{{#Wiki_filter:Appendix C Job Performance Measure Worksheet Form ES-C-1 Facility:

IPEC Unit 2 Task No: 2000650102 Task Title: Replace a Watchstander due to Illness KIA  

 

Examinee:

Facility Evaluator:

Method of testing: Simulated Performance Classroom X 2.1.5 RO-2.9 Job Performance Measure No: NRC Examiner:

Date: Actual Performance Simulator Plant ROAdmin C0-1 X ----------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.

* Your work history for the previous 2 weeks is as follows (all hours worked performing licensed operating duties): Sunday Monday Tuesday Wednesday Thursday Friday 2/9 2/10 2/11 2/12 2/13 2/14 Worked Worked Worked 0600-Worked Worked Worked 0600-1200-1800 1800 0600-1800 0600-1400 0600-1400 1400 Sunday Monday Tuesday Wednesday Thursday Friday 2/16 2/17 2/18 2/19 2/20 2/21 Worked Worked Worked 0600-Worked 0800-0600-1500 2100 OFF OFF 0600-1800 1200 1 of 6 Saturday 2/15 Worked 0600-1400 Saturday 2/22 Worked 0600-2100 Appendix C Job Performance Measure Worksheet Form ES-C-1 Task Standard:

Reviews the work hour history and determines that overtime request will result in exceeding work hour limits and also previously worked schedule violates additional work hour rules. Required Materials:

Initiating Cue: Using the work history provided:

: 2. Determine if you can work the entire requested shift schedule, if not, list any and ALL restrictions that apply. 3. Document your conclusion on the cue sheet below. Time Critical Task: No Validation Time: 30 2 of 6 Appendix C Page 3 Performance Information (Denote critical steps with a check mark --./) 1. Performance Step: Obtain correct procedures Standard:

Obtain EN-OM-123 IP-SMM-OP-1 03 CUE: Give candidates procedure.

Comment: Form ES-C-1 ..J 2. Performance Step: Determines that the required 10 hour break between work periods will not be met, and that the additional hours will result in exceeding 26 hours in any 48 hours period. Standard:

10 hours break not met-(From 2100 to 0600 = 9 hours) Comment: 27hrs in 48hr period -(Sat 10/6 [15 hrs] + Sun 10/7 [12 hrs] = 27 hrs 3 of 6 Appendix C Page4 Form ES-C-1 Performance Information (Denote critical steps with a check mark >I) ...J 3. Performance Step: Determines that the previously worked schedule, there was NOT a 34 hour break in any 9 day period. Standard:

Comment: 9 day period [2/9 -2/17] did not have a 34 hour break Determines that previously worked schedule violation occurred due to not having a 34 hour break in a 9 day period. Actual Break-Mon 2/17 (2100) to Thus 2/20 (0600) = 33 hours. Terminating Cue: JPM Complete 4 of6 Appendix C Page 5 VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ___________

_ 5 of6 Form ES-C-1 Page 6 of 6 Initial Conditions:

* Your work history for the previous 2 weeks is as follows (all hours worked performing licensed operating duties): Sunday Monday Tuesday Wednesda Thursday Friday Saturday 2/9 2/10 2/11 y 2/12 2/13 2/14 2/15 Worked Worked Worked Worked Worked Worked Worked 1200-1800 0600-1800 0600-1800 0600-1400 0600-1400 0600-1400 0600-1400 Sunday Monday Tuesday Wednesda Thursday Friday Saturday 2/16 2/17 2/18 y 2/19 2/20 2/21 2/22 Worked Worked Worked Worked Worked 0600-1500 0600-2100 OFF OFF 0600-1800 0800-1200 0600-2100 Initiating Cue: Using the work history provided:

: 2. Determine if you can work the entire requested shift schedule, if not, list any and ALL restrictions that apply. 3. Document your conclusion on the cue sheet below. File: 2000651602-1.doc Task Number: 200*065*01  

*02 Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 0001250502 Form ES-C-1 Task Title: Determine Reactor Vessel Venting Time Per FR-1.3, Attachment 1 KIA  

 

2.1.25 Job Performance Measure RO Admin RO-3.9 SRO-4.2 No: C0-2 -----Examinee:

NRC Examiner:

Facility Evaluator:

Date: Method of testing: Simulated Performance X Actual Performance 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.

: 1. An event occurred 24 hours ago that resulted in a YELLOW path condition on the Inventory Critical Safety Function Status Tree, FR-1.3. 2. The TSC has requested that the Reactor Vessel be vented in accordance with FR-1.3, Response to Voids in Reactor Vessel. 3. Given the following information:

Containment Pressure Containment Temperature Containment Hydrogen RCS Pressure 2.6 psig 172°F 2.3% 550 psig Task Standard:

Vessel Venting time is properly calculated.

Required Materials:

Calculator General  

2-FR-1.3 1 of 8 Appendix C Job Performance Measure Worksheet Form ES-C-1 Initiating Cue: You are the spare RO and the CRS has directed you to calculate Reactor Vessel Venting Time in accordance with FR-1.3 Attachment 1 and Figure FRI3-3. Time Critical Task: No Validation Time: 20 min 2 of 8 Appendix C Page 3 Form ES-C-1 Performance Information (Denote critical steps with a check mark ..J) 1. Performance Step: Standard:

Comment: Obtain correct procedure Obtains FR-1.3 Determine Containment Volume at STP (A) A= 2.61 E6 X 17.3/14.7 X 492/632 A= 2.39 E6 Determine Maximum Hydrogen volume that can be vented (B) B = (3.0 -2.3 X2.39 E6) 100 B = 1.67 E4 Determine Hydrogen flow rate as a function of RCS pressure (C) Using FRI3-3; C = 1500 SCFM 3 of 8 Appendix C Page4 Performance Information (Denote critical steps with a check mark --./) ...J 5. Performance Step: Calculate maximum venting time Standard:

Comment: Time = 1.67 E4 1500 Time = 11 minutes Terminating Cue: JPM Complete 4 of 8 Form ES-C-1 Appendix C Page 5 Number: fitl e: 2-fH-!.3 RESPONSE ro VOIDS IN fH'ACTOR VESSEL FIGURE FRI3-3 Hydrogen Flonrate (SCFM) 6 () 0 0 __,..,.....,.....,..,..,..,..,.

5000 3000 2000 0 250 1COO 1250 1500 1750 2000 f1Rl3

* 3. HYDROGEN FLOWRATE VERSUS RCS P:.i.ESSURE  

*END-19 of ?0 5 of 8 Form ES-C-1 Rev*i Number: REV. 2 2250 2500 Appendix C Page 6 Form ES-C-1 Number: r it 1 e: Revision Number: 2-FR-1.3 RESPONSE TO VOlDS IN REACTOR VESSEL REV. 2 ATTACHMENT 1 (Attachment page 1 of 1) 1. 2. INSfRUCTIONS FOR DElTRMINING VENTING LIME Determine containment air volume at STP -

A = 2. 61 E6 cu ft X p X 992" R where: P (psi a) and: T (* Rl 14 . 7 psi a T (, 1\l. Containment pressure (psigl + 14.7 Containment temperature

("F) + 460 Determine maxi mum hydrogen vo 1 ume that c.iln be vented = B B = (3.0% -__ C_q_nj;_ainrnent Hv\lrogen 100% 3. Determine hydrogen flow rate as a fu ction of RCS a) Check RCS pressure.

bl Using FIGURE FRI3-3, read hydrogen flow rate. 4. Calculate_maximum venting time* Maximum venting time ____ e __ _ c Maximum venting t'rne ll -END-20 of 20 6 of 8 Appendix C Simulator Setup VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

7 of 8 Form ES-C-1 Initial Conditions:

: 1. An event occurred 24 hours ago that resulted in a YELLOW path condition on the Inventory Critical Safety Function Status Tree, FR-1.3. 2. The TSC has requested that the Reactor Vessel be vented in accordance with FR-1.3, Response to Voids in Reactor Vessel. 4. Given the following information:

Containment Pressure Containment Temperature Containment Hydrogen RCS Pressure Initiating Cue: 2.6 psig 172°F 2.3% 550 psig You are the spare RO and the CRS has directed you to calculate Reactor Vessel Venting Time in accordance with FR-1.3 Attachment 1 and Figure FRI3-3.

Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 0350040421 Form ES-C-1 Task Title: Perform a SG tube Leakrate Determination using 2-AOP-SG-1 2.3.14 Job Performance Measure RO Admin KIA  

 

RO-3.4 No: RC-1 -----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.

* Given the attached Leakrate Log Task Standard:

SG Tube Leakage calculated using 2-AOP-SG-1 Attachment 1 Required Materials:

Leakrate Log, Calculator, 2-AOP-SG-1 General  

2-AOP-SG-1 Attachment 1 and 2 1 of 12 Appendix C Job Performance Measure Worksheet Form ES-C-1 Initiating Cue: You are the BOP and the CRS has directed you to estimate the SG Tube Leakage, and determine sample frequency.

Time Critical Task: NA Validation Time: 15 Minutes 2 of 12 Appendix C Initial Conditions Form ES-C-1 Performance Information (Denote critical steps with a check

: 1. Performance Step: Standard:

Comment: Review data Candidate may use Attachment 1 or separate paper Calculate SG Tube Leakage for 1215 Determines SG Tube Leakage is 48.1 gpd Calculate SG Tube Leakage for 1230 Determines SG Tube Leakage is 54.7 gpd Calculate Delta Leakrate Determines leakrate has increased 6.6 gpd over last hour.

Appendix C Initial Conditions Performance Information (Denote critical steps with a check mark --./) "' 5. Performance Step: Determine sample frequency Form ES-C-1 Standard:

Determines sample frequency is every 15 minutes Comment: Terminating Cue: JPM Complete Appendix C Initial Conditions Steam Generator Tube Leak Attachment 1 R-45 Estimated Leak Rate Page 1 of 1 NOTE Form ES-C-1 2-AOP-SG-1 Rev. 15 Page 39 of 69 For low levels of radioactivity as read on R-45, the estimated leak rate will be higher than actual. 1 . Obtain the following A. RCS total gaseous activity (from Chemistry Data Book or WINCDMS)  

... :1 B. Condenser air in leakage :}.1 SCFM C. R-45 reading :J.  

....

* leak rate unstable or NOT positively identified as stable -every 15 minutes

* leak rate stable per Attachment 2 -Use Attachment 2 frequencies

[(B J.] ) X (C  

.. X 10770 = [..___S.;;;;.....4-"-._._7

____ __.l Primary to secondary leak rate (gpd)

Appendix C Initial Conditions Form ES-C-1 Steam Generator Tube Leak 2-AOP-SG-1 Rev. 15 Page 39 of 69 Attachment 1 R-45 Estimated Leak Rate Page 1 of 1 NOTE For low levels of radioactivity as read on R-45, the estimated leak rate will be higher than actual. 1. Obtain the following A. RCS total gaseous activity (from Chemistry Data Book orWINCDMS)

B. Condenser air inleakage C. R-45 reading _;:__1.

__ .a_.__.] __ SCFM 2. Calculate primary to secondary leak rate using the following formula per the following frequency requirements:

* leak rate unstable or NOT positively identified as stable-every 15 minutes

* leak rate stable per Attachment 2 -Use Attachment 2 frequencies

[(B :J.. 7 ) X (C 5"") X 10770 = (A l.  

.. ;).. ) 4i.f J Primary to secondary leak rate (gpd)

Steam Generator Tube Leak 2-AOP-SG-1 Rev. 11 Attachment 2 SG Leak Rate Data Sheet Page 41of 69 Page 1 of 1

* If leak increases z 30 gpd but < 75 gpd take data & determine LR every 15 minutes.

* If leak z 75 gpd, take data & determine LR every 15 minutes. DATE/ RX R-45 R-49 ATT 1 N-16 (gpd) Chemistry Grab Sample (gpd) TIME POWER (When 1/S) (When 1/S) CALC {When > 30% power) (When Chemistry provides) (When performed) (gpd) 21 22 23 24 21 22 23 24 1115 25% 2.39 E-05 45.4 gpd NA NA NA NA 1130 25% 2.40 E-05 45.6 gpd NA NA NA NA 1145 25% 2.46E-05 46.7 gpd NA NA NA NA 1200 25% 2.50E-05 47.5 gpd NA NA NA NA 1215 25% 2.53E-05 48.1 gpd NA NA NA NA 1230 25% 2.88E-05 54.7 gpd NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA The difference between the two values is 6. 6 gpd over the last hour. This is greater than a 5 gpd change in last !?our and the frequency should be 15 minutes.

Appendix C Simulator Setup VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

Form ES-C-1 Initial Conditions:

* RCS Gaseous Activity 1.53 X 1 o-2 !Jci/cc

* Given the attached Leakrate Log Initiating Cue: You are the BOP and the CRS has directed you to estimate the SG Tube Leakage, and determine sample frequency.

Steam Generator Tube Leak Attachment 1 R-45 Estimated Leak Rate Page 1 of 1 NOTE 2-AOP-SG-1 Rev. 15 Page 39 of 69 For low levels of radioactivity as read on R-45, the estimated leak rate will be higher than actual. 1. Obtain the following A. RCS total gaseous activity (from Chemistry Data Book orWINCDMS)

______ J.!Ci/cc B. Condenser air inleakage

______ SCFM C. R-45 reading ______ J.!Ci/cc 2. Calculate primary to secondary leak rate using the following formula per the following requirements:

* leak rate stable per Attachment 2 -Use Attachment 2 frequencies

___ )t___.:_:X_l.:( C=------'--X 1 0770 = (A ____ ,) Primary to secondary leak rate (gpd)

Steam Generator Tube Leak 2-AOP-SG-1 Rev. 11 Attachment 2 SG Leak Rate Data Sheet Page 41of 69 Page 1 of 2

* If leak increases 30 gpd but < 75 gpd take data & determine LR every 15 minutes.

* If 30 gpd but < 75 gpd and stable for 1 hour 5 gpd increase in 1 hour), take data every 2 hours.

* If 30 gpd but< 75 gpd and stable for 24 10% increase in 1 hour), take data at frequency for normal operation.

* If leak 75 gpd, take data & determine LR every 15 minutes. DATE/ RX R-45 R-49 ATT 1 N-16 (gpd) Chemistry Grab Sample (gpd) TIME POWER (When 1/S) (When 1/S) CALC (When > 30% power) (When Chemistry provides) (When performed) (JlCi/cc) (gpd) 21 22 23 24 21 22 23 24 1115 25% 2.39 E-05 45.4 gpd NA NA NA NA 1130 25% 2.40 E-05 45.6 gpd NA NA NA NA 1145 25% 2.46E-05 46.7 gpd NA NA NA NA 1200 25% 2.50E-05 47.5 gpd NA NA NA NA 1215 25% 2.53E-05 NA NA NA NA 1230 25% 2.88E-05 NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA Steam Generator Tube Leak 2-AOP-SG-1 Rev. 11 Attachment 2 SG Leak Rate Data Sheet Page 41of 69 Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 0430010321 Form ES-C-1 Task Title: Demonstrate Proficiency in use of Generator Capability Curve 2.2.41 KIA

 

RO -3.4 SRO -3.8 Job Performance Measure No: Examinee:

NRC Examiner:

Facility Evaluator:

Date: Method of testing: Simulated Performance Actual Performance Classroom X Simulator Plant READ TO THE EXAMINEE ROAdmin EC-1 X 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 Hydrogen vent path has been isolated Task Standard:

MVAR adjustment accurately evaluated.

Required Materials:

Ruler General  

Time Critical Task: No Validation Time: 15 1 of 8 Appendix C Page 2 Performance Information (Denote critical steps with a check mark "./) 1. Performance Step:Obtain correct procedure Standard:

Obtains Graph-EL-1 Comment: v 2. Performance Step: Obtain current generator gas pressure Standard:

Determines Gas Pressure is approximately 45 psig Comment: Form ES-C-1 v 3. Performance Step: Obtain current generator gross megawatts Standard:

Determines approximately 950 Comment: v 4. Performance Step: Obtain current MVAR load Standard:

Determine MVAR load is approximately 460 Leading Comment: 2 of 8 Appendix C Page 3 Performance Information (Denote critical steps with a check mark -/) 5. Performance Step: Evaluate conditions using Graph EL-1 Form ES-C-1 Standard:

Determines MVAR Loading is outside allowable on Graph EL-1 Comment: Terminating Cue: JPM Complete 3 of 8 Appendix C <!)[8001 :S t'400' [_ __ j Page4 INDIAN POINT 2 AlB 4 POLE 1,439,200 KVA. 1800 RPM. 22000 VOLTS Form ES-C-1 150 UriJ /(8( .81 PF *. 58 SCR. 75 PSIG HYDROGEN PRESSURE.

535 VOLTS EXCITA110N CURVE A8 LIMITED BY FIElD HEATING CURVE BC LIMITED BY ARMATURE HEATING CURVE CD LIMITED BY ARMATURE CORE END HEATING rsti*Mted CapitbiHty Cqrvos tl'w<J. 48)11h532 4 of 8 EL-1 Rev. 4. SSL 22KV SSL .* 23.1 KV Appendix C Simulator Setup VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

5 of 8 Form ES-C-1 JPM-0450010101 SIMULATOR Initial Conditions:

* The Hydrogen vent path has been isolated Initiating Cue: You are the BOP and the CRS has directed you to determine if the Main Generator is operating within the limits of Graph EL-1 for current conditions 6 of 8 JPM-0450010101 OUT 400 \ 600 r ,E.-............

c ** -. 1.1 I __ , .t--t. *.* .H. r.. *=* 7 of 8 SIMULATOR r=, E r**.J E F',II,Fr F' H.:: PF'E::::::UF'E JPM-0450010101 SIMULATOR A-C MEGAWATTS 8 of 8 Appendix C Job Performance Measure Worksheet Facility:

IPEC UNIT2 Task No: 2000650102 Task Title: Replace a Watchstander due to Illness KIA  

 

2.1.5 Job Performance Measure SRO-3.9 No: Examinee:

NRC Examiner:

Facility Evaluator:

Date: Method of testing: Simulated Performance Actual Performance Classroom X Simulator Plant READ TO THE EXAMINEE Form ES-C-1 SROAdmin C0-1 X 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.

* Time is 1700 Reference the attached RO work hour sheet. Task Standard:

Reviews the work hour history for various RO candidates and determines if any one of the candidates can stand an entire shift. Explains whether or not RO can stand the entire shift Required Materials:

Operations Schedule (Included)

= 9hrs break) Comment: Terminating Cue: JPM Complete 5 of 10 Appendix C Page 6 Form ES-C-1 SRO Admin JPM A1.1 -ANSWER KEY RO 2/16 2/17 2/18 2/19 2/20 2/21 2/22 2/23 2/24 1 1800(2/18)-

1500(2/18) 1500(2/19) 1500(2/20) 1500(2/21) 11 00(2/23) 0900(2/25) 0 0 8 8 8 8 0 5 10 12 ----------------

= 9hrs break) )r <34 hours break in any 9 days -RO Candidate # 2 violation (no 34 hr break from 2/17 -2/25) 7 of 10 Form ES-C-1 Appendix C Page 8 VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

8 of 10 Form ES-C-1 Page 9 of 10 Initial Conditions:

* Time is 1700 Reference the attached RO work hour sheet. Initiating Cue: There are 5 RO's available to fill the position.

You are told to perform verification of overtime hours to determine which RO, if any, can stand the entire shift. Document your conclusion(s) below (why or why NOT)? ANSWER: R0#1: R0#2: R0#3: R0#4: R0#5: File: 2000651602-1.doc Task Number: 200*065*01  

*02 Page 10 of 10 RO 2/16 2/17 2/18 2/19 2/20 2/21 2/22 1 1800(2/18) 1800(2/19) 1800(2/21) 1800(21 ----0200(2/19) 0600(2/20) 0700(2/22) 0600(21 2 0600(2/17) 0600(2/18) 0600(2/19) 0600(2/20) 0600(2/21) 0600(21 ------1800(2/17) 1800(2/18) 1800(2/19) 1800(2/20) 1200(2/21) 1000(21 3 0600(2/16) 1800(2/18) 1800(2/20) 1800(2/21) 1800(21 -----1800(2/16) 0600(2/19) 0800(2/21) 0600(2/22) 0800(21 4 0800(2/16) 0800(2/17) 0800(2/18) 0800(2/19) 1800(21 -----1600(2/16) 1600(2/17) 1600(2/18) 1600(2/19) 0000(21 5 0700(2/18) 0700(2/19) 0700(2/20) 0700(2/21)  

----1500(2/18) 1500(2/19) 1500(2/20) 1500(2/21)

File: 2000651602-1.doc Task Number: 200*065*01*02 Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 0001250502 Form ES-C-1 Task Title: Review Reactor Vessel Venting Time Calculation Per FR-1.3, Attachment 1 KIA 2.1.25 Job Performance Measure SRO Admin  

 

RO-3.9 SRO-4.2 No: C0-2 -----Examinee:

NRC Examiner:

Facility Evaluator:

Date: Method of testing: Simulated Performance X Actual Performance 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.

: 1. An event occurred 24 hours ago that resulted in a YELLOW path condition on the Inventory Critical Safety Function Status Tree, FR-1.3. 2. The TSC has requested that the Reactor Vessel be vented in accordance with FR-1.3, Response to Voids in Reactor Vessel. 3. Given the following information:

Containment Pressure Containment Temperature Containment Hydrogen RCS Pressure 2.6 psig 172&deg;F 3.2% 550 psig Task Standard:

Vessel Venting time is properly calculated.

Required Materials:

Calculator General  

2-FR-1.3 1 of 8 Appendix C Initiating Cue: Job Performance Measure Worksheet Form ES-C-1 You are the CRS and a spare RO has calculated Reactor Vessel Venting Time in accordance with FR-1.3 Attachment 1 and Figure FRI3-3. The SM has directed you to review the calculation and determine what, if any, actions are required.

Time Critical Task: No Validation Time: 20 min 2 of 8 Appendix C Page 3 Form ES-C-1 Performance Information (Denote critical steps with a check mark .V) v 1. Performance Step: Obtain correct procedure Standard:

Obtains FR-1.3 Comment: It is possible for the candidate to determine that the Reactor Vessel cannot be vented with containment hydrogen at 3.2% before reviewing the calculation.

NOTE: See Step 3 2. Performance Step: Determine Containment Volume at STP (A) Standard:

A= 2.61 E6 X 17.3/14.7 X 492/632 A= 2.39 E6 Determines calculation is correct. Comment: v 3. Performance Step: Determine Maximum Hydrogen volume that can be vented (B) Standard:

8 = (3.0-3.2 X 1.32 E6) 100 8 = -4.22 E4 Comment: There are two elements wrong with this step. 1. The number used for the calculation was transposed

: 2. In the body of the procedure, the Reactor Vessel cannot be vented if containment hydrogen is greater than 3%. Procedure Step 17 directs consultation with the TSC if containment hydrogen is > 3.0% Terminating Cue: JPM Complete 3 of 8 Appendix C Simulator Setup VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

4 of 8 Form ES-C-1 Initial Conditions:

: 1. An event occurred 24 hours ago that resulted in a YELLOW path condition on the Inventory Critical Safety Function Status Tree, FR-1.3. 2. The TSC has requested that the Reactor Vessel be vented in accordance with FR-1.3, Response to Voids in Reactor Vessel. 4. Given the following information:

Containment Pressure Containment Temperature Containment Hydrogen RCS Pressure Initiating Cue: 2.6 psig 172&deg;F 3.2% 550 psig You are the CRS and a spare RO has calculated Reactor Vessel Venting Time in accordance with FR-1.3 Attachment 1 and Figure FRI3-3. The SM has directed you to review the calculation and determine what, if any, actions are required.

Number: Title: Rev*ision Number: 2-FR-I.3 RESPONSE TO VOIDS IN RE/\CTOR VESSEL REV. 2 ATTACHMENT 1 (Attachment page 1 of 1) l. INSTRUCTIONS FOR DETERMINING VENTING TIME Determine containment air volume at STP A = 2.61 E6 cu ft X P where: P (psia) and: T (0 R) 14.7 psia Containment pressure (psig) + 14.7 Containment temperature

(&deg;F) + 460 2. Determine maximum hydrogen volume that can be vented = B :J, B = (3.0% Containment Hydrogen Concentration) x A 100% 3. petermine Qygro en flow rate as a function of RCS ressure a) Check RCS pressure.

b) Using FIGURE FRl3-3, read hydrogen flow rate. 4. Calculate maximum venting time: Maximum venting time 8 c Maximum venting time II -END-Number: Title: 2-FR-I.3 RESPONSE TO VOIDS It4 REACTOR VESSt:.L FIGURE FR13-3 Hydrogen Flowrate !SCcM) 6000 5000 4000 3000 2000 1000 0 ?' '1 .J\) 500 750 1000 iZSO l'.iC 0 1150 2000 f[GURE fRl3-3. llYDROGEN FLOWRATE VERSUS RCS PRESSURE ***END-19 of 20 Revision Number: REV. 2 2250 2500 Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 0350060402 Form ES-C-1 Task Title: Review a SG tube Leakrate Determination using 2-AOP-SG-1 KIA  

 

3_8 Measure 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.

* RCS Total Gaseous Activity 1.53 X 1 o-2 IJCi/cc

Task Standard:

SG Tube Leakage calculation reviewed using 2-AOP-SG-1 Attachment 1 and 2 Required Materials:

Leakrate Log General  

2-AOP-SG-1 Attachment 1 and 2 1 of 9 Appendix C Initiating Cue: Job Performance Measure Worksheet Form ES-C-1 You are the CRS and the SM has directed you to review the estimated SG Tube Leakage, and determine:

* recommend actions (if any) Time Critical Task: NA Validation Time: 15 Minutes 2 of 9 Appendix C Initial Conditions Form ES-C-1 Performance Information (Denote critical steps with a check mark .V) 1. Performance Step: Standard:

Comment: .V2. Performance Step: Standard:

Comment: ...J 3. Performance Step: Standard:

Comment: Check Calculations Candidate may use Attachment 1 or separate paper Candidate should determine that the calculations for 1115 through 1215 are correct. Check Calculation for 1230 Determines calculation is incorrect.

The correct value is 60.81 gpd Check Calculation for 1245 Determines calculation is incorrect.

The correct value is 76.02 gpd In addition to the calculation being incorrect, The CRS should recognize that the leakrate is > 75 gpd and the plant should be placed in MODE 3 within the next 2 hours (procedure step 4.63).

Appendix C Initial Conditions Form ES-C-1 Performance Information (Denote critical steps with a check mark ..J) ..J 4. Performance Step: Standard:

Comment: Calculate SG Tube Leakage change over last hour Determines SG Tube Leakage has increased by:

* 27.9 from 1145 to 1245. Calculate SG Tube Leakage change over last hour Determines SG Tube Leakage has increased by 13.3 gpd from 1130 to 1230. Review Sample frequency recommendation by RO Identify Sample frequency recommendation by RO is correct Terminating Cue: JPM Complete Steam Generator Tube Leak Attachment 2 SG Leak Rate Data Sheet Page 1 of 1

* If leak increases 2:: 30 gpd but < 75 gpd take data & determine LR every 15 minutes. 2-AOP-SG-1 Page 41of69

* If leak 2:: 30 gpd but < 75 gpd and stable for 1 hour 5 gpd increase in 1 hour), take data every 2 hours. Rev. 11

* If leak 2:: 30 gpd but < 75 gpd and stable for 24 hours 10% increase in 1 hour), take data at frequency for normal operation.

* If leak 2:: 75 gpd, take data & determine LR every 15 minutes. DATE/ RX R-45 R-49 ATT 1 N-16 (gpd) TIME POWER (When 1/S) (When 1/S) CALC (When > 30% power) (When performed)

(!!Ci/cc) (gpd) 21 22 23 1115 25% 2.46E-05 46.75 NA NA NA 1130 25% 2.50E-05 47.51 NA NA NA 1145 25% 2.53E-05 48.08 NA NA NA 1200 25% 2.68E-05 50.93 NA NA NA 1215 25% 2.90E-05 55.11 NA NA NA 1230 25% 3.20E-05 60.81 58.81 NA NA NA 1245 25% 4.00E-05 76.02 65.02 NA NA NA NA NA NA NA NA NA The calculated value for 1230 is incorrect The correct value should be 60.81 gpd. The calculated value for 1245 is incorrect The correct value should be 76.02 gpd. 24 NA NA NA NA NA NA NA NA NA Chemistry Grab Sample (gpd) (When Chemistry provides) 21 22 23 24 The leakrate has exceeded 75 gpd and the plant should be placed in MODE 3 within an additional 2 hours. '

Appendix C Simulator Setup VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

Form ES-C-1 Initial Conditions:

* RCS Total Gaseous Activity 1.53 X 1 o-2 !Jci/cc

Initiating Cue: You are the CRS and the SM has directed you to review the estimated SG Tube Leakage, and determine:

Steam Generator Tube Leak Page 1 of 1 NOTE 2-AOP-SG-1 Rev. 15 Page 39 of 69 For low levels of radioactivity as read on R-45, the estimated leak rate will be higher than actual. 1. Obtain the following A. RCS total gaseous activity (from Chemistry Data Book or WINCDMS) ______ /-LCi/cc B. Condenser air inleakage

______ SCFM C. R-45 reading ______ 1-LCilcc 2. Calculate primary to secondary leak rate using the following formula per the following requirements:

* leak rate stable per Attachment 2 -Use Attachment 2 frequencies

__:_::X---l....:(C=-----'---

X 1 0770 = (A. ____ ) Primary to secondary leak rate (gpd)

Steam Generator Tube Leak Attachment 2 SG Leak Rate Data Sheet Page 1 of 1

* If leak increases 30 gpd but < 75 gpd take data & determine LR every 15 minutes. 2-AOP-SG-1 Page 41of69

* If 30 gpd but < 75 gpd and stable for 1 hour 5 gpd increase in 1 hour), take data every 2 hours. Rev. 15

* If 30 gpd but < 75 gpd and stable for 24 hours 10% increase in 1 hour), take data at frequency for normal operation.

* If 75 gpd, take data & determine LR every 15 minutes. DATE/ RX R-45 R-49 ATI1 N-16 (gpd) Chemistry Grab Sample (gpd) TIME POWER (When 1/S) (When 1/S) CALC (When > 30% power) (When Chemistry provides) (When performed)

(11Ci/cc) (gpd) 21 22 23 24 21 22 23 24 1115 25% 2.46E-05 46.75 NA NA NA NA 1130 25% 2.50E-05 47.51 NA NA NA NA 1145 25% 2.53E-05 48.08 NA NA NA NA 1200 25% 2.68E-05 50.93 NA NA NA NA 1215 25% 2.90E-05 55.11 NA NA NA NA 1230 25% 3.20E-05 58.81 NA NA NA NA 1245 25% 4.00E-05 65.02 NA NA NA NA NA NA NA NA NA NA NA NA Based on calculated leakrate sample frequency should remain every 15 minutes.

Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 0430010321 Form ES-C-1 Task Title: Demonstrate Proficiency in use of Generator Capability Curve 2.2.41 KIA

 

RO -3.4 SRO -3.8 Job Performance Measure No: Examinee:

Facility Evaluator:

Method of testing: Simulated Performance Classroom X READ TO THE EXAMINEE X NRC Examiner:

Date: Actual Performance Simulator Plant SROAdmin EC-1 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 given conditions have been stable for the last hour. Task Standard:

MVAR adjustment accurately evaluated and acceptable recommendation identified.

Required Materials:

Ruler General  

Time Critical Task: No 1 of 9 Appendix C Validation Time: 15 Job Performance Measure Worksheet 2 of 9 Form ES-C-1 Appendix C Page 3 Performance Information (Denote critical steps with a check mark -1) 1. Performance Step: Obtain correct procedure Standard:

Determine MVAR load is approximately 460 Leading Comment: 3 of 9 Appendix C Page4 Form ES-C-1 Performance Information (Denote critical steps with a check mark 5. Performance Step: Evaluate conditions using Graph EL-1 Standard:

535 VOLTS EXCITATlON CURVE A8 LIMITED BY FIElD HEATING CURVE BC LIMITED BY ARMATURE HEATING .. T CURVE CD LIMITED BY ARMATURE CORE END HEATING r:stimated Cm:vas . f}:"'J*. _48]111\5)2 5 of 9 El-1 Rev. 4 . SSL 20.9KV SSL .* 23.1 KV Appendix C Simulator Setup VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

6 of 9 Form ES-C-1 JPM-0450010101 SIMULATOR Initial Conditions:

* The given conditions have been stable for the last hour. Initiating Cue: You are the CRS, evaluate the given conditions and provide recommendation and explanation.

7 of 9 JPM-045001 0101 OUT 400 \ 600 t il, E (1 A\/A D :=: I *-**Ill .... -8 of 9 SIMULATOR  

,=, E r**.J E F'.I.\.T1=1 R H.::: P F' E :::::::: 1_1 F' E JPM-0450010101 SIMULATOR 9 of 9 Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 1500010522 Form ES-C-1 Task Title: Classify Emergency Events Requiring Emergency Plan lm plementation KIA  

1 of 7 Appendix C Initial Conditions:

Job Performance Measure Worksheet Form ES-C-1 Indian Point Energy Center Unit 2 was operating at 100% and has been there for 100 days. 24 Containment Fan Cooler Unit is inoperable for circuit breaker maintenance.

Unit 3 is at 1 00% power; no issues. Safety Injection automatically initiated due to a large break LOCA inside containment.

* RVLIS, Full Range is reading 44% Meteorological Conditions:

* Wind Speed: 3.5 meters/second

* Wind Direction:

* Stability Class: 120 degrees @ 10 meters c I will perform duties of Offsite Communicator.

Task Standard:

Proper E-Pian Classification and Part 1 form properly filled out . Required Materials:

EAL Wall Chart. General  

IP-EP-115 IP-EP-120 IP-EP-210 IP-EP-410 Initiating Cue: You are the CRS and the SM is unable to get to the control room. Classify the event and complete the Radiological Emergency Data Form. Time Critical Task: Yes (Declare event in 15 minutes and Initiate notification within 15 minutes of declaration) 2 of 7 Appendix C Validation Time: 30 min Job Performance Measure Worksheet 3 of? Form ES-C-1 Appendix C Page4 Form ES-C-1 Performance Information (Denote critical steps with a check mark ...J) 1. Performance Step: Standard:

Comment: ..J 2. Performance Step: Standard:

Obtain correct procedure IP-EP-120 orEAL chart Give candidate Wall Chart Evaluate Initiating Cues to determine aGE classification applies. Determine EAL FG1.1 applies Fuel Clad -C.3 Loss RCS -D.2 Loss CNMT-D. 7 Potential Loss Comment: This action is time critical Mark Time when Declaration is made . ..J 3. Performance Step: Standard:

Complete "New York State Radiological Emergency Data Form, Part 1" Complete IP-EP-115 Comment: Critical elements on Part 1 form are marked with an asterisk ..J 4. Performance Step: Standard:

Direct Communicator to initiate notification.

Hand completed Part 1 form to evaluator and direct them to initiate notification.

Comment: This action is time critical.

Terminating Cue: JPM Complete 4 of 7 New York State Indian P01nt Energy Center !---. .....

D *---

# _j_, 1. 1 This is an: ACTUAL EMERGENCY t the Indian Pomt Energy Center I The . *A. Unusual Event ...

AI;;;-------*  

-C Site Area  

-*-* , Classiflcalion is: 2. I Emergency Terminated ThiS Emergency Classification declared on: _:..;:;..:;:.,::-

t-:--__ at .i

* 3. 4. I s. ' -6. 1. 8. (Time 2f hr clock) Release of Radioactive Materials due to the Classified Event: To Water: A. NO Release B. Release BELOW Federal Limits B. Release BELOW Federal limits C. Release ABOVE Federal Limits C. Release ABOVE Federal Limits ' ! D. Unmonitored Release Requiring Evaluation Reqwing Evaluation The following Protective Actions are recommended to be implemented as soon as practicable A. NO NEED for PROTECTIVE ACTIONS outside the site boundary <!)EVACUATE and IMPLEMENT the Kl PLAN for the following Sectors C. SHELTER-IN-PLACE and IMPLEMENT the Kl PLAN for the following Sectors 2 miles around 5-miles downwind:

In the foUowing Sectors:U)

(}) 6) 4 5 6 7 8 9 10 11 2 miles around 10-miles downwind:

In the following Sectors: 1 2 3 4 5 6 7 8 9 10 11 All remaming Areas MONITOR the EMERGENCY ALERT SYSTEM 12 13 14 15 12 13 14 15 16 NOTE: OFFSITE AUTHORITIES SHOULD CONSIDER SHELTER-IN-PLACE+

TAKE KIIF EVACUATION IS NOT FEASIBLE EAL#: "" Affected Location:

Q... UNITD.;C-8. UNIT 3 IP;C Reactor Status: Unit 2: Operational at (Date) (Time}------

(24 hr clock) I Unit 3:.

at (Date)  

... --; Wind Speed: 6' Meters/Sec at elevation 10 meters --1 Wind Direction:  

<From) \ !W __ ....

Degrees at elevation 10 meters B 

--*;-. G A -------------

Telephone#---------(Communica!Dr's Name) I Emergency Director Approval:-------------

Daterrime:  

-----------(Direc!Dr's Name) Page 1 of 1 Form EP-1 Rev 5 Appendix C Simulator Setup VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Examiner's signature and date: ------------

6 of? Form ES-C-1 Appendix C Initial Conditions Form ES-C-1 Initial Conditions:

Indian Point Energy Center Unit 2 was operating at 100% and has been there for 100 days. 24 Containment Fan Cooler Unit is inoperable for circuit breaker maintenance.

Unit 3 is at 100% power; no issues. The events below occurred today approximately 5 minutes ago. Safety Injection automatically initiated due to a large break LOCA inside containment.

* RVLIS, Full Range is reading 44% Meteorological Conditions:

* Wind Speed:

* Stability Class: 3.5 meters/second 120 degrees @ 10 meters c I will perform duties of Offsite Communicator.

Initiating Cue: You are the CRS and the SM is unable to get to the control room. Classify the event and complete the Radiological Emergency Data Form.

Appendix C Facility:

IPEC UNIT2 Job Performance Measure Worksheet Task No: 0040420421 Task Title: Emergency Borate the RCS 004000A4.18 Job Performance Measure KIA  

 

RO-4.3 SRO-4.1 No: Examinee:

Facility Evaluator:

Method of testing: Simulated Performance Classroom READ TO THE EXAMINEE NRC Examiner:

Date: Actual Performance Simulator X Plant Form ES-C-1 SimA X 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.

* RCS Boron is 1221 PPM, at 327 EFPD. Task Standard:

The correct amount of boron addition determined and boration has been commenced using MOV-333 Boration Path. Required Materials:

2-SOP-3.2 General  

Comment: Obtain Correct Procedure Obtains 2-SOP-3.2 and Reviews Precautions and Limitations Observe NOTES before Step 4.6.5 Reviews NOTES 11/18/2013 Unit 2 NRC 2014 Exam Date 02/10/2014 Performance Information (Denote critical steps with a check mark -.J) -.J 3. Performance Step: Determine RCS Boron Concentration must be increased 667 ppm Standard:

1309 Minimum Shutdown Boron Concentration 1221 Current Boron Concentration 88 ppm to achieve Min Shutdown Boron Cone. 193 ppm increase for each rod > 1 (3 rods) 193 ppm per rod X three rods = 579 579 + 88 = 667 ppm increase boron concentration required.

Using Attachment 1 approximately 1985 gallons of Boric Acid is required Using 2.99 gal/ppm, approximately 1995 gallons of Boric Acid is required Comment: At some point during the performance of this JPM the candidate must determine that between 1985 and 2005gallons of boric acid are required.

: 4. Performance Step: Observe NOTES before Step 4.6.12 Standard:

Reviews NOTES Comment: 11/18/2013 Unit 2 NRC 2014 Exam Date 02/10/2014 Performance Information (Denote critical steps with a check mark ...f) 5. Performance Step: Standard:

Comment: Step 6.5.12 6. Performance Step: Standard:

Initiate boration using the desired method Normal Boration is identified as the Preferred method, and it is expected that the candidate will start with this method. Go To Attachment 3 Observe Caution before Step 1.0 of Attachment 3 Review CAUTION Place Makeup Mode Selector Switch to BORATE Rotate switch to BORATE Comment: Step 1.1 of Attachment 3 Panel FCF 8. Performance Step: Set Boric Acid Integrator to 600 gallons Standard:

Set thumbwheels to 600.0 Comment: Step 1.2 of Attachment 3 Panel FBF 11/18/2013 Unit 2 NRC 2014 Exam Date 02/10/2014 Performance Information (Denote critical steps with a check mark --J) 9. Performance Step: Standard:

Place Makeup Control Switch to START Rotate switch to START position Observe boration does NOT begin. Return to Step 4. 6. 12 Comment: Step 1.3 of Attachment 3 Panel FCF Candidate may make several attempts to start Boration.

11/18/2013 Unit 2 NRC 2014 Exam Date 02/10/2014 Performance Information (Denote critical steps with a check mark --./) 11/18/2013 Unit 2 NRC 2014 Exam Date 02/10/2014 Performance Information (Denote critical steps with a check mark .V) 11/18/2013 Unit 2 NRC 2014 Exam Date 0211 0/2014 Performance Information (Denote critical steps with a check mark --J) 24. Performance Step: Standard:

Return both Boric Acid Transfer Pumps to SLOW Rotate switches to slow speed Candidate should observe Red Slow indicating light ON Comment: Step 2.2 of Attachment 5, For Time consideration the JPM can be Terminated at this point. There are no additional critical steps 11/18/2013 Unit 2 NRC 2014 Exam Date 02/10/2014 Performance Information (Denote critical steps with a check mark .Y) 25. Performance Step: Dispatch NPO to OPEN the immediately CLOSE 330, Boric Acid Blender Primary Water Bypass Stop to flush line 208 Standard:

Contact Nuc Side NPO and direct to OPEN then CLOSE 330. Comment: CUE: Acknowledge request as NPO and report valve has been OPENED and CLOSED. 26. Performance Step: Place running Charging Pump speed controller in AUTO Standard:

* Slowly turn the Bias Knob back to zero Comment: 27. Performance Step: ADJUST HCV-142 to maintain RCP Seals between 6 and 12 gpm Standard:

Rotate potentiometer in close direction as necessary Comment: 11/18/2013 Unit 2 NRC 2014 Exam Date 02/10/2014 Performance Information (Denote critical steps with a check mark 28. Performance Step: Standard:

Direct Chemistry to obtain RCS Boron Sample. Contact Chemistry and direct them to obtain RCS Boron Sample Comment: CUE Acknowledge request as Chemist 29. Performance Step: Standard:

Comment: When Chemistry reports Boron Concentration, the set FIC-11 0, Boric Acid Control for the new Boron Concentration per Graph-CVCS-1 B Sets FIC-110 to proper setting Terminating Cue: JPM Complete 11/18/2013 Appendix C Page 11 VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed:

Response:

Result: SAT or UNSAT Form ES-C-1 Examiner's signature and date: ________________

_ 11/18/2013 Appendix C Simulator Setup Form ES-C-1 Reset the Simulator to any 100% power IC Insert the following Malfunctions for Stuck Rods Rod D-4 U NTRI P Rod H-12 UNTRIP Rod M-4 U NTRI P Rod F14 UNTRIP LCV-1128 CLOSE POS MAL-CFR001A MAL-CFR001AJ MAL-CFR001 D MAL-CRF001AX SWI-CVC033A SWI-CVC048 MAKEUP MODE SELECTOR SWITCH AUTO MAKEUP Trip the reactor and allow the plant to stabilize.

Freeze the Simulator Take a snapshot if JPM is to be used more than once. 11/18/2013 Appendix C Initial Conditions Form ES-C-1 Initial Conditions:

* RCS Boron is 1221 PPM, at 327 EFPD. Initiating Cue: You are the ATC and the CRS has directed you to initiate Emergency Boration in accordance with 2-SOP-3.2 Appendix C Job Performance Measure Worksheet Form ES-C-1 Facility:

IPEC UNIT2 Task No: 0000390521 Task Title: Perform the Required Action to Align the 51 System for Recirculation during Transfer to Cold Leg Recirculation KIA  

 

000011A1.11 Job Performance Measure No: Sim B SRO -4.2 RO -4.2 Examinee:

Facility Evaluator:

Method of testing: Simulated Performance Classroom READ TO THE EXAMINEE NRC Examiner:

Date: Actual Performance Simulator X Plant X 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.

Task Standard:

Cold leg recirculation flow is established and the core is adequately cooled (i.e., adequate Recirc flow). Required Materials:

None General  

2-ES-1.3, Transfer to Cold Leg Recirculation 1 of 13 Appendix C Initiating Cue: Job Performance Measure Worksheet Form ES-C-1 You are the BOP and the CRS has directed you to align the plant for cold leg Recirc in accordance with ES-1.3, Transfer to Cold Leg Recirculation, commencing at step 4 up to and including the determination that adequate low head recirculation flow has been established.

Time Critical Task: No Validation Time: 20 Minutes 2 of 13 Appendix C Page 3 Form ES-C-1 Performance Information (Denote critical steps with a check mark ...J) 1. Performance Step: Obtain Correct Procedure Standard:

Obtain current revision of 2-ES-1.3 Comment: 2. Performance Step: Observe CAUTION before step 4 Standard:

Reviews Caution Comment: Step 4 Note for examiner.

This CAUTION is important because it tells the candidate to trip safeguards pumps to prevent damage due to loss of suction. The candidates should be periodically monitoring RWST level to determine if Sl and Containment Spray pumps should be stopped. 3. Performance Step: Standard: Comment: Step 4 4. Performance Step: Standard:

Comment: Step 5 Reduce 480V Bus Loads Observe Charging Pumps OFF Observe PRZR Heaters OFF One at time, Depress Containment Spray Reset Push buttons Depress Pushbuttons It is not necessary to reset Containment Spray at this time. It was reset at step 6 of E-1. Candidate may attempt to reset and/or verify relays are reset. 3 of 13 Appendix C Page4 Form ES-C-1 Performance Information (Denote critical steps with a check mark ...J) ..J 5. Performance Step: Standard:

Place Safety Injection Recirc Switches 1 and 3 to ON Rotate Recirc Switches 1 and 3 to ON position Check 22 Sl Pump Stopped Panel SBF-2 Check 21 Containment Spray Pump Stopped Panel SBF-1 Check RHR Pumps Both Stopped Panel SBF-1 Align Service Water as follows: Check Service Water Aligned for 3 header cps. Verify SWN-4 & 5 Closed Three header ops was given in Initial Conditions.

Contact Conventional NPO to verify SWN-4 & 5 Closed CUE: SWN-4 and 5 are closed. Comment: Step 7 7. Performance Step: Observe NOTE before Step 8 Standard:

Reviews NOTE before Step 8 Comment: 4 of 13 Appendix C Page 5 Form ES-C-1 Performance Information (Denote critical steps with a check mark --J) ...J 8. Performance Step: Place Safety Injection Recirc Switch 2 to ON Standard:

Rotate Switch to ON position Comment: Step 8 Check one service water pump supplying Essential Header Yes Check 3 CCW Pumps Running Yes Stop 23 CCW Pump Panel SGF Check Function Complete Light LIT YES Panel SBF-1 Only Recirc Switch reposition is critical ...J 9. Performance Step: Verify One RHR Heat Exchange Isolated Check 822A & B Open Check 746 & 747 Open Close 746 Standard:

Observes 822A & B Open Panel SBF-1 Check 746 & 747 Open Panel SBF-1 Rotate Switch for 7 46 to Close Panel Comment: Only action to Close 746 is critical.

: 10. Performance Step: Standard:

Align Safety Injection Recirc Switch 4 as follows Manually Start 21 Recirculation Pump Rotate Switch to Start Position Observe Pump Not Running Comment: Step 10 Panel SBF-1 5 of 13 Appendix C Page 6 Performance Information (Denote critical steps with a check mark ...f) 6 of 13 Form ES-C-1 Appendix C Page 7 Performance Information (Denote critical steps with a check mark "./) 7 of 13 Form ES-C-1 Appendix C Page 8 Performance Information (Denote critical steps with a check mark"'./)

8 of 13 Form ES-C-1 Appendix C Page 9 Performance Information (Denote critical steps with a check mark ..J) 24. Performance Step: Standard:

Comment: Return to Step in effect Returns to Step 11 9 of 13 Form ES-C-1 Appendix C Page 10 Form ES-C-1 Performance Information (Denote critical steps with a check mark ..../) 25. Performance Step: Determine if Adequate Low Head Recirculation Flow has been established Check ALL Flow meters (946A-D) Greater than 500 gpm Standard:

Observes all 956 indicators greater than 500 gpm Comment: Step 11 Panel SBF-2 Terminating Cue: JPM Complete 10 of 13 Appendix C Page 11 VERIFICATION OF COMPLETION Job Performance Measure No. Examinee's Name: Date Performed: