{{#Wiki_filter:NRC ES-301                               Administrative Topics Outline                                             Form ES-301-1 Facility: RIVER BEND STATION                                         Date of Examination: 12/8/2014 Examination Level: RO           SRO                                 Operating Test Number: __________

Administrative Topic           Type                    Describe activity to be performed (see Note)               Code*

(A1) Determine the amount of Decay Heat in the Core Conduct of Operations                R, D per OSP-0041 KA 2.1.20 (4.6) Ability to interpret and execute procedure steps (A2) Determine corrected Fuel Zone Level Indication Conduct of Operations                R, D KA 2.1.23 (4.3) Ability to perform specific system and integrated plant procedures during all modes of plant operation.

(A3) Use plant drawings to determine effect(s) of fuse R, N            removal Equipment Control KA 2.2.15 (3.9) Ability to determine the expected plant configuration using design and configuration control documentation, such as drawings, line-ups, tag-outs, etc.

Radiation Control (A4) Determine Containment Water Level During Containment Flooding Emergency Procedures/Plan            R, M KA 2.4.21 (4.0) Knowledge of the parameters and logic used to assess the status of safety functions, such as reactivity control, core cooling and heat removal, reactor coolant system integrity, containment conditions, radioactivity release control, etc.

* Type Codes & Criteria:           (C)ontrol room, (S)imulator, or Class(R)oom (D)irect from bank ( 3 for ROs;  4 for SROs & RO retakes)

(N)ew or (M)odified from bank ( 1)

NRC RO ADMIN JPMS A1 - This task will have the applicant calculate core decay heat using the charts from Attachments 1 and 6 of OSP-0041.

A3 - The applicant will use plant drawings to determine the effects of removing a fuse to support a maintenance activity. Three effects are asked for: (1) the fail position of an exhaust filter damper; (2) any other components that are affected and the associated effect; and (3) identification of any alarms or indications that would be seen in the Control Room.

NRC ES-301                               Administrative Topics Outline                                           Form ES-301-1 Facility: RIVER BEND STATION                                         Date of Examination: 12/8/2014 Examination Level: RO           SRO                                 Operating Test Number: __________

Administrative Topic           Type                    Describe activity to be performed (see Note)               Code*

(A5) Determine stay time for a hot environment Conduct of Operations                R, M KA 2.1.26 (3.4) Knowledge of industrial safety procedures (such as rotating equipment, electrical, high temperature, high pressure, caustic, chlorine, oxygen, and hydrogen).

R, M       (A6) Determine Actions for Reactor Water Chemistry Conduct of Operations KA 2.1.34 (3.5) Knowledge of primary and secondary plant chemistry limits.

R, N       (A7) Determine Secondary Containment Operability Equipment Control KA 2.2.12 (4.1) Knowledge of surveillance procedures.

(A8) Determine required actions upon Radioactive Radiation Control                    R, D            Effluent Monitor Failure KA 2.3.11 (4.3) Ability to control radiation releases.

(A9) Determine PAR Emergency Procedures/Plan             R, M KA 2.4.44 (4.4) Knowledge of emergency plan protective action recommendations.

* Type Codes & Criteria:         (C)ontrol room, (S)imulator, or Class(R)oom (D)irect from bank ( 3 for ROs;  4 for SROs & RO retakes)

(N)ew or (M)odified from bank ( 1)

NRC ES-301                             Control Room/In-Plant Systems Outline                             Form ES-301-2 Facility: RIVER BEND STATION                                             Date of Examination: 12/8/2014 Exam Level: RO               SRO-I        SRO-U                       Operating Test No.: ______________

Control Room Systems (8 for RO); (7 for SRO-I); (2 or 3 for SRO-U, including 1 ESF)

System / JPM Title                                   Type Code*           Safety Function

: a. (S1) Pull Rods to Achieve Criticality - w/ trip of CRD pumps                       S,A,E,L,N             1

: b. (S2) Shutdown RCIC using SOP- w/ Drain Trap Level High                               S,A,N               2

: c. (S3) Perform Main Turbine BPV Cycle Test (STP-509-0101)                               S,D                 3

: d. (S4) Reduce SDC to only RHR-A - w/ overload pre-trip alarm                         S,A,L,N               4

: e. (S5) Stop Cont High Volume Purge - w/Decay Heat Fan trip                         S,A,D,E,EN             9

: f. (S6) Place Suppression Pool Cooling System in Service (SOP-140)                       S,D                 5

: g. (C1) Shed DC Loads for Station Blackout (AOP-50, Attach 3)                         C,D,E,L               6

: h. (C2) Bypass Control Rod in RACS (STP-500-0705)                                       C,D                 7

In-Plant Systems (3 for RO); (3 for SRO-I); (3 or 2 for SRO-U)

: i. (P1) Vent Scram Air Header (Encl 11)                                               R,D,E,EN               1

: j. (P2) Supply Fire Protection Water for CB via SSW (SOP-37, sect 5.3)                   E,N                 8

: k. (P3) Perform UO Actions of AOP-31 to Operate the Div 1 EDG                         A,E,L,N               6

@           All RO and SRO-I control room (and in-plant) systems must be different and serve different safety functions; all 5 SRO-U systems must serve different safety functions; in-plant systems and functions may overlap those tested in the control room.

* Type Codes                                   Criteria for RO / SRO-I / SRO-U (A)lternate path                                                               4-6 / 4-6 / 2-3 5 (C)ontrol room (D)irect from bank                                                             9/8/46 (E)mergency or abnormal in-plant                                               1/1/16 (EN)gineered safety feature                                                     - / - / 1 (control room system) 2 (L)ow-Power / Shutdown                                                         1/1/14 (N)ew or (M)odified from bank including 1(A)                                   2/2/15 (P)revious 2 exams                                                               3 /  3 /  2 (randomly selected) 0 (R)CA                                                                           1/1/11 (S)imulator Revision 3

NRC S1 - The applicant is directed to withdraw control rods to achieve criticality.

Before criticality is reached however, at the evaluators discretion, a CRD pump trip occurs. As an alternate path, the standby CRD pump is started but also trips. The operator will be required to place the mode switch in SHUTDOWN after receiving an accumulator fault associated with a withdrawn control rod and RPV pressure less than 600 psig.

S2 - This is a replacement JPM for Starting the Condenser Air Removal Pumps.

A post-maintenance run of RCIC is ongoing. Direction will be given to secure RCIC using the SOP. An alarm alerts the applicant of an abnormal condition in the RCIC exhaust drain system. Because of plant conditions, and direction in the Alarm Response Procedure, the applicant will restart the RCIC Gland Seal Compressor.

S3 - This is a replacement JPM for Performing a Pressure Set Adjustment.

There were too few steps in the previous JPM.

The plant is operating at power; this JPM is a surveillance to verify the full stroke operation of the Main Turbine Bypass Valves.

S4 - This is a replacement JPM for placing the Turbine on the turning gear.

This task will have the applicant secure the B loop of SDC. As an alternate path, a low voltage condition will cause elevated motor amps on the A RHR Pump; the applicant will have to use the ARP to reduce load on the pump by reducing flow.

S5 - This JPM was adjusted to allow the evolution at higher power so there would be less low power JPMs. (Containment purge instead of drywell purge.)

The plant had experienced high containment radiation levels and high volume purge, using Standby Gas Treatment, was placed in service and rad levels reduced. This task will have the applicant secure the containment purge using SOP-0059. As an alternate Path, a failure of the decay heat removal fan occurs, and the applicant will be required to re-start the standby gas treatment system with a suction from outside air using SOP-0043.

S6 - This JPM was adjusted to allow the evolution at higher power so there would be less low power JPMs.

The plant is performing a startup per GOP-0001. This task has the applicant start the Suppression Pool Cooling and Cleanup System using SOP-0140, Suppression Pool Cleanup and Alternate Decay Heat Removal section 5.2.

NRC ES-301                             Control Room/In-Plant Systems Outline                             Form ES-301-2 Facility: RIVER BEND STATION                                             Date of Examination: 12/8/2014 Exam Level: RO               SRO-I        SRO-U                       Operating Test No.: ______________

Control Room Systems (8 for RO); (7 for SRO-I); (2 or 3 for SRO-U, including 1 ESF)

System / JPM Title                                   Type Code*           Safety Function

: a. (S1)

: b. (S2) Shutdown RCIC using SOP- w/ Drain Trap Level High                               S,A,N               2

: c. (S3) Perform Main Turbine BPV Cycle Test (STP-509-0101)                               S,D                 3

: d. (S4) Reduce SDC to only RHR-A - w/ overload pre-trip alarm                         S,A,L,N               4

: e. (S5) Stop Cont High Volume Purge - w/Decay Heat Fan trip                         S,A,D,E,EN             9

: f. (S6) Place Suppression Pool Cooling System in Service (SOP-140)                       S,D                 5

: g. (C1) Shed DC Loads for Station Blackout (AOP-50, Attach 3)                         C,D,E,L               6

: h. (C2) Bypass Control Rod in RACS (STP-500-0705)                                       C,D                 7

In-Plant Systems (3 for RO); (3 for SRO-I); (3 or 2 for SRO-U)

: i. (P1) Vent Scram Air Header (Encl 11)                                               R,D,E,EN               1

: j. (P2) Supply Fire Protection Water for CB via SSW (SOP-37, sect 5.3)                   E,N                 8

: k. (P3) Perform UO Actions of AOP-31 to Operate the Div 1 EDG                         A,E,L,N               6

@           All RO and SRO-I control room (and in-plant) systems must be different and serve different safety functions; all 5 SRO-U systems must serve different safety functions; in-plant systems and functions may overlap those tested in the control room.

* Type Codes                                   Criteria for RO / SRO-I / SRO-U (A)lternate path                                                               4-6 / 4-6 / 2-3 4 (C)ontrol room (D)irect from bank                                                             9/8/46 (E)mergency or abnormal in-plant                                               1/1/15 (EN)gineered safety feature                                                     - / - / 1 (control room system) 2 (L)ow-Power / Shutdown                                                         1/1/13 (N)ew or (M)odified from bank including 1(A)                                   2/2/14 (P)revious 2 exams                                                               3 /  3 /  2 (randomly selected) 0 (R)CA                                                                           1/1/11 (S)imulator Revision 2

NRC S2 - This is a replacement JPM for Starting the Condenser Air Removal Pumps.

A post-maintenance run of RCIC is ongoing. Direction will be given to secure RCIC using the SOP. An alarm alerts the applicant of an abnormal condition in the RCIC exhaust drain system. Because of plant conditions, and direction in the Alarm Response Procedure, the applicant will restart the RCIC Gland Seal Compressor.

S3 - This is a replacement JPM for Performing a Pressure Set Adjustment.

There were too few steps in the previous JPM.

The plant is operating at power; this JPM is a surveillance to verify the full stroke operation of the Main Turbine Bypass Valves.

S4 - This is a replacement JPM for placing the Turbine on the turning gear.

S5 - This JPM was adjusted to allow the evolution at higher power so there would be less low power JPMs. (Containment purge instead of drywell purge.)

The plant had experienced high containment radiation levels and high volume purge, using Standby Gas Treatment, was placed in service and rad levels reduced. This task will have the applicant secure the containment purge using SOP-0059. As an alternate Path, a failure of the decay heat removal fan occurs, and the applicant will be required to re-start the standby gas treatment system with a suction from outside air using SOP-0043.

S6 - This JPM was adjusted to allow the evolution at higher power so there would be less low power JPMs.

The plant is performing a startup per GOP-0001. This task has the applicant start the Suppression Pool Cooling and Cleanup System using SOP-0140, Suppression Pool Cleanup and Alternate Decay Heat Removal section 5.2.

NRC ES-301                             Control Room/In-Plant Systems Outline                               Form ES-301-2 Facility: RIVER BEND STATION                                             Date of Examination: 12/8/2014 Exam Level: RO               SRO-I        SRO-U                       Operating Test No.: ______________

Control Room Systems (8 for RO); (7 for SRO-I); (2 or 3 for SRO-U, including 1 ESF)

System / JPM Title                                   Type Code*           Safety Function

: a. (S1)

: b. (S2) Shutdown RCIC using SOP- w/ Drain Trap Level High                               S,A,N               2

: c. (S3)

: d. (S4)

: e. (S5) Stop Cont High Volume Purge - w/Decay Heat Fan trip                           S,A,D,E,EN             9

: f. (S6)

: g. (C1)

: h. (C2) Bypass Control Rod in RACS (STP-500-0705)                                         C,D                 7

In-Plant Systems (3 for RO); (3 for SRO-I); (3 or 2 for SRO-U)

: i. (P1) Vent Scram Air Header (Encl 11)                                               R,D,E,EN               1

: j. (P2)

: k. (P3) Perform UO Actions of AOP-31 to Operate the Div 1 EDG                           A,E,L,N               6

@           All RO and SRO-I control room (and in-plant) systems must be different and serve different safety functions; all 5 SRO-U systems must serve different safety functions; in-plant systems and functions may overlap those tested in the control room.

* Type Codes                                   Criteria for RO / SRO-I / SRO-U (A)lternate path                                                                 4-6 / 4-6 / 2-3 3 (C)ontrol room (D)irect from bank                                                               9/8/43 (E)mergency or abnormal in-plant                                                 1/1/13 (EN)gineered safety feature                                                       - / - / 1 (control room system) 2 (L)ow-Power / Shutdown                                                           1/1/11 (N)ew or (M)odified from bank including 1(A)                                     2/2/12 (P)revious 2 exams                                                               3 /  3 /  2 (randomly selected) 0 (R)CA                                                                            1/1/11 (S)imulator Revision 3

X    Perform                                                  Plant Simulate                                                  Simulator Control Room X      Classroom Prepared:      Dave Bergstrom                                      Date:    August 28, 2014 Reviewed:      Steve Carter                                        Date:    October 1, 2014 (Operations Representative)

Approved:     Joey Clark                                           Date:     October 17, 2014 (Facility Reviewer)

RJPM-NRC-D14-A1 Rev. 0 EXAMINER INFO SHEET Task Standard: Applicant determined decay heat in the core in accordance with the answer key; the applicant further determined that the capacity of SPC/ADHR is INSUFFICIENT.

Synopsis:         This task will have the applicant calculate core decay heat using Attachments 1 and 6 of OSP-0041.

The applicant will conclude that SPC/ADHR does not meet acceptability requirements.

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.

: 2) Initial Conditions:

After operating 396 days at 100% power, the plant scrammed at 1500 hours on November 25, 2014. It is now 0900 hours on November 26, 2014. RHR B is operating in SDC and the designated Alternate Decay Heat Removal Method is SPC/ADHR. The following conditions exist:

Reactor coolant Temperature           164F Service Water Temperature               83F Service Water Flow                     2500 gpm RHR A is inoperable due to an electrical bus fault All other plant equipment is operable and available.

 

 

APPLICABLE OBJECTIVES OSP-0041, Alternate Decay Heat Removal, Rev 306 REQUIRED MATERIALS:

OSP-0041, Alternate Decay Heat Removal, Rev 306 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 determined decay heat in the core in accordance with the answer key; the applicant further determined that the capacity of SPC/ADHR is INSUFFICIENT.

RJPM-NRC-D14-A1                                         Rev 0                           Page 4 of 8

RJPM-NRC-D14-A1 Rev. 0 PERFORMANCE:

OSP-0041, Alternate Decay Heat Removal Attachment 1

: 1. Procedure Step:    1. Time Since Reactor Shutdown Record current date and time ___

Determine length of time since Reactor shutdown ___ Hours Standard  Applicant determined the reactor has been shutdown for 18 hours.

    *Procedure Step:    2. Reactor Core Decay Heat from Attachment 6 or Incore Fuels Group

__________ 106 BTU/HR Standard  Applicant determined the core decay heat to be 75 x 106 Btu/hr. (+/-3)

Cue  If asked: The Incore Fuels Group is unavailable due to Thanksgiving Holiday Notes  Applicant will use the graph from Attachment 6 to perform this step.

There is a key on page 3 of this JPM.

RJPM-NRC-D14-A1 Rev. 0 3.

     *Procedure Step:  3. Compare Reactor Core Decay Heat value from Step 2 of this attachment to the systems heat removal capacities below and determine the alternate Shutdown Cooling Methods.

Standard Applicant concluded that the capacity of SPC/ADHR is 70.86 MBtu/Hr and is insufficient compared to the 75 MBtu/Hr of core decay heat.

The applicant marked the answer sheet INSUFFICIENT.

Cue Notes Applicant will use the SPC/ADHR system and the 200F Rx Coolant temperature to make this determination.

This table (shown on page 3 of this JPM) indicates that a decay heat of just 70.86 x 106 BTU/Hr will allow reactor coolant temperature to rise to 200F, therefore not allow you to stay in Mode 4.

The current decay heat (determined from Attach 6) is too great for the SPC/ADHR system to remove and not undergo a mode change.

Results SAT                                         UNSAT Terminating Cue: Applicant determined decay heat in the core in accordance with the answer key; the applicant further determined that the capacity of SPC/ADHR is INSUFFICIENT.

This completes this JPM.

RJPM-NRC-D14-A1 Rev. 0 JPM COMMENT SHEET CRITERIA FOR SATISFACTORY EVALUATION

: 2. Critical Time Frame is met if applicable.

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

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

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

: 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-D14-A1                                               Rev 0                           Page 7 of 8

SPC/ADHR capacity is SUFFICIENT / INSUFFICIENT (circle one) to remain in Mode 4.

RJPM-NRC-D14-A2 Rev 0 NUCLEAR PLANT OPERATOR ADMINISTRATIVE JOB PERFORMANCE MEASURE SRO       RO ALTERNATE PATH TITLE:             Determine Corrected Fuel Zone Level Indication and Adequate Core Cooling OPERATOR:                                                     DATE:

EVALUATOR:                                     EVALUATOR SIGNATURE:

CRITICAL TIME FRAME:           Required Time (min):   NA   Actual Time (min):                 NA PERFORMANCE TIME:               Average Time (min):     9   Actual Time (min):

JPM RESULTS*: (Circle one)

* SAT              UNSAT Refer to Grading Instructions at end of JPM EVALUATION METHOD:                                       EVALUATION LOCATION:

X     Perform                                                   Plant Simulate                                                 Simulator Control Room X     Classroom Prepared:     Dave Bergstrom                                       Date:     August 28, 2014 Reviewed:     Steve Carter                                         Date:     October 1, 2014 (Operations Representative)

: 1) Read to the operator:

: 2) Initiating Cues:

The CRS has directed you to use the Fuel Zone Correction Curve of SOP-0001, Attachment 1 to determine whether RPV level is above or below the top of active fuel and to determine whether or not adequate core cooling is assured.

: 3) Initial Conditions:

RJPM-NRC-D14-A2 Rev. 0 ANSWER KEY RPV Water Level is ABOVE / BELOW the Top of Active Fuel (circle one)

Adequate Core Cooling IS / IS NOT assured. (circle one)

RJPM-NRC-D14-A2                                  Rev 0               Page 3 of 8

RJPM-NRC-D14-A2 Rev. 0 DATA SHEET TASK Title:                            Task Number          K&A SYSTEM:          K&A RATING:

APPLICABLE OBJECTIVES SOP-0001, Nuclear Boiler Instrumentation, Rev 19          RLP-STM-0051, Obj 5 RLP-HLO-0511, Intro to EOPs and SAPs                      RLP-HLO-0305, Obj 4 RLP-HLO-0511, Obj 4 REQUIRED MATERIALS:  of SOP-0001, Nuclear Boiler Instrumentation SIMULATOR CONDITIONS &/or SETUP:

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

CRITICAL ELEMENTS:         Items marked with an

TASK STANDARD:             Applicant determined that RPV water level is below TAF and that adequate core cooling is assured.

RJPM-NRC-D14-A2 Rev. 0 PERFORMANCE:

START TIME:

1.

    *Procedure Step:   1. Use Attachment 3, Fuel Zone Correction Curve, of SOP-0001, Nuclear Boiler Instrumentation to determine actual RPV level.

Standard Applicant used Attachment 3 of SOP-0001 (handout) and determined that RPV level is below TAF.

Cue Notes As seen on the key (page 3 of this JPM), the intersection of -185 and 300 psig is just below the curve for TAF.

Results SAT                                           UNSAT 2.

    *Procedure Step:   2. Use Attachment 3, Fuel Zone Correction Curve, of SOP-0001, Nuclear Boiler Instrumentation to determine if adequate core cooling is assured Standard Applicant used Attachment 3 of SOP-0001 (handout) and determined that Adequate Core Cooling is assured.

Cue Notes As seen on the key (page 3 of this JPM), the intersection of -185 and 300 psig is above the Minimum Steam Cooling RPV Water Level (MSCRWL)

Results SAT                                           UNSAT Terminating Cue: Applicant determined that RPV water level is below TAF and that adequate core cooling is assured.

This completes this JPM.

RJPM-NRC-D14-A2 Rev. 0 JPM COMMENT SHEET CRITERIA FOR SATISFACTORY EVALUATION

: 2. Critical Time Frame is met if applicable.

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

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

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

: 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-D14-A2                                              Rev 0                          Page 6 of 8

RJPM-NRC-D14-A2 Rev. 0 OPERATOR CUE SHEET Initial Conditions:

The plant has experienced a LOCA.

Fuel Zone Indication is reading -185 inches RPV pressure is reading 300 psig LPCS is injecting at 2500 gpm Initiating Cues:

The CRS has directed you to use the Fuel Zone Correction Curve of SOP-0001, Attachment 1 to determine whether RPV level is above or below the top of active fuel and to determine whether or not adequate core cooling is assured Answer Sheet:

RPV Water Level is ABOVE / BELOW the Top of Active Fuel (circle one)

Adequate Core Cooling IS / IS NOT assured. (circle one)

RJPM-NRC-D14-A2                                      Rev 0                       Page 7 of 8

RJPM-NRC-D14-A3 Rev 0 NUCLEAR PLANT OPERATOR ADMINISTRATIVE JOB PERFORMANCE MEASURE SRO        RO ALTERNATE PATH TITLE:            Use Plant Drawings to Determine Effect of Fuse Removal OPERATOR:                                                      DATE:

 

RJPM-NRC-D14-A3 Rev. 0 EXAMINER INFO SHEET Task Standard: The applicant determined the effects of removing fuse F1 in Panel P852 in accordance with the attached key.

Synopsis:         The applicant will use plant drawings to determine the effects of removing a fuse 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.

: 2) Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following:

: 1. The fail position of HVF-AOD 20B, Fuel Building Exhaust Filter 2B Inlet Isolation Damper, when the fuse is removed.

: 3) Initial Conditions:

Mechanical Maintenance has a Work Order to work on the Fuel Building Exhaust Filter 2B Inlet Isolation Damper, HVF-AOD 20B. The 2B Filtration Unit has been tagged out and Electricians are ready to remove the 5 amp Fuse F1 in Panel P852 to de-energize the damper for work to begin.

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

RJPM-NRC-D14-A3                                              Rev 0                       Page 2 of 7

 

RJPM-NRC-D14-A3 Rev. 0 ANSWER KEY Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following:

: 1. The fail position of HVF-AOD 20B, Fuel Building Exhaust Filter 2B Inlet Isolation Damper, when the fuse is removed.

(Critical Task)

: 1.     HVF-AOD 20B fails OPEN (Critical Task is for all of the three listed below)

RJPM-NRC-D14-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

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

TASK STANDARD:             The applicant determined the effects of removing fuse F1 in Panel P852 in accordance with the attached key.

RJPM-NRC-D14-A3                                          Rev 0                          Page 4 of 7

RJPM-NRC-D14-A3 Rev. 0 PERFORMANCE:

START TIME:

: 1.   *Procedure Step: Determine fail position of HVF-AOD 20B, Fuel Building Exhaust Filter 2B Inlet Isolation Damper.

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 other component positions affected by removal of fuse F1.

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

: 3.   *Procedure Step: Determine Main Control Room indications and alarms caused by removal of fuse F1.

Standard Applicant determined the MCR indications and alarms 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 F1 in Panel P852 in accordance with the attached key.

This completes this JPM.

RJPM-NRC-D14-A3 Rev. 0 JPM COMMENT SHEET CRITERIA FOR SATISFACTORY EVALUATION

: 2. Critical Time Frame is met if applicable.

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

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

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

: 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-D14-A3                                              Rev 0                          Page 6 of 7

RJPM-NRC-D14-A3 Rev. 0 OPERATOR CUE SHEET Initial Conditions:

Mechanical Maintenance has a Work Order to work on the Fuel Building Exhaust Filter 2B Inlet Isolation Damper, HVF-AOD 20B. The 2B Filtration Unit has been tagged out and Electricians are ready to remove the 5 amp Fuse F1 in Panel P852 to de-energize the damper for work to begin.

Initiating Cues:

Given the appropriate drawings, the CRS has directed you to determine the following:

: 1. The fail position of HVF-AOD 20B, Fuel Building Exhaust Filter 2B Inlet Isolation Damper, when the fuse is removed.

1.

2.

3.

RJPM-NRC-D14-A3                                        Rev 0                        Page 7 of 7

Perform                                                  Plant X    Simulate                                                  Simulator Control Room X      Classroom Prepared:      Dave Bergstrom                                      Date:    August 28, 2014 Reviewed:      Steve Carter                                        Date:    October 1, 2014 (Operations Representative)

Approved:     Joey Clark                                           Date:     October 17, 2014 (Facility Reviewer)

RJPM-NRC-D14-A4 Rev. 1 EXAMINER INFO SHEET Task Standard: Applicant determined the Primary Containment Water Level and correlated RPV water level in accordance with the key.

Synopsis:         This task will have the applicant use given data and a procedure to determine the water level in the containment. This data will be further used to determine correlated water level in the RPV. The task is being performed because of a plant emergency that required entry into the Severe Accident Procedures (SAPs).

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.

: 2) Initial Conditions:

The CRS has directed you to determine Containment water level AND a correlated RPV water level using step 3.3 of EOP-0005 Enclosure 23, Containment Water Level Determination.

: 3) Initiating Cues:

Containment Flooding is in progress in accordance with SAP-1; It has been determined that the vessel has been breached.

Suppression Pool level indication on panel H13-P808 is pegged upscale.

The following plant data has been obtained by completing Sections 3.1 and 3.2 of Enclosure 23:

* Div II CMS-PI17B indicates 5 psig

* E51-R604 RCIC PUMP SUCTION PRESSURE indicates 30 psig

* E51-F031 RCIC PUMP SUP PL SUCTION VALVE is open

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

RJPM-NRC-D14-A4 Rev. 1 ANSWER KEY ENCLOSURE 23 PAGE 7 OF 7 EOP-0005 REV.-314   PAGE 3 OF 139 RJPM-NRC-D14-A4                  Rev 1               Page 3 of 8

                            -186 in. = 60 ft.

RJPM-NRC-D14-A4 Rev. 1 DATA SHEET TASK Title:                            Task Number            K&A SYSTEM:          K&A RATING:

Determine Containment Water Level      200063005001          G 2.4.21              4.0 During Containment Flooding

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

TASK STANDARD:              Applicant determined the Primary Containment Water Level and correlated RPV water level in accordance with the key.

RJPM-NRC-D14-A4 Rev. 1 PERFORMANCE:

START TIME:

1.

      *Procedure Step: 3.3 Determine Containment Water Level.

Standard Applicant determined water level of containment using graph figure 8 to be 61 feet. (+/- one foot)

Applicant determined water level of containment using the calculation given to be 61.5 feet. (+/- one half foot)

Cue If applicant did not already perform calculation, as the CRS, request that the applicant confirm his finding on the graph using the calculation.

Notes PCWL = [ (ECCS Suction Press - CTMT Press) x 2.3 ] + 4

[ (30 - 5) x 2.3 ] + 4 = [ 25 x 2.3 ] +4 = 57.5 + 4 = 61.5 Results SAT                                           UNSAT 2.

      *Procedure Step:   Determine correlated RPV water level.

Standard Applicant determined the correlated RPV water level using Table 1 to be between -162 to -174.

Cue Notes Table 1 and Figure 8 are in the key of this JPM, pages 3 and 4.

Results SAT                                           UNSAT Terminating Cue: Applicant determined the Primary Containment Water Level and correlated RPV water level in accordance with the key.

This completes this JPM.

RJPM-NRC-D14-A4 Rev. 1 JPM COMMENT SHEET CRITERIA FOR SATISFACTORY EVALUATION

: 2. Critical Time Frame is met if applicable.

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

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

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

: 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-D14-A4                                              Rev 1                          Page 7 of 8

 

 

 

RJPM-NRC-D14-A5 Rev. 1 ANSWER KEY RJPM-NRC-D14-A5        Rev 1           Page 3 of 8

RJPM-NRC-D14-A5 Rev. 1 DATA SHEET TASK Title:                          Task Number            K&A SYSTEM:          K&A RATING:

Determine Stay Time for a Hot         300076003001          G 2.1.26              3.6 Environment

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

CRITICAL ELEMENTS:         Items marked with an

RJPM-NRC-D14-A5 Rev. 1 PERFORMANCE:

START TIME:

: 1. Procedure Step: 5.3 [1] Prior to performing work, the group supervisor shall determine whether heat stress conditions may be a factor:

Standard  Applicant reviews precautions and limitations and the general requirements of EN-IS-108.

Cue Notes Results SAT                                          UNSAT 2.

    *Procedure Step: 5.3 [2] From Attachment 9.2

* Select the appropriate work demand category from the table titled Work Demand Standard Applicant selected the MODERATE Work Demand in accordance with Attachment 9.2.

Cue Notes  The activity for Manual valve alignment - easy is listed under Moderate Work Demand.

: 3. Procedure Step:  5.3 [2] From Attachment 9.2

* Select the appropriate clothing ensemble from the table titled Typical Clothing Ensembles Standard  Applicant selected SC (Single coveralls) in accordance with Attachment 9.2.

Cue Notes Results SAT                                          UNSAT RJPM-NRC-D14-A5                                         Rev 1                         Page 5 of 8

RJPM-NRC-D14-A5 Rev. 1

: 4. Procedure Step:   5.3 [2] From Attachment 9.2

* Determine if heat stress may be a factor by reviewing the table titled Heat Stress Threshold Values 5.3 [3] If the dry bulb temperature is greater than, or expected to be greater than those listed, heat stress may be a factor; obtain a WBGT or reference historical temperature readings.

Standard  Applicant determined that the Heat Stress Threshold is a factor in accordance with Attachment 9.2 by comparing the given condition of 95F dry bulb temperature and the threshold temperature of 90F.

Applicant obtained wet bulb temperature from initial conditions.

Cue Notes Results  SAT                                           UNSAT PROCEDURE NOTE Attachment 9.1, Heat Stress Survey Form is not required if the stay time associated with the temperature is listed as No Limit (NL) 5.

    *Procedure Step:   5.3 [4] If the WBGT temperature obtained falls within the chart on Attachment 9.4, then a Heat Stress Survey Form, Attachment 9.1, shall be completed.

Standard   Applicant completes Attachment 9.1 using step 5.3 [5], bullets 1, 2, and 3.

Cue Notes   Intersection of 102F and Single PCs with a Work Demand of MOD.

Results  SAT                                           UNSAT Terminating Cue: Determination of the work demand classification and the stay time is in accordance with the attached key.

This completes this JPM.

RJPM-NRC-D14-A5 Rev. 1 JPM COMMENT SHEET CRITERIA FOR SATISFACTORY EVALUATION

: 2. Critical Time Frame is met if applicable.

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

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

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

: 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-D14-A5                                              Rev 1                          Page 7 of 8

RJPM-NRC-D14-A5 Rev. 1 OPERATOR CUE SHEET Initiating Cues:

Complete the appropriate sections of Attachment 9.1, Heat Stress Survey Form, of EN-IS-108, Working in Hot Environments; disregard Recovery Time.

Initial Conditions:

The plant is in Mode 5; refueling is in progress.

Two Nuclear Equipment Operators are required to re-align two valves for the Fuel Pool Cooling and Cleanup System located in a room above the RB-162.

Both valves are infrequently operated but are considered easy to operate. The valves are in a C-Zone and require donning single anti-contamination clothing.

The dry bulb temperature is 95°F.

RJPM-NRC-D14-A6 Rev 1 NUCLEAR PLANT OPERATOR ADMINISTRATIVE JOB PERFORMANCE MEASURE SRO       RO ALTERNATE PATH TITLE:             Determine Actions for Reactor Water Chemistry OPERATOR:                                                     DATE:

EVALUATOR:                                     EVALUATOR SIGNATURE:

CRITICAL TIME FRAME:           Required Time (min):   NA   Actual Time (min):                 NA PERFORMANCE TIME:               Average Time (min):     22   Actual Time (min):

JPM RESULTS*: (Circle one)

* SAT              UNSAT Refer to Grading Instructions at end of JPM EVALUATION METHOD:                                       EVALUATION LOCATION:

X     Perform                                                   Plant Simulate                                                 Simulator Control Room X     Classroom Prepared:     Dave Bergstrom                                       Date:     September 8, 2014 Reviewed:     Steve Carter                                         Date:     October 2, 2014 (Operations Representative)

RJPM-NRC-D14-A6 Rev. 1 EXAMINER INFO SHEET Task Standard: Applicant determines that the plant startup may not continue.

Synopsis:         This task will require an SRO to review given data and AOP-0058 to determine actions after a report from the Chemistry Department.

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.

: 2) Initial Conditions:

A Plant Startup is in progress; currently in Mode 2.

Chemistry has been contacted to verify water quality per GOP-0001, Plant Startup, Step 7 of Section E, 600 PSIG to RUN.

: 3) Initiating Cues:

The Chemistry Manager has just completed the required sampling of Reactor Water, Feedwater, Condensate, and CRD Water. Review the Chemistry data and determine the course of action for plant startup.

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

RJPM-NRC-D14-A6                                             Rev 1                       Page 2 of 8

 

RJPM-NRC-D14-A6 Rev. 1 ANSWER KEY Answer Below The Startup may continue YES NO (circle one)

RJPM-NRC-D14-A6 Rev. 1 DATA SHEET TASK Title:                           Task Number           K&A SYSTEM:           K&A RATING:

Determine Actions for Reactor Water   400084004001         G 2.1.34             3.5 Chemistry

==REFERENCES:==

APPLICABLE OBJECTIVES AOP-0058, Abnormal Chemistry, Rev 8 REQUIRED MATERIALS:

AOP-0058, Abnormal Chemistry, Rev 8 TR 3.4.13, Chemistry GOP-0001, Plant Startup, Rev 82 CSP-0100, Chemistry - Required Surveillances and Actions, Rev 26 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 determines that the plant startup may not continue.

RJPM-NRC-D14-A6                                         Rev 1                         Page 4 of 8

 

RJPM-NRC-D14-A6 Rev. 1 PERFORMANCE:

START TIME:

GOP-0001, Plant Startup CSP-0100, Chemistry - Required Surveillances and Actions TR 3.4.13, Chemistry AOP-0058, Abnormal Chemistry 1.

      *Procedure Step:     1. Determine the limiting chemistry value per TR 3.4.13, CSP-0100, and AOP-0058.

Standard   Applicant determined the limiting parameter as chlorides in Reactor Water.

Cue Notes Results   SAT                                           UNSAT 2.

      *Procedure Step:     2. Determine the ability to continue plant startup.

Standard   Applicant compared values and determined that the plant startup may not continue, based on being in Action Level 2 for Chlorides in AOP-0058.

Cue Notes   If applicant uses Attach 1 page 2 (for Startup/Hot Standby) of AOP-0058, then chlorides are in spec; the conditions of the JPM are for entering Mode 1.

Results   SAT                                           UNSAT Terminating Cue: Applicant determines that the plant startup may not continue.

This completes this JPM.

RJPM-NRC-D14-A6 Rev. 1 JPM COMMENT SHEET CRITERIA FOR SATISFACTORY EVALUATION

: 2. Critical Time Frame is met if applicable.

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

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

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

: 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-D14-A6                                              Rev 1                          Page 6 of 8

RJPM-NRC-D14-A6 Rev. 1 OPERATOR CUE SHEET Initial Conditions:

A Plant Startup is in progress; currently in Mode 2.

Chemistry has been contacted to verify water quality per GOP-0001, Plant Startup, Step 7 of Section E, 600 PSIG to RUN.

Initiating Cues:

The Chemistry Manager has just completed the required sampling of Reactor Water, Feedwater, Condensate, and CRD Water. Review the Chemistry data on the attached form and determine the course of action for plant startup.

Answer Below The Startup may continue YES NO (circle one)

 

RJPM-NRC-D14-A7 Rev 1 NUCLEAR PLANT OPERATOR ADMINISTRATIVE JOB PERFORMANCE MEASURE SRO       RO ALTERNATE PATH TITLE:             Determine Secondary Containment Operability OPERATOR:                                                     DATE:

EVALUATOR:                                     EVALUATOR SIGNATURE:

CRITICAL TIME FRAME:           Required Time (min):   NA   Actual Time (min):                 NA PERFORMANCE TIME:               Average Time (min):     15   Actual Time (min):

JPM RESULTS*: (Circle one)

* SAT              UNSAT Refer to Grading Instructions at end of JPM EVALUATION METHOD:                                       EVALUATION LOCATION:

X     Perform                                                   Plant Simulate                                                 Simulator Control Room X     Classroom Prepared:     Dave Bergstrom                                       Date:     September 8, 2014 Reviewed:     Steve Carter                                         Date:     October 2, 2014 (Operations Representative)

: 1) Read to the operator:

: 2) Initial Conditions:

Annunciator H13-P863-72A-A01, ANNULUS PRESSURE HIGH is in Alarm, with an Annulus Pressure of -2.8 inches WC.

: 3) Initiating Cues:

RJPM-NRC-D14-A7 Rev. 1 ANSWER KEY RJPM-NRC-D14-A7         Rev 1           Page 3 of 7

RJPM-NRC-D14-A7 Rev. 1 DATA SHEET TASK Title:                               Task Number           K&A SYSTEM:         K&A RATING:

Determine Secondary Containment           300095003001          G 2.2.12            4.1 Operability

==REFERENCES:==

APPLICABLE OBJECTIVES STP-000-0001, Daily Operating Logs, Rev 78 ARP-863-72A-A01, Rev 16 REQUIRED MATERIALS:

Marked up copy of STP-000-0001, Daily Operating Logs, Rev 78 ARP-863-72A-A01, Rev 16 SIMULATOR CONDITIONS &/or SETUP:

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

REASON FOR REVISION:

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 reviewed the prepared tagout and determined that it is annulus pressure is not acceptable.

RJPM-NRC-D14-A7                                               Rev 1                       Page 4 of 7

 

RJPM-NRC-D14-A7 Rev. 1 PERFORMANCE:

START TIME:

: 1. Procedure Step:   Determine corrected annulus pressure.

Standard Applicant used data provided to determine corrected annulus pressure to be

                        -3.14 inches WC.

Cue Notes Calculation per STP-000-0001 step 92.

                        -2.8 + -0.34 = -3.14 Results SAT                                       UNSAT

: 2.   *Procedure Step: Determine is Annulus Pressure is acceptable.

Standard Applicant used Attachment 3 of STP-000-0001 to determine that annulus pressure is in the unacceptable region.

Cue Notes See graph key on page 3 of this JPM.

Results SAT                                       UNSAT Terminating Cue: Applicant reviewed the prepared tagout and determined that it is annulus pressure is not acceptable.

This completes this JPM.

RJPM-NRC-D14-A7 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.