ML12194A529

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Initial Exam 2012-301 Final Administrative JPMs
ML12194A529
Person / Time
Site: Harris Duke Energy icon.png
Issue date: 07/12/2012
From:
NRC/RGN-II
To:
Progress Energy Co
References
50-400/12-301
Download: ML12194A529 (79)
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Text

Appendix C Page 1 of 6 Form ES-C-i WORKSHEET INFORMATION -

Facility: Shearon Harris Task No.: 301 1 35H601 Task

Title:

Determine SubcoolinQ with the JPM No.: 2012 NRC Exam SubcoolinQ Marciin Monitor Admin JPM RO/SRO Ai-2 Unavailable K/A

Reference:

G 2.1.23 RO 4.3 SRO 4.4 Alternate path: No Examinee: NRC Examiner:

Facility Evaluator: Date:

Method of testinci:

Simulated Performance: Actual Performance: X Classroom X Simulator Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

. A Small Break LOCA has occurred

. SI is actuated

. PATH-i is in progress

. Containment pressure is 3.9 psig and slowly increasing

. All RCPs are running

. The Subcooling Margin Monitor is not available

. Core Exit Thermocouples are reading as follows:

L06 = 556°F EiO = 557°F Ku =558°F F05=556°F 0

. ERFIS Pt. TRC9300 is not available

. Loop Thots are reading as follows:

Tl-4i3 = 552°F Tl-433 = 553°F Tl-423 = 551°F

. ERFIS Point PRC9455L has failed

  • Pressurizer Pressure Channels are reading as follows:

P1-457 = 1730 psig P1-455 = 1720 psig P1-456 = 1710 psig

. RCS Wide Range Pressure Channels are reading as follows:

P1-402 =_1680_psig__P1-403_=_1690_psig The CRS has directed you to determine and report the Subcooling Initiatin g Cue margin. Show your work in the box provided.

2012 NRC Admin Exam JPM RO / SRO Ai-2 Rev. FINAL

Appendix C Page 2 of 6 Form ES-C-i WORKSHEET INFORMATION Task Standard: Correct indications utilized and Subcooling margin determined within specified range.

Required Materials:

  • Calculator
  • Steam Tables General

References:

EOP USERS GUIDE Rev. 36 Handouts:

  • None Time Critical Task: No Validation Time: 10 minutes Critical Task Justification Must choose correct temperature to use based on provided plant Step 2 conditions. IF the wrong temperature is selected all calculations will be incorrect.

IF Containment pressure is not identified as ADVERSE then all Step 3 calculations will be using the normal Containment values and the calculations will be incorrect.

IF the saturation temperature were incorrectly calculated the final St ep 4 calculation will be incorrect.

Final Subcooling calculation is what the candidates task was. If the Step 5 reported values are incorrect the CRS may make incorrect choices with procedure steps based on the value given.

2012 NRC Admin Exam JPM RO I SRO A1-2 Rev. FINAL

Appendix C Page 3 of 6 Form ES-C-i PERFORMANCE INFORMATION Start Time:

Performance Step: 1 Refers to EOP Users Guide.

Comment: The candidate is not required to complete the task in discrete steps. Guidance for performing the task is provided in the EOP USERs GUIDE but procedure steps are not specified. The specified parameters must be selected for the subcooling calculation to be correct.

q Performance Step: 2 Evaluate plant conditions:

  • RCS temperature Standard: EOP Users Guide Section 6.2 Step 1 IF the Core exit TC reading on SPDS is not available then the Highest core exit TC reading from the Inadequate Core Cooling Monitor (ICCM) should be used:

Determines the hottest CET reading is the preference and chooses:

  • 558°F Comment:

V - Denotes Critical Steps 2012 NRC Admin Exam JPM RO / SRO Ai-2 Rev. FINAL

Appendix C Page 4 of 6 Form ES-C-i PERFORMANCE INFORMATION J Performance Step: 3 Evaluate plant conditions:

  • RCS Pressure Standard: EOP Users Guide Section 6.2 Step 2 Primary pressure is obtained using the lowest of the two RCS wide-range pressure indications P1-402.1 or P1-403 when PRZ pressure is off scale low or adverse CNMT conditions exist (given CNMT pressure of 3.9 psig indicates adverse conditions)

Determines containment conditions are adverse:

  • PI-402=168OPSIG Comment:

J Performance Step: 4 Determine saturation temperature.

Standard: Convert to PSIA: 1680 + 15 = 1695 PSIA Interpolates between 1660 and 1700 PSIA and determines saturation temperature to be 610°F but 611°F:

  • [35/40(613.189609.934)] = 3.255
  • 609.934 + 3.255 = 612.782°F
  • ?612°F <613°F Comment: Candidate can use the Steam Tables.

J Performance Step: 5 Determine subcooling.

Standard: Calculates and reports subcooling to be 54°F but 55°F

  • 61 2.782°F 558°F = 54.782°
  • >54°F <55°F Comment:

After the candidate has reported the calculated Subcooling Terminating Cue: margin:

Evaluation on this JPM is complete.

Stop Time:

- Denotes Critical Steps 2012 NRC Admin Exam JPM RO / SRO A1-2 Rev. FINAL

Appendix C Page 5 of 6 Form ES-C-i VERIFICATION OF COMPLETION Job Performance Measure No.: 2012 NRC Admin Exam JPM RO I SRO A1-2 Determine Subcooling with the Subcooling Margin Monitor Unavailable EOP Users Guide, Section 6.2, Subcooling Examinees Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiners Signature: Date:

2012 NRC Admin Exam JPM RO I SRO A1-2 Rev. FINAL

Appendix C Page 6 of 6 Form ES-C-i

. JPMCUESHEET Name:

Date:

. A Small Break LOCA has occurred

. SI is actuated

. PATH-i is in progress

. Containment pressure is 3.9 psig and slowly increasing

. All RCPs are running

. The Subcooling Margin Monitor is not available

. Core Exit Thermocouples are reading as follows:

L06 = 556°F ElO = 557°F Ku =558°F F05=556°F 0

ERFIS Pt. TRC9300 is not available

. Loop Thots are reading as follows:

Tl-413 = 552°F Tl-433 = 553°F Tl-423 = 551°F

. ERRS Point PRC9455L has failed

  • Pressurizer Pressure Channels are reading as follows:

P1-457 = 1730 psig P1-455 = 1720 psig P1-456 = 1710 psig

. RCS Wide Range Pressure Channels are reading as follows:

P1-402 = 1680 psig P1-403 = 1690 psig The CRS has directed you to determine and report the Subcooling Initiating Cue:

margin. (Show work below)

Subcooling margin = °F 2012 NRC Admin Exam JPM RO / SRO A1-2 Rev. FINAL

Appendix C Page 1 of 10 Form ES-C-i WORKSHEET Facility: Shearon Harris Task No.:

Task

Title:

UsinQ Valve Maps And Survey Maps JPM No.: 2012 NRC Exam Determine Stay Times For A Clearance Admin JPM SRO A-3 K/A

Reference:

G.2.3.4 RO 3.2 SRO 3.7 Examinee: NRC Examiner:

Facility Evaluator: Date:

Method of testinc4:

Simulated Performance: Actual Performance: X Classroom X Simulator Plant READTOTHEEXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

A plant shutdown lAW GP-006, Normal Plant Shutdown From Power Operation To Hot Standby (MODE 1 TO MODE 3) is in progress due to a fuel leak causing elevated RCS radiation readings.

The Letdown demins are currently bypassed and unavailable.

1 CS-i 67, VCT Outlet Check Valve gasket failed causing a body to bonnet leak that must be repaired for continued use of the VCT.

Two operators are tasked to hang a clearance on 1 CS-i 67. The clearance includes the following valves:

  • 1 CS-i 65, VCT OUTLET LCV-i 1 5C
  • 1CS166, VCT OUTLET LCV-li5E Initial Conditions:
  • 1CS-272, Chem Mixing Tank Outlet Isolation Valve
  • 1 CS-321, Seal Water Return Isolation Valve to CSIP Suction
  • 1 CS-793, ECCS Inner Vent Valve VCT Discharge Downstream 1 CS-i 67
  • 1CS-794, ECCS Outer Vent Valve VCT Discharge Downstream 1CS-i67 Operator 1 has an accumulated annual Whole Body dose of i 560 mrem (Progress Energy). Operator 2 has an accumulated annual Whole Body dose of 1630 mrem (Progress Energy) and worked at LaSalle Nuclear Plant earlier this year where he has accumulated 2170 mrem.

The ALARA group has determined that additional shielding is not warranted for this work.

(Initiating Cue on next page) 20i2 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Page 2 of 10 Form ES-C-i

- WORKSHEET -

Using the supplied valve maps and survey map, determine the maximum allowable individual stay times for each Operator that would prevent exceeding the Progress Energy Annual Administrative dose limit while performing the clearance.

Do not consider dose received during transit. The calculated dose should be Intatn g ONLY what they would receive while working at the valves for the clearance.

Individual stay times for each Operator that would prevent exceeding the Progress Energy Annual Administrative dose limit while performing these activities.

Complete the information below and return to the evaluator when complete.

2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Page 3 of 10 Form ES-C-i

- WORKSI4EET Task Standard: Calculation of stay times based on survey maps, 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> and 45 minutes for Operator 1, 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 15 minutes for Operator 2.

Required Materials: Survey map A78 RAB 261 Volume Control Tank Valve Gallery Map 23 General

References:

DOS-NGGC-0004 Progress Energy Annual Administrative Dose Limits Section 9.3 (Rev.12)

LIMIT = 2 rem Progress Energy dose not to exceed 4 rem total dose if non- Progress Energy dose for the current year has been determined.

Time Critical Task: No Validation Time: 15 minutes Critical Task Justification Step 1 Must determine dose rates in order to calculate stay time Step 2 Must determine available dose to determine stay time.

IF incorrect calculation of stay time is made the individuals could exceed Step 3 their dose limits.

2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Page 4 of 10 Form ES-C-i PERFORMANCE INFORMATION START TIME:

The order of performance does not matter Evaluator Note: IF THE APPLICANT ASKS FOR IT: Provide a copy of DOS-NGGC-0004, Rev. 12 v Performance Step: 1 Using Radiological Survey Record Map A78 and RAB 261 Volume Control Tank Valve Gallery Map 23, determines dose rates in the area where the clearance will be applied Standard: Identifies that General Area Dose Rates are 160 mrem/hr Comment:

V Performance Step: 2 Determine the remaining dose for the year for each individual Standard: Operator 1: 440 mrem 2000 mrem 1560 mrem

- = 440 mrem Operator 2: 200 mrem 4000 mrem 1630 mrem (PE)

- - 2170 mrem (LaSalle) = 200 mrem Comment:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Page 5 of 10 Form ES-C-i

- PRFQBMANC INFORMATION Performance Step: 3 Determine stay time for each operator (based on 1 St Operator reaching 2 Rem and the 2nd Operator reaching 4 Rem for the year)

Standard: Operator 1: 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> and 45 minutes 440 mrem ÷ 160 mrem/hr = 2.75 hrs ( 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> and 45 minutes)

Operator 2: 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 15 minutes 200 mrem ÷ 160 mrem/hr 1.25 hrs (1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and 15 minutes)

Comment:

Terminating Cue: After the stay time has been calculated, this JPM is complete.

ENDOFJPM STOP TIME:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Page 6 of 10 Form ES-C-i

- VERIFICATION-OF COMPLETION Job Performance Measure No.: 2012 NRC Exam Admin JPM SRO A-3 Using Valve Maps And Survey Maps Determine Stay Times For A Clearance (DOS-NGGC-0004 Rev. 12)

Examinees Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiners Signature: Date:

2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Form ES-C-i JPM CUE SHEET Name:

Date:

A plant shutdown lAW GP-006, Normal Plant Shutdown From Power Operation To Hot Standby (MODE 1 TO MODE 3) is in progress due to a fuel leak causing elevated RCS radiation readings.

The Letdown demins are currently bypassed and unavailable.

1 CS-i 67, VCT Outlet Check Valve gasket failed causing a body to bonnet leak that must be repaired for continued use of the VCT.

Two operators are tasked to hang a clearance on 1CS-i67. The clearance includes the following valves:

. 1CS-165, VCT OUTLET LCV-1 15C Initial

  • iCS-272, Chem Mixing Tank Outlet Isolation Valve
  • 1 CS-321, Seal Water Return Isolation Valve to CSIP Suction
  • 1 CS-793, ECCS Inner Vent Valve VCT Discharge Downstream 1 CS-i 67
  • 1CS-794, ECCS Outer Vent Valve VCT Discharge Downstream 1CS-167 Operator 1 has an accumulated annual Whole Body dose of 1560 mrem (Progress Energy). Operator 2 has an accumulated annual Whole Body dose of 1630 mrem (Progress Energy) and worked at LaSalle Nuclear Plant earlier this year where he has accumulated 2i 70 mrem.

The ALARA group has determined that additional shielding is not warranted for this work.

Using the supplied valve maps and survey map, determine the maximum allowable individual stay times for each Operator that would prevent exceeding the Progress Energy Annual Administrative dose limit while performing the clearance.

Do not consider dose received during transit. The calculated dose should be Initiatin g ONLY what they would receive while working at the valves for the clearance.

Cue Individual stay times for each Operator that would prevent exceeding the Progress Energy Annual Administrative dose limit while performing these activities.

Complete the information below and return to the evaluator when complete.

Record the maximum allowable stay time calculations below to the nearest hour and minute.

Operator i: Operator 2:

2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Form ES-C1 JPM CUE SHEET RA Ri4tin A NRA [i RnA 1 NI)si R&

R Vy f3TtiiAta )JUO 1iy 0 Siz A Ai Spk Lii RLA K ia iith M 44 Rcrd 2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Form ES-C-i JPM CUE SHEET NOTE:

CPLL Ta r1,:, cI1L i:Lrt :c.r-. :7r: CPL265 S13Z5 2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Form ES-C-i JPM CUE SHEET c/

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/7 ii 2012 NRC Exam Admin JPM RO/SRO A3 Rev. FINAL

Appendix C Job Performance Measure Form ES-C-i Worksheet Facility: Shearon Harris Task No.: 0i5004H20i Task

Title:

Perform the Quadrant Power Tilt JPM No.: 2012 NRC Exam Ratio Surveillance Admin JPM SRO A2 K/A

Reference:

G2.2.12 RO 3.7 SRO 4.1 Alternate Path: No Examinee: NRC Examiner:

Facility Evaluator: Date:

Method of testinQ:

Simulated Performance: Actual Performance: X Classroom X Simulator Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

. The plant is operating at 100% power when a rod in Control Bank B (M-6) dropped.

Initial Conditions:

  • The crew is performing AOP-001, MALFUNCTION OF ROD CONTROL AND INDICATION SYSTEM.
  • There are NO deficiency tags on PR NIs.

The CRS has directed you to perform a manual QPTR lAW OST-1039, CALCULATION OF QPTR. The Power Range NIS readings are provided in the table below.

Initiating Cue:

For the purposes of the examination, there will be no independent verification. Show values of your work.

PR NS Readhis sEirE RREAONG LOWER REN)G L41

[4_-

N43 r7c.  ?

A takjes takr with the RangelRate swth n 400 uA/SIow positcn.

2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Job Performance Measure Form ES-C-i Worksheet Task Standard: Calculations within required band.

Correct Tech Spec actions are identified.

Required Materials: Calculator General

References:

OST-1039, CALCULATION OF QPTR, Revision 15 Technical Specifications Handouts:

  • OST-i 039
  • Power Range NI Current and Voltage Set point Table
  • Technical Specifications Time Critical Task: No Validation Time: 15 minutes Critical Step Justification Must accurately determine the correct calculation based on collecting Step 11 and inputting either provided data or visual inspection data. The calculation will yield an unsatisfactory QPTR.

Must identify that the QPTR upper is outside the band which will make Ste p 14 this overall results unsatisfactory.

Must unsatisfactory that the QPTR is greater than 1.02 (which is a Tech Ste I 15 Spec limit).

Must correctly identify through documentation that the QPTR limits are Ste I 16 exceeded.

Must accurately identify associated Tech Specs with a QPTR that has Ste 17 exceeded the limits specified in HNP Tech Specs.

2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 3 of 14 Form ES-C-i PERFORMANCE INFORMATION Start Time:

Performance Step: 1 Obtain procedure.

Standard: Reviews procedure.

Evaluator Cue: Provide OST-1 039.

Evaluator Note: A KEY is provided for your use on JPM prior to candidate pages.

Comment:

NOTE: The NI curve numbers provided in this JPM are Evaluator Note: numbers made specifically for use in this JPM they are NOT current plant values.

Precaution and Limitation 4.0.1 has guidance if performing this Procedure Note: OST with one Power Range Channel inoperable.

Performance Step: 2 Completes Prerequisites section:

  • Verify instrumentation needed for the performance of this test is free of deficiencies that affect instrument indication.
  • Verify the most recent Curve F-X-8 is used in the performance of this procedure. (Reference 2.1.1 and 2.1.2)
  • OBTAIN CRS permission to perform this OST.

Standard:

  • Logs F-X-8 revision number: 9
  • Initials/signs all blocks Comment:

V Denotes Critical Steps

- 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 4 of 14 Form ES-C-i

- PERFORMANCE INFORMATION Performance Step: 3

  • IF Quadrant Power Tilt Ratio Calculation Computer Program is used, THEN PERFORM the following:
  • MARK Step 7.0.2 N/A.
  • MARK Section 7.2 N/A.
  • PERFORM Section 7.1.
  • IF manual calculation of the Quadrant Power Tilt Ratio is used, THEN PERFORM the following:
  • MARK Section 7.1 N/A.
  • PERFORM Section 7.2.

Standard:

  • Marks Section 7.1 N/A
  • Proceeds to Section 7.2 Comment:

OST-1 039 Section 7.2 Note prior to step 1 Performance Step: 4 NOTE: The detector current meters on each power range channel drawer are designated as left-upper, right-lower.

Standard: Reads and circle slashes note Comment:

OST-1 039 Section 7.2, Step 1 Performance Step: 5 Prior to reading the value of detector current, VERIFY the meter range/rate switch is in the 400 jiA/SLOW position.

Standard: Prior to reading the value of detector current, VERIFIES the Meter Range/Rate switch is in the 400 pA/SLOW position.

Evaluator Note: This information is on the JPM Cue Sheet Comment:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 5 of 14 Form ES-C-i PERFORMANCE INFORMATION OST-i 039 Section 7.2, Step 2 Performance Step: 6 RECORD on Attachment 2, in column A, the upper and lower detector currents from all operable power range channels as read on the Nuclear Instrumentation Cabinet.

Standard: Transposes readings from PR NIS Readings Table onto Attachment 2.

Comment:

OST-i039 Section 7.2, Step 3 J Performance Step: 7 RECORD on Attachment 2, in column B, the 100% power normalized current for each channel from Curve F-x-8.

Standard: Transposes TOP and BOTTOM 100% current values from the Curve Book provided.

Comment:

OST-i 039 Section 7.2, Note prior to Step 4 Performance Step: 8 NOTE: When recording all fractions and ratios, record to four decimal places, dropping the fifth and subsequent decimal places.

Standard: Reads and circle slashes note Comment:

OST-i039 Section 7.2, Step 4 Performance Step: 9 Divide values in Column A by the respective normalized current in Column B and record the result in Column C as the Normalized Fraction.

Standard: Divides each Upper and Lower reading by the respective 100%

normalized current value and records in Column C.

Comment:

- Denotes Critical Steps 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 6 of 14 Form ES-C-i PERFORMANCE INFORMATION OST-1039 Section 7.2, Step 5 Performance Step: 10 CALCULATE the average value for the upper and the lower Normalized Fractions as follows:

  • ADD the Normalized Fraction in each section of column C, recording the sum in the space provided.
  • DIVIDE the sum obtained in Step 7.2.5.a by the number of operable NI channels, recording the result in column D of Attachment 2.

Standard: Adds all Normalized Fractions for the same plane and records the sum in the space provided.

Divides by the sum by four and records result in Column D.

Comment:

OST-1 039 Section 7.2, Step 6 J Performance Step: 11 Using the formula and values from Attachment 2, CALCULATE the Upper and Lower Ratios.

Standard:

  • Divides the Maximum Normalized Fraction by the Average Normalized Fraction on each plane.
  • Determines the UPPER ratio is 1.02 The applicant may inform the CRS as soon as any Evaluator Note: calculation is> 1.02. If so, acknowledge and direct applicant to complete Attachment 2.

Comment:

OST-1039 Section 7.2, Step 7 Performance Step: 12 PERFORM independent verification of all calculations made on Attachment 2.

Standard: Requests Independent Verifier.

Evaluator Cue: If necessary, repeat Initiating Cue: For the purpose of this examination, there will be no independent verification of your work.

Comment: Candidate may choose to check calculations.

V - Denotes Critical Steps 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 7 of 14 Form ES-C-i PERFORMANCE INFQRMATION OST-1039 Section 7.2, Note prior to Step 8 Performance Step: 13 NOTE: The upper ratio or the lower ratio, whichever is greater, is the quadrant power tilt ratio (QPTR).

Standard: Reads and circle slashes note Comment:

OST-i 039 Section 7.2, Step 8 I Performance Step: 14 RECORD QPTR:

Standard: Records QPTR value as 1.0405 (N44 UPPER)

Identifies Upper as outside the band Comment: Acceptable band is +1- 5% (rounded to .0005).

UPPER calculated band is 1.0400 to 1.0410 LOWER calculated band is 1.0155 to 1.01 65 OST-1 039 Section 7.2, Step 9 J Performance Step: 15 CHECK QPTR is less than or equal to 1.02.

Standard: Identities Upper QPTR as greater than 1.02 and QPTR is unacceptable Comment:

V Denotes Critical Steps

- 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 8 of 14 Form ES-C-i PERFORMANCE INFORMATION OST-i 039 Section 7.3, Test Completion Step 1 J Performance Step: 16

  • IF this test was performed due to an inoperable QPTR alarm, THEN DOCUMENT completion of PMID 22125 RQ 01.
  • COMPLETE applicable sections of Attachment 3, Certifications and Reviews.
  • IN FORM the CRS this test is completed.

Standard:

  • Check marks Periodic Surveillance or notes AOP-OOi in Comments section
  • Plant Condition: 75% Power (may note dropped rod)
  • Mode 1
  • Todays Date
  • Current Time
  • OST Completed By: Applicants name
  • Initials/Name q
  • Indicate in General Comments Section and/or informs CRS that the limit is exceeded Evaluator Cue: Acknowledge any report.

If examinee identifies that QPTR is greater than 1.02, direct the examinee to identify:

(1) which Tech Spec is exceeded (2) the required action statements to be implemented (3) the time requirement associated with each applicable action statement.

(4) what the required power level reduction is due to the QPTR being>1.02 Comment:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 9 of 14 Form ES-C-i PERFORMANCE INFORMATION q Performance Step: 17 Identify the Tech Spec LCOs that would be in effect.

Standard: Identifies that Tech Spec 3.2.4, Quadrant Power Tilt Ratio has been exceeded

. Identifies the following ACTION statements to be implemented and the required time limitation (see page 1 1) o 3.2.4.a.1 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> a 3.2.4.a.2 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, reduce thermal power to 88%

  • (4% x 3% = 12% 100% 12% = 88%)

o 3.2.4.a.3 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> TS 3.2.4.a.4 is not required to be identified since no direction is Evaluator Note provided in the cue for increasing thermal power.

Comment:

After the CRS has been notified:

Terminating Cue:

Evaluation on this JPM is complete.

STOP Time:

V Denotes Critical Steps

- 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 10 of 14 Form ES-C-i PERFORMANCE INFORMATIQN KEY Record QPTR = 1.0405 Acceptable band is +1- 5% (rounded to .0005) 1.0400 to 1.0410 CHECK QPTR is less than or equal to 1.02 (circle) YES A B C D UPPER UPPER AVERAGE UPPER 100% POWER NORMALIZED UPPER UPPER DETECTOR NORMALIZED FRACTION NORMALIZED DETECTOR CURRENT CURRENT (NOTE 1) FRACTION N-41 115.7 152.9 0.7567 N-42 125.3 1727 0.7255 0.7543 N-43 144.8 193.0 0.7502 N-44 120.8 153.9 0.7849 SUM 3.01 73 Maximum Upper Normalized Fraction 0.7849 Upper Ratio = = = 1 *Q4Q5*

Average Upper Normalized Fraction 0.7543 Standard for this calculation is 1.0400 to 1.0410 A B C D LOWER LOWER AVERAGE LOWER 100% POWER NORMALIZED LOWER LOWER DETECTOR NORMALIZED FRACTION NORMALIZED DETECTOR CURRENT CURRENT (NOTE 1) FRACTION N-41 128.3 174.1 0.7369 N-42 151.2 200.4 0.7544 0.7425 N-43 160.9 214.7 0.7494 N-44 137.1 187.9 0.7296 SUM 2.9703 Maximum Lower Normalized Fraction 0.7544 Lower Ratio = = 1.01 60**

Average Lower Normalized Fraction 0.7425 Standard for this calculation is 1 .0155 to 1 .0165

- Denotes Critical Steps 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 11 of 14 Form ES-C-i PERFORMANCE INFORMATION .

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2. WitMi 2 W3
4) de te qUOAK R TILT RATIO to iWd its lisit, oe

) ec* ThERL PVWt at 1.ast fr A1D ThEWAJ.. PIU for a.cn 11 if hdicatad JAURmT PO4R nLr AflO fn exc*s: of I and siflarly re th PbmP an Netrn

  1. 1u*-HtI Tr S.tpofnta w1t1In tl next 4 orS.

3 Veri tMt

  • Q AORMI PCER flIJ UTIO 1 ttM its 1ftt w1thLi 24 botr afta exca.4inq th* Haft t r4e Th(*L to less uan of AT1D PU tMi 2 Mure an4 ra çte P.r Ranç* trn FTuxHtg Trip Satpotrits $ .j f *TED PE*

within t* at 4 crs; and

4. Intity *4 correct the c*us*

priat ThEAL PObER; ;L**qU*flt V4R 0PUATtCl 5 of RATED tRP4 POWU .y rc*ed prdd.d that th QOAORMY PV TIL.T *MID fa werifted wttJ*1i its limit at Icait onca ;er iaur far 12 !ours or until v.riflad acetaTa at t taitar LTEO TXEA PGWtL

  • 5 Sec1a1 Tast !itIaM SQ Fi*ttQn LIO.L S4EARON 4AkR1S UKrt . 314 ZU V - Denotes Critical Steps 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 12 of 14 Form ES-C-i VERIFICATION OF COMPLETION Job Performance Measure No.: 2012 NRC Exam Admin JPM SRO A2 Perform a Quadrant Power Tilt Ratio Surveillance Examinees Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiners Signature: Date:

2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 13 of 14 Form ES-C-i

-, JPMCUESI-1ET Name:

Date:

. The plant is operating at 100% power when a rod in Control Bank B (M-6) dropped.

Initial Conditions:

  • The crew is performing AOP-O01, MALFUNCTION OF ROD CONTROL AND INDICATION SYSTEM.
  • There are NO deficiency tags on PR NIs.

The CRS has directed you to perform a manual QPTR lAW OST-i 039, CALCULATION OF QPTR. The Power Range NIS readings are provided in the table below.

Initiating Cue:

For the purposes of the examination, there will be no independent verification. Show values of your work.

PR NIS READIN WE READING 1 i1oc9 MI ialues were taker wfth the RangelRate switch n 4C0 AJSIow position.

2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Page 14 of 14 Form ES-C-i JPM CUE SHEET Current and Voltage Setpoints Table (100% Power, 0% Incore Axial Offset)

Top Current Bottom Current Channel # (iA) (jiA)

N41 152.9 174.1 N42 172.7 200.4 N43 193.0 214.7 N44 153.9 187.9 Curve No. F-17-8 Rev. 9 2012 NRC Exam Admin JPM SRO A2 Rev. FINAL

Appendix C Job Performance Measure Form ES-C-i Worksheet Facility: Shearon-Harris Task No.: 345001 H602 Task

Title:

Classify an EAL and JPM No.: 2012 NRC Exam Determine a PAR Admin JPM SRO A4 K/A

Reference:

02.4.41 RO 2.9 SRO 4.6 Examinee: NRC Examiner:

Facility Evaluator: Date:

Method of testinQ: This JPM can be performed in any setting with the required references available.

Simulated Performance: Actual Performance: x Classroom X Simulator Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

You are the Site Emergency Coordinator.

- The Reactor is tripped and Safety Injection is actuated

- The A SUT transfer locked out during the fast bus transfer

- The A EDG failed to start

- The crew is implementing PATH-i

- RCPs are secured At 0351 the B CSIP trips on overcurrent Initial Conditions:

At 0403 the following conditions exist:

- CSFST Core Cooling is RED

- Core Exit TCs are 735°F

- RCS Pressure is 1200 psig

- RVLIS Full Range Level is 36%

The time is now 0419:

- Core Exit TCs are 743° F and rising

- RVLIS Full Range Level is 33% and lowering Evaluate the EAL Matrix and determine the highest classification Initiating Cue:

required for these plant conditions. This is a time critical JPM.

I This is a two (2) part TIME CRITICAL JPM where each part will be Evaluators Note:

timed separately.

2012 NRC Exam Admin JPM SRO A4 Rev. FINAL

Appendix C Job Performance Measure Form ES-C-i Worksheet Task Standard: Classify the highest EAL as a GE and correctly identify the PAR Required Materials: None General

References:

PEP-hO EAL Matrix PEP 110 EP-EAL (allowed reference)

Handouts:

  • Attached Initial Conditions
  • PEP 110
  • PEP-i 10 EAL Matrix
  • EP-EAL Time Critical Task: YES 15 minutes for classification. 15 minutes for PAR.

Validation Time: 30 minutes (accounts for 15 minute criteria for classification and PAR)

CRITICAL TASK JUSTIFICATION Classification of the event is critical for determining State and County Step 1 notifications, public information notices, site information notices, and event reportability to the Nuclear Regulatory Commission.

Identification of protective recommendation to the State and County is Ste I 2 part of the standard goal of protecting the health and safety of the public.

2012 NRC Exam Admin JPM SRO A4 Rev. FINAL

Appendix C Page 3 of 6 Form ES-C-i PERFORMANCE INFQHiAATjQN Start Time for this portion of JPM begins when the Evaluator Cue:

individual has been briefed.

START TIME:

v Performance Step: 1 Identify EAL Classification for events in progress.

Standard: The correct EAL is: General Emergency FGt1 The time required to make the classification by is:

0419 + 15 minutes= 0434 The Fuel is determined to be LOSS based on CSFST Core Cooling RED The RCS is determined to be LOSS based on RCS leak rate>

ECCS capability due to the loss of subcooling The CNMT is determined to be POTENTIAL LOSS based on FRP-C.1 Entry met (>730°F with RVLIS <39%) and FRP-C.i is not effective within 15 minutes. 16 minutes since FRP-C.i Entry met and TCs still going up/RVLIS still going down.

Comments:

STOP TIME:

Terminating Cue: EAL classification(s) completed and provided to evaluator.

DO NOTASKTHE CANDIDATE FOR APAR UNLESS A GENERAL EMERGENCY HAS BEEN DECLARED.

IF the candidate has determined that a General Emergency is declared then CUE:

Evaluator Cue:

Make a protective acton recommendation (PAR) based on the wind blowing from 130g.

Start Time for this portion of JPM begins when the individual has been provided the directions to make a PAR and given the wind direction.

V - Denotes Critical Steps 2012 NRC Exam Admin JPM SRO A4 Rev. FINAL

Appendix C Page 4 of 6 Form ES-C-i

. RFORMANQ INFQRMAT[QN START TIME:

v Performance Step: 2 Determine PAR. Refers to PEP-i 10 Attachment 3.

Time of PAR determination:

Standard: PROTECTIVE ACTION RECOMMENDATION:

  • Evacuate 2 Mile Radius & 5 Miles downwind. Shelter all other subzones

. EVACUATE Subzones: A. B, L

. SHELTER Subzones: C. D, E. F, G, H, I, J, K, M, N PAR is determined < 15 minutes from time of classification.

Comment:

1 Terminating Cue: I After the PAR is specified: This JPM is complete.

STOP TIME:

V Denotes Critical Steps

- 2012 NRC Exam Admin JPM SRO A4 Rev. FINAL

Appendix C Page 5 of 6 Form ES-C-i VERI.FLCATIQN OF COMPLETION Job Performance Measure No.: 2012 NRC Exam Admin JPM SRO A4 Classify an Event and Identify PARs Examinees Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiners Signature: Date:

2012 NRC Exam Admin JPM SRO A4 Rev. FINAL

Appendix C Form ES-C-i

. .JPM CUE SHEET Name:

Date:

You are the Site Emergency Coordinator.

- The Reactor is tripped and Safety Injection is actuated

- The A SUT transfer locked out during the fast bus transfer

- The A EDG failed to start

- The crew is implementing PATH-i

- RCPs are secured At 0351 the B CSIP trips on overcurrent Initial Conditions:

At 0403 the following conditions exist:

- CSFST Core Cooling is RED

- Core Exit TCs are 735°F

- RCS Pressure is 1200 psig

- RVLIS Full Range Level is 36%

The time is now 0419:

- Core Exit TCs are 743°F and rising

- RVLIS Full Range Level is 33% and lowering Evaluate the EAL Matrix and determine the classification(s) required for these plant conditions.

Initiating Cue:

This is a time critical JPM.

EAL Classification AND Time that classification is required to be declared by:

EAL:

Time required to be declared by:

2012 NRC Exam Admin JPM SRO A4 Rev. FINAL

Appendix C Job Performance Measure Form ES-C-i Worksheet Facility: Shearon Harris Task No.: 015004H201 Task

Title:

Perform the Quadrant Power Tilt JPM No.: 2012 NRC Exam Ratio Surveillance Admin JPM RO A2 K/A

Reference:

G2.2.12 RO 3.7 SRO 4.1 Alternate Path: No Examinee: NRC Examiner:

Facility Evaluator: Date:

Method of testing:

Simulated Performance: Actual Performance: X Classroom X Simulator Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

  • The plant is operating at 100% power when a rod in Control Bank B (M-6) dropped.

Initial Conditions:

  • The crew is performing AOP-001, MALFUNCTION OF ROD CONTROL AND INDICATION SYSTEM.

There are NO deficiency tags on PR Nis The CRS has directed you to perform a manual QPTR lAW OST-1 039, CALCULATION OF QPTR. The Power Range NIS readings are Initiating Cue: provided in the table below.

For the purposes of the examination, there will be no independent verification. Show values of your work.

PR NIS Readi LOWER READING

/2__

3 e

M vafties were takefl wfth the Range/Rate switch n 400 AISIow paston.

2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Job Performance Measure Form ES-C-i Worksheet Task Standard: Calculations within required band.

Correct Tech Spec actions are identified.

Required Materials: Calculator General

References:

OST-1039, CALCULATION OF QPTR, Revision 15 Technical Specifications Handouts:

  • OST-1039
  • Power Range NI Current and Voltage Set point Table
  • Technical Specifications Time Critical Task: No Validation Time: 10 minutes Critical Step Justification Must accurately determine the correct calculation based on collecting Step 11 and inputting either provided data or visual inspection data. The calculation will yield an unsatisfactory QPTR.

Must identify that the QPTR upper is outside the band which will make Step 14 this overall results unsatisfactory.

Must unsatisfactory that the QPTR is greater than 1.02 (which is a Tech Step 15 Spec limit).

Must correctly identify through documentation that the QPTR limits are Step 16 exceeded.

2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 3 of 12 Form ES-C-i

- PERFORMANCE INFORMATION -

Start Time:

Performance Step: 1 Obtain procedure.

Standard: Reviews procedure.

Evaluator Cue: Provide OST-1 039.

Evaluator Note: A KEY is provided for your use on JPM prior to candidate pages.

Comment:

NOTE: The NI curve numbers provided in this JPM are Evaluator Note: numbers made specifically for use in this JPM they are NOT current plant values.

Precaution and Limitation 4.0.1 has guidance if performing this Procedure Note: OST with one Power Range Channel inoperable.

Performance Step: 2 Completes Prerequisites section:

  • Verify instrumentation needed for the performance of this test is free of deficiencies that affect instrument indication.
  • Verify the most recent Curve F-X-8 is used in the performance of this procedure. (Reference 2.1.1 and 2.1.2)
  • OBTAIN CRS permission to perform this OST.

Standard:

  • Logs F-X-8 revision number: 9
  • Initials/signs all blocks Comment:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 4 of 12 Form ES-C-i

. PERFORMANCE [NEORMATION Performance Step: 3

  • IF Quadrant Power Tilt Ratio Calculation Computer Program is used, THEN PERFORM the following:
  • MARK Step 7.0.2 N/A.
  • MARK Section 7.2 N/A.
  • PERFORM Section 7.1.
  • IF manual calculation of the Quadrant Power Tilt Ratio is used, THEN PERFORM the following:
  • MARK Section 7.1 N/A.
  • PERFORM Section 7.2.

Standard:

  • Marks Section 7.1 N/A
  • Proceeds to Section 7.2 Comment:

OST-1039 Section 7.2 Note prior to step 1 Performance Step: 4 NOTE: The detector current meters on each power range channel drawer are designated as left-upper, right-lower.

Standard: Reads and circle slashes note Comment:

OST-i 039 Section 7.2, Step 1 Performance Step: 5 Prior to reading the value of detector current, VERIFY the meter range/rate switch is in the 400 jiAJSLOW position.

Standard: Prior to reading the value of detector current, VERIFIES the Meter Range/Rate switch is in the 400 pAJSLOW position.

Evaluator Note: This information is on the JPM Cue Sheet Comment:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 5 of 12 Form ES-C-i

- PERFORMANCE INFORMATION OST-1 039 Section 7.2, Step 2 Performance Step: 6 RECORD on Attachment 2, in column A, the upper and lower detector currents from all operable power range channels as read on the Nuclear Instrumentation Cabinet.

Standard: Transposes readings from PRNIS Readings Table onto Attachment 2.

Comment:

OST-1 039 Section 7.2, Step 3 q Performance Step: 7 RECORD on Attachment 2, in column B, the 100% power normalized current for each channel from Curve F-x-8.

Standard: Transposes TOP and BOTTOM 100% current values from the Curve Book provided.

Comment:

OST-1 039 Section 7.2, Note prior to Step 4 Performance Step: 8 NOTE: When recording all fractions and ratios, record to four decimal places, dropping the fifth and subsequent decimal places.

Standard: Reads and circle slashes note Comment:

OST-1 039 Section 7.2, Step 4 Performance Step: 9 Divide values in Column A by the respective normalized current in Column B and record the result in Column C as the Normalized Fraction.

Standard: Divides each Upper and Lower reading by the respective 100%

normalized current value and records in Column C.

Comment:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 6 of 12 Form ES-C-i PERFORMANCE I1IFORMAT1Or OST-1039 Section 7.2, Step 5 Performance Step: 10 CALCULATE the average value for the upper and the lower Normalized Fractions as follows:

. ADD the Normalized Fraction in each section of column C, recording the sum in the space provided.

. DIVIDE the sum obtained in Step 7.2.5.a by the number of operable NI channels, recording the result in column D of Attachment 2.

Standard: Adds all Normalized Fractions for the same plane and records the sum in the space provided.

Divides by the sum by four and records result in Column D.

Comment:

OST-i 039 Section 7.2, Step 6 J Performance Step: 11 Using the formula and values from Attachment 2, CALCULATE the Upper and Lower Ratios.

Standard:

  • Divides the Maximum Normalized Fraction by the Average Normalized Fraction on each plane.
  • Determines the UPPER ratio is 1 .02 The applicant may inform the CRS as soon as any Evaluator Note: calculation is> 1.02. If so, acknowledge and direct applicant to complete Attachment 2.

Comment:

OST-i 039 Section 7.2, Step 7 Performance Step: 12 PERFORM independent verification of all calculations made on Attachment 2.

Standard: Requests Independent Verifier.

Evaluator Cue: If necessary, repeat Initiating Cue: For the purpose of this examination, there will be no independent verification of your work.

Comment: Candidate may choose to check calculations.

- Denotes Critical Steps 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 7 of 12 Form ES-C-i PERFORMANCE [NFQPJv1AT[ON OST-i 039 Section 7.2, Note prior to Step 8 Performance Step: 13 NOTE: The upper ratio or the lower ratio, whichever is greater, is the quadrant power tilt ratio (QPTR).

Standard: Reads and circle slashes note Comment:

OST-1 039 Section 7.2, Step 8 I Performance Step: 14 RECORD QPTR:

Standard: Records QPTR value as 1.0400 to 1.0410 (N44 UPPER)

Identifies Upper as outside the band Comment: Acceptable band is +1- 5% (rounded to .0005).

UPPER calculated band is 1.0400 to 1.0410 LOWER calculated band is 1.0155 to 1.01 65 OST-1039 Section 7.2, Step 9 J Performance Step: 15 CHECK QPTR is less than or equal to 1.02.

Standard: Identifies Upper QPTR as greater than 1.02 and OPTR is unacceptable Comment:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 8 of 12 Form ES-C-i PERFQRMANCE LNFOMATION OST-1039 Section 7.3, Test Completion Step 1

.J Performance Step: 16

  • IF this test was performed due to an inoperable QPTR alarm, THEN DOCUMENT completion of PMID 22125 RQ 01.
  • COMPLETE applicable sections of Attachment 3, Certifications and Reviews.
  • INFORM the CRS this test is completed.

Standard:

  • Check marks Periodic Surveillance or notes AOP-00i in Comments section
  • Plant Condition: 75% Power (may note dropped rod)
  • Mode 1
  • Todays Date
  • Current Time
  • OST Completed By: Applicants name
  • Initials/Name
  • Indicate in General Comments Section and/or informs CRS that the limit is exceeded Evaluator Cue: Acknowledge any report.

Comment:

After the CRS has been notified:

Terminating Cue:

Evaluation on this JPM is complete.

STOP Time:

V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 9 of 12 Form ES-C-i

. PERFORMANCE INFORMATION - -

KEY Record QPTR = 1.0405 Acceptable band is +1- 5% (rounded to .0005) 1.0400 to 1 .04i 0 CHECK QPTR is less than or equal to 1.02 (circle) YES A B C D UPPER UPPER AVERAGE UPPER 100% POWER NORMALIZED UPPER UPPER DETECTOR NORMALIZED FRACTION NORMALIZED DETECTOR CURRENT CURRENT (NOTE 1) FRACTION N-4i 152.9 0.7567 115.7 N-42 172.7 0.7255 125.3 0.7543 N-43 193.0 0.7502 144.8 N-44 153.9 0.7849 120.8 SUM 3.01 73 Maximum Upper Normalized Fraction 0.7849 Upper Ratio = = 1 *Q4Q5*

Average Upper Normalized Fraction 0.7543 Standard for this calculation is 1.0400 to 1.0410 A B C D LOWER LOWER AVERAGE LOWER 100% POWER NORMALIZED LOWER LOWER DETECTOR NORMALIZED FRACTION NORMALIZED DETECTOR CURRENT CURRENT (NOTE 1) FRACTION 174.1 0.7369 N-4i 128.3 N-42 200.4 0.7544 151.2 0.7425 N-43 214.7 0.7494 160.9 N-44 187.9 0.7296 137.1 SUM 2.9703 Maximum Lower Normalized Fraction 0.7544 Lower Ratio = = 1.01 60**

Average Lower Normalized Fraction 0.7425 Standard for this calculation is 1.0155 to 1.0165 V - Denotes Critical Steps 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 10 of 12 Form ES-C-i

. VER[FLCATLONOF COMPLETION Job Performance Measure No.: 2012 NRC Exam Admin JPM RO A2 Perform a Quadrant Power Tilt Ratio Surveillance Examinees Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiners Signature: Date:

2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Form ES-C-i

. JPMCUESHT -

Name:

Date:

. The plant is operating at 100% power when a rod in Control Bank B (M-6) dropped.

Initial Conditions:

  • The crew is performing AOP-001, MALFUNCTION OF ROD CONTROL AND INDICATION SYSTEM.
  • There are NO deficiency tags on PR NIs.

The CRS has directed you to perform a manual QPTR lAW OST-i 039, CALCULATION OF QPTR. The Power Range NIS readings are provided in the table below.

Initiating Cue:

For the purposes of the examination, there will be no independent verification. Show values of your work.

PR NIS Readh r_ij* 1 uPPERREADINGLOiDG,j N41 j/57 I Nd2 /253 N$3 L - -

12c. /37/ 1

  • All values were taken with the RangefRate switct in 4C0 uAlSlow position.

2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Form ES-C-i JPMCUESHEET Current and Voltage Setpoints Table (100% Power, 0% Incore Axial Offset)

Top Current Bottom Current Channel # OiA) (iA)

N41 152.9 174.1 N42 172.7 200.4 N43 193.0 214.7 N44 153.9 187.9 Curve No. F-17-8 Rev. 9 2012 NRC Exam Admin JPM RO A2 Rev. FINAL

Appendix C Page 1 of 31 Form ES-C-i

- WORKSHEET 1NFQRMAT Facility: Shearon Harris Task No.: 3011 35H60i Task

Title:

Determine ReQuirements for JPM No.: 2012 NRC Exam MakeuQ to RWST Durinci a Larcie Admin JPM Break LOCA after Cold Leg RO/SRO Al -l Recirculation has been established K/A

Reference:

G 2.1.25 AC 3.9 SRO 4.2 Alternate path: No Examinee: NRC Examiner:

Facility Evaluator: Date:

Method of testinci:

Simulated Performance: Actual Performance: X Classroom X Simulator Plant READ TO THE EXAMINEE I will explain the initial conditions, which steps to simulate or discuss, and provide initiating cues. When you complete the task successfully, the objective for this Job Performance Measure will be satisfied.

. The plant was at 100% power when a Large Break Loss Of Coolant Accident occurred.

. The crew had entered and was working through PATH-i.

. RWST level reached 23.4% and the crew transitioned to EPP-0l 0, Transfer to Cold Leg Recirculation.

Initial Conditions:

  • The transfer has been completed.
  • The CRS is now on step i3.a, Monitor For Degraded Recirculation Sump Performance and Add makeup to RWST using OP-107.01, CVCS BORATION, DILUTION, AND CHEMISTRY CONTROL, Section 8.4, Blender Manual Operation.

With the information provided below, the CRS has directed you to determine the requirements for the RWST makeup using OP-i 07.01, attachment 5. Calculations should accomplish RWST makeup in the least amount of time allowed by procedure.

Plant Data:

Initiating Cue:

RWST Initial Boron Concentration = 2489 PPM RWST Initial Level = 20%

BAT Boron Concentration = 7263 PPM RWST Final Level = 60%

RWST Final Boron Concentration = 2500 PPM 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 2 of 31 Form ES-C-i WQRKSKT INFOBMATIOF4 Task Standard: From the provided information the candidate will determine the RWST initial and final volumes, boron concentrations, flowrates and controller setpoints to makeup to the RWST during a Large Break LOCA event.

Required Materials:

  • Calculator
  • Ruler
  • Handouts General

References:

Plant curve D-i Rev. 0 OP-i 07.01, Attachment 5 and Attachment 7, Rev. 18 Handouts:

  • Plant data on candidate cue sheet
  • All Curves from Section D of the Curve Book
  • OP-i 07.01, Attachment 5 and Attachment 7, Rev. 18 Time Critical Task: No Validation Time: 20 minutes Critical Task Justification Must determine final RWST tank boron concentration to prevent dilution St ep 6 of RCS when RWST is used for suction source of ECCS pumps.

Must determine correct volume of blended fluid to be added or blend will St ep 7 be incorrect.

Must determine required blended flow concentration or final tank volume St ep 8 will be at incorrect concentration.

Must determine required blended flow rate or final tank volume will be at ep incorrect concentration.

Must determine total volume of boric acid required, if the wrong volume St ep 12 is determined the final RWST tank boron concentration will be incorrect.

Must determine required controller setpoint or the blended flow St ep 14 concentration and final tank boron concentration will be incorrect.

Must determine required controller setpoint or the blended flow St ep 16 concentration and final tank boron concentration will be incorrect.

2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 3 of 31 Form ES-C-i PERFORMANCE lNFORMATQN Start Time:

Performance Step: 1 Refers to plant data provided, Curve D-1 and OP-i 07.01 Attachments 5 and 7.

Comment:

OP-i 07.01 Attachments 5, Step 1 Obtain data:

Performance Step: 2 Reviews provided data and determines C = 2,489 PPM Standard: Transfers provided data correctly to line 1, C 1 = 2,489 PPM Comment:

OP-i 07.01 Attachments 5, Step 1 (continued)

Performance Step: 3 Determine Initial Tank Volume V 1 (RWST)

Standard: 1 V = Initial RWST Tank Volume

= 20%

Curve D-1 RWST Volume 20% indicated level = 140,000 GAL (135,000145,000)

Comment:

V - Denotes Critical Steps 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 4 of 31 Form ES-C-i

- PERFORMANCE INFORMATION - -

OP-i 07.01 Attachments 5, Step 1 (continued)

Performance Step: 4 Determine CBAT Standard: Transfers provided data correctly to line 1, OBAT = 7,263 PPM Comment:

OP-i 07.01 Attachments 5, Step 1 (continued)

Performance Step: 5 Determine Final Tank Volume V3 (RWST) = 60%

Standard: CRS provided data that RSWT should be filled to 60%

Curve D-i, 60% RWST level = 305,000 GAL (Based on 1/2 value of curve increments Range = 300,000310,000 GAL)

Comment:

OP-i 07.01 Attachments 5, Step 1 (continued)

I Performance Step: 6 Determine Final Tank Boron Concentration C 3 Standard: Reviews provided data and determines 3 = 2,500 PPM C

Comment:

OP-i 07.01 Attachments 5, Step 2 J Performance Step: 7 Calculate volume of the blended fluid to be added:

1

=

2 V

3

= V V Standard: Determines V2 = 165,000 GAL (Based on reading of RWST volume at 60%,

Range 155,000 175,000 GAL)

Comment:

- Denotes Critical Steps 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 5 of 31 Form ES-C-i

- PERFQRMANcg INFORMATION- -

OP-107.0i Attachments 5, Step 3 q Performance Step: 8 Calculate the required blended flow concentration by inserting the appropriate values from step 2.

2 C = 3V (C )

3 1 V C )÷V 1 2 Standard: Calculates 2C (2,500) (305,000) (2,489) (140,000) ÷ (165,000) = 2,509.3 PPM (Based on previous values used and ranges for each value, 2 Range = 2508.5 2510.3 PPM)

C Comment:

OP-107.0i Attachments 5, Note Prior to step 4 Performance Step: 9 Note: Blended flows at high boron concentrations require lower total makeup flow as indicated in Attachment 7.

Standard: Reads and circle slashes note Comment:

OP-107.01 Attachments 5, Step 4 Performance Step: 10 Using the required blended flow concentration (C

) and the Boric 2

Acid Tank boron concentration (CBAT), SELECT an appropriate total makeup flow rate (0) from Attachment 7.

Standard: Using C 2 = 2,509.3 PPM and the provided information of BA Tank concentration of 7263 PPM selects the appropriate total makeup flow rate (0) as 80 GPM from Attachment 7 page 114.

Comment:

V - Denotes Critical Steps 2012 NRC Admin Exam JPM R0/SRO Al-i Rev. FINAL

Appendix C Page 6 of 31 Form ES-C-i PERFQRMANC INFO4RMATIQN -

OP-i07.0i Attachments 5, Step 5 V Performance Step: 11 CALCULATE the required boric acid flowrate:

X = Boric Acid Flowrate = Q (C) ÷ (C BAT) 2 Standard: Determines X = 80 (2509.3) ÷ 7263 = 27.6 (Based on previous calculations, Range = 27 28 GPM)

Comment:

OP-107.01 Attachments 5, Step 6 V Performance Step: 12 CALCULATE total volume of boric acid: (X is equal to boric acid flowrate)

Volume of BA = (X) (V) ÷ (Q) 2 Standard: Calculates Volume of BA = (27.6) (165,000) ÷ 80= 56,925 GAL (Based on all calculations to this point, Range = 53,475 60,375 GAL)

Comment:

OP-i 07.01 Attachments 5, Note prior to Step 7 Performance Step: 13 NOTE: The boric Acid Flow Controller has a 10 turn potentiometer and controls linearly from 0 to 50 gpm.

Standard: Reads and circle slashes note.

Comment:

V - Denotes Critical Steps 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 7 of 31 Form ES-C-i PERFORMANCE INFORMATiON OP-i 07.01 Attachments 5, Step 7 v Performance Step: 14 CALCULATE the required controller setpoint per the following equation:

(X) gpm +/- 5 gpm/turri Standard: Calculates X = 27.6 ÷ 5 gpm/turn = 5.5 (Based on previous ranges the range is 5.4 5.6 turns)

Comment:

OP-107.01 Attachments 5, Note prior to Step 8 Performance Step: 15 NOTE: The RWMU Flow controller has a 10 turn potentiometer and controls linearly from 0 to 160 gpm.

Standard: Reads and circle slashes note Comment:

OP-i 07.01 Attachments 5, Step 8 Performance Step: 16 CALCULATE the required controller setpoint per the following equation:

Q gpm ÷ 16 gpm/turn = turns Standard: Calculates required RWMU controller setpoint as:

80 gpm ÷ 16 gpm/turn = 5 turns (no range)

Comment:

V - Denotes Critical Steps 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 8 of 31 Form ES-C-i

- PERFORMANCE [F4FORMATION Performance Step: 17 Report to CRS that RWST blender requirements have been completed.

Standard: Informs examiner that task is complete Comment:

After the candidate has returned their data sheet and reported that the calculation for RWST makeup is complete:

Terminating Cue:

Evaluation on this JPM is complete.

Stop Time:

V - Denotes Critical Steps 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 9 of 31 Form ES-C-i

-- KEY Plant Data (provided with candidate cue sheet):

RWST Boron Concentration 2489 PPM RWST Level = 20%

BAT Boron Concentration = 7263 PPM RWST Final Volume = 60%

RWST Final Boron Concentration = 2500 PPM Recorded RESULTS of Calculations on OP-107.O1 Attachment 5 Initial RWST volume = 140,000 Gallons (135,000 145,000)

Final RWST volume = 305,000 Gallons (300,000 310,000)

Step 2, volume of blended fluid added = 165,000 Gallons (155,000 175,000)

Step 3, Required blended flow concentration = 2509 PPM (2508 2511)

Step 4, Selected total makeup flowrate = 80 GPM (80 80)

Step 5, Required boric acid flowrate = 27.6 GPM (27 28)

Step 6, Volume of boric acid added = 56,925 Gallons (53,475 60,375)

Step 7, Required BA controller setpoint = 5.5 turns (5.4 5.6)

Step 8, Required RWMU controller setpoint = 5 turns (5 5)

NOTE: Step 5 the boric acid counter has a tenths place therefore the calculation is not rounded off to whole numbers. Therefore the range for step 5 should be 27 28 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

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Appendix C Page ii of 31 Form ES-C-i KY -

KEY REFERENCE USE Attachment 5 Blender Manual Operation Calculation Sheet Sheet I of 4 Person(s) Performing Checklist Initials Name (Print) Initials Name (Print)

Remarks Indicate any component not in the prescribed position.

Checklist Started Time Date Checklist Completed Time Date Approved by Date CRS After receiving the final review signature, this OP Attachment becomes a QA RECORD.

OP-W7.O1 Rev18 Page1O3of123 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 12 of 31 Form ES-C-i

- KEY KEY REFERENCE USE Attachment 5 Blender Manual Operation Calculation Sheet Sheet 2o14 OBTAIN the following data:

inmal Tank &won Ci = .:i4a9 PPM Concentraton Initial Tank Volume V= 140000 GAL Boric Acid Tank Boron CAT= 7263 PPM ConcentratIon sinai Tank Volume V 305000 GAL Final Tank aoron =

3 C 2500 PPM Concentration 2 CALCULATE volume of the blended flud to be added:

= V V GAL V305000-14OOOO= 165000 GAL Verify

3. CALCULATE the required blended flow concentration Lw inserting the aporopnate values from above:

= (C V1 It PPM (2500 )305000 2

C {24 )(i400O0) 2S093 PPM Verifj NOTE: Blended flows at high boron concentrations require lower total makeup flow as indicated in Attachment 7

4. Using the required blended fiow concentration (Cr) and the Boric Acid Tank boron concentration (CeATl SELECT an approçwate total makeup flow rate (0) from Attachment 7.

0 GPM

\!efif OR-10I.01 Rev. 18 Page 108 of 123]

2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 13 of 31 Form ES-C-i KEY REFERENCE USE Attachment 5 Blender Manual Operation Calculation Sheet Sheet 3 of 4

& CALCULATE the required boric acid flrate:

X Boric Acid F!owrate = Q () = GPM (C SAT)

X Boric Acid Fiowrate = 2509, 3 27 GPM

( 723 )

Verij

a. IF the calculated Boric Acid flow rate (X) is greater than 30 gpm, THEN RECALCULATE using a lower total makeup flow rate (Q NA
6. CALCULATE total volume of boric acid: (X is equal to boric acid fiowrate)

Volume of Boric Acid (X)( GAL Q

1 S.50 00 Volume of Boric Acid = (27 5 925 GAL Vent NOTE: The Boric Acid Flow Controller has a 10 turn potentiometer and controls linearly from 0 to 50 gpm.

7. CALCULATE the required controller setpont per the following equation:

(X) gpm ÷ 5 gpmitum = turns 27 gpni ÷ 5 gprn/tum =

turns Verity OP-l01.0i Rev 18 Page 105 of 123 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 14 of 31 Form ES-C-i

-. KEY KEY REFERENCE USE Attachment 5 Blender Manual Operation Calculation Sheet Sheet 4 of 4 NOTE: The RWMU Flow controller has a 10 turn potentiometer and controls linearly from 0 to 160 gprn.

8. CALCULATE the required controller setpoint per the following equation:

(Q) gpm ÷ i6gpm/ttirn = turns

=

oprn ÷ 16 gpm!turn turns Verift OP-107.01 Rev 18 Page 106 of 123 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 15 of 31 Form ES-C-i

-- KEY--

KEY REFERENCE USE Attachment 7 Makeup Concentration Limits Sheet 6 of 9 RWMU Total Makeup Flow Rate 0= 80prn To detenrine the maximum boron concentration for which makeup will be reliable at 80 gpm total flow, select the BAT boron concentration that is equal to or lower than current BAT boron concentration.

2. To detemine the minimum boron concentration for which makeup will be reliable at 80 gprn total flow, select the BAT boron concentration which is equal to or high&

Than wrrnt BAT boron cocentralion.

BAT BORON MAXIMUM PPM FOR 80 MINIMUM PPM FOR 80 CONCENTRATION GPM MAKEUP GPM MAKEUP (PPM) (30 GPM BA FLOW) (1 GPM BA FLOW) 7000 2625 88 7050 2643 89 7100 2662 89 7150 2681 90 7200 2700 90 7250 2718 91 7300 2737 92 7350 2756 92 7400 2775 93 7450 2793 94 7500 2812 94 7550 2831 95 7600 2850 95 7650 2868 96 7700 2887 -97 7750 2906 97 OP-10701 Rev 18 Page 114 of 123 2012 NRC Admin Exam JPM ROISRO Al-i Rev. FINAL

Appendix C Page 16 of 31 Form ES-C-i VERlF1CATtO1 OF COMPLET[ON Job Performance Measure No.: 2012 NRC Admin Exam JPM SRO Al-i Determine Requirements for Makeup to RWST During a Large Break LOCA after Cold Leg Recirculation has been established EOP-EPP-010, OP-107.0l, Curve D-1 Examinees Name:

Date Performed:

Facility Evaluator:

Number of Attempts:

Time to Complete:

Question Documentation:

Question:

Response

Result: SAT UNSAT Examiners Signature: Date:

2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 17 of 31 Form ES-C-i JPMCUESHEET.

Name:

Date:

. The plant was at 100% power when a Large Break Loss Of Coolant Accident occurred.

. The crew had entered and was working through PATH-i.

. RWST level reached 23.4% and the crew transitioned to EPP-0i 0, Transfer to Cold Leg Recirculation.

Initial Conditions:

  • The transfer has been completed.
  • The CRS is now on step 13.a, Monitor For Degraded Recirculation Sump Performance and Add makeup to RWST using OP-i 07.01, CVCS BORATION, DILUTION, AND CHEMISTRY CONTROL, Section 8.4, Blender Manual Operation.

With the information provided below, the CRS has directed you to determine the requirements for the RWST makeup using OP 107.01, attachment 5. Calculations should accomplish RWST makeup in the least amount of time allowed by procedure.

Plant Data:

Initiating Cue:

RWST Initial Boron Concentration = 2489 PPM RWST Initial Level = 20%

BAT Boron Concentration = 7263 PPM RWST Final Level = 60%

RWST Final Boron Concentration = 2500 PPM 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 18 of 31 Form ES-C-i

.. JPMCUESH.EET -

REFERENCE USE Attachment 5 Blender Manual Opeftition Calcubtion Sheet Sheet 1 of 4 Person(s) Perforwinj Checklist htiaIs Name (Print) Inrial Name (Print)

Remarks Indicate any component not in the prescnbed position.

Checklist Started Time Date Checklist Completed Time Date Approved by Date CR5 After recdiing the final review signature. ths OP Attachment becomes a 0/k RECORD.

rOPIO701 Rev. l Page 103 of 123j 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 19 of 31 Form ES-C-i

- JPMCUT -

REFERENCE USE Antchment 3 Blender Mammi Operation Calculation Sheet Sheet 2 &4 OBTAIN the folbn data:

riitiai Tank 8oron 1=

C PPM Concentration Lritiai Tank Volume 1 V = GAL Bone Acid Tank Boron CEA PPM Conentration Fra1 Tank Vo!ume GAL HaI Tank 3oron PPM Concentration 2, CALCULATE okme of the blended fud to be added:

GAL GAL I CALCULATE the required btended flow concentration by inserting the appropciate values from above:

CVi (C PPM NOTE Bended flows at high boron concentrations require ower Ioal makeup flow as indicated in Attaclirneni 7.

4. Using the ruired blended flow concentration (C ) and the Bone Acid Tank boron 2

concentration (C). SELECT an appropriate ota niakeup flow rate (Q) from Attachment 7.

4

[to7o1 1 Rev 18 Piqelo4oi123j 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 20 of 31 Form ES-C-i 1PM CUESHEET REFERENCE USE Attachment 5 Blender Manual Operation CcuIation Sheet Sheet3of4 5- CALCULATE the requred borc acid fiowrate:

X = Boric Acid Flowraie 0 (C GPM C AT)

X &dc Acd Fowraie GPM Verify IF the calculated Boric Acid tiow rate (X) is greater than 30 gpm, THEN RECALCULATE usinq a lower total makeup flow rate (0),

CALCULATE total volume of boric acid; (X is equal to bnc acid fiowrat)

Volume of Boric Acd = = GAL 0

Volume of Boric Acid GAL NOTE: The &,ric Acid Flow Controller has a 10 turn potentiometer and controls Iineaiy from U to 50 gpm.

7 CALCULATE the reqursd controller setpowit per the followinq equation:

_L çjprn ÷ 5 gpmftum prn ÷ .5 gpmiturn Verify F ° 10701 Rev. 18 I 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 21 of 31 Form ES-C-i

. JPMCUESHEET. - -

REFERENCE USE Attachment 5 Blender Manual Operation Calculation Sheet Sheet 4 f 4 NOTE: The RWMU 1ow controer has a 10 turn potentiometer and contrds inearl, I fromOo16Ogprn

8. CALCULATE the required contrt>ter setpoint per the foikwinç equation:

(0) gprn ÷ iBgpmtturn turns gpm ÷ l6gprnnurn turns Verify OPl070l Fe 1 Page 1f] a 123 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

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4 E1fM1 H W 1i4i Ff11 i Ifi 11H+/-f+/-HI 000009

Appendix C Page 23 of 31 Form ES-C-i

- JPMCUESI-l.EET REFERENCE USE Attachment 7 Makeup Concentration Limits Sheet 1 of9 These tables were derived per calculation HNP-IIINST-i 056 using the equations of Attachment 1 and provide a means to select an appropriate RWMU Total Makeup Flow Rate (0) which will yield a desired blended flow boron concentration when matched to the BAT concentration and the Boric Acid Flow Rate span of I to 30 gpim It is necessary to select lower RWMU Total Makeup flow Rates when high boron concentrations are required because the Boric Acid Flow is limited by system configuration to a maximum of 33 gpm. This maximum Boric Acid Flow capability however is not used as the basis for these tables because it is necessary to allow some margin for possible system performance degradation.

Therefore a maximum Boric Acid Flow of 30 gprn is used as the basis for the following tables.

Each sheet of the tables is applicable to a specific RWMU Total Makeup Flow Rate (Q).

The maximum ppm results have been rounded down to the nearest whole number and the minimum ppm results have been rounded up to the nearest whole number.

OP-1OLO1 Rev. 18 Page 109 of 123 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 24 of 31 Form ES-C-i

- JPM.CUE SE-fEET REFERENCE USE Attachment 7 Makeup Conentration Limits Sheet 2of9 RWMU Total Makeup Flow Rate 0= l2Oaprn

1. To determine the maxiniijm boron concentration for wtich makeup will be reliable at 120 gprn total tow, select the BAT boron concentration that is equal to or krier than current BAT boron concentratIon.
2. To determine the minimum boron concentration for which mkeup. vIlI be reliable at 120 gprn total , select the BAT boron concentration which is equal to or hkher than current BAT boron concentration.

BAT BORON MAXIMUM PPM FOR 120 MINIMUM PPM FOR t2O CONCENTRATION GPM MAKEUP (3PM MAKEUP PPM) t30 GPM BA .FLO I GPM BA FLOW) 7000 1750 59 7050 1762 - 59 7100 1175 60 7150 1787 60 7200 1800 60 7250 1812 61 7D0 1825 61 7350 1837 62 7400 1850 62 7450 1862 63 7500 1875 63 75Sf) 1887 63 7600 1900 64 7650 1912 64 7700 1925 65 7750 1937 65 OP-107Oi Rev. 18 Page ii0ofil 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 25 of 31 Form ES-C-i JPMCUE SHEET REFERENCE USE Attachment 7 Makeup ConcentratIon Limits Sheet 3 of 9 MTtjRoiRø=l0 To detenrine the maximum boron concentration for hich makeup wiU be rebble at 10 Qprn to1a fow. select the BAT boron concentration that is equal to a lower than current BAT boron concentration.

2. To determine the minimum bocon concentration for tich makeup will be reliable at 110 gprn total tow, select the $AT boron concentration wtch equal o or higher than current BAT boron concentration.

BAT BORON MAXIMUM PPM FOR 110 MINiMUM PPM FOR 110 CONCENTRATION GPM MAKEUP GPM MAKEUP PPM) (30 GPM BA FLOW) (1 GPM BA FLOW t 7000 1909 64 7Q50 1922 65 L 7100 1936 65 71E0 1950 65 7200 1663 66 7250 1977 66 7300 1990 67 7350 2004 67 7400 2018 7450 2031 68 7500 2045 69 7550 2059 69

    • 7600 2072 70 7650 2086 70 7700 2100 70 7750 2113 71 CP- 107.01 Rev 18 Page 111 of 123 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 26 of 31 Form ES-C-i JPMCUESHEET.

REFERENCE USE Attachment I MkeLIp Concentration Limits Sheet 4 of 9 RWMU Total Makeup Flow Rate Q= lOOgpm To determine the maximum boron concentration for which makeup will be reable at tOO gpm total fow, select the BAT boron concentration that is equal to or lower than current BAT boron concentration,

2. To determine the minimum boron concentration far which makei will be reliable at 00 qpn total fow, select the BAT boron c-oncntration which is equal to or higher than current BAT boron concentration.

3AT BORON MAXIMUM PPM FOR 100 MINIMUM PPM FOR 100 CONCENTRATION (3PM MAKEUP (3PM MAKEUP (PPM) (30 (3PM BA FLOW) I (3PM BA FLOW) 7000 2100 70 7050 2115 71 7100 2130 71 7150 2145 72 7200 2160 72 7250 2175 73 7300 2190 73 7350 2205 7400 2220 74 450 2235 75 7500 2250 75 7550 2265 78 7600 2280 76 7650 2295 77

  • 7700 2310 77 7750 2325 78

[oPio7ai Rev1S Pageil2of 1231 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 27 of 31 Form ES-C-i

. .1PM CUE SHEET REFERENCE USE Attachment I Makeup ConenLraIior Lrnits ShE Scif9 To deternin the naxirrum boron cor&ventraion for wt*h makeup will be reab at 90 pni total row, s&ect the BAT boron concentration that ; equal to or lower than current BAT boron concepuation.

2. T determine the minimum boron concentration for wtich makeup will be reliable at 90 grim total flow, select the BAT boron concentration hich is equal to or higher than cwrent BAT boron concentration.

AT BORON MAXIMUM PPM FOR 90 MINIMUM PPM FOR 90 CONCENTRATION GPM MAKEUP GPM MAKEUP PPM (30 GPM BA FLOW) (1 GPM BA FLOW) 7000 2333 78 7050 2350 79 7100 2366 79 7150 2383 80 7200 2400 80 7250 2416 81 730 243 82 7350 2450 82 7400 2466 93 7350 2483 83 7500 2500 84 7650 2616 84 7600 2533 85 7850 2550 85 7700 2666 86

/750 2583 87

[oP.iooi Rev., t8 age1i3of1i1 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 28 of 31 Form ES-C-i JPMCUESF-IEET -

REFERENCE USE Attachrnein I Makeup Concentration Limits Sheet B of 9 RWMU Thtal Makeuo Fow Rate 0 B0çpm To determine the mairnurn boron centraton far which makeup wiN be reliable ot S0gpm total flow, select the BAT boron corcentration that is equal to or lower than current BAT boron concentrabon.

To determine the mrnlrnum boron concentrtior for which makeup wifl be reliable at 80 gprn total flow, select the BAT boron concentration which is equal to c higher than current BAT boron concentraton.

SAT BORON MAXIMUM PPM FOR 80 MINIMUM PPM FOR 80 CONCENTRATiON GPM MAKEUP GPM MAKEUP PPM) (30 GPM BA ftCW) (1 GPM BA FLOW) 7004) 2625 88 7054) 2643 89 7100 2662 89 7150 2661 90 7200 2700 90 7250 2716 91 7300 2737 7350 2756 92 p400 2775 93 7450 2793 94 7500 2l12 94 7550 2831 95 7600 2860 95 7650 2868 36 7704) 2887 97 7754) 2906 97 OP1070i I Rev. 18 Page 114 of 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 29 of 31 Form ES-C-i

. JPMCLIE SHEET -.

REFERENCE USE Attachment 7 Makeup Concentration Limits Sheet 7 of 9 RWMU Tota Makeup Fow Rate 0 iOqp To determine the maximum boron concentration or which makeup wdl be retiable at 70 gpm Iota1 flow, s&ect the BAT boron concentraiion that is equa to or wer than current BAT boron concertraton.

2. To determine the minimum boron concentration for which makeup will be reliable at 70 gpm total flow, seect the BAT boron concentration which is equal to or higher than current BAT boron concernration.

AT BORON MP)OMUM PPM FOR 70 MINIMUM PPM FOR 70 CONCENTRATION 6PM MAKEUP C3PM MAKEUP PPM) (30 6PM BA FLOW) (1 6PM BA FL0W 7(100 3000 100 7050 3021 101 7100 3042 102 7150 3064 103 7200 3085 103 7250 3107 104 7300 3128 10%

7350 3150 105 1300 3171 lOB 7450 3192 107 7500 3214 108 7SS0 .3235 108 7600 3257 109 7650 3278 1 10 7700 3300 110 7750 3321 111 L9!971. jRe18 of 123 2012 NRC Admin Exam JPM ROISRO Al-i Rev. FINAL

Appendix C Page 30 of 31 Form ES-C-i

. 1PMCUESF-tEET REFERENCE USE Attathrnent 7 Mikeup Concntrntion Urnit Sheet 8of 3 TMFt=

To determine the maxvum baron concentration for which makeup wIH be reliable at 50 gpm total flow, s&ect the BAT boron concentration that is equal to or lower than current BAT baron concenlraton,

2. To determine the minimum boron concentration for which makeup Mu be reliable at 50 gprn total flow, seect the BAT boron concentra1cn which s equal to or higher than current BAT boron concentration.,

3AT ORQN MAXIMUM PPM FOR 60 MINIMUM PPM FOR 60 CONCENTRATION GPM MAKEUP GPM MAKEUP PPM) (30 GPM BA FLOW) (1 GPM BA FLOW) 7000 3500 117 7050 3825 118 7100 3550 119

  • 7150 3575 120 7200 3600 120 7250 3625 121 7300 3650 122 7350 3675 123 7400 3700 123 7450 3725 125 7500 3750 125 7550 3775 126 7600 3800 127 7650 3825 128 7700 3850 129 7750 3875 130 OP1070t Rev 18 Page 1 iSof 1231 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

Appendix C Page 31 of 31 Form ES-C-i

. - JPMCUSI-1EET REFERENCE USE Attnchmtnt 7 Makeup Concenirtion Limits Sheet9of9 To determine the maximum boron concentration for which makeup w4it be reiat4e at 50 gpm :ota !ow, s&ect the BAT boron concentration that is equal to or Ioaer than current BAT boron conceraration.

2. To determine the minimum boron concentration for which makeup will be reliable at 50 gpm oal gow, select the BAT boron concentration which s eqirni to or higher than current BAT boron concentration.

BAT BORON MAXIMUM PPM FOR 50 MINIMUM PPM FOR 50 CONCENTRATION SPM MAKEUP GPM MAKEUP lPPM (30 GPM BA FLOW) (1 GPM BA FLOW) 7000 4200 140 7050 23O 141 7100 1260 132 7150 i29O 133 7200 4320 144 7250 4360 145 7.300 4380 146 7350 4410 147 1400 4440 148 7350 4470 149 7500 4500 150 7550 1530 151 7600 4660 152 7650 4690 153 7700 4620 154 7750 4650 15.5 OPI0701 Rev, 18 Page ll7of 123j 2012 NRC Admin Exam JPM RO/SRO Al-i Rev. FINAL

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