{{#Wiki_filter:2015 301NRCEXAMAdministrativeJPM1 R WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-R 2015-301 NRC EXAM Page 2 of 13 EVALUATION SHEET Task: DETERMINE LICENSE STATUS ACTIVE OR INACTIVE.

Simulator In-Plant Classroom X References

COMMENTS WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-R 2015-301 NRC EXAM Page 3 of 13 Tools/Equipment/Procedures Needed:

Laptop Computer. NRC REFERENCE DISK. *NOTE: This JPM is designed to be performed in a classroom with procedures available to the appli cant via a laptop computer loaded with the NRC REFERENCE DISK.

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-R 2015-301 NRC EXAM Page 4 of 13 DIRECTIONS TO APPLICANT DIRECTION TO APPLICANT:

I will explain the initial conditions and state the task to be performed. Ensure you indicate to me when you understand your assigned task. To indicate that you have completed your assigned task return the cue sheet I provided you.

INITIAL CONDITIONS:

Three (3) Reactor Operators (R Os) have the following history: Reactor Operators A and C obtained their NRC License in 2012. Reactor Operator B was issued  a license on January 15, 2015  All perform off-shift a ssignments at the plant. All are current in License O perator Requalific ation Training. LMS demonstrates associated medical r equirements of OPDP-10 have been met for each RO. None of the three (3) has worked any shift since March 15, 2015.

The ACTIVE/INACTIVE status and time on shift since January 1, 2015 is as follows for each of the ROs: REACTOR OPERATOR - A License was ACTIVE on January 1, 2015 01/02/15 Worked 0700-1530 shift as Unit 1 OAC. 01/03/15 Worked 0700-1700 shift as Unit 1 OAC. 01/04/15 Worked 0700-1900 shift as Unit 1 OAC. 01/05/15 Worked 0700-1900 shift as Unit 1 OAC. 02/26/15 Worked 0700-1900 shift as Unit 1 OAC.

REACTOR OPERATOR - B License was ISSUED on January 15, 2015 02/01/15 Worked 0700-1530 shift as Unit 1 CRO. 02/02/15 Worked 0700-1530 shift as Unit 1 OAC. 02/14/15 Worked 1900-0700 shift as Unit 1 OAC. 03/02/15 Worked 0700-1900 shift in the Tagging Office.

REACTOR OPERATOR - C License was ACTIVE on January 1, 2015 01/07/15 Worked 0700-1900 shift as Unit 1 OAC. 01/08/15 Worked 0700-1900 shift as Unit 1 OAC. 01/09/15 Worked 0700-1900 shift as Unit 1 OAC. 01/10/15 Worked 0700-1900 shift as Unit 1 OAC. 02/28/15 Worked 0700-1900 shift as Unit 1 CRO.

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-R 2015-301 NRC EXAM Page 5 of 13 INITIATING CUES:

You are to determine if each of the RO's Licenses is ACTI VE or INACTIVE as of 0700 on April 1, 2015.

Circle your answer in the statements provided below: RO A's License is ACTIVE / INACTIVE.

RO B's License is ACTIVE / INACTIVE. RO C's License is ACTIVE / INACTIVE.  

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 6 of 13 START TIME: _______

STEP 1.: Determine the ACTIVE / INACTI VE status of RO A's license STANDARD:  The Applicant determines the license is INACTIVE due to the following reasons: (Critical)

The RO DID NOT work the required qualified 5 twelve hour shifts in a license position during the previous quarter.

OPDP-10, 3.2.2.B. To be granted credit for a shift, the individual shall be present from shift turnover though shi ft turnover. The shift period is defined by the schedule worked by the rotati ng shift crews. Either 12-hour or 8-hour shifts is the normal.

Step is critical to ensure an RO with an inactive license does not perform license duties COMMENTS:   

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 7 of 13 STEP 2.: Determine the ACTIVE / INACTIVE status of RO B's license STANDARD:  The Applicant determines the license is ACTIVE due to the following reasons: (Critical)

In accordance with OPDP-10, 3.2.1. F, When a licensee is issued a new NRC License number, the licensee is immediately active. The licensee is not required to perform 40 hours Under Instruction that calendar quarter and is not required to stand five 12-hour sh ifts or seven 8-hour shifts in the calendar quarter that the new license number was issued. The licensee must stand the required shifts in the next calendar quarter to maintain an

active license.

Step is critical to ensure an RO with an inactive license does not perform license duties COMMENTS:

CRITICAL STEP   ___ SAT

___ UNSAT  

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 8 of 13 STEP 3.: Determine the ACTIVE / INACTIVE status of RO C's license STANDARD: The Applicant determines the license is ACTIVE due to the following reasons: (Critical)

On 01/08/15, the 1 hour time to attend the pre-job brief COUNTS as actively performing the functions of an operator, so all of the hours for the shift are courted.

Assisting an AUO in the perform ance of a surveillance procedure DOES count as licensed duties. Credit towards license maintenance would be given for this period.

COMMENTS:

1-R Key 

DO NOT HAND TO APPLICANT

You are to determine if each of the RO's Licenses is ACTI VE or INACTIVE as of 0700 on April 1, 2015.  

RO A's License is ACTIVE / INACTIVE.

RO B's License is ACTIVE / INACTIVE.

RO C's License is ACTIVE / INACTIVE.

1-R 

 

APPLICANT CUE SHEET (RETURN TO EXAMINER UPON COMPLETION OF TASK) 1-R INITIAL CONDITIONS:

Three (3) Reactor Operators (R Os) have the following history:  Reactor Operators A and C obtained their NRC License in 2012. Reactor Operator B was issued  a license on January 15, 2015  All perform off-shift a ssignments at the plant. All are current in License O perator Requalific ation Training. LMS demonstrates associated medical r equirements of OPDP-10 have been met for each RO. None of the three (3) has worked any shift since March 15, 2015.

The ACTIVE/INACTIVE status and time on shift since January 1, 2015 is as follows for each of the ROs: REACTOR OPERATOR - A License was ACTIVE on January 1, 2015 01/02/15 Worked 0700-1530 shift as Unit 1 OAC. 01/03/15 Worked 0700-1700 shift as Unit 1 OAC. 01/04/15 Worked 0700-1900 shift as Unit 1 OAC. 01/05/15 Worked 0700-1900 shift as Unit 1 OAC. 02/26/15 Worked 0700-1900 shift as Unit 1 OAC.

REACTOR OPERATOR - B License was ISSUED on January 15, 2015 02/01/15 Worked 0700-1530 shift as Unit 1 CRO. 02/02/15 Worked 0700-1530 shift as Unit 1 OAC. 02/14/15 Worked 1900-0700 shift as Unit 1 OAC. 03/02/15 Worked 0700-1900 shift in the Tagging Office.

 

You are to determine if each of the RO's Licenses is ACTI VE or INACTIVE as of 0700 on April 1, 2015.

Circle your answer in the statements provided below: RO A's License is ACTIVE / INACTIVE.

RO B's License is ACTIVE / INACTIVE. RO C's License is ACTIVE / INACTIVE.

2015 301NRCEXAMAdministrativeJPM1 S WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-S 2015-301 NRC EXAM Page 2 of 13 EVALUATION SHEET Task: DETERMINE LICENSE STATUS ACTIVE OR INACTIVE.

COMMENTS WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-S 2015-301 NRC EXAM Page 3 of 13 Tools/Equipment/Procedures Needed:

Laptop Computer. NRC REFERENCE DISK. *NOTE: This JPM is designed to be performed in a classroom with procedures available to the appli cant via a laptop computer loaded with the NRC REFERENCE DISK.  

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-S 2015-301 NRC EXAM Page 4 of 13 DIRECTIONS TO APPLICANT DIRECTION TO APPLICANT:

Three (3) Reactor Operators (R Os) have the following history: Reactor Operator A an NRC License in 2012. Reactor Operator B was issued an NRC License on January 15, 2015. SRO C obtained their NRC License in 2011. All perform off-shift a ssignments at the plant. All are current in License Operator Requalification Training. LMS demonstrates associated medical r equirements of OPDP-10 have been met for each operator.

The ACTIVE/INACTIVE status and time on shift since January 1, 2015 is as follows for each of the ROs: REACTOR OPERATOR - A License was ACTIVE on January 1, 2015 01/02/15 Worked 0700-1530 shift as Unit 1 OAC. 01/03/15 Worked 0700-1700 shift as Unit 1 OAC. 01/04/15 Worked 0700-1900 shift as Unit 1 OAC. 01/05/15 Worked 0700-1900 shift as Unit 1 OAC. 02/26/15 Worked 0700-1900 shift as Unit 1 OAC.

REACTOR OPERATOR - B License was ISSUED on January 15, 2015 02/01/15 Worked 0700-1530 shift as Unit 1 CRO. 02/02/15 Worked 0700-1530 shift as Unit 1 OAC. 02/14/15 Worked 1900-0700 shift as Unit 1 OAC. 03/02/15 Worked 0700-1900 shift in the Tagging Office.

SENIOR REACTOR OPERATOR - C License was ACTIVE on January 1, 2015 01/01/15 Worked 0700-1900 shift as Unit 1 US. 01/02/15 Worked 0700-1900 shift as Unit 1 OAC. 01/03/15 Worked 0700-1900 shift as Unit 1 OAC. 01/05/15 Worked 0700-1900 shift as Unit 1 OAC. 01/14/15 Worked 1900-0700 shift as Refueling SRO. 02/02/15 Worked 0700-1900 shift as Unit 1 OAC.  

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-S 2015-301 NRC EXAM Page 5 of 13 INITIATING CUES:

You are to determine if each of the operators is ACTIVE or INAC TIVE as of 0700 on April 1, 2015. Circle your answer in the statements provided below: RO A's License is ACTIVE / INACTIVE.

RO B's License is ACTIVE / INACTIVE. RO C's License is ACTIVE / INACTIVE.  

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-S 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 6 of 13 START TIME: _______

STEP 1.: Determine the ACTIVE / INACTIVE status of RO A's license STANDARD: The Applicant determines the license is INACTIVE due to the following reasons: (Critical)

Per OPDP-10, Section 3.2.2, Nuclear Plant Requirements for Maintaining Active License Status, Item B.

B. To be granted credit for a shift, the individual shall be present from shift turnover though shift turnover. The sh ift period is defined by the schedule worked by the rotating shift crews. Eit her 12-hour or 8-hour shifts is the normal. The operator DID NOT work the required qu alified 5 twelve hour shifts in a license position during the previous quarter.

On 1/07/15, the RO worked in the Tagging Office for which credit was not received. Step is critical to ensure an RO with an inactive license does not perform license duties.

COMMENTS:

 

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-S 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 7 of 13 STEP 2.: Determine the ACTIVE / INACTIVE status of RO B's license STANDARD: The Applicant determines the license is ACTIVE due to the following reasons: (Critical)

Per OPDP-10, Section 3.2.1, ACTIVE LICENSE STATUS MAINTENANCE, Item C. When a licensee is issued a new NRC License number, the licensee is immediately active. The licensee is not required to perform 40 hours Under Instruction that calendar quarter and is not required to stand five (5) 12 hour shifts (or seven (7) ei ght hour shifts) in the calendar quarter that the new license number was iss ued. The licensee must stand five (5) 12 hour shifts (or seven (7) eight hour sh ifts) in the next calendar quarter to maintain an active license.

COMMENTS:  

CRITICAL STEP   ___ SAT  

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 1-S 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 8 of 13 STEP 3.: Determine the ACTIVE / INACTIVE status of SRO C's license STANDARD:  The Applicant determines the license is ACTIVE due to the following reasons: (Critical)

Per OPDP-10, Section 3.1 ACTIVE LICENSE STATUS MAINTENANCE, Item A: A. To maintain an active status, the licensee shall actively perform the functions of an operator or senior operator for a minimum of seven 8 hour shifts a calendar quarter or five 12 hour shifts a calendar quarter in a position credited for watch-standing proficiency. To maintain the supervisory portion of a SRO license active, a SRO must stand at least one complete watch (8 or 12 hour shift) per calendar quarter in a shift crew position credited for SRO-only supervi sory licensed duties. It is the licensee's responsibility to maintain cognizance of his/her license status. The remainder of complete watches (to meet the required minimum of seven 8-hour or five 12-hour shifts per calendar quarter) may be performed in either a credited SRO or RO position.

SRO C stood one 12-hour shift in the cr edited Unit Supervisor position, thus maintaining the supervisory portion of the license. SRO C stood an additional 4 12-hour shifts in the RO position of OAC. SRO C stood one 12-hour shift as the Refueling SRO position, thus for which credit was not given. Step is critical to ensure an SRO with an inactive license does not perform license duties.

1-S Key 

You are to determine if each of the Operator's Licenses is ACTIVE or INACTIVE as of 0700 on April 1, 2015.  

Circle your answer in the statements provided below:  

RO A's License is ACTIVE / INACTIVE

 

 

 

 

 

 

N/A Title: Equipment Control.

RO-062-TI-59-001 Title: Perform boron concentration change calculations.

Validation Time:

15 minutes Time Critical:

Yes No X =========================================================================================

Applicant: ___________________________

_________________

Time Start:   ________

NAME Docket No.

Time Finish: ________

Performance Rating:   SAT ____ UNSAT ____

Performance Time ___  

Examiner: _____________________________

COMMENTS        Page 2 of 10

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 2 2015-301 NRC EXAM Page 3 of 10 Tools/Equipment/Procedures Needed:

 

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 2 2015-301 NRC EXAM Page 4 of 10 DIRECTIONS TO APPLICANT DIRECTION TO APPLICANT:

: 1. Unit 2 is performing pre-operational testing. 2. Unit 1 is in Mode 1 coasting down prior to refueling. 3. Current RCS C B is 40 ppm. 4. Current RCS temp erature is 565 °F. 5. Mixed Bed A contains fresh, unborated resin.

: 6. Maximum letdown flow will be used duri ng this evolution. 7. You are an extra operator.

The Unit SRO has directed you to perform 1-SOI-62.04, CVCS Purification System, Appendix B RCS Deboration Calculation, to determine the time that CVCS Mixed Bed Demineralizer 'A' must be in service in order to reduce RCS boron concentration to 35 ppm.

Enter the results of your calculation here:  

 

TIME =________

______.

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 2 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 5 of 10 START TIME: _______

 

 

 

 

 

From INITIAL CONDITIONS, applicant records 565 °F as the current RCS temperature.  

COMMENTS:

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 2 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 6 of 10 STEP 3: [3] RECORD RCS Volume (V) based on current RCS Temp using TI-59 (first page of App D through App N, as appropriate.)

Applicant locates 1-TI-59, and selects Appendix K, and records 86212.4 as the RCS volume.

 

 

STEP 4: [4] PERFORM the following calculation to estimate time in service:  

 

STANDARD:

Applicant enters letdown flow of 120 gpm, since the INITIAL CONDITIONS requires letdown flow to be at maximum, and RCS volume of 86212.4 gallons. Applicant calculates time of 96 minutes (Acceptable Range 92 to 100 minutes.)

 

Applicant documents time on Handout Sheet.  

 

COMMENTS:

 

 

 

 

WBN Unit 1 CVCS Purification System 1-SOI-62.04 Rev. 0001 Page 93 of 99 Appendix B (Page 1 of 1)

[1] INDICATE Mixed Bed for which this Calculation is being performed (CHECK ONLY ONE.)  

 

Mixed Bed A ________

OR Mixed Bed B ________

Q T  Cf = Co e  

-V Where: Cf = Final Boron Concentration Co = Initial Boron Concentration Q = Mixed Bed Flow Rate (Letdown Flow in gpm) V = RCS Volume at operating temperature (gals)

T = Time (minutes)

[2] RECORD current RCS Temperature: ________RCS Temp

[3] RECORD RCS Volume (V) based on current RCS Temp using TI-59 (first page of App D thr ough App N, as appropriate.) ________RCS Volume

[4] PERFORM the following calculation to estimate time in service: Time = -ln (C f/C o) V =-ln (________ppm/________ppm) ________gals Q ____________gpm Time = ______________ minutes [5] RECORD Mixed Bed Run times for which this Calculation is being performed (Times can be obtained from Attachment 1 for the associated demin). 1 2 3 4 5 6 7 8 Run time         Total time         Initials        

APPLICANT CUE SHEET (RETURN TO EXAMINER UPON COMPLETION OF TASK) 2 INITIAL CONDITIONS:

: 1. Unit 2 is performing pre-operational testing. 2. Unit 1 is in Mode 1 coasting down prior to refueling. 3. Current RCS C B is 40 ppm. 4. Current RCS temp erature is 565 °F. 5. Mixed Bed A contains fresh, unborated resin.

: 6. Maximum letdown flow will be used duri ng this evolution. 7. You are an extra operator.

The Unit SRO has directed you to perform 1-SOI-62.04, CVCS Purification System, Appendix B RCS Deboration Calculation, to determine the time that CVCS Mixed Bed Demineralizer 'A' must be in service in order to reduce RCS boron concentration to 35 ppm.

TIME =________

______.

WBN Unit 1 CVCS Purification System 1-SOI-62.04 Rev. 0001 Page 93 of 99 Appendix B (Page 1 of 1)

[1] INDICATE Mixed Bed for which this Calculation is being performed (CHECK ONLY ONE.)

Q T  Cf = Co e

-V Where: Cf =  Final Boron Concentration Co = Initial Boron Concentration Q  = Mixed Bed Flow Rate (Letdown Flow in gpm) V  =  RCS Volume at operating temperature (gals)

T  =  Time (minutes)

[2] RECORD current RCS Temperature: ________RCS Temp

[3] RECORD RCS Volume (V) based on current RCS Temp using TI-59 (first page of App D thr ough App N, as appropriate.)  ________RCS Volume

[4] PERFORM the following calculation to estimate time in service: Time = -ln (C f/C o) V =-ln (________ppm/________ppm) ________gals Q ____________gpm Time =  ______________ minutes [5] RECORD Mixed Bed Run times for which this Calculation is being performed (Times can be obtained from Attachment 1 for the associated demin). 1 2 3 4 5 6 7 8 Run time        Total time        Initials       

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM Page 2 of 17 Task: CALCULATE QPTR AND EVALUATE RESULTS TO DETERMINE IF ACCEPTANCE CRITERIA ARE MET.

N/A Title: Equipment Control.

K/A  2.2.12 Knowledge of surveillance procedures.

Rating(s):

3.7/4.1 CFR: 41.10 / 45.13 Evaluation Method:

: 1-SI-0-21,Excore QPTR & Axial Flux Difference, Rev. 19; Nuclear Operating Book (NOB). A-2 Sheet 1 Rev. 129, Sheet 2 Rev. 128, Sheet 3 Rev. 129, Sheet 4 Rev 127.

Task Number:

RO-092-SI-2-001 Title: Perform a QPTR calculation.

The applicant:

: 1. Calculates Quadrant Power Tilt Ratio using 1-SI-0-21, Excore QPTR & Axial Flux Difference, Attachment 1, QPTR Determination Using Detector Currents. 2. Evaluates results and concludes that the acceptance criterion for 1-SI-0-21, Shutdown Margin, Section 6.2, Conservative SDM Hand Calculation is

 

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM Page 4 of 17 READ TO OPERATOR DIRECTION TO APPLICANT:

IN ITIAL CONDITIONS:

: 3. AFD Monitor Alarm and QPTR alarms are out of service due to a card problem in the annunciator system. 4. 1-SI-0-21 Excore QPTR & Axial Flux Difference is required to be performed every 12 hours since both QPTR alarms are inoperable.

: 6. M&TE will NOT be utiliz ed for data measurements. 7. You are a support CRO.

PART 1 Given the data that was just obtained from each power range channel upper and lower detector currents, the Unit Supervisor directs you to perform 1-SI-0

-21, Excore QPTR &

Axial Flux Difference, Att achment 1, QPTR Determinati on Using Detector Currents.

PART 2  

 

 

WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 5 of 17 START TIME: _______ NOTE TO EVALUATOR: The following steps are from Attachment 1 of 1-SI-0-21.

NOTES 1) Determining detector curr ents by measuring the voltage across the detector's meter test points, using a DVM, is the most accurate method for measuring QPTR and for determining the validity of a QPTR alarm. 2) Using the detector current meter readings is another method to quickly check that QPTR is within limits. These meters are NOT as accurate as the DVM readings and may produce unacceptable results because: 1) the meters on the 'B' drawer may be scaled too high or (2) the meter may be unstable due to drift or no ise. When unacceptable re sults are obtained, DVM readings should be obtained; otherwise, Step 1.0[1] and 1.0[2] may be marked N/A if DVM NOT used. 3) Up to one inoperable excore channel can be marked N/A if THERMAL POWER is < 75% RTP. STEP 1: [1.] RECORD DVM information: A. TVA M&TE ID: ________________

B. Cal Due Date: ________________

COMMENTS:  

___ SAT

___ UNSAT STEP 3: [2.] ENSURE require M&TE is within its current calibration.

STANDARD: Applicant refers to the INITIATING CUES and determines this step will not be used and per NOTE 3 marks Step 1.0[2] N/A.

___ UNSAT WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 6 of 17 CAUTION An inadvertent reactor trip may be prevented by ensuring that no power range neutron high flux rate or power range high flux bist ables are in the tripped condition prior to taking EACH measurement in the NIS Power Range Drawer B.

NOTES 1) The following determination may be made by measuring the voltage across the 1000 ohm precision resistor in NIS power range drawer B. When using this method the Ohm's Law conversion from a millivolt m easurement to a microamp measurement only requires changing the unit designator (e.g., 280 millivol ts converts to 280 microamps). 2) Detector A is the TOP or UPPER Detector and Detector B is the BOTTOM or LOWER detector on the NIS drawer B STEP 3: [3] DETERMINE the microamps for each upper and lower excore detector on each NIS power range drawer B, AND RECORD below. STANDARD:  Applicant obtains the detector cu rrent microamp readings from the handout given during task assignment and enters the appropriate data into Attachment 1 Step 3.

COMMENTS:  

 

___ UNSAT WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 8 of 17 STEP 5: [5] CALCULATE calibrated output voltages by multiplying the uncalibrated detector output cu rrents by Rt or Rb (as applicable). A. Vt = It x Rt B. Vb = Ib x Rb STANDARD: Applicant calculates the calibrated output voltages

[Step 3] by multiplying the respective detecto r's current reading by resistance values [Step 4] and records the results in appropriate blocks on   Step 5.

COMMENTS:  

___ UNSAT WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 9 of 17 STEP 6: [6] CALCULATE average calibrated output voltage for the upper and lower detectors.

STANDARD: Applicant calculates the average output voltages for the upper detector by adding the respective upper detector's calibrated output voltage readings

[from Step 5]

and dividing the result by the number of channels in service.

This process is repeated for the lower detector using the lower detector calibrated voltages. The results recorded in appropriate bl ocks on Attachment 1, Step 6.

COMMENTS:  

___ UNSAT WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 10 of 17 STE P 7: [7] CALCULATE QPTR values by dividing each detector's (upper or lower) Calibration Output Voltage by the average (upper or lower) Calibrated Output Voltage.

A. Q PTR t = V t  Avg V t B. QPTR b = V b x Avg V b  STANDARD: Applicant calculates QPTR values by dividing the respective Calibrated Output Voltage

[Step 5] by the Average Calibrated Output Voltage for each NIS channel detector [Step 6]. The results recorded in appropriate blocks on Attachment 1.

Step is critical since the values calculated will be used to determine whether the individual QPTR for each detector is within the Tech Spec lim it to ensure compliance.

COMMENTS:  

 

___ UNSAT WATTS BAR NUCLEAR PLANT JOB PERFORMANCE MEASURE 3 R 2015-301 NRC EXAM STEP/STANDARD SAT/UNSAT Page 11 of 17 STEP 8: [8] OBTAIN a review of calculations, results and Tech Spec Acceptance Criteria by task qualified individual.

 

 

EXAMINER CUE: Acknowledge report as Unit Supervisor.

END OF TASK CRITICAL STEP ___ SAT

___ UNSAT TIME STOP: ________  

3 R  Key DO NOT HAND TO APPLICANT  

3R Calculations performed using Excel:

Upper    Lower      I to p R to p V to p I bottom R bottom V bottom N41 373 0.03493 13.02889 370 0.03537 13.0869 N42 363 0.03688 13.38744 391 0.03343 13.07113 N43 369 0.03474 12.81906 399 0.0331 13.2069 N44 326 0.03946 12.86396 372 0.03442 12.80424     Average 13.0248375   Average 13.0422925 QPTR             N41 1.000311136 1.003420219 N42 1.027839311 1.002211076 N42 0.984201146 1.012621056 N44 0.987648406 0.981747649  

    `   3R  

WBN Unit 1 Excore QPTR  

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 18 of 25 Attachment 1 (Page 2 of 4)

QPTR Determination Using Detector Currents Data Package: Page ____

Date ________

1.0 QPTR DETERMINATION USING DETECTOR CURRENTS (continued)

CAUTION An inadvertent reactor trip may be prevented by ensuring that no power range channel's neutron high flux rate or power range high flux bistables are in the tripped condition prior to taking EACH measurement in the NIS Power Range Drawer B.

NOTES 1) The following determination may be made by measuring the voltage across the 1000 ohm precision resistor in NIS power range drawer B.

When using this method the Ohm's Law conversion from a millivolt m easurement to a microam p measurement only requires changing the unit designator (e.g., 280 millivolts converts to 280 microamps). 2) Detector A is the TOP or UPPER Detector and Detector B is the BOTTOM or LOWER detector on the NIS drawer B

[3] DETERMINE the microamps for each upper and lower excore detector on each NIS power range drawer B, AND RECORD below. UPPER DETECTOR LOWER DETECTOR NIS Channel I t Detector Current (microamps)

I b Detector Current (microamps) N-41A  N-42A  N-43A  N-44A    ________

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 19 of 25 Attachment 1 (Page 3 of 4)

[4] OBTAIN and RECORD  values of R t and R b(volts/ microamps).

UPPER DETECTOR LOWER DETECTOR NIS Channel R t (volts/ microamps) R b (volts/ microamps) N-41A   N-42A   N-43A   N-44A   ________

lower) Calibration Output Voltage.

A. QPTR t = V t &#xf7; Avg V t B. QPTR b = V b &#xf7; Avg V b  UPPER DETECTOR LOWER DETECTOR NIS Channel QPTR t Value QPTR b Value  N-41A   N-42A   N-43A   N-44A   ________

[8] OBTAIN a review of calculations, results and Tech Spec Acceptance Criteria by task qualified individual. ________

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 11 of 25 Data Package:  Page ____

CRITERIA NOTE When one Excore detector is inoperable and Thermal Power is < 75 % RTP, the three remaining detectors may be used to calculate the average. If one Excore detector is inoperable and Thermal Power is  75 % RTP, REFER TO 1-SI-0-22.

A. Calculated QPTR is  1.02. NOTE The AFD limits specified in Technical Specifications, Unit 1 Core Operating Limit Report (COLR) may be less restrictive than those resulting from compliance with other Surveillance Requirements that would be published in Unit 1 NOB Sheet A-1.

1 B. AFD is within Limits of Unit 1 NOB S heet A-1, Target Band vs. Power Level for OPERABLE excore channels, which will en sure requirements of the COLR are met per the following conditions 1 1. At least 2-out-of-3 channels with in Limits, when 3 AFD channels are OPERABLE.  

OR 2. At least 3-out-of-4 channels with in Limits, when 4 AFD channels are OPERABLE.

3R      Applicant compares results of calculation to the Tech Spec limit of <1.02, and determines that N-41B Top exceeds the ACCEPTANCE CRITE RIA of 1-SI-0-21, Excore QPTR & Axial Flux Difference. Applicant circles NO on the sheet.  

Handout Package for Applicant  

3 R IN ITIAL CONDITIONS:

: 3. AFD Monitor Alarm and QPTR alarms are out of service due to a card problem in the annunciator system. 4. 1-SI-0-21 Excore QPTR & Axial Flux Difference is required to be performed every 12 hours since both QPTR alarms are inoperable.

: 6. M&TE will NOT be utiliz ed for data measurements. 7. You are a support CRO.  

 

PART 1 Given the data that was just obtained from each power range channel upper and lower detector currents, the Unit Supervisor directs you to perform 1-SI-0

-21, Excore QPTR &

Axial Flux Difference, Att achment 1, QPTR Determinati on Using Detector Currents.

PART 2  

Has ACCEPTANCE CRITERIA been MET? (Circle your answer)  

YES   NO

3 R Data obtained from each power range channel upper and lower detector currents UPPER DETECTOR LOWER DETECTOR NIS CHANNEL I t Detector Current (microamps)

N-41A 373 370 N-42A 363 391 N-43A 369 399 N-44A 326 372 Watts Bar Nuclear Plant Unit 1 Surveillance Instruction 1-SI-0-21 Excore QPTR  

& Axial Flux Difference Revision 0019 Quality Related Level of Use: Continuous Use        Effective Date: 08-19-2013    Responsible Organization: RXE, Reactor Engineering Prepared By: Kevin S. Elam Approved By: Lukus S. Barnes

WBN Unit 1 Excore QPTR  

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 2 of 25 Revision Log Revision or Change Number Effective Date Affected Page Numbers Description of Revision/Change 13 07/18/2002 2, 5, 8, 10, 11, 16 & 18 NON-INTENT Revision. Clarified when to use hand calculation using Attachment 1. Clarified Detector A is the upper and Detector B is the lower detector. Clarified when three detectors are acceptable. 14 10/19/2004 2, 11, 19 NON-INTENT Revision. Revised for PER 67703. Added step to perform hand calculation

in Attachment 1 during NIS calibrations. Added steps to perform a technical review of

calculations performed in Attachment 1. 15 03/17/08 All This procedure has been converted from Word 95 to Word XP using Rev. 14 by the Conversion Team. NON-INTENT Revision to clarify the conditions which the QPTR and AFD Monitor

Alarms are operable during Power Range calibrations. 16 12/28/2009 2 & 21 NON-INTENT change to clarify the qualification and requirements of post-performance reviewer (PER 169445). Removed "rev" from Revision Log. 17 02/09/2010 2, 9, 13 NON-INTENT change to clarify use of the C1 coefficients and the fact that the AFD points are available below 50% RTP. 18 03/16/12 All NON-INTENT change to alter administrative actions. Add guidance to perform RCS Loop

Other administrative enhancements, such as Unit 1 or 2 nomenclature. 19 08/19/13 2, 22, 24 Minor Editor ial change to change the "2nd Party" verifications to "C oncurrent Verifications".

WBN Unit 1 Excore QPTR

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 3 of 25 Table of Contents

==1.0 INTRODUCTION==

.......................................................................................................... 5 1.1 Pur pose ...................................................................................................................

..... 5 1.2 Scope  

............................................................................................................................ 5 1.2.1 Activities to be Performed ............................................................................... 5 1.2.2 Surveillance Requirement s Fulfilled and Unit Modes ...................................... 5 1.3 Frequency and Conditions ............................................................................................ 6

===1.4 Background===

................................................................................................................... 7

==2.0 REFERENCES==

............................................................................................................. 8  

===2.1 Performance===

References .............................................................................................. 8 2.2 Developmental References  

........................................................................................... 8 2.2.1 TVA Procedures  

.............................................................................................. 8

====2.2.2 Other====

............................................................................................................... 8 3.0 PRECAUTIONS AND LIMITATIONS ........................................................................... 9

==4.0 PREREQUISI==

TE ACTIONS ........................................................................................ 10

===4.1 Preliminar===

y Actions ..................................................................................................... 1 0 4.2 Special Tools, M&TE , Parts, and Supplies ................................................................. 10 4.3 Approvals and No tifications ........................................................................................ 10

===5.0 ACCEPTANCE===

CRITERIA ......................................................................................... 11

===6.0 PERFORMANCE===

........................................................................................................ 12 6.1 Excore QPTR Determination ...................................................................................... 12 6.2 Axial Flux Difference AFD Determination  

.................................................................... 13 7.0 POST PERFORM ANCE ACTIVITY ............................................................................ 15 8.0 RECO RDS ..................................................................................................................

16 8.1 QA Re cords ................................................................................................................ 16 8.2 Non-QA Records ........................................................................................................ 16 Attachment 1: QPTR Determination Using Detect or Currents ...................................... 17 Attachment 2: Maintenance of QPTR Constants On the ICS ......................................... 21 Attachment 3: Maintenance of AFD And Target Band Constants  On The ICS .............................................................................................................. 23 WBN Unit 1 Excore QPTR

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 4 of 25 Table of Contents (continued) Source Notes

WBN Unit 1 Excore QPTR  

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 5 of 25

==1.0 INTRODUCTION==

===1.1 Purpose===

This Instruction provides detailed steps fo r determination of the Quadrant Power Tilt Ratio (QPTR) and Axial Flux Difference (AFD).

2 1.2 Scope 1.2.1 Activities to be Performed A. Determination that QP TR is within limits. B. Determination that AFD is within limits.

C. Maintenance of QPTR Constants on the plant Integrated Computer System (ICS). D. Maintenance of AFD and Target Band Constants on the ICS. 1.2.2 Surveillance Requirements Fulfilled and Unit Modes Performance of this instruction satisfies the following Surveillance Requirements (SRs): SURVEILLANCE REQUIREMENT APPLICABLE MODES PERFORMANCE MODES SR 3.2.4.1 1 (1) 1 SR p 3.2.3.1 (3) 1 (2) 1 LCO 3.2.4

Action A.2 1 (1) 1 (1) Above 50% RATED THERMAL POWER (RTP). (2) Greater than or equal to 50% RTP.

(3) This instruction is used for the 7 day frequency only. 1-SI-92-5 is used for the hourly frequency.

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 6 of 25

===1.3 Frequency===

and Conditions NOTE The ICS serves as the AFD Monitor Alarm and alternate to the QPTR alarm. The alarms are considered operable provided the computer is NOT failed and the calculated values are NOT flagged as NCAL.

A. Sections 6.1 and 6.2 are to be perfo rmed every 7 days if the QPTR & AFD alarms are OPERABLE and THERMAL POWER is  50% RTP. B. Section 6.1 is to be performed every 12 hours if both of the QPTR alarms are INOPERABLE and THERMAL POWER is greater than 50% RTP. C. Section 6.1 is to be performed following each NIS calibration when new calibration data is being entered to reset the clock associated with the inoperable QPTR alarm. D. Section 6.1 and Attachment 1 may be performed after alarm indication of a Quadrant Power Tilt to verify validit y and to more accurately determine the extent of the Quadrant Power Tilt. E. QPTR and AFD determinations are required to be current before power escalation above 50% RTP. F. Performance of Section 6.1 is NOT appropriate with one excore channel inoperable and THERMAL POWER  75% RTP. Under these conditions, SR 3.2.4.2 applies and 1-SI-0-22 will need to be performed. G. Performance of Section 6.2 is NOT appropriate when the AFD monitor is INOPERABLE (e.g. the ICS or other software problems). Under this condition, 1-SI-92-5 must be performed. H. ICS constants are required to be maintained current. Constants should be verified prior to the initial performance of this instruction after refueling and can be verified in any mode and at any time. I. This SI or portions of this instru ction may be performed at times other than those specified at the discretion of the Reactor Engineering Manager or SM/Unit SRO.

& Axial Flux Difference 1-SI-0-21 Rev. 0019 Page 7 of 25

===1.4 Background===

QPTR is the ratio of the maximum upper ex core detector calibrated output to the average of the upper excore detector calibra ted outputs or the ra tio of the maximum lower excore detector calibrated output to the average of the lower excore detector calibrated outputs, whichever is greater. If one excore detector is inoperable and THERMAL POWER is < 75% RTP, the remaining three detectors shall be used for computing the average.

The primary QPTR alarms are 1-XA-55-4B-83B, POWER RANGE UPR DETECTOR FLUX DEVN [1-M-4] and 1-XA-55-4B-83C, POWER RANGE LWR DETECTOR FLUX DEVN [1-M-4]. The secondary or alternate QPTR alarm is from the ICS and triggers the RONAN annunciation on [1-M

-4] 1-XA-55-4B-83D, PLANT COMPUTER GENERATED ALARM (SEE ICS). During normal surveillance of QPTR, the ICS calculation of QPTR is the preferred method to meet the surveillance. The most accurate method of calculating QPTR is by measuring the excore detector voltage ac ross the detector's current meter test points in NIS power range drawer B. This is the preferred method for determining if the QPTR alarm indication is valid and to determine the extent of the Quadrant Power Tilt.

The ICS serves as the AFD Monitor Ala rm and is considered operable provided that the computer is NOT failed and the calculated values are NOT flagged by NCAL. If the computer AFD data points differ significa ntly from MCR values, contact the plant computer Software Engineer for evaluation. Axial Flux Difference is the difference in the normalized flux si gnals between the top and bottom halves of a two section excore neutron detector. The DELTA FLUX program on the ICS monitors the AFD of each of the operable excore channels once each minute and provides an alarm if the AFD for two or more operable excore channels are outside specified limits and triggers the RONAN annunciation on [1-M-4] 1-XA-55-4B-83D, PLANT COMPUTER GENERATED ALARM (SEE ICS). If the ICS is inoperable, the indications on 1-M-4 are acceptable by themselves to monitor AFD. REFER TO instruction 1-SI-92-5 when the AFD alarm function is inoperable.

==2.0 REFERENCES==