reactor Recirculation Flow by toggling momentarily B33 ATC K603B controller in the closed direction using the slow detent while observing for a servo error deviation in the negative direction.

o Observe B33-HYVF060AB, FLOW CONTROL VALVE position, generator load, MWt, APRMs and loop flows for expected changes.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 7 of 14 Event No: 5 Event

Description:

Main Turbine Vibrations After the B FCV has been manually runback, TS 3.4.1 entered, and/or at the direction of the lead evaluator trigger Event5.

TIME Position Applicants Actions or Behavior o Vibrations continue to increase to 12 mils which require a manual scram and turbine trip per OSP-53, AOP-2 o Diagnose and report rising main turbine vibrations per:

BOP o P870 Insert 53 (Yokogawa on right) bearing vibrations going up.

o H13-P870/54A/D08, TURBINE HIGH VIBRATION o Recognize and report rising main turbine vibrations per:

ATC o P680 CRT1 (Computer screen to left of full core display) bearing vibrations going up. (Number turns red at 7 mils) o Recognize and direct BOP to make Turbine Vibrations a critical parameter.

o Brief crew to manually scram the reactor if main turbine vibrations reach 10 mils per OSP-53 (EMERGENCY AND TRANSIENT CRS RESPONSE SUPPORT) and AOP-2 (MAIN TURBINE AND GENERATOR TRIPS).

o Direct ATC to manually scram the reactor and trip the main turbine when main turbine vibrations reach 10 mils.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 8 of 14 o At 10 mils, manually scram reactor per AOP-1 (Reactor Scram):

o Place C71A S1, REACTOR SYSTEM MODE SWITCH, to SHUTDOWN.

o Check all Control Rods are fully inserted.

o IF all Control Rods are not fully inserted, THEN perform one OR both of the following steps to insert control rods:

ATC o Arm and depress C71A S3A, B, C, and D, MANUAL SCRAM Pushbuttons.

o IF any Control Rods are not fully inserted, THEN arm and depress both C11C S1A and B, ARI CHANNEL A and B MANUAL INITIATION, Pushbuttons.

o Manually trip main turbine.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 9 of 14 Event No: 6 Event

Description:

ATWS After the ATC manually scrams the reactor, a 65% Hydraulic ATWS will occur automatically.

TIME Position Applicants Actions or Behavior ATWS Report o Mode Switch in shutdown. Scram pushbuttons and ARI not effective.

o Reactor Power 40%. Hydraulic block ATWS.

ATC o Turbine manually tripped due to main turbine vibrations.

o MSIVs are open.

o EOP 1 entry conditions: High Pressure, and Power >5% scram required.

o Recognize and enter EOP-1, RPV Control.

o Recognize and enter EOP-1A, RPV Control, ATWS o Directs ATC to trip both reactor recirc pumps.

CRS o Directs ATC to verify ARI initiation.

o Directs BOP to terminate and prevent injection from HPCS.

o Directs BOP to inhibit ADS.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 10 of 14 Trips both reactor recirc pumps.

o Depress the STOP pushbutton for B33-C001A(B) RECIRC PUMP A(B)

MOTOR BREAKER 5A(B).

o Verify B33-C001A(B) RECIRC PUMP A(B) MOTOR BREAKER 5A(B) opens and pump coasts down to 0% speed.

ATC o Open NJS-ACB305(029) by depressing the TRIP pushbutton for B33-S001A(B) LFMG A(B) MOT BRKR 1A(B).

Verifies ARI initiation:

o Verify light indication on ARI/RPT shows initiation. OR o Arm and depress ATS ARI/RPT MAN TRIP Channel 1 and CHANNEL 2 pushbuttons.

Per OSP-0053, Attachment 5 (HARDCARD):

o Override Injection / Initiate HPCS o Verify E22-F004 amber override light is lit.

o Stop the HPCS pump.

BOP o Notify the CRS that injection from HPCS has been terminated and prevented.

Inhibits ADS:

o Places ADS INHIBIT switches to the INHIBIT position.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 11 of 14 o Directs ATC to terminate and prevent all injection in the RPV except boron injection, CRD and RCIC to maintain RPV level -60 to -140 inches wide range.

CRS o Directs ATC to stabilize RPV pressure 950-1090 psig using SRVs, Bypass valves, and drains.

o Directs ATC to maintain RPV pressure 800-1090 psig using SRVs, Bypass valves, and drains.

o Terminate and prevent injection from condensate/feedwater.

o Place the Master Controller in Manual and drive all Feed Reg valves full closed; place the Startup Feed Reg valve in Manual and drive it full closed.

o Intentionally lowers water level to maintain -60 to -140 inches wide range.

ATC Critical Task: Terminate and prevent all injection into the RPV except boron injection, CRD and RCIC prior to Thermal Hydraulic Instabilities (>10% power swings peak to peak on APRM indication).

o Maintain RPV pressure 800-1090 psig using SRVs, Bypass valves, and drains. See event 7 for stuck open SRV.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 12 of 14 o Directs SLC injection prior to SP temperature reaches 110F.

Critical Task: Before Suppression Pool temperature reaches CRS 110F, inject boron (SLC). (EOP-1A, Step RQA-4/5) o Directs BOP to maximize CRD.

o Directs Enclosures 12, 16, 24, and 34 installed.

Booth o Install EOP Enclosures as requested.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 13 of 14 Event No: 7 Event

Description:

SLC Pump Failure The first SLC pump started will have an automatic malfunction resulting in a failure to inject.

TIME Position Applicants Actions or Behavior o Direct BOP to inject SLC per OSP-53, Attachment 13 Initiating Standby CRS Liquid Control.

Inject SLC per OSP-53, Attachment 13 Initiating Standby Liquid Control:

o Place SLC PUMP A(B) (NOT BOTH), control switch to RUN.

o Perform the following:

o Verify the following:

o SQUIB CONTINUITY A(B), light goes Off.

o C41-F001A(B), SLC PUMP A(B) SUCT VLV, Opens.

o C41-C001A(B), SLC PUMP A(B), Starts.

• • • SLC pump will have red light indicating pump start, but BOP discharge pressure (P601-19, C41-R600, meter on right next to SLC pump A switch) will indicate very low due to pump shaft shear.

o IF any required actions do not occur, THEN perform the following:

o Place SLC PUMP A(B), control switch to STOP.

o Repeat steps 1 and 2 for the Alternate pump.

o Notify CRS of SLC injection status.

o Verify IAS-MOV106 is Open. (Enclosure 16 may be required).

o Record SLC Tank Level. gallons _____________

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 14 of 14 Event No: 8 Event

Description:

SRV (47B) stuck open SRV (47B) will automatically open upon the reactor scram.

TIME Position Applicants Actions or Behavior o Recognize and report SRV B21-F047B is stuck open, which is not a BOP low-low set valve open.

o Recognize and enter AOP-35, SAFETY RELIEF VALVE STUCK OPEN.

CRS o Direct per AOP-35, 5.5.51 At H13-P601, take the control switch to OFF.

o At H13-P601, take the control switch for B21-F047B to OFF.

BOP o Verify B21-F047B is closed.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 15 of 14 Event No: 8 Event

Description:

ATWS, SLC failure, SRV stuck open, continued TIME Position Applicants Actions or Behavior Maximize CRD per OSP-53 hardcard:

o Start any available, non-running CRD pump as follows:

o Start C11-C001AP(BP), CRD AUX OIL PUMP A(B).

o Verify C11-C001A(B), CRD PUMP A(B), white control power available light on.

o Start C11-C001A(B), CRD PUMP A(B).

BOP o Place CRD HYDRAULICS FLOW CONTROLLER, in MANUAL and raise signal to 100%.

o Fully Open C11-F003, CRD DRIVE WATER PRESS CONTROL VALVE.

o Verify IAS-MOV106 is Open. IF IAS-MOV106 is not open, AND an ATWS condition exists, THEN notify the CRS that EOP Enclosure 16 is required.

o When attachments are installed, direct ATC to scram and drive rods.

CRS Critical task: Commence driving control rods in prior to exiting EOP-1A.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 2 Page 16 of 14 Inserts Control Rods by Scram and normal lnsert drive by:

Manual Scram:

• Reset Scram signal (Division 1 only)

• Allow Scram Discharge Volume to drain

• Arm and depress Manual Scram pushbuttons. (Division 1 only)

Normal Drive ATC

• Reset Scram signal (Division 1 only)

• Select control rod

• Select gang drive mode

• depress IN TIMER SKIP pushbutton until control rods indicate 00 Critical task: Commence driving control rods in prior to exiting EOP-1A.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 1 of 7 Facility: River Bend Nuclear Station Scenario No.: 3 Op-Test No.: NRC LOT 2016 Examiners: ____________________________ Operators: _____________________________

Initial Conditions: Operating at 100% power.

Inoperable Equipment: None Turnover:

Severe Thunderstorm warning in effect for West Feliciana in effect. All required actions per AOP-29 are complete.

RPS B power supply is on alternate due to repairs to B RPS MG set. RPS B normal power supply is available and tags are being cleared.

STP-203-6305 is in progress commence on step 7.6.3.

Scenario Notes:

This scenario is a NEW Scenario.

Validation Time: 60 minutes What is the status of B RPS MG set at beginning of the scenario? (Should get it back this shift)

The plan is to restore it and reset half scram.

Event 4 recirc pump trip should be on a timed trigger.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 2 of 7 Event Malf. No. Event Type Event No. Description HPCS001 N (BOP) HPCS STP. HPCS pump trip. STP-203-6305. TS 3.5.1.

1 Event 1 TS (CRS) ARP P601-16-B-3, P601-16-F-5, and P601-16-G-4.

C (BOP/ATC) EJS SWGR B lockout. Loss of alternate RPS power supply.

Power supply switched back to normal and half scram reset.

2 ED0040 TS (CRS) AOP 10 (Loss of RPS Bus). ARP P877-32-C-3, P877-32-E-1, P877-32-E-2, P877-32-F-2, P877-32-G-1, P877-32-H-3, AOP and P877-32-H-4. TS 3.8.4 and 3.8.9 C (ATC)

RCS005A Recirc pump seal leak, pump trip, (ATC reduces flow 3/4 TS (CRS)

RCS002A <33kgpm). ARP P680-4-E-5. GOP-4. AOP-24.

AOP Seal leak increases. THI increases and requires manual 5 MSC006 M (CREW) scram. ARP P680-6-C-1, P680-7-A-5, P680-7-A-6, P680 B-5, and P680-7-B-6. AOP-1. EOP-1.

ED001 Delay 2:30 Loss of offsite power. Loss of feedwater. RCIC trips on RCIC001 6 M (CREW) overspeed. Failure of Division 2 DG to energize ENS T8, Ev 8 SWGR-1B. Recirc loop rupture.

ED003I, Delay 2:30 7 RHR009A C (ATC) RHR A pump fails to auto start LPCS002 8 delete on C (ATC) LPCS injection valve fails to auto open event 9 (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (A)bnormal (TS) Tech Spec Quantitative Attributes Table Normal Events 1 EOP Contingency Procedures Used 1 Total Malfunctions 5 Simulator Run Time 60 Malfunctions After EOP Entry 2 EOP Run Time 30 AOP Events 2 Critical Tasks 3 Major Transients 2 Reactivity Manipulations 1 EOPs Used (Requiring measurable action) 1

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 3 of 7 SCENARIO ACTIVITIES:

HPCS pump trip:

A. After turnover the Unit Operator will perform STP-203-6305. During the performance of the STP the HPCS pump will automatically trip (Event 1). The Unit operator should secure HPCS STP lineup per ARP P601-16-B-3, P601-16-F-5, and P601-16-G-4.

B. CRS should enter TS 3.5.1.

EJS SWGR B lockout:

A. After the Unit Operator secures HPCS, CRS enters TS 3.5.1, and/or at the direction of the lead evaluator trigger Event 2.

B. The EJS SWGR B lockout will result in loss of alternate RPS power supply and a division 2 half scram.

C. The Unit Operator will switch the power supply back to normal and the ATC will reset the half scram. AOP 10 (Loss of RPS Bus). ARP P877-32-C-3, P877-32-E-1, P877-32-E-2, P877-32-F-2, P877-32-G-1, P877-32-H-3, and P877-32-H-4.

D. The CRS will enter TS 3.8.4 and 3.8.9.

Recirculation pump seal leak:

A. After the Unit Operator swaps the RPS power supply and has completed AOP-10 through step 13 of Attachment 2, the ATC resets the Division 2 half scram, the CRS enters TS 3.8.4 and 3.8.9, and/or at the direction of the lead evaluator trigger Event 3.

B. The A Recirculation pump #1 seal will degrade.

C. After the crew diagnosis of the seal failure and/or at the direction of the lead evaluator, trigger Event 4 to trip the Recirculation Pump.

D. The ATC will be required to reduce flow to < 33 kgpm and monitor for THI.

ARP P680-4-E-5. GOP-4. AOP-24.

E. The CRS will enter TS 3.5.1.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 4 of 7 Thermal Hydraulic Instability:

A. After the ATC reduces flow to < 33 kgpm, the CRS enters TS 3.5.1, and/or at the direction of the lead evaluator trigger Event 5.

B. THI power swings get bigger and require a manual scram. ARP P680-6-C-1, P680-7-A-5, P680-7-A-6, P680-7-B-5, and P680-7-B-6. AOP-1. AOP-24. EOP-1.

Loss of offsite power & Recirc leak:

A. After the manual scram, Event 6 will automatically occur.

B. The loss of offsite power will result in a loss of all feedwater. RCIC will trip on overspeed. The Division 2 DG will fail to energize ENS SWGR-1B.

C. When RCIC trips, recirc leak will develop leading to lowering reactor water level.

D. Due to a loss of all high pressure injection sources, the crew will be forced to emergency depressurize and inject with Division 1 low pressure ECCS systems.

RHR A pump fails to auto start:

A. The RHR A pump will fail to auto start after automatic initiation. Automatic trigger Event 7.

B. The crew will manually start the RHR A pump to assist restoring reactor water level.

RHR alone will not be enough to restore reactor water level. LPCS will be required as well.

LPCS injection valve fails to auto open:

A. The LPCS injection valve will fail to open after automatic initiation and emergency depressurization. Automatic trigger Event 8.

B. The crew will manually open the LPCS injection valve to assist restoring reactor water level. LPCS alone will not be enough to restore reactor water level. RHR will be required as well.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 5 of 7 Critical Task Number Description Basis It is possible for the Critical Power Ratio Safety Per AOP-24, 4.2, Mode switch to Limit to be violated during a Thermal Hydraulic 1 shutdown prior to 100% oscillations on Instability Event, even if the peak-to-peak an APRM channel. power oscillations are less than 10%. (AOP-24, 1.9)

Emergency RPV depressurization (signaled by Step ALC-11) permits injection from low head systems, maximizes the total injection flow, and minimizes the flow through any primary system break.

Per EOP-1, ALC-8 & 11, Emergency 2 Depressurize prior to -187 inches If it is believed that available injection sources compensated fuel zone. are capable of restoring and maintaining RPV water level above the Minimum Steam Cooling RPV Water Level following RPV depressurization, the blowdown may be performed as soon as RPV level reaches the top of the active fuel. (EPSTG*0002, B-6-29)

The primary action of Step RL-3 defines the range in which RPV level should be established and maintained, and specifies the preferred systems to use in doing so.

Maintaining RPV water level below the high end of the identified control band preserves the availability of RCIC. RPV level above the low end of the identified control band permits the Per EOP-1, RL-2, &3, Manually start RHR scram to be reset (barring the existence of A pump and open LPCS injection valve other scram signals), and allows the use of the 3 prior to transitioning to RPV flooding or normal shutdown cooling system to establish entering SAPs. and maintain cold shutdown conditions.

Submergence is the preferred method for cooling the core. The core is adequately cooled by submergence when it can be determined that RPV water level is at or above the top of the active fuel. All fuel nodes are then assumed to be covered with water and heat is removed by boiling heat transfer.

(EPSTG*0002, B-2-4)

• Critical Task (As defined in NUREG 1021 Appendix D)

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 6 of 7 Simulator Notes:

RPS B in alternate using the key switch in the back.

Set up the IC rod line to ensure when the recirc pump trips the crew is deep in the restricted region.

Make the recirc loop rupture big enough not to be turned by RHR alone.

Event 1 E22-MOVF011 red light on zdi5(856)

Event 10 remove MSC006 5 seconds after mode switch Event 9 LPCS injection valve (5) to open zdi5(538)

T9, RCS001 to 20 on event 9 Event 7, Mode switch not in run Event 8, RCIC turb >90% speed.

Event 30, Narrow range <0, T30 reacotr recirc loop rupture RCS001A to 10. Ramp 2 minutes.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 7 of 7 Event No: 1 Event

Description:

HPCS pump trip After turnover the Unit Operator will perform STP-203-6305. During the performance of the STP the HPCS pump will automatically trip (Event 1). Pump trips 45 seconds after the E22-F011 is taken to the open position (red light on)

TIME Position Applicants Actions or Behavior o Perform STP-203-6305, HPCS QUARTERLY PUMP AND VALVE OPERABILITY TEST:

o 7.6.3 Start E22-C001, HPCS PUMP.

o Expected alarm H13-P808 / 86A / E04, NNS-SWG1A OR 1B FAST TRANSFER BLOCKED o 7.6.4 Check E22-F012, HPCS MIN FLOW VALVE TO SUPPRESSION POOL, auto opens.

o 7.6.5 Simultaneously throttle open E22-F010, HPCS TEST BYPASS BOP VLV TO CST, AND E22-F011, HPCS TEST RETURN VALVE TO CST, equal amounts to establish the Reference Value of 5050 gpm as indicated on E22-R603, HPCS FLOW. (bottom right meter) o 7.6.6 Check E22-F012 auto closes.

o Diagnose and report HPCS Pump trip per o H13-P601/16A/B03, DIV III 4KV BUS AUTO TRIP o H13-P601/16A/F05, HPCS PUMP MOTOR OVERCURRENT o H13-P601/16A/G04, HPCS INJECTION LINE PRESSURE LOW o Recognize and direct BOP to secure HPCS STP lineup.

o Recognize and enter Tech Spec 3.5.1 ECCS -Operating B. High Pressure Core Spray (HPCS) System inoperable.

CRS B.1 Verify by administrative means RCIC System is OPERABLE when RCIC is required to be OPERABLE. 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> completion time.

AND B.2 Restore HPCS System to OPERABLE status. 14 days completion time.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 8 of 7 BOP o Secure HPCS lineup by closing E22-F010 and E22-F011.

o If SNEO requested, at the HPCS pump there are no obvious indications for cause of pump trip.

o If SNEO dispatched to breaker, wait 3 minutes and report trip flags present.

o Acknowledge request for work control to protect RCIC.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 9 of 7 Event No: 2 Event

Description:

EJS SWGR 1B lockout After the Unit Operator secures HPCS, CRS enters TS 3.5.1, and/or at the direction of the lead evaluator trigger Event 2.

TIME Position Applicants Actions or Behavior o Diagnose and report the EJS SWGR B lockout and loss of alternate RPS power supply per:

o P877-32-C-3, ENS-SWG1B SPLY OR DIST BRKR INOPERATIVE o H13-P877/32A/D03, ENS-SWG1B SPLY OR DIST BRKR AUTO TRIP BOP o H13-P877/32A/D04, EJS-SWG1B/2B SPLY OR DIST BRKR AUTO TRIP o H13-P877/32A/F04, 480V STANDBY BUS 1B/2B GROUND DETECTED o P877-32-H-4, EJS-SWG1B/2B SUSTAINED UV o Diagnose and report loss of division 2 RPS and division 2 half scram per:

o H13-P680/05A/A06, LOSS OF RPS B - ALT PWR SUPPLY ATC o H13-P680/05A/A10, RPS TRIP LOGIC B OR D ACTIVATED o The division 2 white lights are out.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 10 of 7 o Recognize and enter AOP 10 (Loss of RPS Bus).

o Recognize and enter TS 3.8.4 and 3.8.9.

3.8.4 DC Sources - Operating A. One required battery charger on Division I or II inoperable.

A.1 Restore battery terminal voltage to greater than or equal to the minimum established float voltage. Completion time 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.

AND A.2 Verify battery float current 2 amps. Completion time once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

CRS AND A.3 Restore battery charger to OPERABLE status. Completion time 7 days.

3.8.9 Distribution Systems - Operating A. One or more Division I or II AC electrical power distribution subsystems inoperable.

A.1 Restore Division I and II AC electrical power distribution subsystems to OPERABLE status. Completion time 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> AND 16 hours1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> from discovery of failure to meet LCO.

o When CRS enters AOP-10, WCS call to report repairs and retest of RPS B MG set are complete and is available.

o If SNEO dispatched to investigate loss of EJS-SWGR1B, wait 3 minutes and report acrid odor coming from switchgear panel. No indications of smoke or fire.

Booth o If electrical maintenance dispatched to investigate loss of EJS-SWGR1B, wait 10 minutes and report acrid odor coming from switchgear panel. No indications of smoke or fire. WCS is working on tagout to complete further EN-MA-125 troubleshooting.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 11 of 7 o Direct BOP to transfer RPS B to Normal Supply per SOP-79, Section 5.2 and AOP-10, Attachment 2.

CRS o Once power is restored to RPS B, direct ATC to reset division 2 half scram per AOP-10, Attachment 2, Step 7.

o Reset the half-scram.

ATC o Place C71A-S5B, SCRAM RESET LOGIC B and C71A-S5D, SCRAM RESET LOGIC D in RESET to reset the half scram per AOP-10, Attachment 2, Step 7.

o When requested, backpanel reset NI cabinet power supply.

Booth o When requested, backpanel sway control room lighting from EJS B to EJS A (Breaker 053).

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 12 of 7 Transfer RPS B to Normal Supply per SOP-79, Section 5.2 and AOP-10, Attachment 2:

o At H13-P610, verify power is available from the MG Set as indicated by GEN. B NORM FEED AVAIL white indicating light.

o On H13-P610, place the POWER TRANSFER Switch in NORM B.

o Reset the following as applicable:

o At H13-P670 and P672, Neutron Monitoring Cabinets, depress S1, RESET Pushbutton for RPS B, located in the power supply section on the lower section of the cabinet.

o Reset the half-isolation:

o B21H-S33, INBD ISOLATION SEAL-IN RESET Pushbutton o B21H-S32, OUTBD ISOLATION SEAL-IN RESET Pushbutton BOP o Check appropriate RPS Trip Logic annunciator clears:

o For RPS Bus B, P680-05A-A10, RPS TRIP LOGIC B OR D ACTIVATED o At H13-P870, reopen the following isolation valves:

o CCP-MOV144, RR PUMP CLG UP STREAM RTN o CCP-MOV158, CONTMT RTN INBD ISOL o At H13-P670, Neutron Monitoring Cabinets, depress S1, RESET Pushbutton for RPS B, located in the power supply section on the lower section of the cabinet.

o At H13-P672, Neutron Monitoring Cabinets, depress S1, RESET Pushbutton for RPS B, located in the power supply section on the lower section of the cabinet.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 13 of 7 o Place control switches for all tripped Drywell Unit Coolers to OFF.

o At H13-P877, close the following breakers:

o EJS-ACB49, NORM CHGR 1B SPLY BRKR (NO POWER) o EJS-ACB50, NHS-MCC101 SPLY BRKR o EJS-ACB66, NHS-MCC 102B SPLY BRKR o EJS-ACB77, IHS-CHGR 1D SPLY BRKR o At H13-P870, reopen the following isolation valves:

o SWP-MOV4B, DRYWELL UC SUPPLY o SWP-MOV5A, DRYWELL UC RETURN o DFR-AOV101, RB FLOOR DR INBD ISOL (NO POWER)

BOP o DER-AOV126, RB EQUIP DR INBD ISOL (NO POWER) o WCS-MOV178 BW TK DR INBD ISOL o Start additional Drywell Unit Coolers as needed per SOP-0060, Drywell Cooling.

o At H13-P863, reopen the following isolation valves:

o HVN-MOV129, CHW SPLY SHUTOFF VLV o HVN-MOV102, CHW RTN INBD ISOL o HVN-MOV130, CHW RTN SHUTOFF VLV o JRB-SOV15, SUPPLY AIR ISOL VLV (NO POWER) o JRB-SOV25, SUPPLY AIR ISOL VLV (NO POWER)

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 14 of 7 o At H13-P863, perform the following to reset HVK-MOV10B, CHW SURGE TK B NORM MKUP:

o Place HVK-MOV10B, CHW SURGE TK B NORM MKUP Control Switch in CLOSE. (NO POWER) o Place HVK-MOV10B, CHW SURGE TK B NORM MKUP Control Switch in AUTO. (NO POWER) o At H13-P808, reopen the following isolation valves:

o RCS-MOV61B, FCV B ACTUATOR LEAKOFF o RCS-MOV60B, FCV B RETURN ISOL VLV BOP o RCS-MOV59B, FCV B CLOSING SPLY VLV o RCS-MOV58B, FCV B OPENING SPLY VLV o At H13-P601, reopen the following isolation valves:

o B33-F019, REACTOR WATER UPSTREAM ISOL VLV (NO POWER) o B21-F016, MSL WARMUP HDR INBD CONTMT ISOL VLV o B21-F085, MSL WARMUP HDR SHUTOFF VALVE

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 15 of 7 Event No: 3 Event

Description:

Recirculation pump seal leak After the Unit Operator swaps the RPS power supply and has completed AOP-10 through step 13 of Attachment 2, the ATC resets the Division 2 half scram, the CRS enters TS 3.8.4 and 3.8.9, and/or at the direction of the lead evaluator trigger Event 3.

After the crew diagnosis of the seal failure and/or at the direction of the lead evaluator, trigger Event 4 to trip the Recirculation Pump.

TIME Position Applicants Actions or Behavior o Diagnose and report the A Recirculation pump #1 seal degrading:

o H13-P680/04A/E05, RECIRC PUMP A SEAL STAGING ATC HIGH/LOW FLOW o #2 PRESS SEAL CAVITY, B33-R602A, Pressure equalizes with #1 PRESS SEAL CAVITY pressure.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 16 of 7 Event No: 4 Event

Description:

Recirculation pump trip After the crew diagnosis of the seal failure and/or at the direction of the lead evaluator, trigger Event 4 to trip the Recirculation Pump.

TIME Position Applicants Actions or Behavior o Diagnose and report recirc pump trip per:

o H13-P680/04A/A01, RECIRC MOTOR A TRIP o H13-P680/04A/B01, RECIRC MOTOR A LOCKOUT/TRIP ATC o H13-P680/05A/C03, RECIRC PUMP SUPPLY BRKR 4A OVERCURRENT o H13-P680 / 03A / B08, REACTOR HIGH/LOW WATER LEVEL o Recognize and enter:

o AOP-24, THERMAL HYDRAULIC STABILITY CONTROLS CRS o GOP-4, SINGLE LOOP OPERATION o Direct ATC to shutdown A recirc loop per AOP-24, section 5.7.

o Direct ATC to reduce recirculation loop flow to <33 kgpm, per GOP-4.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 17 of 7 AOP-24, 5.7 IF a single Recirculation Pump Trip occurs, THEN perform the following actions:

o Enter GOP-0004, Single Loop Operation.

ATC o Place B33-HYV-F060A (B), FLOW CONT VLV for both loops in MANUAL. (Note: both loops are already in Manual) o Perform the following actions for the shutdown loop:

o Close B33-F067A, RECIRC PUMP A DISCH VALVE.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 18 of 7 Event No: 5 Event

Description:

Thermal Hydraulic Instability After the ATC closes B33-F067A, the CRS enters TS 3.5.1, and/or at the direction of the lead evaluator trigger Event 5.

TIME Position Applicants Actions or Behavior Diagnose and report indications of THI per:

o H13-P680/06A/C01, APRM UPSCALE o H13-P680/07A/A05, DIV 1 PERIOD BASED DETECTION SYSTEM HI DECAY RATIO o H13-P680/07A/A06, DIV 1 PERIOD BASED DETECTION SYSTEM HI-ATC HI DECAY RATIO o H13-P680/07A/B05, DIV 2 PERIOD BASED DETECTION SYSTEM HI DECAY RATIO o H13-P680/07A/B06, DIV 2 PERIOD BASED DETECTION SYSTEM HI-HI DECAY RATIO o APRM power oscillations getting larger.

o Recognize THI and enter:

o AOP-1, REACTOR SCRAM CRS o AOP-24, THERMAL HYDRAULIC STABILITY CONTROLS o EOP-1, RPV CONTROL o Direct ATC to place the mode switch in SHUTDOWN, per AOP-24, 4.2.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 19 of 7 o Per AOP-24, 4.2 IF core thermal hydraulic instability is observed, THEN place the reactor mode switch in the SHUTDOWN position.

Critical Task: Mode switch to shutdown prior to 100%

oscillations on an APRM channel.

ATC Scram report:

o Mode switch is in shutdown.

o All rods are in.

o EOP Entry Conditions: Level 3.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 20 of 7 Event No: 6 Event

Description:

Loss of offsite power & Recirc leak:

After the manual scram, Event 6 will automatically occur. Recirc leak gets larger when RCIC trips.

TIME Position Applicants Actions or Behavior o Diagnose and report:

o Loss of offsite power.

BOP o RCIC overspeed trip during startup.

o Division 1 DG will start and energize ENS SWGR-1A.

o Division 2 DG will start but fails to energize ENS SWGR-1B.

o Diagnose and report:

ATC o Loss of offsite power.

o Loss of all feed and condensate.

o Recognize and direct ATC to verify Level 2 and 3 initiations, isolations and diesel generators.

o If RPV level cannot be restored and maintained between 10 inches and 51 inches, then restore and maintain RPV level above -162 inches using Table L-2 Alternate Injection Subsystems if necessary.

CRS o Recognize and direct BOP to maximize CRD flow and inject SLC.

o Direct ATC to install Enclosures 32, 22, 6, 7, and 35.

o Assign level band -20 to 51 inches on RCIC.

o Assign pressure band 500-1090 psig on SRVs.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 21 of 7 ATC o Verify Level 2 and 3 initiations, isolations and diesel generators.

INITIATING STANDBY LIQUID CONTROL o Place SLC PUMP A(B) (NOT BOTH), control switch to RUN.

o Verify the following:

o SQUIB CONTINUITY A(B), light goes Off.

o C41-F001A(B), SLC PUMP A(B) SUCT VLV, Opens.

o C41-C001A(B), SLC PUMP A(B), Starts.

o Notify CRS of SLC injection status.

o Verify IAS-MOV106 is Open. (Enclosure 16 may be required).

BOP MAXIMIZING CRD (Recognizes no power to maximize CRD) o Start any available, non-running CRD pump as follows:

o Start C11-C001AP(BP), CRD AUX OIL PUMP A(B).

o Verify C11-C001A(B), CRD PUMP A(B), white control power available light on.

o Start C11-C001A(B), CRD PUMP A(B).

o Place CRD HYDRAULICS FLOW CONTROLLER, in MANUAL and raise signal to 100%.

o Fully Open C11-F003, CRD DRIVE WATER PRESS CONTROL VALVE.

o Verify IAS-MOV106 is Open. IF IAS-MOV106 is not open, AND an ATWS condition exists, THEN notify the CRS that EOP Enclosure 16 is required.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 22 of 7 o If RPV level cannot be restored and maintained above -162 inches, then go to alternate level control.

o Direct ATC to inhibit ADS.

CRS o Recognize when RPV level cannot be restored and maintained above -

187 inches, emergency depressurization is required.

o Direct ATC to open 7 ADS/SRVs.

Inhibits ADS:

o Places both ADS INHIBIT switches to the INHIBIT position.

ATC o Open 7 ADS/SRVs Critical Task: Emergency Depressurize prior to -187 inches compensated fuel zone.

o Direct ATC to maintain RPV level -20 to 51 inches, using RHR A CRS through SDC injection valve E12-F053A and LPCS.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 23 of 7 Event No: 7 Event

Description:

RHR A pump fails to automatically start The RHR A pump will fail to auto start after automatic initiation. Automatic trigger Event 7.

TIME Position Applicants Actions or Behavior o Diagnose and report RHR A pump fail to auto start.

o Manually start RHR A pump.

ATC Critical Task: Manually start RHR A pump and open LPCS injection valve prior to transitioning to RPV flooding or entering SAPs.

o Recognize RHR A pump fail to auto start and direct ATC to manually CRS start RHR A pump.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 3 Page 24 of 7 Event No: 8 Event

Description:

LPCS injection valve fails to automatically open The LPCS injection valve will fail to open after automatic initiation and emergency depressurization.

Automatic trigger Event 8.

TIME Position Applicants Actions or Behavior o Diagnose and report LPCS injection valve fails to auto open.

o Manually open LPCS injection valve.

ATC Critical Task: Manually start RHR A pump and open LPCS injection valve prior to transitioning to RPV flooding or entering SAPs.

o Recognize LPCS injection valve fails to auto open.

CRS o Direct ATC to manually open LPCS injection valve.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 4 Page 1 of 5 Facility: River Bend Nuclear Station Scenario No.: 4 Op-Test No.: NRC LOT 2016 Examiners: ____________________________ Operators: _____________________________

Initial Conditions: Operating at 4% power.

Inoperable Equipment: None Turnover:

Continue withdrawing rods to achieve mode 1.

Severe Thunderstorm warning in effect for West Feliciana in effect. All required actions per AOP-29 are complete.

Scenario Notes:

This scenario is a NEW Scenario.

Validation Time: 60 minutes Moved CRD pump trip to event just before major. If B CRD pump not started before accumulator fault, crew will scram. (about 5-6 minutes).

May want to delete CRD pump trip. No bean required for BOP and gray area for <600 psig.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 4 Page 2 of 5 Event Malf. No. Event Type Event No. Description CRDM2449 C (ATC)

Rod 16-11 Drifts out. ARP P680-7-B-2 and P680-7-C-1.

1 Delete TS (CRS)

AOP-61 (Control Rod Mispositioned / Malfunction). TS 3.1.3 event 30 *1 AOP IRM E fails upscale. Bypass IRM. Reset the 1/2 scram 2 NMS006E C (ATC)

ARP P680-6-C-10.

C (BOP) CCS pump trip. Standby fails to auto start. AOP-12 (Loss of 3

AOP Turbine Plant Component Cooling Water)

C (BOP) Rad monitor fails. HVF-AOD-104, HVF-AOD-122 and HVF-4 RMS005C TS (CRS) AOD-102 fail to auto close. EOP-3 5 NMS007A TS (CRS) IRM A fails downscale. ARP P680-6-C-9.

CRD pump trip. BOP starts other CRD pump. ARP P601-6 C (BOP) 22-A-1, P601-22-B-1, P601-22-F-1, and P680-7-D-1 ED001 DG001B Station Blackout. Loss of offsite power. Loss of feed.

7 M Reactor scram. Division 2 and 3 DGs fail. EOP 1. Drywell DG002C leak 200 gpm RCS007 Division 1 DG voltage is low and needs to be raised in order 8 DG006A C (BOP) to energize the bus.

RCIC manual initiation fails. RCIC must be manually aligned 9 C (BOP) per hardcard.

(N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor, (A)bnormal (TS) Tech Spec Quantitative Attributes Table Normal Events 0 EOP Contingency Procedures Used 1 Total Malfunctions 8 Simulator Run Time 60 Malfunctions After EOP Entry 2 EOP Run Time 30 AOP Events 1 Critical Tasks 2 Major Transients 1 Reactivity Manipulations 1 EOPs Used (Requiring measurable action) 1

• 1 Event 30 zdi 4(205 insert switch

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 4 Page 3 of 5 SCENARIO ACTIVITIES:

Rod 16-11 Drifts out:

A. After turnover the ATC will continue with the rod withdraw to transition to mode 1.

The rods will be withdrawn one notch at a time. On the second notch withdraw, Event 1 will automatically insert a continuous rod withdraw for rod 16-11.

B. The ATC will recognize the continuous withdraw and fully insert the rod until it is locally isolated to maintain fully inserted per ARP P680-7-B-2, P680-7-C-1, and AOP-61 (Control Rod Mispositioned/ Malfunction)

C. CRS should enter TS 3.1.3.

IRM E fails upscale:

A. After the rod is isolated, CRS enters TS 3.1.3, and/or at the direction of the lead evaluator trigger Event 2.

B. The ATC will bypass IRM E per ARP P680-6-C-10.

C. The ATC will reset the half scram per ARP P680-5-A-9.

CCS pump trip:

A. After the CRD pump is started and/or at the direction of the lead evaluator trigger Event 3.

B. The running CCS pump will trip and the standby pump fails to start.

C. The Unit Operator will manually start the standby CCS pump per AOP-12 (Loss of Turbine Plant Component Cooling Water).

Rad monitor fails:

A. After the CCS pump is started and/or at the direction of the lead evaluator trigger Event 4.

B. The Fuel Building Exhaust Rad monitor fails and HVF-AOD-104, HVF-AOD-122 and HVF-AOD-102 fail to auto close. ARP-RMS-DSP230/4GE005 C. The Unit Operator manually closes the three dampers.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 4 Page 4 of 5 IRM A fails downscale:

A. After the three HVF dampers are shut and/or at the direction of the lead evaluator, trigger Event 5.

B. The CRS will enter TS 3.3.1.1.

CRD pump trip:

A. After the IRM is bypassed and/or at the direction of the lead evaluator trigger Event 6.

B. The running CRD pump will trip and the other CRD pump does not have a standby feature.

C. The Unit Operator will manually start the other CRD pump per ARP P601-22-A-1, P601-22-B-1, P601-22-F-1, P680-7-D-1.

Station Blackout:

A. After the CRS enters TS 3.3.1.1 and/or at the direction of the lead evaluator trigger Event 7.

B. A loss of offsite power will result in a complete loss of feed and an automatic reactor scram on low reactor water level. Division 2 and 3 Diesel Generators will malfunction. A slow drywell leak will occur.

Division 1 Diesel Generator fails to energize ENS-SWGR1A:

A. Upon the loss of offsite power, Event 8 will automatically trigger.

B. The Division 1 Diesel Generator will fail to reach voltage required to automatically energize ENS-SWGR1A.

C. The crew will manually raise diesel voltage and energize ENS-SWGR1A.

RCIC manual initiation fails:

A. Manual initiation of RCIC using the manual pushbutton will not work, Event 9 will automatically trigger.

B. The crew will manually align RCIC per the hardcard.

Appendix D Scenario Outline Form ES-D-1 NRC 2016 Scenario 4 Page 5 of 5 Critical Task Number Description Basis The third bullet Emergency diesel generators applies because electrical power supplied by a diesel generator may be required to operate Per EOP-1, RL-1, adjust division 1 RPV injection systems under emergency voltage to energize ENS SWGR A within conditions.

10 minutes or if shutdown, then once fill 1 The statement which should havebut did and vent of LP ECCS systems are complete, restart and power ENS SWGR not encompasses conditions for which A prior to auto trip on high temperature. automatic action should have occurred but failed to. In such a case, manual operator action to initiate the appropriate action is required. (EPSTG*0002, B-6-9)

Emergency depressurization is not performed while RPV water level is above the top of the active fuel because the core will remain adequately cooled as long as RPV water level remains above the Minimum Steam Cooling Per EOP-1, ALC-8, manually start RCIC RPV Water Level. (EPSTG*0002, B-6-29) 2 prior to RPV level reaching -187 inches Submergence is the preferred method for compensated fuel zone. cooling the core. The core is adequately cooled by submergence when it can be determined that RPV water level is at or above the top of the active fuel. All fuel nodes are then assumed to be covered with water and heat is removed by boiling heat transfer.

• Critical Task (As defined in NUREG 1021 Appendix D)

Simulator Notes:

Provide and mark up GOP 1 and reactivity plan.

Rod drift inserted on first rod of plan. The rod selected should be one that requires being at 48 inches.

This will prevent an issue with the rod pattern controller. Insert the rod drift on the second notch withdraw.

CRD006 Reset CRDM high Temperature ECCS003 LPCS pump breaker (control power fuses)

ECCS004 RHR A pump breaker (control power fuses)

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 1 of 14 Event No: 1 Event

Description:

Rod 16-11 Drifts out After turnover the ATC will continue with the rod withdraw to transition to mode 1. The rods will be withdrawn one notch at a time. On the second notch withdraw, Event 1 will automatically insert a continuous rod withdraw for rod 16-11.

TIME Position Applicants Actions or Behavior o Diagnose and report the control rod drift per:

ATC o H13 P680/07A/B02, CONTROL ROD DRIFT o H13 P680/07A/C01, CONTROL ROD WITHDRAWAL BLOCK o Recognize and enter AOP-61, Control Rod Mispositioned/ Malfunction.

o Direct ATC to determine which control rod is drifting and fully insert the rod per AOP-61, section 5.1.

o Recognize and enter Tech Spec 3.1.3 Control Rod OPERABILITY CRS C. One or more control rods inoperable for reasons other than Condition A or B.

C.1 Fully insert inoperable control rod. 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br /> completion time.

AND C.2 Disarm the associated CRD. 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> completion time.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 2 of 14 Per AOP-61, Section 5.1, if control rod drift is detected (actual rod motion), THEN perform the following:

o Determine which rod is drifting by depressing ROD DRIFT and observing red lights on ROD POSITION DISPLAY.

o Select AND continuously insert the drifting/drifted control rod to position 00.

o WHEN the control rod is inserted to the full in position, THEN remove the continuous insert signal.

ATC o IF the rod continues to withdraw from full-in, THEN reinsert with a continuous insert signal and hold it until one of the following is performed:

o CRD drive pressure can be reduced.

OR o An Operator isolates the HCU by closing Drive water (V103) and Exhaust water (V105) isolation valves.

o Direct SNEO to isolate the HCU for rod 16-11 by closing Drive water BOP (V103) and Exhaust water (V105) isolation valves.

o When SNEO directed to isolate the HCU for rod 16-11 by closing Drive water (V103) and Exhaust water (V105) isolation valves, per SOP-2 o Wait 3 minutes Booth o Delete the rod drift malfunction o Report HCU has been isolated.

ATC o When HCU has been isolated, remove the continuous insert signal.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 3 of 14 Event No: 2 Event

Description:

IRM E fails upscale After the rod is isolated, CRS enters TS 3.1.3, and/or at the direction of the lead evaluator trigger Event 2.

TIME Position Applicants Actions or Behavior o Diagnose and report IRM E failed upscale per:

o H13-P680/06A/C10, IRM UPSCALE.

o H13-P680/05A/A09, RPS TRIP LOGIC A OR C ACTIVATED ATC o H13-P680/06A/A02, NEUTRON MONITORING SYSTEM o H13-P680/06A/A09, IRM UPSCALE TRIP OR INOP RPS CHAN A o UP light lit for IRM Channel E (Insert 6, apron section).

o Report no single rod scram.

o Recognize and direct ATC to bypass IRM E and reset half scram per CRS H13-P680/05A/A09, RPS TRIP LOGIC A OR C ACTIVATED

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 4 of 14 o Bypass IRM E and reset RPS A per ARP H13-P680/05A/A09, RPS TRIP LOGIC A OR C ACTIVATED:

o Take the bypass joystick to IRM E position.

o On H13-P680, reset any potential reactor scram signals by placing the following switches momentarily to RESET then back to NORMAL:

o C71A-S5A, SCRAM RESET LOGIC A ATC o Check the following indicating lights are on:

o RPS DIV 1 SCRAM SOV VALVES OPEN CR1A and CR1B o RPS DIV 2 SCRAM SOV VALVES OPEN CR2A and CR2B o RPS DIV 3 SCRAM SOV VALVES OPEN CR3A and CR3B o RPS DIV 4 SCRAM SOV VALVES OPEN CR4A and CR4B

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 5 of 14 Event No: 3 Event

Description:

CCS pump B trip After the B CRD pump is started and/or at the direction of the lead evaluator trigger Event 3. A & B Pumps are initially running with C pump in standby.

TIME Position Applicants Actions or Behavior o Diagnose and report the running CCS pump trip and the standby pump fail to automatically start per:

o H13-P870/55A/E01 (RED), TURB CMPNT CLG WATER PUMP BRKR AUTO TRIP BOP o H13-P870/55A/E02, TURB CMPNT CLG WATER PUMP LOW DISCH PRESS o H13-P870/55A/G02, TURB CMPNT CLG WATER PUMP 1B OVERLOAD o Recognize and direct the BOP to manually start the standby CCS pump C per H13-P870/55A/E01 (RED), TURB CMPNT CLG WATER PUMP BRKR AUTO TRIP.

CRS o Recognize and enter AOP-12, Loss of Turbine Plant Component Cooling Water.

Start the standby CCS P1AC, TPCCW PUMP and verify the following per H13-P870/55A/E01:

o CCS P1C, TPCCW PUMP starts.

o CCS MOV15C, TPCCW PUMP DISCH VLV opens.

BOP o CCS P1C, TPCCW PUMP MOTOR AMPS are normal.

o Alarm H13-P870/55A/E02, TURB CMPNT CLG WATER PUMP LOW DISCH PRESS clears.

o TBO, investigate B CCS pump trip. No obvious indications for trip.

o TBO report post start checks on C CCS pump SAT.

Booth o If requested to investigate B CCS pump breaker, wait 5 minutes and report no indications of trip.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 6 of 14 Event No: 4 Event

Description:

Fuel Building Exhaust Rad monitor fails After the CCS pump is started and/or at the direction of the lead evaluator trigger Event 4.

TIME Position Applicants Actions or Behavior o The Fuel Building Exhaust rad monitor fails and HVF-AOD-104, HVF-AOD-122 and HVF-AOD-102 fail to auto close.

o Diagnose and report RMS-RE5A failed upscale per:

o ARP-RMS-DSP230/4GE005, FUEL BUILD STACK / VENT BOP EXHAUST A o H13-P863/75A/H01 (2 red stripes), DIV 1 FUEL BLDG EXH PAM GASEOUS RADN ALARM o H13-P863/75A/C02, FUEL BLDG SUPPLY AIR LOW FLOW o H13-P863/75A/E02, FUEL BLDG EXHAUST AIR LOW FLOW

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 7 of 14 o Recognize and direct BOP to verify automatic actions per RMS-DSPL230/4GE005, FUEL BUILD STACK / VENT EXHAUST A.

o Recognize and enter TRM 3.3.11.3 and Tech Spec 3.6.4.2 TRM 3.3.11.3 Radioactive Gaseous Effluent Monitoring Instrumentation A. One or more required channels inoperable.

A.1 Suspend release of radioactive gaseous effluents via affected pathway. Completion time immediately.

OR A.2 Enter the condition referenced in table 3.3.11.3-1 for the channel.

CRS Completion time immediately.

3.6.4.2 Secondary Containment Isolation Dampers (SCIDs) and Fuel Building Isolation Dampers (FBIDs)

A. One or more penetration flow paths with one SCID or FBID inoperable.

A.1 Isolate the affected penetration flow path by use of at least one closed and de-activated automatic damper, closed manual damper, or blind flange. Completion time 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />.

AND A.2 Verify the affected penetration flow path is isolated. Completion time once per 31 days.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 8 of 14 Verify the following automatic actions occur:

• Dampers fail to automatically close.

o *HVF-AOD102, FUEL BLDG EXH FAN INLT closes o *HVF-AOD104, FUEL BLDG EXH ISOL closes o *HVF-AOD122, FUEL BLDG AIR SPLY ISOL closes o HVF-AOD37A, FUEL BLDG ALT AIR SPLY opens BOP o HVF-AOD20A, FILTER 2A INLET opens o HVF-AOD31A, FAN 3A DISCH opens o HVF-FN3A, EXH FLTR TRAIN starts o HVF-FN8A/B, FUEL BLDG EXH FAN A/B trips o HVF-ACU1FN1A/B, FUEL BLDG SPLY FAN A/B trips

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 9 of 14 Event No: 5 Event

Description:

IRM A fails downscale After the three HVF dampers are shut and/or at the direction of the lead evaluator, trigger Event 5.

TIME Position Applicants Actions or Behavior o Diagnose and report IRM A fails downscale per:

o H13-P680/06A/C09, IRM DOWNSCALE ATC o H13 P680/07A/C01, CONTROL ROD WITHDRAWAL BLOCK o DOWN light lit for IRM A.

o Recognize and enter Tech Spec 3.3.1.1 Reactor Protection System (RPS) Instrumentation CRS H. As required by Required Action D.1 and referenced in Table 3.3.1.1-1.

H.1 Be in MODE 3. 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> completion time.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 10 of 14 Event No: 6 Event

Description:

A CRD pump trip After the IRM is bypassed and/or at the direction of the lead evaluator trigger Event 6.

TIME Position Applicants Actions or Behavior o Diagnose and report A CRD pump trip per:

o H13-P601/22/A01 (RED), CRD PUMP A OR B AUTO TRIP BOP o H13-P601/22A/F01, CHARGING WATER LOW PRESSURE o Amber light above CRD pump A is lit indicating tripped pump.

o Recognize and direct BOP to start B CRD pump per H13-P601/22/A01 CRS (RED), CRD PUMP A OR B AUTO TRIP.

o If SNEO requested to investigate CRD pump A pump trip, wait 3 minutes and report motor is hot to touch.

o If SNEO requested to investigate CRD pump A breaker, wait 3 minutes Booth and report trip flags present.

o If SNEO dispatched for pre and post start checks on CRD pump B, wait 3 minutes and report sat.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 11 of 14 At H13-P601, start the standby CRD Pump as follows per ARP H13-P601/22/A01:

o Start Standby CRD Pump Aux Oil Pump C11-C001BP, CRD AUX OIL PUMP B.

o Place Flow Controller C11-R600 to MANUAL o Close C11-R600, CRD HYDRAULICS FLOW CONTROLLER C11-F002A/B.

BOP o Verify White Control Power Light on for CRD Pump to be started.

o Start Standby Pump C11-C001B, CRD PUMP B.

o Verify amps return to normal of less than 45 amps.

o WHEN system flow drops below 45 gpm as indicated on C11-R606, CRD HYDR FLOW, THEN slowly throttle open Flow Controller C11-R600 to achieve 45 gpm.

o WHEN Flow Controller C11-R600 setpoint is nulled out, THEN place to AUTO.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 12 of 14 Event No: 7 Event

Description:

Station Blackout & Recirc leak After the CRS enters TS 3.3.1.1 and/or at the direction of the lead evaluator trigger Event 7.

TIME Position Applicants Actions or Behavior o Diagnose and report:

o Loss of offsite power.

BOP o Station Blackout.

o Division 2 Diesel Generator trip.

o Division 3 Diesel Generator fails to start.

o Recognize and enter:

o EOP-1, RPV Control CRS o AOP-1, Reactor Scram o AOP-4, Loss of Offsite Power OR AOP-50, Station Blackout

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 13 of 14 SCRAM REPORT o Mode Switch is in shutdown.

o All rods are in.

ATC o EOP-1 (RPV CONTROL) Entry Conditions:

o Level 3 o Verify Main Turbine tripped.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 14 of 14 Event No: 8 Event

Description:

Division 1 Diesel Generator fails to energize ENS-SWGR1A Upon the loss of offsite power, Event 8 will automatically trigger.

TIME Position Applicants Actions or Behavior o Diagnose and report Division 1 Diesel Generator running with low BOP voltage, therefore, did not automatically energize ENS-SWGR1A.

o Recognize and direct ATC to raise Division 1 Diesel Generator voltage CRS and energize ENS-SWGR1A.

o Raise Division1 Diesel Generator voltage. (When voltage is raised to

>3814 VAC, the Division 1 Diesel Generator will automatically energize ENS-SWGR1A.)

BOP Critical Task: Adjust division 1 voltage to energize ENS SWGR A within 10 minutes or if shutdown, then once fill and vent of LP ECCS systems are complete, restart and power ENS SWGR A prior to auto trip on high temperature.

o Acknowledge SNEO request to monitor Division 1 EDG.

o If SNEO dispatched to investigate Division 2 EDG trip, wait 3 minutes and report control air leak from control cabinet.

Booth o If requested to remove control power fuses for HPCS, wait 3 minutes and report fuses removed.

o If SNEO dispatched to locally start division 3 EDG, wait 10 minutes and report inability to locally start division 3 EDG.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 15 of 14 o Recognize and enter EOP-16.

CRS o Direct BOP to split SSW to isolate division 2 SSW.

o Per AOP-16, Section 5.2.6 Operate the following valves to isolate SSW Division II and place redundant SSW Division I in service:

o CLOSE SWP-MOV73B, HVR-UC5 SUPPLY SWP-MOV74B, HVR-UC5 RETURN o CLOSE SWP-MOV77B, HPCS D/G SUPPLY SWP-MOV506B, HPCS D/G RETURN o CLOSE SWP-MOV4B, DRYWELL UC SUPPLY SWP-MOV5B, DRYWELL UC RETURN o OPEN SWP-MOV73A, HVR-UC5 SUPPLY SWP-MOV74A, HVR-UC5 RETURN o OPEN SWP-MOV77A, HPCS D/G SUPPLY SWP-MOV506A, HPCS D/G RETURN o OPEN SWP-MOV4A, DRYWELL UC SUPPLY SWP-MOV5A, DRYWELL UC RETURN

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 16 of 14 Event No: 9 Event

Description:

RCIC manual initiation fails Manual initiation of RCIC using the manual pushbutton will not work, Event 9 will automatically trigger. (The collar to rotate to arm fails to arm.)

TIME Position Applicants Actions or Behavior o Diagnose and report RCIC fails to manually initiate. The ARM collar is not working.

The crew will manually align RCIC per the SOP-35, RCIC Section 4.2 (or per OPS-53 hardcard):

o Start E51-C002C, GLAND SEAL COMPRESSOR.

o Open E51-F045, RCIC STEAM SUPPLY TURBINE STOP VALVE.

o Verify the following valves are closed:

o E51-F025, RCIC STM SPLY DR POT UP STREAM ISOL VALVE o E51-F026, RCIC STM SUPLY DR POT DN STREAM ISOL VALVE o E51-F004, RCIC TURB EXH DR POT UP STREAM ISOL VALVE o E51-F005, RCIC TURB EXH DR POT DN STREAM ISOL VALVE o Verify E51-F019, RCIC MIN FLOW VLV TO SUPPRESSION POOL is closed.

o To inject into the vessel perform the following:

BOP o Open E51-F013, RCIC INJECT ISOL VALVE.

o Verify closed E51-F022, RCIC TEST BYPASS VLV TO CST.

o Verify closed E51-F059, RCIC TEST RETURN VLV TO CST.

o WHEN it is required to control RPV water level with RCIC, THEN Go To Section 5.7:

o Open E51-F013, RCIC INJECT ISOL VALVE o Close the following valves o E51-F022, RCIC TEST BYPASS VLV TO CST o E51-F059, RCIC TEST RETURN VLV TO CST o Verify E51-F019, RCIC MIN FLOW VLV TO SUPPRESSION POOL is closed.

Critical Task: Manually start RCIC prior to RPV level reaching -187 inches compensated fuel zone.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 17 of 14 o Per OSP-53, assume both level control and pressure control.

o Open 1 SRV to begin cool down. Once pressure is less than 700#

BOP band will be 500 to 700#.

o Maintain level between -5 and +15 inches is ideal for shrink and swell during SRV cycles.

o CRS: establish bands of -20 to 51 inches with RCIC for level and 500 CRS to 1090# with SRVs for pressure. Assign STP-050-0700 for cool down.

Appendix D Scenario Outline Form ES-D-2 NRC 2016 Scenario 4 Page 18 of 14 Event No: 7 Event

Description:

Station Blackout continued.

TIME Position Applicants Actions or Behavior o Assign AOP-0004 Loss of Offsite Power time critical actions to the CRS ATC.

o Perform time critical / other important task based on priority /

availability:

o Start Suppression Pool cooling (30 minutes) o Verify proper operation of ventilation system and secure redundant trains (20 minutes) o Install enclosure 20 and start drywell cooling ATC o AOP-0010 for loss of RPS (after alt EPAs are reset) o Secure EBOP (15minutes post turbine stop concurrent with LOCA) o Restart Radiation Monitors (ATC/3rd Operator) o ATC should dispatch the o ACR to start Diesel Air compressor o Control Building to reset Alt EPA bkrs and then to monitor D/G