{{#Wiki_filter:ES-301 Administrative Topics Outline Form ES-301-1 Task Summary Rev. 1 Facility: CPNPP Units 1 and 2 Date of Examination:

July 20 1 6 Examination Level: RO SRO   Operating Test Number:

NRC Administrative Topic (See Note)

Type Code* Describe activity to be performed Conduct of Operations (RA1) D ,R 2.1.2 3 Ability to perform specific system and integrated plant procedures during all modes of plant operation

. (4.3) JPM: Calculate BOL Boration for Long Term Use

. (R O 1 307 D) Conduct of Operations (RA2) M ,R 2.1.43 Ability to use procedures to determine the effects on reactivity of plant changes, such as reactor coolant temperature, secondary plant, fuel depletion etc.

(4.1) JPM: Determine Reactivity Effects When Starting Positive Displacement Charging Pump. (RO1310E) Equipment Control (RA3) D ,R 2.2.1 Ability to perform pre

-startup procedures including operating those controls associated with plant equipment that could affect reactivity. (4.5) JPM: Perform a 1/M Plot and Predict Critical Conditions. (RO1003A) Radiation Control (RA4) D,R 2.3.7 Ability to comply with radiation work permit requirements during normal or abnormal conditions. (3.

: 5) JPM: Determine Entry Conditions for Radiation Area Clearance. (RWT056 B) Emergency Procedures/Plan NOTE: All items (5 total) are required for SROs. RO applicants require only 4 items unless they are retaking only the administrative topics, when 5 are required.

ES-301 Administrative Topics Outline Form ES-301-1 Task Summary Rev. 1

* 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) (P)revious 2 exams (< 1; randomly selected)

R A1 The applicant will calculate BOL Boration for long term use per SOP

-104A, Reactor Makeup and Chemical Control System, Attachment 2, BOL Boration for Long-Term Use. Critical steps include determining Reactor Coolant System corrected boron, gallons of Reactor Makeup Water to offset boron, and potentiometer settings for the Chemical and Volume Control System. This is a direct from bank JPM. (K/A 2.1.2 3 - IR 4.3) R A2 The applicant is presented with information pertaining to the boron concentration in the suction piping to the Positive Displacement Charging Pump and the Reactor Coolant System. The applicant will use SOP

-103A, Chemical and Volume Control System to determine the reactivity effects of the planned evolution.

The critical steps will be to calculate the change in RCS boron concentration and RCS temperature

. The JPM is modified from a previous version by changing the RCS boron concentration and the concentration in the PDP suction line. The prior version was a resulting boration. The modified version is a resulting dilution. This is a modified JPM. (K/A 2.1.43  

- IR 4.1) R A3 The applicant will perform a 1/M plot for a Reactor Startup per IPO

-002A, Plant Startup From Hot Standby, Attachment 2, Inverse Count Rate Ratio Calculation The critical steps include the critical steps include calculating and plotting 1/M, predicting critical conditions, and identifying action for criticality above the power dependent insertion limit. This is a direct from bank JPM. (K/A 2.2.1  

- IR 4.5) R A4 The applicant will determine the radiological requirements for implementing a Clearance in a Radiological Controlled Area per STA

-656, Radiation Work Control, RPI

-602, Radiological Surveillance and Posting, and RPI

-606, Radiation Work and General Access Permits. Critical tasks include identifying Dose Monitoring Requirements, Protective Clothing Requirements, highest contamination level, and highest dose rate. This is a direct from bank JPM. (K/A 2.2.37  

- IR 3.5)

Appendix C JPM STEPS Form ES-C-1  CPNPP 2016 NRC JPM RA1 (RO1307D)

Rev. 2  CLASSROOM SETUP  Handout: PROVIDE the examinee with a copy of:

-Term Use Page 1 (labeled Procedure 1)

Appendix C JPM STEPS Form ES-C-1   CPNPP 2016 NRC JPM RA1 (RO1307D)

Rev. 2   - Check Mark Denotes Critical Step START TIME:

Examiner Note

: The following steps are from SOP-104A, Attachment 2 page 1 Examiner Note

: Refer to answer key for calculated values Perform Step:

1 1.0 RECORD Reference Data as follows: RCS Boron

__________

BAT Boron

__________

B10 WT Fraction

__________

Performance Standard: ENTERED data on Attachment 2 at Step 1.0 Comment:  SAT      UNSAT       Perform Step

: 2 2.A CALCULATE volumes in pot settings as follows:

RCS Corrected Boron:

Performance Standard: CALCULATED 1512 to 1513. [allowable error based on rounding after first calculation and then performing second calculation]

Comment:  SAT      UNSAT Appendix C JPM STEPS Form ES-C-1  CPNPP 2016 NRC JPM RA1 (RO1307D)

Rev. 2   Perform Step:

3 2.B CALCULATE volumes in pot settings as follows:

Gallons of RMUW to offset boron in Blender Pipe during normal VCT makeup:

Performance Standard: CALCULATED 132 to 133 gallons. [allowable error based on rounding carried from Step 2 and those performed in this step]

Comment:  SAT      UNSAT       Perform Step:

4 2.C CALCULATE volumes in pot settings as follows:

Boron gallons for a Manual Blend:

Performance Standard: CALCULATED 10 to 11 gallons. [allowable error based on rounding]

Comment:  SAT      UNSAT       Perform Step:

5 2.D CALCULATE volumes in pot settings as follows:

Boric Acid Pot Setting for a Manual Blend:

Performance Standard: CALCULATED 4.69 +/- 0.1. [allowable error based on rounding and accuracy of Pot settings]

Comment:  SAT      UNSAT Appendix C JPM STEPS Form ES-C-1  CPNPP 2016 NRC JPM RA1 (RO1307D)

Rev. 2   Perform Step:

6 2.E CALCULATE volumes in pot settings as follows:

Boric Acid Pot Setting for AUTO Makeup:

Performance Standard: CALCULATED 6.62 +/- 0.1. [allowable error based on rounding and accuracy of Pot settings]

Comment:  SAT      UNSAT       Perform Step:

7 2.F CALCULATE volumes in pot settings as follows:

Gallons of RMUW to offset boron in Blender Pipe when returning Makeup System to Automatic:

Performance Standard: CALCULATED 86 to 87 gallons. [allowable error based on rounding carried from Step 2 and those performed in this step]

Comment:  SAT      UNSAT       STOP TIME:

Appendix C JPM CUE SHEET Form ES-C-1           CPNPP 2016 NRC JPM RA1 (RO1307D)

Rev. 0  Initial Conditions

: Given the following conditions:

Unit 1 startup is in progress following a refueling outage Reactor Coolant System boron concentration is 1600 ppm Boric Acid Storage Tank boron concentration is 7249 ppm Boron-10 Weight Fraction is 0.173367 Initiating Cue

: The Unit Supervisor directs you to PERFORM the following:

CALCULATE Beginning

-Of-Life Boration values per SOP

-104A, Reactor Make

-up and Chemical Control System, Attachment 2, BOL Boration for Long

-Term Use RECORD information on Attachment 2, BOL Boration for L ong-Term Use page 1

ATTACHMENT 2PAGE 1 OF 7BOL BORATION FOR LONG TERM USECPNPP SYSTEM OPERATING PROCEDURE MANUALUNIT 1PROCEDURE NO.SOP-104AREACTOR MAKE-UP AND CHEMICAL CONTROL SYSTEMREVISION NO. 15PAGE 75 OF 82lCONTINUOUS USEThis attachment describes the steps to periodically add boron to the RCS at BOL while keeping thesystem aligned in the BORATE mode. Instructions are provided to address refilling the VCT due to normal losses as well as if an RCS leak were to occur. NOTE:This attachment assumes prior automatic operation. Therefore, B-10 Corrected RCSBoron Concentration must be < 1600 ppm to use this attachment. 1.0RECORD Reference Data as follows:

! B10 Wt Fraction                        2.0CALCULATE volumes and pot settings as follows:A.RCS Corrected Boron:

RCS PPM X                  B-10 Wt Fraction  =               0.1834 RCS (c) PPM BORONCorrectedB.Gallons of RMUW to offset boron in Blender Pipe for Normal VCT Makeup:

BAT PPM  X  35 GAL  -    35 GAL      =                  RCS(c)         BORON      BORON 1-FY-111B, RMUW Gallons to Offset Boron in Blender PipeC.Boron gallons for a Manual Blend:50 Total Gallons    X                      RCS(c)     

        =     BAT PPM 1-FY-110B, Boron Gallons for Manual BlendD.Boric Acid Pot Setting for a Manual Blend:90 Total Flowrate    X                      RCS(c)

            =                4                      BAT PPM 1-FK-110, BA Pot Setting for

            =            4        BAT PPM 1-FK-110, BA Pot Setting forAuto MakeupF.Gallons of RMUW to offset boron in Blender Pipe when returning Makeup System to Automatic:                  BAT PPM  X  22.8 GAL -  22.8 GAL    =                        RCS(c)        BORON      BORON 1-FY-111B, RMUW Gallons toOffset Boron in Blender Pipewhen returning to Automatic Appendix C JPM WORKSHEET Form ES-C-1 Page 1 of 5          CPNPP 2016 NRC JPM RA2 (RO1310E)

Initial Conditions:

Given the following conditions:

Unit 1 is 100% power The Positive Displacement Charging Pump must be placed in service per SOP-103A, Chemical and Volume Control System The last time the Positive Displacement Charging Pump was run the Reactor Coolant System Boron concentration was 2 5 ppm Current Reactor Coolant System Boron concentration is 1 222 ppm Initiating Cue:

The Unit Supervisor directs you to PERFORM the following

:  CALCULATE a Reactivity Evaluation for starting the Positive Displacement Charging Pump per SOP

-103A, Chemical and Volume Control System, Step s 5.3.1.C REPORT findings to the Unit Supervisor Task Standard:

Appendix C JPM WORKSHEET Form ES-C-1  Page 2 of 5         CPNPP 2016 NRC JPM RA2 (RO1310E)

REV. 1 CLASSROOM SETUP  Handout: PROVIDE the examinee with a copy of:

SOP-103A , Chemical and Volume Control System, Step 5.3.1.C

Appendix C JPM STEPS Form ES-C-1  Page 3 of 5          CPNPP 2016 NRC JPM RA2 (RO1310E)

REV. 1 - Check Mark Denotes Critical Step START TIME:

Valid for approximately 7 days.Calculations based on core design values, and assume:Burnup =  MWD/MTU  EFPDPower =  RTPBoron =  ppm B10 Conc =  w/o Control Bank D =  stepsReactivity affects of Control Bank DHFP Diff Worth @ 215.0 steps =  pcm / stepHFP Integral Rod Worth for CBD Step Positions:Reactivity affects of BoronHFP Diff Boron Worth @ 1222 ppm =  pcm / ppm1-FK-110 Pot Setting for Blended Flow @ 1222 ppm = (Assuming BAT concentration of 7447.0 ppm)Reactivity affects of Powe rPower Coefficient of Reactivity =  pcm / % RTPDilution to equal 1% Power Increase =  gallons RMUWBoration to equal 1% Power Decrease =  gallons boric acidReactivity affects of RCS TemperatureTemperature Coefficient of Reactivity (ITC) =  pcm / FBoration to equal 1F Temperature Decrease =  gallons boric acid Dilution to equal 1F Temperature Increase =  gallons RMUWLoad Reduction equal to 1F Tave Increase =  MWe11.05.21-7.0-0.916.6 175Steps205-18.2pcm-61.4 21187.8-11.895.218.0-10.9-9.6206-16.6-15.1Steps-88.6170-103.1195-37.4190-48.9 185-10.8209-12.2 0.0-0.8 210-1.9-1.1-5.4208-1.4214-6.3207-2.4Stepspcm 2152250.0Stepspcm218-3.1 224 223 220 219 222 2210.183400-7.3212-8.4217-3.8216-4.5 213 215 1222Reactivity Briefing Sheet for Stable Operation4000.090.4 100 BOL PROJECTIONS - SIMULATOR USE ONLY 180from assumed inputs.Burnup in the BOL rangeNOTE: Re-create the Briefing Sheetif current values significantly differpcm200-27.1-74.7-13.6 Appendix C JPM STEPS Form ES-C-1  Page 1 of 7 CPNPP 2016 NRC JPM RA3 (RO1003A)  REV. 1 Facility: CPNPP JPM # NRC RA3 Task # RO 1003 K/A # 2.2.1  4.5 / 4.4  Title: Perform a 1/M Plot and Predict Critical Conditions Examinee (Print):

READ TO THE EXAMINEE I will explain the Initial Conditions, which steps to simulate or discuss, and provide an Initiating Cue. When you complete the task successfully, the objective for this JPM will be satisfied.

-plot the points on a 1/M Data Sheet to re

-002 B, Plant Startup from Hot Standby, Attachment 2, Inverse Count Rate Ratio Calculation Steps 3.3.E and 3.3.F PLOT the points on the 1/M Data Sheet per IPO-002 B, Plant Startup from Hot Standby, Attachment 2, Inverse Count Rate Ratio Calculation Step 3.3.G  DETERMINE the ECC (Predicted Critical Rod Height

) for each of the four rod withdrawals and record on the 1/M Data Sheet per IPO-002 B, Plant Startup from Hot Standby, Attachment 2, Inverse Count Rate Ratio Calculation Steps 3.4 and 3.

Appendix C JPM STEPS Form ES-C-1  Page 2 of 7 CPNPP 2016 NRC JPM RA3 (RO1003A)  REV. 1 Task Standard:

-002 B , calculate d Inverse Count Rate Ratios , perform ed a 1/M Plot using data provided on Attachment 2 , determine d estimated critical rod position for each the four rod withdrawals, determined criticality predicted below Rod Insertion Limit and recorded insert all Control Banks to the CBO position. Re f. Materials:

IPO-002 B , Plant Startup from Hot Standby , Rev. 10-37. ERX-1 5-00 1, COLR for CPNPP Unit 2 Cycle 1 6, Figure 2, Rod Bank Insertion Limits Versus Thermal Power, Rev. 0.

15 minutes  Completion Time: ________ minutes Comments:      Result:  SAT  UNSAT   Examiner (Print / Sign):

Appendix C JPM STEPS Form ES-C-1 Page 3 of 7 CPNPP 2016 NRC JPM RA3 (RO1003A)  REV. 1 CLASSROOM SETUP  Handout s: PROVIDE the examinee with a copy of:

IPO-002 B, Plant Startup from Hot Standby (labeled Procedure 1)

COMPLETE Attachment 2 th r ough four sets of data  IPO-002 B, Plant Startup from Hot Standby Step 5.2.10 (labeled Procedure

: 2) COLR for CPNPP Unit 2 Cycle 16 Figure 2 Rod Bank Insertion Limits Versus Thermal Power (labeled Handout 1)

Appendix C JPM STEPS Form ES-C-1 Page 4 of 7 CPNPP 2016 NRC JPM RA3 (RO1003A)  REV. 1  - Check Mark Denotes Critical Step START TIME:

:  RECORD an average Count Rate of 55. CALCULATE ICRR = 1/M = 50/5 5 = 0.9 1 +/- 0.0 1. RECORD ICRR = 0.91 +/- 0.01. PLOT points for CBA @ 0 steps and CBA @ 50 steps. DRAW a line from 1.00 to 0.9 1 that INTERSECTS with CBD at 190 +/- 100 steps. LOG an Estimated Critical Condition between CBD at 155 and 225 steps. Comment: SAT      UNSAT     Perform Step: 2 Calculate Inverse Count Rate Ratio calculation for Control Bank A at 100 steps and plot on 1/M Data Sheet.

6 5 = 0.77 +/- 0.01. RECORD ICRR = 0.77 +/- 0.01. PLOT points for CBA @ 50 steps and CBA @ 100 steps. DRAW a line from 0.91 to 0.77 that INTERSECTS with CBD at 10 +/- 50 steps. LOG an Estimated Critical Condition between C B C at 1 0 0 and CBD at 35 steps. Comment: SAT      UNSAT Appendix C JPM STEPS Form ES-C-1  Page 5 of 7 CPNPP 2016 NRC JPM RA3 (RO1003A)  REV. 1 Perform Step: 3 Calculate Inverse Count Rate Ratio calculation for Control Bank B at 35 steps and plot on 1/M Data Sheet.

Performance Standard: CALCULATED Inverse Count Rate Ratio for Control Bank B at 35 steps, PLOTTED on 1/M Data Sheet, and RECORDED Data:

88 = 0.57 +/- 0.01. RECORD ICRR = 0.57 +/- 0.01. PLOT points for CB A @ 100 steps and CB B @ 35 steps. DRAW a line from 0.77 to 0.57 that INTERSECTS with CBC at  55 +/- 30 steps. LOG an Estimated Critical Condition between CBC at 40 and 90 steps. Comment: SAT      UNSAT      Perform Step: 4 Calculate Inverse Count Rate Ratio calculation for Control Bank B at 85 steps and plot on 1/M Data Sheet.

RECORD an average Count Rate of 333. CALCULATE ICRR = 1/M = 50/333 =

The following Performance Standard is from IPO-002 B, Step 5.2.10, 4 th bullet. Perform Step:

5 RECORD any required action based on 1/M Data obtained on Attachment 2, Page 3 of 4 and/or the JPM Cue Sheet

-002B, Plant Startup from Hot Standby, Attachment 2, Inverse Count Rate Ratio Calculation Steps 3.4 and 3.5 RECORD any required action(s) based on 1/M Data obtained below:

IPO-002BPLANT STARTUP FROM HOT STANDBYREVISION NO. 10PAGE 64 OF 83 NOTE:This calculation is not required when Core Performance Engineering is performing ICRR calculations per NUC-111.1.0PREREQUISITES

The Shift Manager may authorize withdrawals of less than 50 steps.B.Monitor Source Range indication on recorder 2-NR-0045 to determine when the Source Range channels have stabilized.C.Obtain three separate integral count measurements for each Source Range channel using the counting interval determined in Step 3.1.D.Ensure audible Source Range counts is returned to service after completion of counting measurements.E.Calculate the average of these counts for each Source Range channel on the ICRR worksheet.F.Perform the following calculation and record the result on the ICRR worksheet.ICRR=Source Range Channel Reference Counts Source Range Channel Average CountsG.Plot the ICRR values at the appropriate rod position on graph paper similar to the one attached.3.4Perform a linear extrapolation of the ICRR plot, using the last two data points, to the point at which theextrapolation intersects the horizontal axis. This point defines the rod position at which criticality is estimated.3.5List rod position estimation on the ICRR worksheet.

IPO-002BPLANT STARTUP FROM HOT STANDBYREVISION NO. 10PAGE 67 OF 83 1/M DATA SHEET IC R R 1.0.9.8.7.6.5.4.3.2.1 0 0100200300400500565 01 00 50207035850555105155205GP 'A'G P 'C'GP 'B'G P 'D'01 00 50 15020025030035040045050055060 0

COLR for CPNPP Unit 2 Cycle 16 FIGURE 2 ROD BANK INSERTION LIMITS VERSUS THERMAL POWER  NOTES:1.Fully withdrawn shall be the condition where control rods are at a position within the interval of 218 and 231 steps withdrawn, inclusive.2.Control Bank A shall be fully withdrawn.

(0,164)(0,49)(31,0)(100,146)BANK B  BANK D    11 ERX-15-001, Rev. 0 Appendix C JPM WORKSHEET Form ES-C-1  Page 1 of 6 CPNPP 2016 NRC JPM RA4 (RWT056B) REV. 2 Facility: CPNPP JPM # NRC R A4 Task # RWT056B K/A # 2.3.7  3.5 / 3.6  Title: Determine Entry Conditions for Radiation Area Clearanc e  Examinee (Print):

Testing Method: Simulated Performance:

Classroom:

X Actual Performance:

X Simulator:

Alternate Path:

Plant:   Time Critical:

READ TO THE EXAMINEE I will explain the Initial Conditions, which steps to simulate or discuss, and provide an Initiating Cue. When you complete the task successfully, the objective for this JPM will be satisfied.

Initial Conditions:

Given the following conditions:

A Clearance is required to remove 1

-LCV-1003, LWPS RCDT 1

-01 LVL CTRL VLV from service Tags need to be hung on 1

-01 LVL CTRL VLV UPSTRM ISOL and 1

-7167, LWPS RCD T 1-01 LVL CTRL VLV DNSTRM ISOL  The valves are located in Safeguards Building Elev. 810' NORTH PENETRATION VLV RM / North Side (Room 77A)  Initiating Cue:

The Work Control Supervisor directs you to PERFORM the following:

DETERMINE the Dose Monitoring Requirements to enter the room  DETERMINE the minimum Protective Clothing Requirements to enter the valve area IDENTIFY the highest contamination level in dpm/100 cm 2 for the room  IDENTIFY the highest area dose rate in mR/hr for the room  Task Standard:

Utilizing the General Access Permit, Survey Map, and Valve Locator Guide, determined the Dose Monitoring Requirements, Protective Clothing Requirements, highest contamination level and highest area dose rate where tagging is to be performed. Re f. Materials: RPI-602, Radiological Surveillance and Posting, Rev.

57-1. RPI-606, Radiation Work and General Access Permits, Rev. 3

: 5. Valve Locator Map for Unit 1 Safeguards Building Elev. 810

' Room 77A. Survey Map for U

-1 SG 810' Pipe Penetration Area Train B Room 1-077A. 4/4/16 CPNPP General Area Permit 201 6001 1, Routine Maintenance, Rev.

: 02. Validation Time:

2 0 minutes  Completion Time:

Appendix C JPM WORKSHEET Form ES-C-1 Page 2 of 6 CPNPP 2016 NRC JPM RA4 (RWT056B) REV. 2 Comments:     Result: SAT UNSAT Examiner (Print / Sign):

Date:

Appendix C JPM WORKSHEET Form ES-C-1  Page 3 of 6 CPNPP 2016 NRC JPM RA4 (RWT056B) REV. 2 CLASSROOM SETUP Handouts: PROVIDE the examinee with a copy of:

Valve Locator Map for Unit 1 Safeguards Building Elev.

Appendix C JPM STEPS Form ES-C-1 Page 4 of 6 CPNPP 2016 NRC JPM RA4 (RWT056B) REV. 2  - Check Mark Denotes Critical Step START TIME:

: Provide the examinee with copy of JPM Cue Sheet

. Performance Standard: PERFORMED the following:

LOCATE D 1-7168 and 1

' Room 77N (77A)

-7167 are located inside a Radiation Area and the area is contaminated.

Comment: SAT      UNSAT      Perform Step: 2 Determine the Dose Monitoring Requirements to enter the room

. Performance Standard: DETERMINE D the Dose Monitoring Requirements to enter the room per the General Access Permit

:  Deluxe coveralls  Booties  Hood and hard hat cover Cotton liners Rubber gloves  Rubber Overshoes Comment: SAT      UNSAT      Perform Step: 4 Identify the highest contamination level in dpm/100 cm 2 for the room

. Performance Standard: IDENTIFIED the highest contamination level in dpm/100 cm 2 for the room is < 100 0 dpm/100 cm

: 2. Comment: SAT      UNSAT Appendix C JPM STEPS Form ES-C-1 Page 5 of 6 CPNPP 2016 NRC JPM RA4 (RWT056B) REV. 2 Perform Step: 5 Identify the highest area dose rate in mR/hr for the room.

Performance Standard: IDENTIFIED the highest area dose rate at 8 mR/hr. Terminating Cue

Appendix C JPM CUE SHEET Form ES-C-1  Page 6 of 6 CPNPP 2016 NRC JPM RA4 (RWT056B) REV. 2  INITIAL CONDITIONS

A Clearance is required to remove 1

INITIATING CUE: The Work Control Supervisor directs you to PERFORM the following:

DETERMINE the Dose Monitoring Requirements to enter the room DETERMINE the Protective Clothing Requirements to enter the valve area IDENTIFY the highest contamination level in dpm/100  

cm 2 for the room IDENTIFY the highest area dose rate in mR/hr for the room  Dose Monitoring Requirements to enter the room

Minimum Protective Clothing Requirements to enter the valve area: _____________________________________________________

Highest contamination level in dpm/100 cm 2 for the room: _____________________________________________________

Highest area dose rate in mR/hr for the room

: _____________________________________________________

Appendix C JPM CUE SHEET Form ES-C-1 INITIAL CONDITIONS: Given the following conditions:  A Clearance is required to remove 1-LCV-1003, LWPS RCDT 1-01 LVL CTRL VLV from service  Tags need to be hung on 1-7168, LWPS RCDT 1-01 LVL CTRL VLV UPSTRM ISOL and 1-7167, LWPS RCDT 1-01 LVL CTRL VLV DNSTRM ISOL The valves are located in Sa feguards Building Elev. 810' NORTH PENETRATION VLV RM / North Side (Room 77A)

INITIATING CUE:

The Work Control Supervisor directs you to PERFORM the following: DETERMINE the Dose Monitori ng Requirements to enter the room  DETERMINE the Protective Clothing Requirements to enter the valve area  IDENTIFY the highest contam ination level in dpm/100 cm 2 for the room  IDENTIFY the highest area dose rate in mR/hr for the room  Dose Monitoring Requirements to enter the room: _____________________________________________________ _____________________________________________________

Minimum Protective Cl othing Requirements to enter the valve area:

Highest contamination level in dpm/100 cm 2 for the room: _____________________________________________________

Highest area dose rate in mR/hr for the room: _____________________________________________________

  /.. (''

  *'(''*'(''6-#6(-  

(

F'3-'3-*' &

. (SO1017 B) Equipment Control (SA3) D ,R 2.2.14 Knowledge of the process for controlling equipment configuration or status. (4.3) JPM: Determine Fire Compensatory Measures for an Emergent Condition. (SO10 48) Radiation Control (SA4) D,R 2.3.7 Ability to comply with radiation work permit requirements during normal or abnormal conditions. (3.6

) 2.4.30 Knowledge of events related to system operation/status that must be reported to internal organizations or external agencies, such as the State, the NRC, or the transmission system operator. (4.1) JPM: Determine Entry Conditions for Radiation Area Clearance and Reporting Requirements. (SO1112B) Emergency Procedures/Plan (SA5) D , R 2.4.4 1 Knowledge of emergency action level thresholds and classifications. (4.6) JPM: Classify an Emergency Plan Event. (SO1136I)

Appendix C JPM WORKSHEET Form ES-C-1  Page 1 of 6        CPNPP 2016 NRC JPM SA 1 (SO102 8) REV. 1 Facility: CPNPP JPM # NRC SA 1 Task # SO 102 8 K/A # 2.1.26  3.6  Title: Determine Electrical Safe Work Practices Requirements Examinee (Print):

Simulated Performance:

Classroom:

X Actual Performance:

X Simulator:

Alternate Path:   Plant:   Time Critical:

READ TO THE EXAMINEE I will explain the Initial Conditions, which steps to simulate or discuss, and provide an Initiating Cue. When you complete the task successfully, the objective for this JPM will be satisfied.

Initial Conditions:

Given the following conditions:

TCX-ESPDTS-01TA, Unit 2 TRAIN A REACTOR TRIP BREAKER RTA is required to be racked from 'Disconnect' to 'Remove' in support of breaker removal. Initiating Cue:

The Shift Manager directs you to DETERMINE the following in accordance with STA-124, Electrical Safe Work Practices:

Hazard Risk Category: ___________________________________

Minimum ATPV in cal/cm 2 of FRC: __________________________

Flash Boundary: ________________________________________

Prohibited Boundary: ________________________

Arc-rated face shield with balaclava or arc flash suit hood required:

YES  NO  Ear canal hearing protection required:

YES  NO  Insulated tools required:

YES  NO  Task Standard:

Utilizing STA

-124, determined the Hazard Risk Category, Minimum ATPV, Flash Boundary, Prohibited Boundary and face protection, ear canal and insulated tool requirements

. Re f. Materials:

STA-124 , Electrical Safe Work Practices, Rev. 2

-1 2 Validation Time:

Appendix C JPM WORKSHEET Form ES-C-1 Page 2 of 6        CPNPP 2016 NRC JPM SA 1 (SO102 8) REV. 1  Comments:     Result:  SAT UNSAT  Examiner (Print / Sign):

Appendix C JPM WORKSHEET Form ES-C-1 Page 3 of 6         CPNPP 2016 NRC JPM SA 1 (SO102 8) REV. 1 CLASSROOM SETUP  Handout: PROVIDE the examinee with a copy of:

Appendix C JPM STEPS Form ES-C-1  Page 4 of 6        CPNPP 2016 NRC JPM SA 1 (SO102 8) REV. 1  - Check Mark Denotes Critical Step START TIME:

Perform Step: 1 DETERMINE Hazard Risk Category

. Performance Standard: DETERMINED STA

-124 Attachment 8.A, Hazard Risk Category

- 2. Attachment 8A Page 7 of 13 4 th item, Task column number in parentheses is Hazard Risk Category.

Comment: SAT     UNSAT      Perform Step: 2 DETERMINE Minimum ATPV in cal/cm2 of FRC

. Performance Standard: DETERMINED STA

-124 Attachment 8A, Minimum ATPV in cal/cm2 of FRC - 8 cal/cm 2. Attachment 8A Page 7 of 13 4 th item, Clothing Minimum Requirements Column.

Comment: SAT      UNSAT      Perform Step: 3 DETERMINE Flash Boundary.

Performance Standard: DETERMINED STA

Comment: SAT      UNSAT      Perform Step: 4 DETERMINE Prohibited Boundary.

Performance Standard: DETERMINED STA

Comment: SAT      UNSAT      Perform Step: 5 DETERMINE Arc-rated face shield with balaclava or arc flash suit hood required. Performance Standard: DETERMINED that a n Arc-rated face shield with balaclava or arc flash suit hood required is Required. Attachment 8A Page 7 of 13 4 th item, Clothing Minimum Requirements Column. Circled YES. Comment: SAT      UNSAT Appendix C JPM STEPS Form ES-C-1  Page 5 of 6        CPNPP 2016 NRC JPM SA 1 (SO102 8) REV. 1 Perform Step:

6 DETERMINE Ear canal hearing protection required

. Performance Standard: DETERMINED that Ear canal hearing protection is required. Attachment 8A Page 7 of 13 4 th item, Task column Note 11, which is on Page 4 of 13. Circled YES Comment: SAT      UNSAT      Perform Step:

7 DETERMINE Insulated tools required

. Performance Standard: DETERMINED that Insulated tools are not required

. Attachment 8A Page 7 of 13 4 th item, Insulated Tools column. Circled NO Terminating Cue:

This JPM is complete.

Appendix C JPM CUE SHEET Form ES-C-1 Page 6 of 6         CPNPP 2016 NRC JPM SA 1 (SO102 8) REV. 1  Initial Conditions:

Given the following conditions:

TCX-ESPDTS-01TA, Unit 2 TRAIN A REACTOR TRIP BREAKER RTA is required to be racked from 'Disconnect' to 'Remove' in support of breaker removal. Initiating Cue:

The Shift Manager directs you to DETERMINE the following in accordance with STA-124, Electrical Safe Work Practices:

: 1. Hazard Risk Category:

___________________________________

: 2. Minimum ATPV in cal/cm 2 of FRC: _________________________

: 3. Flash Boundary:

: 4. Prohibited Boundary:

____________________________________

YES NO 6. Ear canal hearing protection required:

YES NO 7. Insulated tools required:

YES NO  

Appendix C JPM CUE SHEET Form ES-C-1 Page 6 of 6        CPNPP 2016 NRC JPM SA1 (SO1028) REV. 0  Initial Conditions: Given the following conditions:  TCX-ESPDTS-01TA, Unit 2 TRAIN A REACTOR TRIP BREAKER RTA is required to be racked from 'Disconnect' to 'Remove' in support of breaker removal.

Initiating Cue: The Shift Manager directs you to DETERMINE the following in accordance with STA-124, Electrical Safe Work Practices: 1. Hazard Risk Category: ___________________________________ 2. Minimum ATPV in cal/cm 2  of FRC: _________________________ 3. Flash Boundary: ________________________________________ 4. Prohibited Boundary: ____________________________________ 5. Arc-rated face shield with balaclava or arc flash suit hood required:    YES  NO 6. Ear canal hearing protection required:  YES  NO 7. Insulated tools required:    YES  NO

Appendix C JPM WORKSHEET Form ES-C-1  Page 1 of 5        CPNPP 2016 NRC JPM SA 2 (SO10 17B) REV. 1 Facility: CPNPP JPM # NRC SA 2 Task # SO 10 17 K/A # 2.1.26  3.6  Title: Determine Reactivity Management Severity and Notifications Examinee (Print):

Simulated Performance:

Classroom:

X Actual Performance:

X Simulator:

Alternate Path:

Plant:   Time Critical:

READ TO THE EXAMINEE I will explain the Initial Conditions, which steps to simulate or discuss, and provide an Initiating Cue. When you complete the task successfully, the objective for this JPM will be satisfied.

Initial Conditions:

Given the following conditions:

A trip of Heater Drain Pump 1

-01 occurred Control Rods stabilized below the Rod Insertion Limit Boration was initiated in accordance with ABN

-302, Feedwater, Condensate, Heater Drain System Malfunction and the 10000.0 MWD/MTU Reactivity Briefing Sheet The Reactor Operator made an error when performing the boration and set 1-FY-110B, BA BATCH FLO to 17.5 gallons As a result of the error the Control Rods were not restored above the Rod Insertion Limit within 2 hours Initiating Cue:

The Shift Manager directs you to DETERMINE the following in accordance with STA-102, Reactivity Management Program

: 1. Event Significance Level

: ___________________________________

: 2. Required Notifications

: ________________

YES NO 4. Is a QERC required: YES NO Appendix C JPM WORKSHEET Form ES-C-1 Page 2 of 5         CPNPP 2016 NRC JPM SA 2 (SO10 17B) REV. 1 Task Standard:

Utilizing STA

-1 02, determined that a Significance Level 2 event has occurred, that the Shift Operations Manager, Director, Operations and the Reactivity Management Champion are required to be notified, that a PERC is required and that a QERC is not required.

Re f. Materials:

STA-1 02 , Reactivity Management Program, Rev. 6-2 ABN-302, Feedwater, Condensate, Heater Drain System Malfunction, Rev. 14

-19 Validation Time:

15 minutes Completion Time:

________ minutes Comments:     Result:  SAT UNSAT   Examiner (Print / Sign):

Date:

Appendix C JPM WORKSHEET Form ES-C-1  Page 3 of 5         CPNPP 2016 NRC JPM SA 2 (SO10 17B) REV. 1 CLASSROOM SETUP   Handout: PROVIDE the examinee with a copy of:

STA-1 02 , Reactivity Management Program

. (labeled Procedure 1)

Reactivity Briefing Sheet for 10000.0 MWD/MTU.

(labeled Handout 1)

Appendix C JPM STEPS Form ES-C-1 Page 4 of 5        CPNPP 2016 NRC JPM SA 2 (SO10 17B) REV. 1 - Check Mark Denotes Critical Step START TIME:

. Performance Standard: DETERMINED STA

-1 02 Attachment 8.

- 2. Comment: SAT      UNSAT      Perform Step: 2 DETERMINE Required Notifications

. Performance Standard: DETERMINED STA

- Shift Operations Manager, Director, Operations and Reactivity Management Champion Comment: SAT      UNSAT      Perform Step: 3 DETERMINE PERC Required

. PERC is a Plant Event Review Committee.

Performance Standard: DETERMINED STA

-1 02 Attachment 8.A, PERC - Required Comment: SAT      UNSAT      Perform Step: 4 DETERMINE QERC Required. QERC is a Quick Event Review Checklist.

Performance Standard: DETERMINED STA

-1 02 Attachment 8.A, QERC - NOT Required Terminating Cue:

This JPM is complete.

Appendix C JPM CUE SHEET Form ES-C-1 Page 5 of 5        CPNPP 2016 NRC JPM SA 2 (SO10 17B) REV. 1  Initial Conditions:

Given the following conditions:

A trip of Heater Drain Pump 1

-01 occurred Control Rods stabilized below the Rod Insertion Limit Boration was initiated in accordance with ABN

-302, Feedwater, Condensate, Heater Drain System Malfunction and the 10000.0 MWD/MTU Reactivity Briefing Sheet The Reactor Operator made an error when performing the boration and set 1-FY-110B, BA BATCH FLO to 17.5 gallons As a result of the error the Control Rods were not restored above the Rod Insertion Limit within 2 hours Initiating Cue:

The Shift Manager directs you to DETERMINE the following in accordance with STA-102, Reactivity Management Program:

: 2. Required Notifications

: _____________________________________

YES NO 4. Is a QERC required: YES NO   

Appendix C JPM CUE SHEET Form ES-C-1 Page 5 of 5        CPNPP 2016 NRC JPM SA2 (SO1017B) REV. 0 Initial Conditions: Given the following conditions:  A trip of Heater Drain Pump 1-01 occurred  Control Rods stabilized below the Rod Insertion Limit  Boration was initiated in accordance with ABN-302, Feedwater, Condensate, Heater Drain System Malfunction and the 10000.0 MWD/MTU Reactivity Briefing Sheet  The Reactor Operator made an error when performing the boration and set 1-FY-110B, BA BATCH FLO to 17.5 gallons As a result of the error the Control Rods were not restored above the Rod Insertion Limit within 2 hours Initiating Cue: The Shift Manager directs you to DETERMINE the following in accordance with STA-102, Reactivity Management Program: 1. Event Significance Level: ___________________________________ 2. Required Notifications: _____________________________________

______________________________________ 3. Is a PERC required:  YES  NO 4. Is a QERC required: YES  NO    

Valid for approximately 7 days.Calculations based on core design values, and assume:Burnup =  MWD/MTU  EFPDPower =  RTPBoron =  ppm B10 Conc =  w/o Control Bank D =  stepsReactivity affects of Control Bank DHFP Diff Worth @ 215.0 steps =  pcm / stepHFP Integral Rod Worth for CBD Step Positions:Reactivity affects of BoronHFP Diff Boron Worth @ 924 ppm =  pcm / ppm1-FK-110 Pot Setting for Blended Flow @ 924 ppm = (Assuming BAT concentration of 7447.0 ppm)Reactivity affects of Powe rPower Coefficient of Reactivity =  pcm / % RTPDilution to equal 1% Power Increase =  gallons RMUWBoration to equal 1% Power Decrease =  gallons boric acidReactivity affects of RCS TemperatureTemperature Coefficient of Reactivity (ITC) =  pcm / FBoration to equal 1F Temperature Decrease =  gallons boric acid Dilution to equal 1F Temperature Increase =  gallons RMUWLoad Reduction equal to 1F Tave Increase =  MWe15.03.94-7.4-1.426.5 175Steps205-29.1pcm-91.4 211194.5-15.1152.320.7-19.3-15.4206-26.6-24.1Steps-125.3170-142.0195-58.2190-74.6 185-17.4209-19.5 0.0-1.2 210-3.1-1.7-8.7208-2.3214-10.2207-3.9Stepspcm 2152250.0Stepspcm218-4.9 224 223 220 219 222 2210.183400-11.8212-13.6217-6.1216-7.3 213 215 924Reactivity Briefing Sheet for Stable Operation10000.0225.9 100 MOL PROJECTIONS - SIMULATOR USE ONLY 180from assumed inputs.Burnup in the MOL rangeNOTE: Re-create the Briefing Sheetif current values significantly differpcm200-42.8-108.4-21.8 Note:  Do not perform these calculations following a Runback. For a Runback, borateper the Reactivity Briefing Sheets as soon as possible.This computer generated form may be substituted for Attachment 1 of NUC-117Contact Core Performance (817-432-0134) if possible to discuss the plan.UnitDate / Time:A.1 Boration Volume gallonsIndicate source (listed in order of preference)BEACON by Core Performance (obtain if time permits)Reactivity Briefing Sheets from the Boration Matrix CHORE output (under 'Tools' ->'Power Change Rx Calc IPO-003 ATT 3')

Load Reduction Calculation Worksheet Reactivity Briefing Sheet for Runback to 900 MWe MOL PROJECTIONS - SIMULATOR USE ONLYBasic Control Strategy:A) A boration of 155 gallons should be initated soon after the runback. This will ensure rods are above RIL within 45 minutes and will likely be needed to restore Target AFD.

B) As rods are withdrawn due to boration, begin dilution when AFD reaches the Target value to maintain Target AFD. Total Dilution Estimate is 1200 gallons.NOTE: Contact Core Performance Engineering following any Runback for additional support.

0 40 80 120 160 200 240 0 20 40 60 80100 120-10123456789101112CBD (steps)Power (% RTP)TimePower and CBD PositionPowerControl Bank DRIL at 74% RTP = 91 steps on CBD.

870 875 880 885 890 895 900-12-10-8 4-2 0 2-10123456789101112Boron (ppm)AFD (%)TimeAxial Flux Difference and Boron AFDBoronBorate as required to keep CBD above RIL, and AFD within limits Reactivity Briefing Sheet for Runback to 800 MWe MOL PROJECTIONS - SIMULATOR USE ONLYBasic Control Strategy:A)  A boration of 175 gallons should be initated soon after the runback. This will ensure rods are above RIL within 45 minutes and will likely be needed to restore Target AFD.

B)  As rods are withdrawn due to boration, begin dilution when AFD reaches the Target value to maintain Target AFD. Total Dilution Estimate is 1500 gallons.NOTE:  Contact Core Performance Engineering following any Runback for additional support.

0 40 80 120 160 200 240 0 20 40 60 80100 120-10123456789101112CBD (steps)Power (% RTP)TimePower and CBD PositionPowerControl Bank DRIL at 67% RTP = 76 steps on CBD.

870 875 880 885 890 895 900-12-10-8 4-2 0 2-10123456789101112Boron (ppm)AFD (%)TimeAxial Flux Difference and Boron AFDBoronBorate as required to keep CBD above RIL, and AFD within limits Reactivity Briefing Sheet for Runback to 700 MWe MOL PROJECTIONS - SIMULATOR USE ONLYBasic Control Strategy:A)  A boration of 200 gallons should be initated soon after the runback. This will ensure rods are above RIL within 45 minutes and will likely be needed to restore Target AFD.

B)  As rods are withdrawn due to boration, begin dilution when AFD reaches the Target value to maintain Target AFD. Total Dilution Estimate is 2000 gallons.NOTE:  Contact Core Performance Engineering following any Runback for additional support.

0 40 80 120 160 200 240 0 20 40 60 80100 120-10123456789101112CBD (steps)Power (% RTP)TimePower and CBD PositionPowerControl Bank DRIL at 59% RTP = 59 steps on CBD.

870 875 880 885 890 895 900 905-12 8

-6

-2 0 2-10123456789101112 Boron (ppm)AFD (%)TimeAxial Flux Difference and Boron AFDBoronBorate as required to keep CBD above RIL, and AFD within limits Reactivity Briefing Sheet for Downpower Boration Matrix MOL PROJECTIONS - SIMULATOR USE ONLYThe boration/dilution estimates are based on BEACON predictions for maintaining Incore Axial Offset.With deep rod insertion, it is expected AFD indications (based on Excore Detectors) will be less than the Incorevalue by ~2-4%. In this case, no immediate action is needed to restore AFD, but contact Core Performance.Borate at a rate sufficient to allow ~15 minutes of mixing before the final power level is reached.Contact Core Performance as soon as possible when planning ANY downpower for additional support.Assumed Initial ConditionsPower100% RTPCBD Position215stepsRCS Boron 864ppm (anticipated boron at middle of validity range)30 Minute Ramp Down Boration Estimates900 MWe800 MWe700 MWe50% RTP(~74% RTP)(~67% RTP)(~59% RTP)Final CBD Position 172 steps161 steps148 steps123 stepsTotal Boration 304 gal384 gal481 gal561 galFollowup Dilution (1st hour)1102 gal1409 gal1792 gal2435 galAve Dilution Rate (1st hour)18.4 gpm23.5 gpm29.9 gpm40.6 gpm 2 Hour Ramp Down Boration Estimates900 MWe800 MWe700 MWe50% RTP(~74% RTP)(~67% RTP)(~59% RTP)Final CBD Position 172 steps158 steps142 steps101 stepsTotal Boration 191 gal232 gal286 gal258 galFollowup Dilution (1st hour)771 gal1017 gal1292 gal1641 galAve Dilution Rate (1st hour)12.9 gpm17 gpm21.5 gpm27.4 gpm1 Hour Rapid Shutdown (Ramp to 20% on Target AFD, 30 minute hold, trip)20% RTPFinal CBD Position 79.2 stepsTotal Boration 698 galCBD Position 107.4 steps2.8 %After 30 minutes, no dilution (withdrawing rods to control power), holding at 20% RTPDilution in first hour to support maintaining reduced power, while holding Incore AFD on Target:Notes:  Highlighted values:  Max boration rate during downpower may be unable to maintain Target AFD. Restore and hold Target AFD as soon as possible following the Downpower.Dilution in first hour to support maintaining reduced power, while holding Incore AFD on Target:Incore AFD  Notes:

Appendix C JPM WORKSHEET Form ES-C-1  Page 1 of 6        CPNPP 2016 NRC JPM SA3 (SO1048) REV. 1 Facility: CPNPP JPM # NRC SA3 Task # SO 1048 K/A # 2.2.14   3.9 / 4.3   Title: Determine Fire Compensatory Measures for an Emergent Condition Examinee (Print):