ML17163A397
ML17163A397 | |
Person / Time | |
---|---|
Site: | Perry |
Issue date: | 02/03/2017 |
From: | David Reeser NRC/RGN-III/DRS/OLB |
To: | FirstEnergy Nuclear Operating Co |
Shared Package | |
ML16242A231 | List: |
References | |
Download: ML17163A397 (139) | |
Text
OT-3701-ADM_029_RO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Alternate Path: No Applicability: RO Safety Function: Conduct of Operations Validated Time: 32 Minutes
References:
SVI-B33-T1160 Rev 5, PDB-A009 Rev. 19, PDB-A10 Rev. 17, PDB-A12 Rev. 16 Required Material: SVI-B33-T1160, Jet Pump Operability PDB-A009, Expected Jet Pump Normalized dP and Flow Ranges PDB-A10, Recirc Loop Drive Flow vs. FCV Position PDB-A12, Recirc Drive Flow vs. Total Core Flow Pictures of B33 instruments Task: 202-525-01-01 Monitor the Operation of the Reactor Recirc System.
Task Standard: Complete manual surveillance to determine if jet pumps are operable.
K/A: 2.1.7 Ability to evaluate plant performance and make operational judgments based on operating characteristics, reactor behavior, and instrument interpretation. Importance: RO 4.4 SRO 4.7
- 1. Setup: Ensure Required Material available at JPM site.
- 2. Location / Method: Class Room / Administrative performance.
- 3. Initial Condition: A control rod sequence exchange was completed last shift. Restoration to 100% power is in progress. Reactor power is currently at 87%. A drive in the SPDS (ICS) computer has failed and ICS is not available.
- 4. Initiating Cue: As the BOP RO, perform SVI-B33-T1160, Jet Pump Operability for the daily requirement and turn it in to the Unit Supervisor.
Start: Stop:
Candidate:
OT-3701-ADM_029_RO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 SVI-B33-T1160, Jet Pump Operability 4.0 PREREQUISITES 5.1 Surveillance Test Standard: Candidate reviews the SVI and pictures of B33 instruments to determine that both Recirc Pumps are running and flow is within TS limits.
He/she signs in the surveillance and informs the RO ATC.
Instructor Cue: If informed as RO ATC of starting SVI, repeat back to Candidate.
Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_029_RO Rev 0 Step 2 5.1.1 Recirculation Loop Drive Flow vs. FCV Position
- 1. Determine the relationship between each operating recirculation loop drive flow and the corresponding flow control valve position, and indicate the method used.
- 2. Indicate, for each operating loop, whether the relationship determined in Step 5.1.1.1 is within the appropriate established pattern.
Critical Step: Uses Attachment 1 of SVI to determine the relationship between recirculation loop drive flow and the corresponding flow control valve position. Determines relationship is within established pattern.
Instructor Cue: None Notes: Needs to use PDB-A10, pages 8 & 10.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 3 5.1.2 Recirculation Loop Drive Flow vs. Total Core Flow
- 1. Determine the relationship between recirculation loop drive flow and total core flow, and indicate the method used.
- 2. Indicate whether the relationship determined in Step 5.1.2.1 is within the appropriate established pattern.
Critical Step: Uses Attachment 2 of SVI to determine the relationship between recirculation loop drive flow and total core flow. Determines relationship is within established pattern.
Instructor Cue: When Candidate asks for IV, inform him/her that IV is complete.
Notes: Needs to use PDB-A12, page 6.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_029_RO Rev 0 Step 4 5.1.3 Jet Pump Differential Pressure and Flow
- 1. Jet Pump Differential Pressure
- a. Determine each normalized jet pump diffuser to lower plenum differential pressure for each operating recirculation loop, and indicate the method used.
- b. Indicate whether the relationship determined in Step 5.1.3.1.a is within the appropriate established pattern.
- 2. Jet Pump Differential Flow
- a. Determine each normalized jet pump flow for each operating recirculation loop, and indicate the method used.
- b. Indicate whether the relationship determined in Step 5.1.3.2.a is within the appropriate established pattern.
Critical Step: Uses Attachment 3 or Attachment 4 of SVI to determine the relationship between recirculation loop drive flow and total core flow. Determines relationship is within established pattern.
Instructor Cue: When Candidate asks for IV, inform him/her that IV is complete.
Notes: It is not necessary to satisfy both Section 5.1.3.1 and Section 5.1.3.2. The preferred method is contained in Section 5.1.3.1. The unnecessary section may be marked N/A.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_029_RO Rev 0 Step 5 5.3 Acceptance Criteria Critical Step: Complete the Acceptance Criteria and the Data Package Cover Sheet.
Instructor Cue: None Notes: See Answer Key for expected markups.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Terminating Cue: SVI-B33-T1160 is complete.
Evaluation Results: SAT_____ UNSAT_____
End Time OT-3701-ADM_029_RO Rev 0 OT-3701-ADM_029_RO Rev 0 OT-3701-ADM_029_RO Rev 0 OT-3701-ADM_029_RO Rev 0 OT-3701-ADM_029_RO Rev 0 OT-3701-ADM_029_RO Rev 0 OT-3701-ADM_029_RO Rev 0 JPM CUE SHEET INITIAL
- A control rod sequence exchange was completed last shift.
CONDITIONS:
- Restoration to 100% power is in progress.
- Reactor power is currently at 87%.
INITIATING CUE: As the BOP RO, perform SVI-B33-T1160, Jet Pump Operability for the daily requirement and turn it in to the Unit Supervisor.
Functional Location:
TEST COVER SHEET PY- SVI-B33-T1160 (PY: DATA PACKAGE COVER SHEET)
Maintenance Plan #: 52625 NOP-WM-2003-01 Rev. 02 Page 1 of 2 Order #:
Performance Section:
TEST COMPLETION x FULL PARTIAL FAILED TECHNICAL SPECIFICATION DATA x ACCEPTABLE UNACCEPTABLE NA ACCEPTABLE OUTSIDE LAIZ ACCEPTABLE OUTSIDE AV (Allowable Value)
Condition Report #
NON TECHNICAL SPECIFICATION/ x ACCEPTABLE UNACCEPTABLE NA PERIODIC TEST DATA TEST CREDIT x CREDIT NO CREDIT Additional Surveillance Test Crediting: Credit ST/PT: Plan: Order Number: Y N ST/PT: Plan: Order Number: Y N Work Start (Prerequisites) Approval: N/A - Initial /
Print Name Signature Date and Time Test Start Approval: RO Smith - Notified / Date / Time Print Name Signature Date and Time Test Completed (Test Leader): Name / Signature Date / Time Print Name Signature Date and Time Lead Work Group Supervisor Review: /
Print Name Signature Date and Time Comments:
Functional Location:
TEST COVER SHEET PY- SVI-B33-T1160 (PY: DATA PACKAGE COVER SHEET)
Maintenance Plan #: 52625 NOP-WM-2003-01 Rev. 02 Page 2 of 2 Order #:
Signature Validation Section NOTE: Printed name or signature must be legible, this is required by 10 CFR 50 Appendix B, Section XVII; Quality Assurance Records which states in part, Inspection and test records shall, as a minimum, identify the inspector or data recorder... and by ANSI N45.2.9 - 1974, Section 3.2 which states in part, quality assurance records shall be legible, completely filled out and adequately identifiable to the item involved.
Print Name Signature Initials Date SAP ID Number Name Signature Initials Date SAP ID #
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 1 of 22 JET PUMP OPERABILITY Surveillance Instruction Effective Date: 8-5-16 Preparer: Thomas Naylor / 7-13-16 Date Approver: Ben Huck / 7-19-16 Date
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 2 of 22
1.0 DESCRIPTION
1.1 Scope This instruction demonstrates the operability of each jet pump in each operating recirculation loop by confirming the existence of two of the following three conditions for each operating recirculation loop:
- Recirculation loop drive flow versus flow control valve position differs by less than or equal to 10% from established patterns,
- Recirculation loop drive flow versus total core flow differs by less than or equal to 10% from established patterns,
- Each jet pump diffuser to lower plenum differential pressure differs by less than or equal to 20% from established patterns, or each jet pump flow differs by less than or equal to 10% from established patterns.
This instruction satisfies the requirements of Technical Specification SURVEILLANCE REQUIREMENT SR 3.4.3.1.
NOTES
- Not required to be performed until 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> after associated recirculation loop is in operation.
- Not required to be performed until 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after greater than 25% RTP.
1.2 Frequency 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> 1.3 Technical Specification Applicable MODES 1 and 2 2.0 PRECAUTIONS AND LIMITATIONS
- 1. Step numbers marked with a dollar sign ($) immediately to the left are required by Technical Specifications. Such items, if found to exceed their Acceptance Criteria, may be NRC reportable and shall be brought to the immediate attention of the Unit Supervisor.
- 2. Those steps of this instruction with an initial line are to be initialed as data are entered or as each step is completed.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 3 of 22
- 3. Sections 5.1.1, 5.1.2, and 5.1.3 may be performed in any order. Steps within a section are to be performed in the order specified unless otherwise indicated.
- 4. Avoid performing this test at less than 10% FCV position, as position indication is not consistent there.
- 5. Verification of established patterns is conducted in accordance with SVI-F41-T3008, Reactor Recirculation System Flow Data Verification during the initial weeks of operation under circumstances such as:
- a. Following refueling activities (fuel assembly replacement or shuffle, as well as any modifications to fuel support orifice size or core plate bypass flow) that can affect the relationship between core flow, jet pump flow and recirculation loop flow, or
- b. Initial entry into extended single loop recirculation operation Jet pump operability is considered acceptable prior to startup based on the acceptable results obtained during the previous cycle. During performance of SVI-F41-T3008, the Shift Engineer, Responsible System Engineer, or a Reactor Engineer normally provides an engineering judgment of the daily surveillance results to detect significant abnormalities which could indicate a jet pump failure. This engineering judgment may be based upon the nature of the refueling activities and may consider the self-consistency of the daily surveillance results, but jet pump noise is the most positive indication that the jet pump is operating. If established patterns are to be revised the associated Plant Data Book entries and SDS screens will be placed on hold.
Copies of the SVI-F41-T3008 data should be retained in the Control Room for reference until the revisions have been processed.
- 6. In order to permit sufficient opportunity for the baselining of new established patterns, the period of time covering the initial weeks of operation following refueling activities normally extends to include five weeks after reaching rated power and flow.
- 7. When using the established patterns in the Plant Data Book Curves, confirm the two loop curves are used during two loop operations and the single loop curves are used during single loop operations; likewise, for slow or fast speed operation.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 4 of 22
- 8. During single loop operations, only the jet pumps associated with the operating recirculation loop need to be demonstrated operable. However, data may be collected from the idle loop for use in demonstrating the OPERABILITY of the operating loop.
- 9. The following ICS SDS Displays may be used during the performance of this surveillance instruction, as appropriate for the configuration of the recirculation system:
- a. JPFLOW, TWO LOOP NORMALIZED JET PUMP FLOWS
- c. RFPERF, TWO LOOP RCIRC - FAST SPEED PERFORMANCE
- d. RSPERF, TWO LOOP RCIRC - SLOW SPEED PERFORMANCE 3.0 MANPOWER AND EQUIPMENT 3.1 Manpower/Location/Communication
- 1. Control Room operator or other qualified member of the unit technical staff to record data from instruments that are located on UNIT CONTROL CONSOLE 1H13-P680 and/or JET PUMP MONITORING PANEL 1H13-P619.
- 2. Shift Engineer, Responsible System Engineer, or Reactor Engineer, if needed, to provide engineering judgment of daily surveillance results.
- 3. The Independent Verifier may be any of the above individuals.
3.2 Required Measuring and Test Equipment (M&TE)
None 3.3 Additional Tools and Equipment
- 1. PDB-A0009, Expected Jet Pump Normalized dP and Flow Ranges, if needed.
- 2. PDB-A0010, Recirc Loop Drive Flow vs. FCV Position, if needed.
- 3. PDB-A0012, Recirc Drive Flow vs. Total Core Flow, if needed.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 5 of 22
- 4. SVI-F41-T3008, Reactor Recirculation System Flow Data Verification, if needed.
- 5. Plant computer provides data, if used.
4.0 PREREQUISITES Initials
- 1. MARK the Unit Supervisors Authorization to Start Prerequisites signature N/A on the Data Package Cover Sheet (DPCS) and initial. RO
- 3. CONFIRM that the recirculation flow is steady and INDICATE the configuration of the recirculation loops:
- a. Loop A (only) in operation, with recirculation flow control in loop manual.
- b. Loop B (only) in operation, with recirculation flow control in loop manual.
- c. Both recirculation loops in fast speed operation, with recirculation loop jet pump flow mismatch within the limits of SR 3.4.1.1.
- d. Both recirculation loops in slow speed operation, with recirculation loop jet pump flow mismatch within the limits of SR 3.4.1.1. RO
- 4. IF using plant computer points or ICS SDS screens, THEN VERIFY no other maintenance or testing is in progress which would affect recirculation flow indication, OTHERWISE MARK this step N/A. N/A
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 6 of 22 4.0 PREREQUISITES Initials Note During performance of SVI-F41-T3008, engineering judgment by the Shift Engineer, Reactor Engineering, or Responsible System Engineer may determine existing patterns of PDB-A0009, PDB-A0010, and PDB-A0012 to be adequate for performance of this surveillance.
- 5. For at least 2 of the following, CONFIRM 1 or more listed source is available OR SVI-F41-T3008 is in progress.
- RFPERF/RSPERF OR PDB-A0010
- RFPERF/RSPERF OR PDB-A0012
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 7 of 22 5.0 SURVEILLANCE INSTRUCTION Initials 5.1 Surveillance Test
- 1. NOTIFY the Reactor Operator before starting and write R.O. (operators name) notified in the Authorization to Start Test signature on the DPCS. RECORD the time and date and initial the line. RO Note Steps 5.1.1, 5.1.2, and 5.1.3 may be performed in any order. Steps within a section are to be performed in the order specified unless otherwise noted.
5.1.1 Recirculation Loop Drive Flow vs. FCV Position
- 1. DETERMINE the relationship between each operating recirculation loop drive flow and the corresponding flow control valve position, AND indicate the method used.
- a. IF using ICS SDS, THEN ATTACH a copy of the screen that is appropriate for the recirculation loop configuration indicated in Step 4.3 (e.g., RFPERF for two loop - fast speed, or RSPERF for two loop - slow speed),
OTHERWISE COMPLETE Attachment 1, Manual Recirculation Loop Drive Flow vs. FCV Position. RO
- 2. INDICATE, for each operating loop, whether the relationship determined in Step 5.1.1.1 is within the appropriate established pattern.
- a. IF using ICS SDS, THEN OBSERVE cursor is within limits for the DRIVE FLOW A VS. FCV A and/or for the DRIVE FLOW B VS. FCV B, OTHERWISE REFER to Step 3 on Attachment 1.
- Loop A: YES NO N/A
- Loop B: YES NO N/A RO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 8 of 22 5.1.2 Recirculation Loop Drive Flow vs. Total Core Flow Initials
- 1. DETERMINE the relationship between recirculation loop drive flow and total core flow, AND INDICATE the method used.
- a. IF using ICS SDS, THEN ATTACH a copy of the screen that is appropriate for the recirculation loop configuration indicated in Step 4.3 (e.g., RFPERF for two loop - fast speed, or RSPERF for two loop - slow speed),
OTHERWISE COMPLETE Attachment 2, Manual Recirculation Loop Drive Flow vs. Total Core Flow. RO
- 2. INDICATE whether the relationship determined in Step 5.1.2.1 is within the appropriate established pattern.
CORE FLOW, OTHERWISE REFER to Step 3 on Attachment 2.
YES NO RO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 9 of 22 5.1.3 Jet Pump Differential Pressure and Flow Initials Notes
- It is not necessary to satisfy both Section 5.1.3.1 and Section 5.1.3.2. The preferred method is contained in Section 5.1.3.1. The unnecessary section may be marked N/A.
- For single loop operation, the spaces in this section may be marked N/A for the idle loop.
- 1. Jet Pump Differential Pressure
- a. DETERMINE each normalized jet pump diffuser to lower plenum differential pressure for each operating recirculation loop, AND INDICATE the method used.
- 1) IF using ICS SDS, THEN ATTACH a copy of the JPDP screen, OTHERWISE COMPLETE Attachment 3, Normalized Jet Pump dPs Data Sheet. RO
- b. INDICATE whether the relationship determined in Step 5.1.3.1.a is within the appropriate established pattern.
- 2) IF using ICS SDS, THEN OBSERVE NORMAL indication for the JET PUMP DPS, OTHERWISE REFER to Step 6 on Attachment 3.
YES NO N/A RO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 10 of 22 Section 5.1.3 Initials
- 2. Jet Pump Differential Flow
- a. DETERMINE each normalized jet pump flow for each operating recirculation loop, AND INDICATE the method used.
SDS screen Attachment 4
- 1) IF using ICS SDS, N/A THEN ATTACH a copy of the JPFLOW screen, OTHERWISE COMPLETE Attachment 4, Normalized Jet Pump Flows Data Sheet.
- b. INDICATE whether the relationship determined in Step 5.1.3.2.a is within the appropriate established pattern.
- 1) IF using ICS SDS, THEN OBSERVE NORMAL indication for the JET PUMP FLOWS, OTHERWISE, REFER to Step 7 on Attachment 4.
YES NO N/A 5.2 Plant/System Restoration None
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 11 of 22 5.3 Acceptance Criteria Initials Notes
- Satisfactory completion of this surveillance shall be based only on Technical Specification items (marked with a $ sign).
- While baselining new established patterns, copies of SVI-F41-T3008 data should be retained in the Control Room so that the Shift Engineer, the Responsible System Engineer, or a Reactor Engineer may consider the self-consistency of the data in making the engineering judgment on the existence of significant abnormalities which could indicate a jet pump failure. Jet pump noise is the most positive indication that the jet pump is operating.
$ 1. The jet pumps, in each operating recirculation loop, have been demonstrated OPERABLE by one of the following two methods:
- a. At least two of the following three criteria have been satisfied:
- 1) Recirculation loop drive flow versus flow control valve position differs by less than or equal to 10% from established patterns. (YES in Step 5.1.1.2)
- 2) Recirculation loop drive flow versus total core flow differs by less than or equal to 10% from established patterns.
(YES in Step 5.1.2.2)
- 3) Each jet pump diffuser to lower plenum differential pressure differs by less than or equal to 20% from established patterns, OR each jet pump flow differs by less than or equal to 10%
from established patterns. (YES in either Step 5.1.3.1.b or Step 5.1.3.2.b)
YES NO, U.S. notified N/A RO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 12 of 22 SECTION 5.3 Initials
- b. While baselining the new established patterns, the Shift Engineer (SE), or the Responsible System Engineer (RSE), or a Reactor Engineer (RE) has reviewed the surveillance results and has determined, based upon engineering judgment, that no significant abnormality exists that could indicate a jet pump failure.
N/A
___________________________________ /________ RO SE, RSE, or RE Signature / Date
- 2. All other items checked in this surveillance performed satisfactorily.
YES NO, applicable Supervisor notified RO
- 3. Check the appropriate block on the Data Package Cover Sheet to indicate acceptable or unacceptable test results. RO Comments: ________________________________________________________
Performed By:
Reactor Operator
______________________________________________/_________/________ RO Date
______________________________________________/_________/________
______________________________________________/_________/________
Name (Print) Initials / Date
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 13 of 22 6.0 RECORDS 6.1 Records Handling Records handling shall be performed per NOP-SS-3300.
6.2 Records Capture The following documents are completed/generated by this instruction:
Quality Records Data Package Cover Sheet SVI-B33-T1160, pages 5 through 11, and:
Attachment 1, Manual Recirculation Loop Drive Flow vs. FCV Position, if used Attachment 2, Manual Recirculation Loop Drive Flow vs. Total Core Flow, if used Attachment 3, Normalized Jet Pump dPs Data Sheet, if used Attachment 4, Normalized Jet Pump Flows Data Sheet, if used Copy SDS screen JPFLOW, TWO LOOP NORMALIZED JET PUMP FLOWS, if used Copy SDS display JPDP, TWO LOOP NORMALIZED JET PUMP DPS, if used Copy SDS display RFPERF, TWO LOOP RCIRC - FAST SPEED PERFORMANCE, if used Copy SDS display RSPERF, TWO LOOP RCIRC - SLOW SPEED PERFORMANCE, if used Non-Quality Records None
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 14 of 22
7.0 REFERENCES
7.1 Discretionary B-208-016, Sht. B02, B03, B04 D-302-603 D-302-604 NUREG/CR-3052, Closeout of 1E Bulletin 80-07: BWR Jet Pump Assembly Failure General Electric, Jet Pump Beam Cracks, SIL 330 with supplements NOP-WM-2003, Surveillance Test Control PAP-0500, Perry Technical Procedure Writers Guide PAP-0507, Perry Supplemental Procedure Requirements/Guidance SVI-F41-T3008, Reactor Recirculation System Flow Data Verification Plant Data Book 7.2 Obligations Technical Specification SURVEILLANCE REQUIREMENT SR 3.4.3.1 USAR Section 3.2.3.2.1, Definition of Safety Class 2 USAR Section 3.9.5.1.2, Reactor Internals USAR Figure 3.9-22, Jet Pump USAR Section 3.9.5.3.7, Special Requirements for Jet Pump Holddown Beams USAR Section 4.4.3.3.2, Regions of the Power-Flow Map USAR Section 15F.2.1.1, Core Flow Measurement During Single Loop Operation USAR Section 5.4.1.4, Safety Evaluation USAR Section 6.2.1.1.3.3.1, Recirculation Line Break USAR Section 6.3.3.7.2, Accident Description Commitments addressed in this document:
None
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 15 of 22 8.0 SCOPE OF REVISION:
Rev. 6 1. Revise Precaution and Limitation 2.5 to clarify when data from SVI-F41-T3008 will be used to complete the surveillance.
- 2. Add Prerequisite Step 4.5 to confirm which data sources will be used to complete the surveillance.
- 3. Remove Commitment L01960 from References. L01960 implemented License Amendment 61, related changes would now go through the 10CFR50.59 process. The commitment is now closed.
- 4. Upgrade procedure to comply within current SVI format in accordance with PAP-0500, rev bars omitted.
- 5. Update Steps 4.1 and 5.1.1 to match the words on the current revision of the DPCS, rev bars omitted.
9.0 ATTACHMENTS Attachment 1 - Manual Recirculation Loop Drive Flow vs. FCV Position Attachment 2 - Manual Recirculation Loop Drive Flow vs. Total Core Flow Attachment 3 - Normalized Jet Pump dPs Data Sheet Attachment 4 - Normalized Jet Pump Flows Data Sheet
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 16 of 22 ATTACHMENT 1: Manual Recirculation Loop Drive Flow vs. FCV Position Page 1 of 1 Initials Note For single loop operation, the spaces in this attachment may be marked N/A for the idle loop.
- 1. RECORD, for each operating loop, the flow control valve position from the instrument on 1H13-P680:
- a. RCIRC LOOP A FLOW CONTROL: 36
_________ 1B33-K603A (%)
- b. RCIRC LOOP B FLOW CONTROL: 34
_________ 1B33-K603B (%) RO
- 2. RECORD, for each operating loop, the recirculation loop drive flow from the plant computer or instruments on 1H13-P680, AND indicate the source of the data and the units:
C51-R614-blue (%)
- a. 72.81 Flow A: _________ B33EA028 (kGPM)
C51-R614-red (%)
- b. 73.14 Flow B: _________ B33EA030 (kGPM)
NOTES The limits on the established recirculation loop drive flows are determined from the:
- PDB-A0010 graphs for the recirculation loop configuration of Step 4.3,
- Flow control valve positions of Step 1 of this attachment,
- Units indicated in Step 2 of this attachment.
- 3. CONFIRM, for each operating loop, the recirculation loop drive flow recorded in Step 2 is between the corresponding limits determined from the appropriate Flow + 10% and Flow - 10% curves in PDB-A0010.
- a. Loop A: YES NO N/A
- b. Loop B: YES NO N/A RO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 17 of 22 ATTACHMENT 2: Manual Recirculation Loop Drive Flow vs. Total Core Flow Page 1 of 2 Initials
- 1. DETERMINE the total Recirc Drive Flow by adding the individual Recirc Drive Flows recorded in Step 2 of Attachment 1, AND indicate the corresponding units.
- a. IF in single loop operation, THEN use zero for the Recirc Drive Flow of the idle loop.
(%)
Total Recirc Drive Flow: 145.95
_________ (kGPM) RO (72.81 + 73.14 = 145.95)
Independent Verifier:
- 2. IF 1B33-R613 is being used to determine Total Core Flow, THEN RECORD Total Core Flow from 1B33-R613 below, AND MARK Step 2.a. N/A, OTHERWISE COMPLETE Step 2.a.
- a. IF Dual loop operation is indicated in Step 4.3, THEN RECORD the sum of the jet pump loop flows as Total Core Flow, AND MARK the corrected idle loop flow space N/A, OTHERWISE CORRECT the idle loop jet pump flow by multiplying by 0.95, AND RECORD the Total Core Flow as the operating loop jet pump flow minus the corrected idle loop jet pump flow.
Will be marked Jet Pump Loop A Flow: ______ 39 1B33-R612A (Mlb/hr) N/A if used value Jet Pump Loop B Flow:38______ (or 39)1B33-R612B (Mlb/hr) from R613 Corrected Idle Loop Flow: ______N/A (Mlb/hr) Loop: A B RO 1B33-R612A & B Total Core Flow: ______ 1B33-R613 (Mlb/hr) RO Will be 77 or 78 if Independent Verifier:
R612A/B used or 76 if R613 used. Need correct box checked.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 18 of 22 ATTACHMENT 2: Manual Recirculation Loop Drive Flow vs. Total Core Flow Page 2 of 2 Initials Note The limits on the established recirculation loop drive flow are determined from the:
- PDB-A0012 graph for the recirculation loop configuration of Step 4.3,
- Total Core Flow of Step 2 of this attachment,
- Units indicated in Step 1 of this attachment.
- 3. Confirm that the flow recorded in Step 1 of this attachment is within the limits determined from the appropriate Drive Flow +10% and Drive Flow - 10% curves in PDB-A0012.
YES NO RO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 19 of 22 ATTACHMENT 3: Normalized Jet Pump dPs Data Sheet Page 1 of 2 Initials
- 1. Record each Jet Pump diffuser to lower plenum dP (%): RO
- 2. Sum all Jet Pump dPs for each loop, and record as Loop Total dP: RO
- 3. Divide each Loop Total dP by 10 and record as Loop Average dP: RO
- 4. Divide each Jet Pump dP by its Loop Average dP, and record as Normalized Jet Pump dP: RO Loop A 1H13-P619 Jet Pump Normalized Jet Pump Instrument dP (%) Jet Pump dP
- 1. 1B33-R610A 26
________ 1.03
- 2. 1B33-R610E 25
________ 0.99
- 3. 1B33-R610J 24
________ 0.95
- 4. 1B33-R610N 26
________ 1.03
- 5. 1B33-R610T 25
________ 0.99
- 6. 1B33-R610C 26
________ 1.03
- 7. 1B33-R610G 25
________ 0.99
- 8. 1B33-R610L 25
________ 0.99 Due to readability of
- 9. 1B33-R610R 25
________ 0.99 the pictures, some Jet
- 10. 1B33-R610V 26
________ 1.03 Pump P may deviate +/-1 from what A Loop Total dP 253
________ is listed. However, A Loop Average dP 25.3
________ Loop Total P should only deviate +/-3 Loop B 1H13-P619 Jet Pump Normalized from listed. In all Jet Pump Instrument dP (%) Jet Pump dP cases, Normalized jet
- 11. 1B33-R610B 24
________ 0.99
________ Pump P values will
- 12. 1B33-R610F 24
________ 0.99
________ be in bounds.
- 13. 1B33-R610K 24
________ 0.99
- 14. 1B33-R610P 23
________ 0.95
- 15. 1B33-R610U 28
________ 1.16
- 16. 1B33-R610D 29
________ 1.20
- 17. 1B33-R610H 23
________ 0.95
- 18. 1B33-R610M 22
________ 0.91
- 19. 1B33-R610S 24
________ 0.99
- 20. 1B33-R610W 21
________ 0.87 B Loop Total dP 242 B Loop Average dP 24.2
- 5. All calculations independently verified: Independent Verifier:
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 20 of 22 ATTACHMENT 3: Normalized Jet Pump dPs Data Sheet Page 2 of 2 Initials
- 6. Confirm that each normalized jet pump diffuser to lower plenum differential pressure as determined in Step 4 of this Attachment is within the corresponding Normalized dP Range of PDB-A0009 for the Recirculation Loop configuration indicated in Step 4.3.
YES NO N/A RO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 21 of 22 ATTACHMENT 4: Normalized Jet Pump Flows Data Sheet Page 1 of 2 Initials
- 1. RECORD each Jet Pump diffuser to lower plenum dP (%):
- 2. TAKE the square root of each Jet Pump dP, and RECORD as Jet Pump SQRT(dP):
- 3. SUM all Jet Pump SQRT(dP)s for each loop, and RECORD as Loop Total SQRT(dP):
- 4. DIVIDE each Loop Total SQRT(dP) by 10 and RECORD as Loop Average SQRT(dP):
- 5. DIVIDE each Jet Pump SQRT(dP) by its Loop Average SQRT(dP), and RECORD as Normalized Jet Pump Flow:
Loop A 1H13-P619 Jet Pump Jet Pump Normalized Jet Pump Instrument dP (%) SQRT(dP) Jet Pump Flow
- 1. 1B33-R610A ________ _________ _________
- 2. 1B33-R610E ________ _________ _________
- 3. 1B33-R610J ________ _________ _________
- 4. 1B33-R610N ________ _________ _________
- 5. 1B33-R610T ________ _________ _________
- 6. 1B33-R610C ________ _________ _________
- 7. 1B33-R610G ________ _________ _________
- 8. 1B33-R610L N/A
- 9. 1B33-R610R ________ _________ _________
- 10. 1B33-R610V ________ _________ _________
A Loop Total SQRT(dP) ________
A Loop Average SQRTdP) ________
Loop B 1H13-P619 Jet Pump Jet Pump Normalized Jet Pump Instrument dP (%) SQRT(dP) Jet Pump Flow
- 11. 1B33-R610B ________ ________ _________
- 12. 1B33-R610F ________ ________ _________
- 13. 1B33-R610K ________ ________ _________
- 14. 1B33-R610P ________ ________ _________
- 15. 1B33-R610U ________ ________ _________
- 16. 1B33-R610D ________ ________ _________
- 17. 1B33-R610H ________ ________ _________
- 18. 1B33-R610M ________ ________ _________
- 19. 1B33-R610S ________ ________ _________
- 20. 1B33-R610W ________ ________ _________
B Loop Total SQRT(dP) ________
B Loop Average SQRT(dP) ________
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 22 of 22 ATTACHMENT 4: Normalized Jet Pump Flows Data Sheet Page 2 of 2 Initials
- 6. All calculations independently verified: Independent Verifier:
- 7. Confirm that each normalized jet pump flow as determined in Step 5 of this attachment is within the corresponding Normalized Flow Range of PDB-A0009 for the Recirculation N/ALoop configuration indicated in Step 4.3.
YES NO N/A
OT-3701-ADM_012_RO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Applicability: RO Administrative Topic: Conduct of Operations Validated Time: 12 Minutes Setting: Classroom
References:
OAI-1702 Rev 15, SOI-R45 Rev 17, SOI-R45/E22B Rev 17, & Form PNPP-7961 Rev 10/5/10 Required Material: OAI-1702, Operations Section Rounds Sheets, Logs, and Records SOI-R45, Division 1 And 2 Diesel Generator Fuel Oil System SOI-R45/E22B, Division 3 Diesel Generator Fuel Oil System Form PNPP-7961, Diesel Fuel Oil Record Task: 299-770-03-01 Complete Diesel Fuel Oil Record Task Standard: Complete Weekly Diesel Generator Fuel Oil Record, calculating storage tank levels.
K/A Data: 2.1.18 Ability to make accurate, clear, and concise logs, records, status boards, and reports.
- 1. Setup Instructions: None
- 2. Location / Method: Classroom / Administrative Performance
- 3. Initial Condition: Today is Sunday - Day Shift. The monthly surveillance run was completed on Div. 1 Diesel Generator this past Thursday. A maintenance run was completed on 3 Diesel Generator last shift. Division 2 Diesel Generator received fuel oil this past Wednesday. Attached are the diesel counters reported by the NLO and a picture of the fuel oil storage tank meters from P877 and P601.
- 4. Initiating Cue: Unit Supervisor directs you, the Reactor Operator to complete the Diesel Fuel Oil Record.
Start: Stop:
Candidate:
1
OT-3701-ADM_012_RO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 OAI-1702, Operations Section Rounds Sheets, Logs, and Records 4.3.2 The following records are controlled by this procedure:
- 2. Diesel Fuel Oil Record (PNPP No. 7961) is used to compile data for billing purposes, monitor leakage from the Diesel Fuel Oil Storage Tanks and to provide required Environmental Protection Agency (EPA) data. This record should be maintained in the Control Room and completed as directed by SOI-R45 and SOI-R45/E22B. The completed Fuel Oil Records should be reviewed once per week by the Unit Supervisor. Upon completion, this record should be forwarded to Operations Services.
SOI-R45, Division 1 And 2 Diesel Generator Fuel Oil System (& SOI-R45/E22B, Division 3 Diesel Generator Fuel Oil System) 7.1 Diesel Fuel Oil Record, PNPP No. 7961 7.1.2 COMPLETE the FUEL INVENTORY/ USE THIS WEEK portion of the Diesel Fuel Oil Record each Sunday on dayshift.
Standard: Candidate reviews OAI-1702, SOI-R45, & SOI-R45/E22B.
Instructor Cue: None Notes: Refer to Answer Key for Calculated numbers.
SAT ___ UNSAT ___
Comment(s):_________________________________________________________________
2
OT-3701-ADM_012_RO Rev 0 Step 2 7.1.2.a DETERMINE the approximate gallons consumed by each diesel for the week each Sunday on dayshift.
Critical Step: Candidate enters Div. 1 Runtime Counter in PRESENT COUNTER and determines that Div. 1 DG consumed ~600 gallons of fuel.
Instructor Cue: None Notes: Div. 2 did not consume any fuel oil.
SAT ___ UNSAT ___
Comment(s):_________________________________________________________________
Step 3 SOI-R45/E22B, Division 3 Diesel Generator Fuel Oil System 7.1 Diesel Fuel Oil Record (OAI-1702) 7.2.2.b DETERMINE the approximate gallons consumed by each diesel for the week each Sunday on dayshift.
Critical Step: Candidate enters Div. 3 Runtime Counter in PRESENT COUNTER and determines that Div. 3 DG consumed ~800 gallons of fuel.
Instructor Cue: None Notes: See Answer Key SAT ___ UNSAT ___
Comment(s):_________________________________________________________________
3
OT-3701-ADM_012_RO Rev 0 Step 4 Continue to complete Fuel Inventory/Use This Week for Div. 1 DG Critical Step: Candidate enters 79% in PRESENT LEVEL and determines that corresponds to 76025 gallons, which is below the ADMIN LEVEL and will require a dipstick reading.
Candidate directs NLO to perform Manual Determination of Storage Tank Level for Div. 1 FOST.
Instructor Cue: When directed, Understand perform Manual Determination of Storage Tank Level for Div. 1 fuel oil storage tank.
Report back, Div. 1 fuel oil storage tank is at 132 inches.
Notes: Candidate may inform Unit Supervisor about Div.1 FOST level now or upon completion of all three divisions.
SAT ___ UNSAT ___
Comment(s):_________________________________________________________________
Step 5 Continue to complete Fuel Inventory/Use This Week for Div. 2 DG Critical Step: Candidate enters ~92% in PRESENT LEVEL and determines that corresponds to 84866 gallons, which falls within the acceptable channel check range for adding 7500 gallons of fuel.
Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):_________________________________________________________________
4
OT-3701-ADM_012_RO Rev 0 Step 6 Continue to complete Fuel Inventory/Use This Week for Div. 3 DG Critical Step: Candidate enters 93% in PRESENT LEVEL and determines that corresponds to 37435 gallons, which is below the ADMIN LEVEL and will require a dipstick reading.
Candidate directs NLO to perform Manual Determination of Storage Tank Level for Div. 3 FOST.
Instructor Cue: When directed, Understand perform Manual Determination of Storage Tank Level for Div. 3 fuel oil storage tank.
Report back, Div. 3 fuel oil storage tank is at 131.0 inches by manual determination.
Notes: Candidate may inform Unit Supervisor about Div.3 FOST level now or upon completion of all three divisions.
SAT ___ UNSAT ___
Comment(s):_________________________________________________________________
Step 7 COMPLETE the FUEL INVENTORY/ USE THIS WEEK portion of the Diesel Fuel Oil Record each Sunday on dayshift per SOI-R45 and SOI-R45/E22B Standard: Candidate completes the fuel oil inventory record and reports that Div. 1 and Div. 3 fuel oil storage tanks are below the Admin Limits, but above the Tech Spec Limits.
Instructor Cue: None Notes: Terminate the JPM SAT ___ UNSAT ___
Comment(s):_________________________________________________________________
5
OT-3701-ADM_012_RO Rev 0 Terminating Cue: Candidate calculates/determines fuel oil storage tank levels for Divisional DGs and completes the Diesel Fuel Oil Record (Sunday Requirements) and determines that Div. 1 and Div. 3 fuel oil storage tanks are below the Admin Limits.
Evaluation Results: SAT_____ UNSAT_____
End Time:
6
OT-3701-ADM_012_RO Rev 0 DIESEL FUEL OIL RECORD WEEK OF: February 5, 2017 PNPP No. 7961 Rev. 10/5/10 OAI-1702 FUEL OIL RECEIPTS THIS WEEK DIESEL F.O. DATE TIME LEVEL (% or Inches) GALLONS IN TANK* GALLONS INVOICE END OF MONTH STORAGE TANK PRE-FILL POST-FILL PRE-FILL POST-FILL RECEIVED NUMBER INVENTORY (GAL) **
DIVISION 1 DIV 1 2/8/17 14:50 134.5 150.5 77630 85130 7500 0165823 DIV 2 DIVISION 2 DIV 3 DIVISION 3 DATE:
To be completed on Day Shift Sunday FUEL INVENTORY/USE THIS WEEK PREVIOUS LEVEL (From previous weeks Record) TOTAL GALLONS PRESENT LEVEL GALLONS USED THIS WEEK DIESEL F.O. RECEIVED THIS WEEK
% or Inches GALLONS * (Sum of gallons received above)
% or Inches GALLONS * (Previous Gal + Gal received - Present gal)
STORAGE TANK 79% 76025 DIVISION 1 80% 76800 76800 + 0 - 76301 = 499 132 76301 DIVISION 2 81% 77630 7500 92% 84866 77630 + 7500 - 84866 = 264 93% 37435 DIVISION 3 97% 38242 38242 + 0 - 37435 = 807 131.0% 37435 FOR EACH DIESEL VERIFY THAT THE GALLONS USED THIS WEEK IS WITHIN 900 GAL (FOR DIV 1 OR DIV 2) OR 400 GALS (FOR DIV 3) OF RUNTIME TOTAL HOURS APPROX APPROX GAL THE APPROX GALLONS CONSUMED.
PREVIOUS PRESENT DIESEL RUN GPH USED CONSUMED DIESEL WEEK COUNTER THIS WEEK THIS WEEK VERIFY EACH F. O. STORAGE TANK LEVEL IS GREATER THAN THE TECH SPEC LIMIT IDENTIFIED IN THE SOI OR APPROPRIATE ACTION HAS BEEN INITIATED.
DIV 1 1895.4 1896.9 1.5 400 GPH 600 gal DIV 2 2067.7 2067.7 0 400 GPH 0 gal Initials:
DIV 3 1356.0 1360.0 4.0 200 GPH 800 gal IV Initials:
7
OT-3701-ADM_012_RO Rev 0 Reported Field Data Diesel runtime counters reported by NLO performing Plant Equipment Rounds Div. 1 DG - 1896.9 Div. 2 DG - 2067.7 Div. 3 DG - 1360.0 8
OT-3701-ADM_012_RO Rev 0 JPM CUE SHEET INITIAL
- Today is Sunday - Day Shift.
CONDITIONS:
- The monthly surveillance run was completed on Div. 1 Diesel Generator this past Thursday.
- A maintenance run was completed on 3 Diesel Generator last shift.
- Division 2 Diesel Generator received fuel oil this past Wednesday.
- Attached are the diesel counters reported by the NLO and a picture of the fuel oil storage tank meters from P877 and P601.
INITIATING CUE: Unit Supervisor directs you, the Reactor Operator to complete the Diesel Fuel Oil Record.
9
DIESEL FUEL OIL RECORD WEEK OF: February 5, 2017 PNPP No. 7961 Rev. 10/5/10 OAI-1702 FUEL OIL RECEIPTS THIS WEEK DIESEL F.O. DATE TIME LEVEL (% or Inches) GALLONS IN TANK* GALLONS INVOICE END OF MONTH STORAGE TANK PRE-FILL POST-FILL PRE-FILL POST-FILL RECEIVED NUMBER INVENTORY (GAL) **
DIVISION 1 DIV 1 2/8/17 14:50 134.5 150.5 77630 85130 7500 0165823 DIV 2 DIVISION 2 DIV 3 DIVISION 3 DATE:
To be completed on Day Shift Sunday FUEL INVENTORY/USE THIS WEEK PREVIOUS LEVEL (From previous weeks Record) TOTAL GALLONS PRESENT LEVEL GALLONS USED THIS WEEK DIESEL F.O. RECEIVED THIS WEEK STORAGE TANK
% or Inches GALLONS * (Sum of gallons received above) % or Inches GALLONS * (Previous Gal + Gal received - Present gal)
DIVISION 1 80% 76800 DIVISION 2 81% 77630 DIVISION 3 97% 38242 FOR EACH DIESEL VERIFY THAT THE GALLONS USED THIS WEEK IS WITHIN 900 GAL (FOR DIV 1 OR DIV 2) OR 400 GALS (FOR DIV 3) OF RUNTIME TOTAL HOURS APPROX APPROX GAL THE APPROX GALLONS CONSUMED.
PREVIOUS PRESENT DIESEL RUN GPH USED CONSUMED DIESEL WEEK COUNTER THIS WEEK THIS WEEK VERIFY EACH F. O. STORAGE TANK LEVEL IS GREATER THAN THE TECH SPEC LIMIT IDENTIFIED IN THE SOI OR APPROPRIATE ACTION HAS BEEN INITIATED.
DIV 1 1895.4 400 GPH DIV 2 2067.7 Initials:
400 GPH DIV 3 1356.0 200 GPH IV Initials:
- As determined by the % - inches - gallons cross reference in SOI-R45 or SOI-R45/E22B.
- Record tank volumes (gallons) on the last day of the month.
DIESEL FUEL OIL RECORD WEEK OF: February 5, 2017 PNPP No. 7961 Rev. 10/5/10 OAI-1702 FUEL OIL RECEIPTS THIS WEEK DIESEL F.O. DATE TIME LEVEL (% or Inches) GALLONS IN TANK* GALLONS INVOICE END OF MONTH STORAGE TANK PRE-FILL POST-FILL PRE-FILL POST-FILL RECEIVED NUMBER INVENTORY (GAL) **
DIVISION 1 DIV 1 2/9/17 14:50 134.5 150.5 77630 85130 7500 0165823 DIV 2 DIVISION 2 DIV 3 DIVISION 3 DATE:
To be completed on Day Shift Sunday FUEL INVENTORY/USE THIS WEEK PREVIOUS LEVEL (From previous weeks Record) TOTAL GALLONS PRESENT LEVEL GALLONS USED THIS WEEK DIESEL F.O. RECEIVED THIS WEEK STORAGE TANK
% or Inches GALLONS * (Sum of gallons received above) % or Inches GALLONS * (Previous Gal + Gal received - Present gal) 76025 DIVISION 1 80% 76800 79% 132 76800 + 0 - 76301 = 499
- 76301 DIVISION 2 81% 77630 7500 92.5% 85130 77630 + 7500 - 85130 = 0
- 94% 37435 DIVISION 3 97% 38242 37435 + 0 - 37714 = 806 **
132.5% 37435 FOR EACH DIESEL VERIFY THAT THE GALLONS USED THIS WEEK IS WITHIN 900 GAL (FOR DIV 1 OR DIV 2) OR 400 GALS (FOR DIV 3) OF RUNTIME TOTAL HOURS APPROX APPROX GAL THE APPROX GALLONS CONSUMED.
PREVIOUS PRESENT DIESEL RUN GPH USED CONSUMED DIESEL WEEK COUNTER THIS WEEK THIS WEEK VERIFY EACH F. O. STORAGE TANK LEVEL IS GREATER THAN THE TECH SPEC LIMIT IDENTIFIED IN THE SOI OR APPROPRIATE ACTION HAS BEEN INITIATED.
DIV 1 1895.4 1896.9 1.5 400 GPH 640 gal DIV 2 2067.7 2067.7 0 400 GPH 0 gal Initials:
DIV 3 1356.0 1360.0 4.0 200 GPH 800 gal IV Initials:
- As determined by the % - inches - gallons cross reference in SOI-R45 or SOI-R45/E22B.
- Record tank volumes (gallons) on the last day of the month.
- Any reading less than 900 gal is acceptable. ** Any reading <400 gal is acceptable.
OT-3701-ADM_022_RO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Applicability: RO/SRO Administrative Topic: Equipment Control Setting: Simulator Validated: 20 minutes
References:
PRI-TSR Rev 38, SVI-E31-T0374 Rev 7 Tasks: 035-506-01-01 Determine Identified/Unidentified leakage rates Task Standard: Calculate Drywell Sump in-leakage rate per SVI-E31-T0374 and complete Tech Spec Rounds for Drywell Sump in-leakage Required Material: Pictures of DW FDS level of 11.78 with time (T=0130 hrs).
Pictures of DW EDS with a leak rate of 1.5 and DW Cnds Flow with 0 gpm.
Partially completed PRI-TSR page 34 Calculator.
SVI-E31-T0374 with US signature on the Test Cover Sheet and filled out up to but not including step 5.1.3 K / A Data: 2.2.12 Knowledge of surveillance procedures. 3.7 / 4.1
- 1. Setup Instructions: If to be done in simulator: Set Overrides ZA1E31R0618-BLU to 6.0 for DW FDS Level, ZA1E31R0619-RED to 1.5 for DW EDS Rate and ZA1E31R0609 to 0.0 for Upper DW Cooler Drain Flow. Reset gross fail on 1E31R609. If to be done in classroom: Use 01:00 pictures.
- 2. Location / Method: Simulator / Perform
- 3. Initial Condition: The plant is at 100% power. It has been determined that DW Floor Drain Sump 1E31-R618 (red indicator) is inoperable. SVI-E31-T0374, Reactor Cooling System Unidentified Leakage Determination has been started. The DW Floor Drain Sump has NOT been recently pumped down (within the last hour). It is Tuesday, 0100 hours0.00116 days <br />0.0278 hours <br />1.653439e-4 weeks <br />3.805e-5 months <br /> and you are the BOP operator.
- 4. Initiating Cue
- Complete SVI-E31-T0374, Reactor Cooling System Unidentified Leakage Determination using the Sump Level Recorder Method.
- Perform the Operator Tech Spec Rounds for Drywell Leak Detect, Step 42.
Start Time: End Time:
Candidate:
OT-3701-ADM_022_RO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 Record DW Floor Drain Sump Level.
Standard: Operator records the 1E31-R618 blue sump level reading of 6.0 in the surveillance.
Instructor Cue: None Notes: Provide Candidate with handouts 1, 2, & 3.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 2 Wait for sump to fill up for second reading.
Standard: Operator waits for sump to fill.
Instructor Cue: After the operator logs the initial 6 sump reading, inform the operator that, using time compression, it is now 01:30 hrs and provide the operator with the 01:30 hour pictures of the sumps/flow (Handouts 4 & 5).
Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_022_RO Rev 0 Step 3 Calculate floor sump level increase.
Critical Step: Operator determines sump level has increased by 5.78 Instructor Cue: None Notes: 5.7 to 5.8 is acceptable.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 4 Calculate elapsed time.
Critical Step: Operator determines 30 minutes have elapsed.
Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_022_RO Rev 0 Step 5 Calculate Unidentified Leakage.
Critical Step: Operator determines 90.3414 gallons of unidentified leakage.
Instructor Cue: None Notes: An answer from 89.0 to 90.7 gallons is acceptable (based upon acceptable answers for step 3)
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 6 Calculate Unidentified Leakage Rate.
Critical Step: Operator determines an Unidentified Leakage Rate of 3.01138 Instructor Cue: None Notes: An answer of 2.9 to 3.1 is acceptable (based upon acceptable answers for step 5).
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_022_RO Rev 0 Step 7 Independently verify calculations Standard: Operator asks for independent verification.
Instructor Cue: When asked, inform the operator that the calculations have been verified.
Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 8 Record DW FDS rate in PRI-TSR.
Standard: Operator records 3.01 gpm leakage rate on TS Rounds sheet.
Instructor Cue: None Notes: An answer of 2.9 to 3.1 is acceptable (based upon acceptable answers for step 5).
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_022_RO Rev 0 Step 9 Determine Equipment Drain Sump Rate.
Standard: Operator records 1.5 gpm on TS Rounds Sheet.
Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 10 Determine total leakage rate.
Standard: Operator records a total leakage rate of 4.51 on TS Rounds Sheet.
Instructor Cue: None Notes: An answer of 4.4 to 4.6 is acceptable. (based upon acceptable answers for step 8).
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_022_RO Rev 0 Step 11 Determine 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> total leakage average rate Standard: Operator averages the last 3 readings and obtains an average of 3.20.
Instructor Cue: None Notes: An answer of 3.1 to 3.3 is acceptable. (based upon acceptable answers for step 10).
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 12 Record DW CNDS FLOW Standard: Records zero GPM.
Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_022_RO Rev 0 Step 13 Verify increase in Unidentified Leakage is < 2 gpm in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
Critical Step: Operator notifies US that increase in unidentified leakage is > 2 gpm in a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period.
Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Terminating Cue: Operator notifies US that increase in Unidentified Leakage is > 2 gpm in a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period.
Evaluation Results: SAT_____ UNSAT_____
End Time:
PRI-TSR Rev 37 Candidate Handout 1 Sheet 18 of 36 Page 37 SHEET 17 MODES 1, 2 & 3 WEEK OF :___________________________
TSR-MODES 1,2&3-17 Rev. Error! Reference TECHNICAL SPECIFICATION ROUNDS source not found.
T R U MONDAY TUESDAY WEDNESDAY THURSDAY FRIDAY SATURDAY SUNDAY I E N PANEL OR PARAMETER/ M D A M D A M D A M D A M D A M D A M D A T Q I ORIGIN INSTRUMENT I A F I A F I A F I A F I A F I A F I A F L M T D Y T D Y T D Y T D Y T D Y T D Y T D Y T E T S RCIC AREA T CC 41 P632 (1E31-N700A-A6-1) (143)
°F 78 80 82 79 LEAK DETECTION RCIC RCIC AREA T CC 1H13-P642 (1E31-N700B-A6-1) (143)
°F 78 81 78 80 RHR AREA 1 T CC 1H13-P632 (1E31-N700A-A6-4) (157)
°F 80 82 78 78 ISOLATION <B00139>
RHR AREA 1 T CC 1H13-P642 (1E31-N700B-A6-4) (157)
°F 82 82 80 81 RHR AREA 2 T CC 1H13-P632 (1E31-N700A-A6-5) (157)
°F 81 80 79 78 RHR AREA 2 T CC 1H13-P642 (1E31-N700B-A6-5) (157)
°F 83 81 81 79 Reading for 1E31-R618 (red) is only valid if DW Floor Drains Sump Level 1E31-R618 (blue) is < 12.5. If 1E31-R618 (red) is not operable, perform SVI-E31-T0374 to determine DW Floor Drains Rate.
42 Obtain TOTAL LEAKAGE RATE by summing DW FDS RATE and DW EDS RATE. Obtain 24 Hr TOTAL LEAKAGE AVERAGE by averaging the last 3 TOTAL LEAKAGE RATES. Verify 24 Hr TOTAL LEAKAGE AVERAGE 30 gpm.
<F01332> 1E31-R618 (blue)
< 12.5 INCH 8.00 7.20 6.30
<F01490>
DRYWELL LEAK DETECT DW FDS RATE
<L01448> 1E31-R618 (red) 5 GPM .7 .8 .7 DW EDS RATE 1E31-R619 (red)
GPM 1.8 1.9 1.7 TOTAL SEE 1H13-P642 LEAKAGE RATES NOTE GPM 2.5 2.7 2.4 24 Hr TOTAL SEE GPM 2.4 2.6 2.5 LEAKAGE AVG NOTE DW CNDS FLOW 1H13-P692 1E31-R609 GPM 0 0 0 Required in Mode 1. Verify that the increase in Unidentified Leakage within the previous 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period is 2 gpm.
DW FDS RATE SEE 1H13-P642 INCREASE NOTE INIT AJ BN CC Candidate Handout 1 OT-3701-ADM_022_RO Rev 0 Time = 01:00 01:00 hrs Upper Drywell Cooler Drain Flow Monitor Candidate Handout 2 OT-3701-ADM_022_RO Rev 0 Time = 01:00 01:00 hrs DWS & EDS Level/Rate Monitors Candidate Handout 3 OT-3701-ADM_022_RO Rev 0 Time = 01:30 01:30 hrs DWS & EDS Level/Rate Monitors Candidate Handout 4 OT-3701-ADM_022_RO Rev 0 Time = 01:30 01:30 hrs Upper Drywell Cooler Drain Flow Monitor Candidate Handout 5 OT-3701-ADM_022_RO Rev 0 JPM CUE SHEET INITIAL
- The plant is at 100% power.
CONDITIONS:
- It has been determined that DW Floor Drain Sump 1E31-R618 (red indicator) is inoperable.
- SVI-E31-T0374, Reactor Cooling System Unidentified Leakage Determination has been started.
- It is Tuesday, 0100 hours0.00116 days <br />0.0278 hours <br />1.653439e-4 weeks <br />3.805e-5 months <br /> and you are the BOP operator.
INITIATING CUE:
- Complete SVI-E31-T0374, Reactor Cooling System Unidentified Leakage Determination using the Sump Level Recorder Method
- Perform the Operator Tech Spec Rounds for Drywell Leak Detect, Step 42.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 1 of 11 REACTOR COOLING SYSTEM UNIDENTIFIED LEAKAGE DETERMINATION ey K
Surveillance Instruction er Effective Date: 4-22-15 sw Preparer: An Kurt Jones / 4-15-15 Date Approver: Ed Condo / 4-20-15 Date
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 2 of 11
1.0 DESCRIPTION
1.1 Scope A Drywell Floor Drain Sump Monitoring System is required by Technical Specifications 3.4.7. This instruction provides two alternate methods of verifying that unidentified leakage is within the limits of Technical Specifications 3.4.5. These alternate methods are required by the Bases for Technical Specifications 3.4.7.
This instruction records the necessary data and calculates the unidentified ey leakage rate. The calculated leakage rate will then be recorded in the PRI-TSR. The PRI-TSR is still the procedure that satisfies the surveillance requirement of Technical Specifications SR 3.4.5.1.
1.2 Frequency K
At least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> when the normal method of the PRI-TSRs can not be used.
1.3 er Technical Specification Applicable MODES 1, 2, and 3 sw 2.0 An PRECAUTIONS AND LIMITATIONS
- 1. Those steps of this instruction designated with an initial block/line are to be initialed as data is entered or as each step is completed. These steps may require additional initials or signatures to be entered on other sheets, such as an attachment.
- 2. This instruction should be read in its entirety before proceeding with the performance of the instructional steps.
- 3. All steps are to be performed in sequence and the instruction carried through to completion unless otherwise indicated.
- 4. The Unit Supervisor must be notified immediately if an instruction step cannot be completed as stated or if problems develop during the performance of this instruction.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 3 of 11 3.0 MANPOWER AND EQUIPMENT 3.1 Manpower/Location/Communication
- 1. One operator is required to perform this instruction.
- 2. Operation of the drywell floor drain sump pumps will require assistance of the Radwaste Control Room.
3.2 Required Measuring and Test Equipment (M&TE)
N/A 3.3 1.
ey A stopwatch (Robotic SC-700 or equivalent) will be required if determining unidentified leakage per 5.1.4, Manual Timing Method.
Additional Tools and Equipment None K er sw An (INTENTIONALLY BLANK)
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 4 of 11 4.0 PREREQUISITES Initials
- 1. OBTAIN USs Work Start (Prerequisites) Approval signature on the Test Cover Sheet/Surveillance Order. RXO N/A 2. IF determining unidentified leakage per 5.1.4, Manual Timing Method, THEN VERIFY the calibration due date is current on all M&TE.
Stopwatch RXO 3.
ey Floc ________ Cal Date ________ Due Date ________
This surveillance may be performed in any Mode. RXO 5.0 5.1 SURVEILLANCE INSTRUCTION Surveillance Test K
5.1.1 er OBTAIN the Reactor Operators Test Start Approval signature on the RXO sw Test Cover Sheet/Surveillance Order.
NOTE 5.1.2 An If the Sump Level Recorder Method can be used to determine unidentified leakage rate, then the Drywell Floor Drain Sump Monitoring System can be considered operable per T.S. 3.4.7.
PERFORM one of the following alternate methods of determining unidentified leakage: (N/A section not used.)
- 1. Sump Level Recorder Method per 5.1.3. RXO
- 2. Manual Timing Method per 5.1.4 N/A
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 5 of 11 5.1.3 Sump Level Recorder Method Initials
- 1. IF drywell floor drain sump level is t 12.5 inches, as indicated on Panel H13-P642 level recorder 1E31-R618, THEN REQUEST Radwaste Control Room to manually pump down the sump per RWI-G61(FDSS) until the sump level is
< 10 inches. N/A NOTES x
ey If the sump was recently pumped down to the automatic pump trip, it may take greater than an hour for level to increase sufficiently to accurately perform the following step.
x x
K The following readings must cover a period of time when the sump pump has not been in operation and sump level is <12.5 inches.
er The more time allowed between the initial and current readings the more accurate the calculation.
2.
a.
sw Using Panel H13-P642 level recorder, 1E31-R618 blue pen, RECORD the following information:
6.0 in. 01:00 Initials An b.
(Initial Sump Level From 1E31-R618) 11.78 in.
(Time of Taking Initial Reading) 01:30 Initials (Current Sump Level (Time of Taking From 1E31-R618) Current Reading)
- 3. CALCULATE the sump level rate of increase by performing the following:
- a. 11.78 in. (Current Level 5.1.3.2.b) 6.0
- in. (Initial Level 5.1.3.2.a)
= 5.78 in. (Sump Level Increase) Initials
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 6 of 11 SECTION 5.1.3 Initials
- b. 01:30 min. (Current Time 5.1.3.2.b)
- 01:00 min. (Initial Time 5.1.3.2.a)
= 30 min. (Elapsed Time) Initials
- c. 5.78 in. (Sump Level Increase 5.1.3.3.a)
=
15.63 gals/in.
90.3414 gal. ey (Unidentified Leakage) Initials d.
y 90.3414 gal.
30 K
min.
(Unidentified Leakage 5.1.3.3.c)
(Elapsed Time 5.1.3.3.b)
=
er 3.01138 gpm (Unidentified Leakage Rate) Initials 4.
5.
sw INDEPENDENTLY VERIFY all calculations.
RECORD the calculated unidentified leakage rate in the Initials 5.1.4 An Drywell Leak Detect section of the PRI-TSR in place of the 1E31-R618 red pen reading.
Manual Timing Method Initials
- 1. VERIFY that the last performance of PTI-G61-P0001 is within the previous 24 months.
Date of last performance N/A
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 7 of 11 SECTION 5.1.4 Initials
- 2. ESTABLISH the initial conditions for leakage determination as follows:
- a. REQUEST that the Radwaste Control Room manually pump down the drywell floor drain sump and note the time (clock time) that the pump trips on low level. N/A
- b. Time pump tripped:
c.
ey REQUEST that the Radwaste Control Room place both drywell floor drain sump pumps in OFF.
NOTE K
The following steps should not be performed until the sump level has increased sufficiently that a sump pump run time can be accurately determined. The waiting period will be determined by the expected leakage rate into the sump, taking into er consideration the required 12 hour1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> frequency of T.S. SR 3.4.5.1.
3.
sw During the following step RECORD the time the pump trips (clock time) and MEASURE the time from pump start until the pump trips on sump low level. (stopwatch time)
An
- 4. COORDINATE with the Radwaste Control Room Operator to manually pumpdown the drywell floor drain sump using one sump pump.
- a. Sump pump used (circle one) A or B
- b. Sump pump run time in minutes -
(stopwatch time)
- c. Time sump pump tripped - N/A (clock time)
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 8 of 11 SECTION 5.1.4 Initials NOTE Capacity of drywell floor drain sump pumps per PTI-G61-P0001 (04-08-2015):
x 1G61-C008A: 36.0 gpm x 1G61-C008B 45.0 gpm 5.
following:
- a. min.
ey To calculate the unidentified leakage rate, PERFORM the (Time Pump tripped 5.1.4.4.c)
=
K min.
min.
(Time Pump tripped 5.1.4.2.b)
(Fill time)
N/A er b.
sw min.
gpm (Sump Pump Run time 5.1.4.4.b)
(Pump Capacity)
An c.
= gal.
gal.
(Gallons Pumped Out)
(Gallons Pumped Out 5.1.4.5.b) y min. (Fill time 5.1.4.5.a)
= gpm (Unidentified Leakage Rate)
- 6. INDEPENDENTLY VERIFY all calculations.
- 7. RECORD the calculated unidentified leakage rate in the Drywell Leak Detect section of the PRI-TSR in place of the 1E31-R618 red pen reading. N/A
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 9 of 11 5.2 Plant/System Restoration Initials
- 1. IF Section 5.1.4 was performed, THEN RESTORE the Drywell Floor Drain Sump Pumps as required by RW Supervisor:
1H51-P031 1G61-C008A 1G61-C008B N/A 5.3 Acceptance Criteria 1.
ey Drywell unidentified leakage rate has been determined and recorded in the PRI-TSR at least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.
X YES KNO, U.S. notified Initials Comments: er Performed SVI due to inop recorder 1E31-R618 Red Pen.
sw Performed By:
An Roy X. Opter Candidates Name
/ RXO / Today
/Initials/ Date
/ /
/ /
Signature Initials Date
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 10 of 11 6.0 RECORDS 6.1 Records Handling Records completed/generated by this document shall be handled in accordance with the established records management program.
6.2 Records Capture The following documents are completed/generated by this instruction:
Quality Records Test Cover Sheet/Surveillance Order SVI-E31-T0374, pages 4 through 9 ey Non-Quality Records None K
er 7.0
7.1 REFERENCES
Discretionary sw An B-208-99-15 B-208-99-16 D-302-740 D-302-964 7.2 Obligations Perry Plant Technical Specifications Commitments addressed in this document:
None
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-E31-T0374
Title:
Use Category:
Reactor Cooling System Unidentified Leakage Step-by-Step Revision: Page:
Determination 7 11 of 11 8.0 SCOPE OF REVISION Rev. 7 1. Note at 5.1.4 Step 5 - corrected the referenced performance date and data for PTI-G61-P0001.
9.0 ATTACHMENTS None ey K
er sw An
PRI-TSR Rev 37 Candidate Handout 1 Sheet 18 of 36 Page 37 SHEET 17 MODES 1, 2 & 3 WEEK OF :___________________________
TSR-MODES 1,2&3-17 Rev. Error! Reference TECHNICAL SPECIFICATION ROUNDS source not found.
T R U MONDAY TUESDAY WEDNESDAY THURSDAY FRIDAY SATURDAY SUNDAY I E N PANEL OR PARAMETER/ M D A M D A M D A M D A M D A M D A M D A T Q I ORIGIN INSTRUMENT I A F I A F I A F I A F I A F I A F I A F L M T D Y T D Y T D Y T D Y T D Y T D Y T D Y T E T S RCIC AREA T CC 41 P632 °F 78 80 82 79 (1E31-N700A-A6-1) (143)
LEAK DETECTION RCIC RCIC AREA T CC 1H13-P642 °F 78 81 78 80 (1E31-N700B-A6-1) (143)
ISOLATION <B00139>
1H13-P632 1H13-P642 1H13-P632 RHR AREA 1 T (1E31-N700A-A6-4)
RHR AREA 1 T (1E31-N700B-A6-4)
RHR AREA 2 T (1E31-N700A-A6-5)
CC (157)
CC (157)
CC (157)
°F
°F
°F 81 80 82 80 82 82 79 78 80 78 78 81 Key RHR AREA 2 T CC 1H13-P642 °F 83 81 81 79 (1E31-N700B-A6-5) (157)
Reading for 1E31-R618 (red) is only valid if DW Floor Drains Sump Level 1E31-R618 (blue) is < 12.5. If 1E31-R618 (red) is not operable, perform SVI-E31-T0374 to determine DW Floor Drains Rate.
42 Obtain TOTAL LEAKAGE RATE by summing DW FDS RATE and DW EDS RATE. Obtain 24 Hr TOTAL LEAKAGE AVERAGE by averaging the last 3 TOTAL LEAKAGE RATES. Verify 24 Hr TOTAL
<F01291>
<F01332>
LEAKAGE AVERAGE 30 gpm.
< 12.5 INCH 8.00 7.20 er 6.30 11.78
<F01490>
sw DRYWELL LEAK DETECT DW FDS RATE
<L01448> 1E31-R618 (red) 5 GPM .7 .8 .7 3.01 DW EDS RATE 1E31-R619 (red)
GPM 1.8 1.9 1.7 1.5 TOTAL SEE 1H13-P642 GPM 2.5 2.7 2.4 4.51 1H13-P692 LEAKAGE RATES 24 Hr TOTAL LEAKAGE AVG DW CNDS FLOW 1E31-R609 NOTE SEE NOTE An GPM GPM 2.4 0
2.6 0
2.5 0
3.20 0
Required in Mode 1. Verify that the increase in Unidentified Leakage within the previous 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> period is 2 gpm.
DW FDS RATE SEE 1H13-P642 INCREASE NOTE INIT AJ BN CC Init Candidate Handout 1 OT-3701-ADM_011_RO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Alternate Path: No Applicability: RO/SRO Safety Function: Radiation Control Setting: Classroom Validated: 15 minutes
References:
Radiation Worker Training Handout Rev 3 NORM-OP-4000, Radiation Protection Definitions & References Rev 1 Tasks: 299-848-01-01 Comply with the Administrative Requirements for the Perry Plant Radiation Dose Control Program Task Standard: Determine if a radiological entry to perform an assigned evolution would be more ALARA with or without a respirator.
Required Material: Calculator K / A Data: 2.3.14 Knowledge of radiation or contamination hazards that may arise during normal, abnormal, or emergency conditions or activities.
- 1. Instructions: None
- 2. Location / Method: Classroom / Administrative performance.
- 3. Initial Condition: The Plant is in a Site Area Emergency. You have been assigned to enter Containment to isolate a primary system leak. The general area dose rates for the travel path and the work location are 25 mrem/hr. In addition Containment is posted an Airborne Area with current airborne particulate levels of 20 DAC/hr. You estimate that it will take 45 minutes without a respirator and 75 minutes with a respirator.
- 4. Initiating Cue: As the assigned worker in order to keep your exposure ALARA would you perform the job with or without a respirator and how much dose would you save?
Start Time End Time Candidate OT-3701-ADM_011_RO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 Determine dose without respiratory protection.
Critical Step: The Candidate calculates radiation dose:
Area radiation dose 0.75 hr x 25 mr/hr = 18.75 mrem.
Airborne dose 20 DAC/hr x 2.5 mrem/DAC/hr x 0.75 hr = 37.50 mrem.
Total Dose = 56.25 mrem Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_011_RO Rev 0 Step 2 Determine dose with respiratory protection.
Critical Step: The Candidate calculates radiation dose:
Area radiation dose 1.25 hr x 25 mr/hr = 31.25 mrem.
Airborne dose 0 mrem.
Total Dose = 31.25 mrem Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 3 Determine how to maintain Dose ALARA.
Critical Step: The Candidate determines a Respirator should be worn, with a dose savings of 25 mrem.
Instructor Cue: None Notes: Terminate the JPM SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Terminating Cue: The Candidate calculates dose both with and without a respirator and determines a respirator should be worn to maintain dose ALARA with a dose savings of 25 mrem.
Evaluation Results: SAT_____ UNSAT_____
End Time OT-3701-ADM_011_RO Rev 0 JPM CUE SHEET INITIAL
- The Plant is in a Site Area Emergency.
CONDITIONS:
- You have been assigned to enter Containment to isolate a primary system leak.
- The general area dose rates for the travel path and the work location are 25 mrem/hr.
- In addition Containment is posted an Airborne Area with current airborne particulate levels of 20 DAC/hr.
- You estimate that it will take 45 minutes without a respirator and 75 minutes with a respirator.
INITIATING CUE:
- As the assigned worker in order to keep your exposure ALARA would you perform the job with or without a respirator and
- How much dose would you save?
OT-3701-ADM_029SRO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Alternate Path: No Applicability: SRO Safety Function: Conduct of Operations Validated Time: 17 Minutes
References:
SVI-B33-T1160 Rev 6, PDB-A009 Rev. 19, PDB-A10 Rev. 17, PDB-A12 Rev. 16 Required Material: SVI-B33-T1160, Jet Pump Operability PDB-A009, Expected Jet Pump Normalized dP and Flow Ranges PDB-A10, Recirc Loop Drive Flow vs. FCV Position PDB-A12, Recirc Drive Flow vs. Total Core Flow Task: 202-525-01-01 Monitor the Operation of the Reactor Recirc System.
Task Standard: Review manual surveillance to determine if jet pumps are operable.
K/A: 2.1.7 Ability to evaluate plant performance and make operational judgments based on operating characteristics, reactor behavior, and instrument interpretation. Importance: RO 4.4 SRO 4.7
- 1. Setup: Ensure Required Material available at JPM site.
- 2. Location / Method: Class Room / Administrative performance.
- 3. Initial Condition: A control rod sequence exchange was completed last shift. Restoration to 100% power is in progress. Reactor power is currently at 87%. A drive in the SPDS (ICS) computer has failed and ICS is not available. SVI-B33-T1160, Jet Pump Operability was just completed for the daily requirement.
- 4. Initiating Cue: As the Unit Supervisor, perform SRO review of SVI-B33-T1160, Jet Pump Operability. Document the results of your review on the Data Package Cover Sheet.
Start: Stop:
Candidate:
OT-3701-ADM_029SRO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 Review surveillance.
SVI-B33-T1160, Jet Pump Operability 4.0 PREREQUISITES 3 Confirm that the recirculation flow is steady; and indicate the configuration of the recirculation loops:
- c. Both recirculation loops in fast speed operation, with recirculation loop jet pump flow mismatch within the limits of SR 3.4.1.1.
Critical Step: Candidate reviews the SVI and determine that PREREQUISITE Step 4.3.D was inappropriately checked. Step 4.3.C should be checked.
Instructor Cue: If asked, direct candidate to continue review.
Notes: Provide Candidate with SVI and Plant Data Books at start of JPM for review.
Candidate should be able to ascertain that Recirc Pumps cannot be in SLOW speed with the Rx at 87% power.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_029SRO Rev 0 Step 2 Review surveillance.
Critical Step: Candidate determines jet pumps 1 and 15 are not within established pattern.
Instructor Cue: None Notes: Step 5.1.3.b should be marked NO vs. YES and Attachment 3 Step 6 should be marked NO vs. YES and Step 5.3.2 should be marked NO vs.
YES.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 3 Review surveillance.
Standard: Reviews Acceptance Criteria 5.3.1.a and determines 2 of the 3 have been satisfied.
Instructor Cue: None Notes: Need only 2 of the 3 criteria for surveillance to be considered SAT.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_029SRO Rev 0 Step 4 Review surveillance Data Package Cover Sheet.
Critical Step: Reviews Data Package Cover Sheet and determines that NON TECHNICAL SPECIFICATION/PERIODIC TEST DATA block should be checked UNACCEPTABLE vs. ACCEPTABLE.
Instructor Cue: None Notes: Jet pumps 1 and 15 NORMALIZED JET PUMP dP was not within the established pattern. Therefore Acceptance Criteria 5.3.2 was not met.
Terminate the JPM SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Terminating Cue: Review of SVI-B33-T1160 is complete and problems have been documented on the Data Package Cover Sheet.
Evaluation Results: SAT_____ UNSAT_____
End Time OT-3701-ADM_019SRO Rev 0 JPM CUE SHEET INITIAL
- A control rod sequence exchange was completed last shift. Restoration to CONDITIONS: 100% power is in progress.
- Reactor power is currently at 87%.
- SVI-B33-T1160, Jet Pump Operability was just completed for the daily requirement.
INITIATING CUE: As the Unit Supervisor, perform SRO review of SVI-B33-T1160, Jet Pump Operability. Document the results of your review on the Data Package Cover Sheet.
Functional Location:
TEST COVER SHEET PY- SVI-B33-T1160 (PY: DATA PACKAGE COVER SHEET)
Maintenance Plan #: 52625 NOP-WM-2003-01 Rev. 02 Page 1 of 2 Order #:
Performance Section:
TEST COMPLETION X FULL PARTIAL FAILED TECHNICAL SPECIFICATION DATA X ACCEPTABLE UNACCEPTABLE NA ACCEPTABLE OUTSIDE LAIZ ACCEPTABLE OUTSIDE AV (Allowable Value)
Condition Report #
NON TECHNICAL SPECIFICATION/ X ACCEPTABLE UNACCEPTABLE NA PERIODIC TEST DATA TEST CREDIT X CREDIT NO CREDIT Additional Surveillance Test Crediting: Credit ST/PT: Plan: Order Number: Y N ST/PT: Plan: Order Number: Y N Work Start (Prerequisites) Approval: / N/A - RXO Print Name Signature Date and Time Test Start Approval: /RO Smith Notified Today / 30 min.. ago - RXO Print Name Signature Date and Time Test Completed (Test Leader): Rector X Operator Rector X Operator
/ Today / 10 min.. ago Print Name Signature Date and Time Lead Work Group Supervisor Review: /
Print Name Signature Date and Time Comments:
Performed manual SVI due to ICS being out of service.
Functional Location:
TEST COVER SHEET PY- SVI-B33-T1160 (PY: DATA PACKAGE COVER SHEET)
Maintenance Plan #: 52625 NOP-WM-2003-01 Rev. 02 Page 2 of 2 Order #:
Signature Validation Section NOTE: Printed name or signature must be legible, this is required by 10 CFR 50 Appendix B, Section XVII; Quality Assurance Records which states in part, Inspection and test records shall, as a minimum, identify the inspector or data recorder... and by ANSI N45.2.9 - 1974, Section 3.2 which states in part, quality assurance records shall be legible, completely filled out and adequately identifiable to the item involved.
Print Name Signature Initials Date SAP ID Number Rector X Operator Rector X Operator RXO Today 10010 Indy V. Rever Indy V. Rever IVR Today 10110
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 1 of 22 JET PUMP OPERABILITY Surveillance Instruction Effective Date: 8-5-16 Preparer: Thomas Naylor / 7-13-16 Date Approver: Ben Huck / 7-19-16 Date
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 2 of 22
1.0 DESCRIPTION
1.1 Scope This instruction demonstrates the operability of each jet pump in each operating recirculation loop by confirming the existence of two of the following three conditions for each operating recirculation loop:
- Recirculation loop drive flow versus flow control valve position differs by less than or equal to 10% from established patterns,
- Recirculation loop drive flow versus total core flow differs by less than or equal to 10% from established patterns,
- Each jet pump diffuser to lower plenum differential pressure differs by less than or equal to 20% from established patterns, or each jet pump flow differs by less than or equal to 10% from established patterns.
This instruction satisfies the requirements of Technical Specification SURVEILLANCE REQUIREMENT SR 3.4.3.1.
NOTES
- Not required to be performed until 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> after associated recirculation loop is in operation.
- Not required to be performed until 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after greater than 25% RTP.
1.2 Frequency 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> 1.3 Technical Specification Applicable MODES 1 and 2 2.0 PRECAUTIONS AND LIMITATIONS
- 1. Step numbers marked with a dollar sign ($) immediately to the left are required by Technical Specifications. Such items, if found to exceed their Acceptance Criteria, may be NRC reportable and shall be brought to the immediate attention of the Unit Supervisor.
- 2. Those steps of this instruction with an initial line are to be initialed as data are entered or as each step is completed.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 3 of 22
- 3. Sections 5.1.1, 5.1.2, and 5.1.3 may be performed in any order. Steps within a section are to be performed in the order specified unless otherwise indicated.
- 4. Avoid performing this test at less than 10% FCV position, as position indication is not consistent there.
- 5. Verification of established patterns is conducted in accordance with SVI-F41-T3008, Reactor Recirculation System Flow Data Verification during the initial weeks of operation under circumstances such as:
- a. Following refueling activities (fuel assembly replacement or shuffle, as well as any modifications to fuel support orifice size or core plate bypass flow) that can affect the relationship between core flow, jet pump flow and recirculation loop flow, or
- b. Initial entry into extended single loop recirculation operation Jet pump operability is considered acceptable prior to startup based on the acceptable results obtained during the previous cycle. During performance of SVI-F41-T3008, the Shift Engineer, Responsible System Engineer, or a Reactor Engineer normally provides an engineering judgment of the daily surveillance results to detect significant abnormalities which could indicate a jet pump failure. This engineering judgment may be based upon the nature of the refueling activities and may consider the self-consistency of the daily surveillance results, but jet pump noise is the most positive indication that the jet pump is operating. If established patterns are to be revised the associated Plant Data Book entries and SDS screens will be placed on hold.
Copies of the SVI-F41-T3008 data should be retained in the Control Room for reference until the revisions have been processed.
- 6. In order to permit sufficient opportunity for the baselining of new established patterns, the period of time covering the initial weeks of operation following refueling activities normally extends to include five weeks after reaching rated power and flow.
- 7. When using the established patterns in the Plant Data Book Curves, confirm the two loop curves are used during two loop operations and the single loop curves are used during single loop operations; likewise, for slow or fast speed operation.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 4 of 22
- 8. During single loop operations, only the jet pumps associated with the operating recirculation loop need to be demonstrated operable. However, data may be collected from the idle loop for use in demonstrating the OPERABILITY of the operating loop.
- 9. The following ICS SDS Displays may be used during the performance of this surveillance instruction, as appropriate for the configuration of the recirculation system:
- a. JPFLOW, TWO LOOP NORMALIZED JET PUMP FLOWS
- c. RFPERF, TWO LOOP RCIRC - FAST SPEED PERFORMANCE
- d. RSPERF, TWO LOOP RCIRC - SLOW SPEED PERFORMANCE 3.0 MANPOWER AND EQUIPMENT 3.1 Manpower/Location/Communication
- 1. Control Room operator or other qualified member of the unit technical staff to record data from instruments that are located on UNIT CONTROL CONSOLE 1H13-P680 and/or JET PUMP MONITORING PANEL 1H13-P619.
- 2. Shift Engineer, Responsible System Engineer, or Reactor Engineer, if needed, to provide engineering judgment of daily surveillance results.
- 3. The Independent Verifier may be any of the above individuals.
3.2 Required Measuring and Test Equipment (M&TE)
None 3.3 Additional Tools and Equipment
- 1. PDB-A0009, Expected Jet Pump Normalized dP and Flow Ranges, if needed.
- 2. PDB-A0010, Recirc Loop Drive Flow vs. FCV Position, if needed.
- 3. PDB-A0012, Recirc Drive Flow vs. Total Core Flow, if needed.
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 5 of 22
- 4. SVI-F41-T3008, Reactor Recirculation System Flow Data Verification, if needed.
- 5. Plant computer provides data, if used.
4.0 PREREQUISITES Initials
- 1. MARK the Unit Supervisors Authorization to Start Prerequisites signature N/A on the Data Package Cover Sheet (DPCS) and initial. RXO
- 2. CONFIRM that the plant is operating in MODE 1 with THERMAL POWER greater than 25% RTP. RXO
- 3. CONFIRM that the recirculation flow is steady and INDICATE the configuration of the recirculation loops:
- a. Loop A (only) in operation, with recirculation flow control in loop manual.
- b. Loop B (only) in operation, with recirculation flow control in loop manual.
- c. Both recirculation loops in fast speed operation, with recirculation loop jet pump flow mismatch within the limits of SR 3.4.1.1.
- d. Both recirculation loops in slow speed operation, with recirculation loop jet pump flow mismatch within the limits of SR 3.4.1.1. RXO
- 4. IF using plant computer points or ICS SDS screens, THEN VERIFY no other maintenance or testing is in progress which would affect recirculation flow indication, OTHERWISE MARK this step N/A. N/A
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 6 of 22 4.0 PREREQUISITES Initials Note During performance of SVI-F41-T3008, engineering judgment by the Shift Engineer, Reactor Engineering, or Responsible System Engineer may determine existing patterns of PDB-A0009, PDB-A0010, and PDB-A0012 to be adequate for performance of this surveillance.
- 5. For at least 2 of the following, CONFIRM 1 or more listed source is available OR SVI-F41-T3008 is in progress.
- RFPERF/RSPERF OR PDB-A0010
- RFPERF/RSPERF OR PDB-A0012
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 7 of 22 5.0 SURVEILLANCE INSTRUCTION Initials 5.1 Surveillance Test
- 1. NOTIFY the Reactor Operator before starting and write R.O. (operators name) notified in the Authorization to Start Test signature on the DPCS. RECORD the time and date and initial the line. RXO Note Steps 5.1.1, 5.1.2, and 5.1.3 may be performed in any order. Steps within a section are to be performed in the order specified unless otherwise noted.
5.1.1 Recirculation Loop Drive Flow vs. FCV Position
- 1. DETERMINE the relationship between each operating recirculation loop drive flow and the corresponding flow control valve position, AND indicate the method used.
SDS Screen Attachment 1 RXO
- a. IF using ICS SDS, THEN ATTACH a copy of the screen that is appropriate for the recirculation loop configuration indicated in Step 4.3 (e.g., RFPERF for two loop - fast speed, or RSPERF for two loop - slow speed),
OTHERWISE COMPLETE Attachment 1, Manual Recirculation Loop Drive Flow vs. FCV Position. RXO
- 2. INDICATE, for each operating loop, whether the relationship determined in Step 5.1.1.1 is within the appropriate established pattern.
- a. IF using ICS SDS, THEN OBSERVE cursor is within limits for the DRIVE FLOW A VS. FCV A and/or for the DRIVE FLOW B VS. FCV B, OTHERWISE REFER to Step 3 on Attachment 1.
- Loop A: YES NO N/A
- Loop B: YES NO N/A RXO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 8 of 22 5.1.2 Recirculation Loop Drive Flow vs. Total Core Flow Initials
- 1. DETERMINE the relationship between recirculation loop drive flow and total core flow, AND INDICATE the method used.
SDS Screen Attachment 2 RXO
- a. IF using ICS SDS, THEN ATTACH a copy of the screen that is appropriate for the recirculation loop configuration indicated in Step 4.3 (e.g., RFPERF for two loop - fast speed, or RSPERF for two loop - slow speed),
OTHERWISE COMPLETE Attachment 2, Manual Recirculation Loop Drive Flow vs. Total Core Flow. RXO
- 2. INDICATE whether the relationship determined in Step 5.1.2.1 is within the appropriate established pattern.
CORE FLOW, OTHERWISE REFER to Step 3 on Attachment 2.
YES NO RXO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 9 of 22 5.1.3 Jet Pump Differential Pressure and Flow Initials Notes
- It is not necessary to satisfy both Section 5.1.3.1 and Section 5.1.3.2. The preferred method is contained in Section 5.1.3.1. The unnecessary section may be marked N/A.
- For single loop operation, the spaces in this section may be marked N/A for the idle loop.
- 1. Jet Pump Differential Pressure
- a. DETERMINE each normalized jet pump diffuser to lower plenum differential pressure for each operating recirculation loop, AND INDICATE the method used.
SDS Screen Attachment 3 RXO
- 1) IF using ICS SDS, THEN ATTACH a copy of the JPDP screen, OTHERWISE COMPLETE Attachment 3, Normalized Jet Pump dPs Data Sheet. RXO
- b. INDICATE whether the relationship determined in Step 5.1.3.1.a is within the appropriate established pattern.
- 2) IF using ICS SDS, THEN OBSERVE NORMAL indication for the JET PUMP DPS, OTHERWISE REFER to Step 6 on Attachment 3.
YES NO N/A RXO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 10 of 22 Section 5.1.3 Initials
- 2. Jet Pump Differential Flow
- a. DETERMINE each normalized jet pump flow for each operating recirculation loop, AND INDICATE the method used.
SDS screen Attachment 4 N/A
- 1) IF using ICS SDS, THEN ATTACH a copy of the JPFLOW screen, OTHERWISE COMPLETE Attachment 4, Normalized Jet Pump Flows Data Sheet.
- b. INDICATE whether the relationship determined in Step 5.1.3.2.a is within the appropriate established pattern.
- 1) IF using ICS SDS, THEN OBSERVE NORMAL indication for the JET PUMP FLOWS, OTHERWISE, REFER to Step 7 on Attachment 4.
YES NO N/A 5.2 Plant/System Restoration None
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 11 of 22 5.3 Acceptance Criteria Initials Notes
- Satisfactory completion of this surveillance shall be based only on Technical Specification items (marked with a $ sign).
- While baselining new established patterns, copies of SVI-F41-T3008 data should be retained in the Control Room so that the Shift Engineer, the Responsible System Engineer, or a Reactor Engineer may consider the self-consistency of the data in making the engineering judgment on the existence of significant abnormalities which could indicate a jet pump failure. Jet pump noise is the most positive indication that the jet pump is operating.
$ 1. The jet pumps, in each operating recirculation loop, have been demonstrated OPERABLE by one of the following two methods:
- a. At least two of the following three criteria have been satisfied:
- 1) Recirculation loop drive flow versus flow control valve position differs by less than or equal to 10% from established patterns. (YES in Step 5.1.1.2)
- 2) Recirculation loop drive flow versus total core flow differs by less than or equal to 10% from established patterns.
(YES in Step 5.1.2.2)
- 3) Each jet pump diffuser to lower plenum differential pressure differs by less than or equal to 20% from established patterns, OR each jet pump flow differs by less than or equal to 10%
from established patterns. (YES in either Step 5.1.3.1.b or Step 5.1.3.2.b)
YES NO, U.S. notified N/A RXO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 12 of 22 SECTION 5.3 Initials
- b. While baselining the new established patterns, the Shift Engineer (SE), or the Responsible System Engineer (RSE), or a Reactor Engineer (RE) has reviewed the surveillance results and has determined, based upon engineering judgment, that no significant abnormality exists that could indicate a jet pump failure.
N/A
___________________________________ /________ RXO SE, RSE, or RE Signature / Date
- 2. All other items checked in this surveillance performed satisfactorily.
YES NO, applicable Supervisor notified RXO
- 3. Check the appropriate block on the Data Package Cover Sheet to indicate acceptable or unacceptable test results. RXO Comments: Performed manual SVI due to ICS being out of service.
Performed By:
Reactor X. Operator
______________________________________________/_________/________ RXO Today Indy V. Rever
______________________________________________/_________/________ IVR Today
______________________________________________/_________/________
Name (Print) Initials / Date
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 13 of 22 6.0 RECORDS 6.1 Records Handling Records handling shall be performed per NOP-SS-3300.
6.2 Records Capture The following documents are completed/generated by this instruction:
Quality Records Data Package Cover Sheet SVI-B33-T1160, pages 5 through 11, and:
Attachment 1, Manual Recirculation Loop Drive Flow vs. FCV Position, if used Attachment 2, Manual Recirculation Loop Drive Flow vs. Total Core Flow, if used Attachment 3, Normalized Jet Pump dPs Data Sheet, if used Attachment 4, Normalized Jet Pump Flows Data Sheet, if used Copy SDS screen JPFLOW, TWO LOOP NORMALIZED JET PUMP FLOWS, if used Copy SDS display JPDP, TWO LOOP NORMALIZED JET PUMP DPS, if used Copy SDS display RFPERF, TWO LOOP RCIRC - FAST SPEED PERFORMANCE, if used Copy SDS display RSPERF, TWO LOOP RCIRC - SLOW SPEED PERFORMANCE, if used Non-Quality Records None
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 14 of 22
7.0 REFERENCES
7.1 Discretionary B-208-016, Sht. B02, B03, B04 D-302-603 D-302-604 NUREG/CR-3052, Closeout of 1E Bulletin 80-07: BWR Jet Pump Assembly Failure General Electric, Jet Pump Beam Cracks, SIL 330 with supplements NOP-WM-2003, Surveillance Test Control PAP-0500, Perry Technical Procedure Writers Guide PAP-0507, Perry Supplemental Procedure Requirements/Guidance SVI-F41-T3008, Reactor Recirculation System Flow Data Verification Plant Data Book 7.2 Obligations Technical Specification SURVEILLANCE REQUIREMENT SR 3.4.3.1 USAR Section 3.2.3.2.1, Definition of Safety Class 2 USAR Section 3.9.5.1.2, Reactor Internals USAR Figure 3.9-22, Jet Pump USAR Section 3.9.5.3.7, Special Requirements for Jet Pump Holddown Beams USAR Section 4.4.3.3.2, Regions of the Power-Flow Map USAR Section 15F.2.1.1, Core Flow Measurement During Single Loop Operation USAR Section 5.4.1.4, Safety Evaluation USAR Section 6.2.1.1.3.3.1, Recirculation Line Break USAR Section 6.3.3.7.2, Accident Description Commitments addressed in this document:
None
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 15 of 22 8.0 SCOPE OF REVISION:
Rev. 6 1. Revise Precaution and Limitation 2.5 to clarify when data from SVI-F41-T3008 will be used to complete the surveillance.
- 2. Add Prerequisite Step 4.5 to confirm which data sources will be used to complete the surveillance.
- 3. Remove Commitment L01960 from References. L01960 implemented License Amendment 61, related changes would now go through the 10CFR50.59 process. The commitment is now closed.
- 4. Upgrade procedure to comply within current SVI format in accordance with PAP-0500, rev bars omitted.
- 5. Update Steps 4.1 and 5.1.1 to match the words on the current revision of the DPCS, rev bars omitted.
9.0 ATTACHMENTS Attachment 1 - Manual Recirculation Loop Drive Flow vs. FCV Position Attachment 2 - Manual Recirculation Loop Drive Flow vs. Total Core Flow Attachment 3 - Normalized Jet Pump dPs Data Sheet Attachment 4 - Normalized Jet Pump Flows Data Sheet
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 16 of 22 ATTACHMENT 1: Manual Recirculation Loop Drive Flow vs. FCV Position Page 1 of 1 Initials Note For single loop operation, the spaces in this attachment may be marked N/A for the idle loop.
- 1. RECORD, for each operating loop, the flow control valve position from the instrument on 1H13-P680:
- a. RCIRC LOOP A FLOW CONTROL: 35
_________ 1B33-K603A (%)
- b. RCIRC LOOP B FLOW CONTROL: 34
_________ 1B33-K603B (%) RXO
- 2. RECORD, for each operating loop, the recirculation loop drive flow from the plant computer or instruments on 1H13-P680, AND indicate the source of the data and the units:
C51-R614-blue (%)
- a. 70.43 Flow A: _________ B33EA028 (kGPM)
C51-R614-red (%)
RXO
- b. 69.11 Flow B: _________ B33EA030 (kGPM)
NOTES The limits on the established recirculation loop drive flows are determined from the:
- PDB-A0010 graphs for the recirculation loop configuration of Step 4.3,
- Flow control valve positions of Step 1 of this attachment,
- Units indicated in Step 2 of this attachment.
- 3. CONFIRM, for each operating loop, the recirculation loop drive flow recorded in Step 2 is between the corresponding limits determined from the appropriate Flow + 10% and Flow - 10% curves in PDB-A0010.
- a. Loop A: YES NO N/A
- b. Loop B: YES NO N/A RXO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 17 of 22 ATTACHMENT 2: Manual Recirculation Loop Drive Flow vs. Total Core Flow Page 1 of 2 Initials
- 1. DETERMINE the total Recirc Drive Flow by adding the individual Recirc Drive Flows recorded in Step 2 of Attachment 1, AND indicate the corresponding units.
- a. IF in single loop operation, THEN use zero for the Recirc Drive Flow of the idle loop.
(%)
Total Recirc Drive Flow: 139.54
_________ (kGPM) RXO Independent Verifier: IVR
- 2. IF 1B33-R613 is being used to determine Total Core Flow, THEN RECORD Total Core Flow from 1B33-R613 below, AND MARK Step 2.a. N/A, OTHERWISE COMPLETE Step 2.a.
- a. IF Dual loop operation is indicated in Step 4.3, THEN RECORD the sum of the jet pump loop flows as Total Core Flow, AND MARK the corrected idle loop flow space N/A, OTHERWISE CORRECT the idle loop jet pump flow by multiplying by 0.95, AND RECORD the Total Core Flow as the operating loop jet pump flow minus the corrected idle loop jet pump flow.
N/A 1B33-R612A (Mlb/hr)
Jet Pump Loop A Flow: ______
N/A 1B33-R612B (Mlb/hr)
Jet Pump Loop B Flow: ______
N/A (Mlb/hr)
Corrected Idle Loop Flow: ______ Loop: A B N/A 1B33-R612A & B 76 Total Core Flow: ______ 1B33-R613 (Mlb/hr) RXO Independent Verifier: IVR
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 18 of 22 ATTACHMENT 2: Manual Recirculation Loop Drive Flow vs. Total Core Flow Page 2 of 2 Initials Note The limits on the established recirculation loop drive flow are determined from the:
- PDB-A0012 graph for the recirculation loop configuration of Step 4.3,
- Total Core Flow of Step 2 of this attachment,
- Units indicated in Step 1 of this attachment.
- 3. Confirm that the flow recorded in Step 1 of this attachment is within the limits determined from the appropriate Drive Flow +10% and Drive Flow - 10% curves in PDB-A0012.
YES NO RXO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 19 of 22 ATTACHMENT 3: Normalized Jet Pump dPs Data Sheet Page 1 of 2 Initials
- 1. Record each Jet Pump diffuser to lower plenum dP (%): RXO
- 2. Sum all Jet Pump dPs for each loop, and record as Loop Total dP: RXO
- 3. Divide each Loop Total dP by 10 and record as Loop Average dP: RXO
- 4. Divide each Jet Pump dP by its Loop Average dP, and record as Normalized Jet Pump dP: RXO Loop A 1H13-P619 Jet Pump Normalized Jet Pump Instrument dP (%) Jet Pump dP
- 1. 1B33-R610A 25
________ 0.81
- 2. 1B33-R610E ________
29 0.94
- 3. 1B33-R610J 32
________ 1.04
- 4. 1B33-R610N 33
________ 1.07
- 5. 1B33-R610T 31
________ 1.01
- 6. 1B33-R610C 31
________ 1.01
- 7. 1B33-R610G 32
________ 1.04
- 8. 1B33-R610L 31
________ 1.01
- 9. 1B33-R610R 32
________ 1.04
- 10. 1B33-R610V 31
________ 1.01 A Loop Total dP 307 A Loop Average dP 30.7 Loop B 1H13-P619 Jet Pump Normalized Jet Pump Instrument dP (%) Jet Pump dP
- 11. 1B33-R610B ________
20 0.99
- 12. 1B33-R610F ________
18 0.89
- 13. 1B33-R610K 19
________ 0.94
- 14. 1B33-R610P 17
________ 0.84
- 15. 1B33-R610U 18
________ 0.89
- 16. 1B33-R610D 20
________ 0.99
- 17. 1B33-R610H 20
________ 0.99
- 18. 1B33-R610M 21
________ 1.04
- 19. 1B33-R610S 22
________ 1.09
- 20. 1B33-R610W 27
________ 1.34 B Loop Total dP 202 B Loop Average dP 20.2
- 5. All calculations independently verified: Independent Verifier: IVR
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 20 of 22 ATTACHMENT 3: Normalized Jet Pump dPs Data Sheet Page 2 of 2 Initials
- 6. Confirm that each normalized jet pump diffuser to lower plenum differential pressure as determined in Step 4 of this Attachment is within the corresponding Normalized dP Range of PDB-A0009 for the Recirculation Loop configuration indicated in Step 4.3.
YES NO N/A RXO
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 21 of 22 ATTACHMENT 4: Normalized Jet Pump Flows Data Sheet Page 1 of 2 Initials
- 1. RECORD each Jet Pump diffuser to lower plenum dP (%): N/A
- 2. TAKE the square root of each Jet Pump dP, and RECORD as Jet Pump SQRT(dP):
- 3. SUM all Jet Pump SQRT(dP)s for each loop, and RECORD as Loop Total SQRT(dP):
- 4. DIVIDE each Loop Total SQRT(dP) by 10 and RECORD as Loop Average SQRT(dP):
- 5. DIVIDE each Jet Pump SQRT(dP) by its Loop Average SQRT(dP), and RECORD as Normalized Jet Pump Flow:
Loop A 1H13-P619 Jet Pump Jet Pump Normalized Jet Pump Instrument dP (%) SQRT(dP) Jet Pump Flow
- 1. 1B33-R610A ________ _________ _________
- 2. 1B33-R610E ________ _________ _________
- 3. 1B33-R610J ________ _________ _________
- 4. 1B33-R610N ________ _________ _________
- 5. 1B33-R610T ________ _________ _________
- 6. 1B33-R610C ________ _________ _________
- 7. 1B33-R610G ________ _________ _________
- 8. 1B33-R610L ________ _________ _________
- 9. 1B33-R610R ________ _________ _________
- 10. 1B33-R610V ________ _________ _________
A Loop Total SQRT(dP) ________
A Loop Average SQRTdP) ________
Loop B 1H13-P619 Jet Pump Jet Pump Normalized Jet Pump Instrument dP (%) SQRT(dP) Jet Pump Flow
- 11. 1B33-R610B ________ ________ _________
- 12. 1B33-R610F ________ ________ _________
- 13. 1B33-R610K ________ ________ _________
- 14. 1B33-R610P ________ ________ _________
- 15. 1B33-R610U ________ ________ _________
- 16. 1B33-R610D ________ ________ _________
- 17. 1B33-R610H ________ ________ _________
- 18. 1B33-R610M ________ ________ _________
- 19. 1B33-R610S ________ ________ _________
- 20. 1B33-R610W ________ ________ _________
B Loop Total SQRT(dP) ________
B Loop Average SQRT(dP) ________
Procedure Number:
PERRY NUCLEAR POWER PLANT SVI-B33-T1160
Title:
Use Category:
Jet Pump Operability Step-by-Step Revision: Page:
6 22 of 22 ATTACHMENT 4: Normalized Jet Pump Flows Data Sheet Page 2 of 2 Initials
- 6. All calculations independently verified: Independent Verifier: N/A
- 7. Confirm that each normalized jet pump flow as determined in Step 5 of this attachment is within the corresponding Normalized Flow Range of PDB-A0009 for the Recirculation Loop configuration indicated in Step 4.3.
YES NO N/A
OT-3701-ADM_024SRO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Applicability: SRO Safety Function: Administrative Setting: Classroom / Simulator Validated: 28 minutes
References:
NOP-OP-1015 Rev 03, NOBP-OP-1015 Rev 05, NOBP-LP-4017 Rev 01, 10CFR20 Rev 2012 Required Material: NOP-OP-1015 Event Notifications, NOBP-OP-1015 Event Notifications, NOBP-LP-4017 Preparation and Submittal of Licensee Event Reports, and 10CFR20, Standards For Protection Against Radiation, Subpart M, 20.2201 Reports of theft or loss of licensed material. & Appendix C, Quantities of Licensed Material Requiring Labeling Tasks: 341-513-03-02 Make Required Notifications to the NRC Operations Center via the ENS Within the Specified Time Frame 341-641-03-02 Prepare an Event Notification Form Task Standard: Determine reportability requirements (Immediate Notification to NRC) for lost/ missing licensed material by reviewing NOBP-OP-1015 and 10CFR20.
K/A Data: 2.1.18 Ability to make accurate, clear, and concise logs, records, status boards, and reports. Importance: RO 3.6 SRO 3.8
- 1. Setup Instructions: None
- 2. Location / Method: Classroom / Administrative
- 3. Initial Condition: The plant is at 100% rated thermal power.
- A Radiation Protection Supervisor just delivered a condition report to the Control Room reporting a source is missing.
- A search for the missing source was not successful.
- The missing source has a concentration of 240,000 µCi of Cs-136 (Cesium).
- 4. Initiating Cue: As the Shift Manager:
- 1) Determine if any external reporting requirements to outside regulatory agencies apply and
- 2) If so, document your findings below. (Include to whom any report(s) due and imposed time limits.).
Start Time: End Time:
Candidate:
OT-3701-ADM_024SRO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 Review procedures to determine reportability requirements.
NOBP-OP-1015 Event Notifications Attachment 37: Notification R1.4: Lost, Stolen, or Missing Licensed Material Requirement: 10 CFR 20.2201(a)(1)(i)
§20.2201(a)(1)
Each licensee shall report by telephone as follows:
(i) Immediately after its occurrence becomes known to the licensee, any lost, stolen, or missing licensed material in an aggregate quantity equal to or greater than 1,000 times the quantity specified in appendix C to part 20 under such circumstances that it appears to the licensee that an exposure could result to persons in unrestricted areas; or (ii) Within 30 days after the occurrence of any lost, stolen, or missing licensed material becomes known to the licensee, all licensed material in a quantity greater than 10 times the quantity specified in appendix C to part 20 that is still missing at this time.
Time Limit Required Notification(s)
IMMEDIATE Notify the NRC Operations Center via ENS immediately upon discovering any lost, stolen, or missing licensed material in a aggregate quantity equal or greater than 1,000 times the quantity specified in 10 CFR 20 Appendix C under such circumstances that it appears to the licensee that an exposure could result to persons in unrestricted areas. [10 CFR 20.2201(a)(1)(i)]
JPM Step 1 continued on next page.
OT-3701-ADM_024SRO Rev 0 JPM Step 1 continued:
30 DAYS Notify the NRC Operations Center via ENS within 30 days after the occurrence of any lost, stolen, or missing licensed material in a quantity greater than 10 times the quantity specified in 10 CFR 20 Appendix C that is still missing at this time. [10 CFR 20.2201(a)(1)(ii)]
Discussion:
- For this report the term Immediately means within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of discovery [RIS 2005-21]
Critical Step: Candidate reviews 10CFR20 to determine if the quantity missing is equal or greater than 1,000 times the quantity specified in 10 CFR 20 Appendix C.
Standard: Candidate reviews State of Ohio Appendix A to determine if the quantity missing is equal or greater than 100 times the quantity specified in Ohio Administrative Code Appendix A.
Instructor Cue: None Notes: FEDERAL:
If requested, provide Candidate with a copy of 10CFR20. Candidate will need to ascertain the value in App. C of Part 20 for Cs-136 to determine if notification is required.
STATE:
If requested, provide Candidate with a copy of Appendix A to rule 3701:1-38-18 of the Administrative Code. Candidate will need to ascertain the value in Appendix A for Cs-136 to determine if notification is required.
Identification of the State requirement is not a Critical Step.
If notification to state of Ohio is made, then a 4-hour NRC notification is also required under 10CFR50.72(b)(2)(XI) / 10CFR72.75(b)(2) and Candidate should identify it as such.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_024SRO Rev 0 Step 2 Determine Immediate Notification reportability is required.
Critical Step: Candidate determines that IMMEDIATE NOTIFICATION shall be made to the NRC Operations Center.
Standard: Candidate determines that IMMEDIATE NOTIFICATION shall be made to the Director, Ohio Department of Health.
Instructor Cue: None Notes: Notifications to the Director, Ohio Department of Health is not a Critical Step for this JPM (NOBP-OP-1015 Attachment 46).
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 3 Candidate determines additional notification requirements. 7: Notification R1.4: Lost, Stolen, or Missing Licensed Material 30 DAYS Notify the NRC Operations Center via ENS within 30 days after the occurrence of any lost, stolen, or missing licensed material in a quantity greater than 10 times the quantity specified in 10 CFR 20 Appendix C that is still missing at this time. [10 CFR 20.2201(a)(1)(ii)]
Standard: Candidate determines that a 30 day notification is also required if the material is still missing after 30 days.
Instructor Cue: None Notes: The One Hour (Other) Notification for 10CFR73.71 is only applicable to a loss of any shipment of SNM or spent fuel and is not relevant to this JPM.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_024SRO Rev 0 Terminating Cue: Candidate determined that missing quantity of material meets notification threshold and immediate notification to the NRC Operations Center is required.
Evaluation Results: SAT_____ UNSAT_____
End Time:
OT-3701-ADM_024SRO Rev 0 JPM CUE SHEET INITIAL The plant is at 100% rated thermal power.
CONDITIONS:
- A Radiation Protection Supervisor called the Control Room reporting a source is missing.
- A search for the missing source was not successful.
- The missing source has a concentration of 240,000 µCi of Cs-136 (Cesium).
INITIATING CUE: As the Shift Manager:
- 1) Determine if any external reporting requirements to outside regulatory agencies apply and
- 2) If so, document your findings below. (Include to whom any report(s) due and imposed time limits.).
OT-3701-ADM_030SRO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Alternate Path: No Applicability: SRO Safety Function: Equipment Control Validated Time: 10 Minutes
References:
PAP-1910 Rev 37 Required Material: PAP-1910 Fire Protection Program Tech Spec 3.8.2 Task: 343-684-03-02 Determine Required Actions for an Unplanned Fire Impairment / Barrier Removal When the P54 RSE is not Available.
Task Standard: Using PAP-1910, specify compensatory actions to be taken for fire protection systems/equipment (fire hydrant) identified as not functional.
K/A: 2.1.14 Knowledge of the process for controlling equipment configuration or status Importance Rating: SRO 4.3
- 1. Setup: Ensure Required Material available at JPM site.
- 2. Location / Method: Class Room / Administrative performance.
- 3. Initial Condition: Plant is in Mode 5. Fuel movement is in progress. Division 2 and 3 ECCS and diesel generators are out of service. Division 1 ECCS & Division 1 Diesel Generator are protected for Shutdown Safety. A notification was receive from the Outage Control Center that while moving a dumpster, a back loader ran into Fire Hydrant #24 and substantial damage was incurred to the hydrant. Isolation actions have been initiated by the OCC. A repair Notification has been written.
- 4. Initiating Cue: As the Unit Supervisor, determine if any additional required action(s) is/are required to be taken for the Fire Protection System.
Start: Stop:
Candidate:
OT-3701-ADM_030SRO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 PAP-1910, Fire Protection Program:
4.4.2 Fire Protection System Operation Fire protection systems and components are aligned, maintained, and operated to ensure system functionality and availability in accordance with the following:
2 Completion of the surveillance requirements (e.g., by performing inspections, verifications and tests), at frequencies based on Attachment 3, Fire Protection Functional Specifications ensures proper system/component operation.
- 3. Impairment actions as specified within the functional specifications for those systems/components declared not functional. These actions will maintain their operational status until corrective action is taken.
Standard: Candidate identifies that Impairment actions are contained in PAP-1910, Fire Protection Program, Attachment 3, and Fire Protection Functional Specifications.
Instructor Cue: None Notes: When requested by candidate, provide a copy of PAP-1910 and/or Tech Specs.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_030SRO Rev 0 Step 2 ATTACHMENT 3: Fire Protection Functional Specifications.
TABLE OF CONTENTS Page 6.A Yard Fire Hydrants and Hydrants Hose Houses 75 Standard: Candidate reviews Table of Contents and identifies Functional Specification 6.A Yard Fire Hydrants applies.
Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_030SRO Rev 0 Step 3
- 6. FIRE SUPPRESSION EQUIPMENT A. SYSTEMS: Yard Fire Hydrants and Hydrants Hose Houses B. FUNCTIONALITY REQUIREMENTS:
Yard Fire Hydrants shall be deemed functional if they are accessible and capable of delivering adequate water flow. Hose Houses shall be deemed functional if they contain the proper equipment.
The following hydrants and hose houses protect Fire-Safe Shutdown Components:
Hydrant 24 - Diesel Generator Building Hydrant 23 - Diesel Generator Fuel Oil Storage Tanks Hydrant 1 - Unit 2 Startup Transformer Hydrant 3 - Unit 1 Startup Transformer C. APPLICABILITY:
Fire hydrants and hose houses shall be functional whenever equipment in the area protected is required to be Operable.
Critical Step: Candidate determines that Hydrant 24, Diesel Generator Building is required to be functional whenever equipment in the area protected is required to be Operable.
Instructor Cue: None Notes: Tech Spec 3.8.2, AC Sources- Shutdown, requires one diesel generator capable of suppling one division of onsite Class 1E AC electrical power distribution subsystem. Division 1 DG is required to be operable.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_030SRO Rev 0 Step 4 D. ACTIONS FOR NOT FUNCTIONAL:
IF:
- 1) Any of the following hydrants are not functional:
Hydrant 24 - Diesel Generator Building Hydrant 23 - Diesel Generator Fuel Oil Storage Tanks Hydrant 1 - Unit 2 Startup Transformer Hydrant 3 - Unit 1 Startup Transformer THEN:
24 HRS a. Route sufficient additional lengths of 2 1/2 or 3 fire hose from the nearest functional Hydrant to provide protection to the unprotected area.
Critical Step: Candidate determines that the Impairment Action is to, route sufficient additional length of 2 1/2 or 3 fire hose from the nearest functional Hydrant to the unprotected area. And is required within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.
Instructor Cue: If asked, no other hydrants are NOT FUNCTIONAL.
If asked, routing of the fire hose does not present a safety hazard.
Notes: Terminate the JPM SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Terminating Cue: Review of PSP-1910 is complete and Fire Impairment actions have been identified for hydrant 24 being Not Functional.
Evaluation Results: SAT_____ UNSAT_____
End Time OT-3701-ADM_019SRO Rev 0 JPM CUE SHEET INITIAL
- Plant is in Mode 5.
CONDITIONS:
- Fuel movement is in progress.
- Division 2 and 3 ECCS and diesel generators are out of service.
- Division 1 ECCS & Division 1 Diesel Generator are protected for Shutdown Safety.
- A notification was receive from the Outage Control Center that while moving a dumpster, a back loader ran into Fire Hydrant #24 and substantial damage was incurred to the hydrant.
- Isolation actions have been initiated by the OCC.
- A repair Notification has been written.
INITIATING CUE: As the Unit Supervisor, determine if any additional required action(s) is/are required to be taken for the Fire Protection System.
OT-3701-ADM_019SRO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: No Alternate Path: No Applicability: SRO only Safety Function: Radiation Control Validated Time: 15 Minutes
References:
HPI-B0003 Rev 27 Form 10136 Rev 7/26/01 Required Material: HPI-B0003, Processing of Personnel Dosimetry Form PNPP 10136, Emergency Dose Authorization Task: 344-511-05-03 Request and Authorize increased exposure limits for emergency responders during emergency events.
451-656-05-50 Discuss TSC or CR EC responsibilities for authorization plans personnel to receive dose in excess of 10CFR20 limits under emergency situations.
Task Standard: Determine if an Operator can perform an emergency evolution due to radiation levels and complete an Emergency Dose Authorization if evolution can be performed.
K/A: 2.3.4 Knowledge of radiation exposure limits under normal or emergency conditions. Importance: SRO 3.7 OT-3701-ADM_019SRO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET Cont
- 1. Setup: Ensure Required Material available at JPM site.
- 2. Location / Method: Class Room / Administrative performance.
- 3. Initial Condition: The plant is in an Unusual Event due to lowering Spent Fuel Pool level.
No facilities are currently activated and Emergency Coordinator duties remain in the Control Room. While investigating a leak in the FPCC Heat Exchanger Room, an NLO (Roberts) became pinned against the east wall near the A HX when a scaffold supporting lead blankets collapsed. Due to the weight of the blankets he is unable to move, but is shielded. He has suffered potentially life threatening injuries. You must assign two operators to rescue NLO Roberts. RP Supervision informs you that travel path dose rates are 3 REM/hr to NLO Roberts and 60 REM/hr where NLO Roberts is located.
It is estimated that total travel time to and from NLO Roberts is 5 minutes (2&1/2 minutes each way) and it will take 30 minutes to move the blankets and rescue NLO Roberts.
The four operators available for this assignment are Bob Smith, Bill Johnson, Ray Jones, and Tom Bell.
Bob Smith is 52 years old and has a life time dose of 7.2 Rem. Bob has a year to date dose of 20 mrem. Bob has not volunteered for this assignment.
Bill Johnson is 34 years old and has a life time dose of 16.5 Rem. Bill has a year to date dose of 200 mrem. Bill has volunteered for this assignment.
Ray Jones is 28 years old and has a life time dose of 700 mrem. Ray has a year to date dose of 100 mrem. Ray has volunteered for this assignment.
Tom Bell is 21 years old and has a lifetime dose of 128 mrem. Tom has a year to date dose of 23 mrem. Tom has not volunteered for this assignment.
- 4. Initiating Cue #1: Determine which if any of these operators can be assigned to rescue NLO Roberts.
Initiating Cue #2: As the Shift Manager, assign operator(s) to rescue the NLO Roberts and complete the Request and Approval portions of the Perry Emergency Dose Authorization form PNPP 10136.
Start: Stop:
Candidate:
OT-3701-ADM_019SRO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 Determine the radiation dose that will be received.
Critical Step: Determine dose to be received by the rescue operators.
Instructor Cue: None Notes: 3 REM/60 min*5 min=0.25 REM.
60 REM/60 min* 30 min =30 REM Total dose = 30.25 REM per rescuer SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 2 Determine that the rescuers may receive greater than 25 REM for lifesaving if he is a volunteer.
Critical Step: Determines that Bill Johnson and Ray Jones will rescue the NLO Roberts.
Instructor Cue: None Notes: Do not give Dose Authorization Form to Candidate until after he determines who can perform rescue.
If above steps completed sat, provide 2nd Initiating Cue to Candidate SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_019SRO Rev 0 Step 3 Complete Emergency Dose Authorization (Form # - PNPP 10136)
Critical Step: Fill in NAME, CURRENT YEAR DOSE, LIFETIME DOSE, & LEVEL APPROVED on form PNPP 10136.
Approve the Emergency Dose Authorization Instructor Cue: If asked, Jones SSN is 555-55-5551 and Johnsons SSN is 555-55-5552 If asked, acting as Jones & Johnson, sign for Jones & Johnson.
Notes: Level approved needs to be 30.25 Rem.
No signatures are required in the REQUEST block, but if requested, sign as RP supervisor.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 4 Approve Emergency Dose Authorization (Form # - PNPP 10136) as Shift Manager acting as Emergency Coordinator.
Critical Step: Approve the Emergency Dose Authorization form PNPP 10136 in the APPROVAL Section Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Terminating Cue: Assigns Ray Jones & Bill Johnson to rescue the NLO ROBERTS and approve the Emergency Dose Authorization.
Evaluation Results: SAT_____ UNSAT_____
End Time OT-3701-ADM_019SRO Answer Key Rev 0 EMERGENCY DOSE AUTHORIZATION PNPP No. 10136 Rev. 7/26/01 HPI B-0003 INCREASE IS REQUIRED TO SUPPORT THE FOLLOWING EMERGENCY OPERATIONS:
Rescue NLO Roberts from FPCC HX Room Name SSN Current Lifetime Signature Level Year - All required to Required to exceed 5 rem Approved exceed 5 Facilities rem R Ray Jones 555-55-5551 100 700 () 30.25 E mRem mRem Rem Q Bill Johnson 555-55-5552 200 16.5 () 30.25 U mRem Rem Rem E
S T
OSC Support Supervisor/Operations Shift Manager:
May fill in as Requester Print / Signature Date Health Physics Support Supervisor/Shift Health Physics Supervisor:
N/A Print / Signature Date LIMITS TEDE:
10CFR20 - 5 rem Services - 5 rem Valuable Property - 10 rem Large Pop. or Lifesaving - 25 rem*
- If persons have volunteered to perform lifesaving activities or protect large populations and are fully aware of the risks involved the above dose limits may be exceeded. Doses should be limited to the lowest practicable.
Operations Shift Manager and Shift Health Physics Supervisor should submit Emergency Dose Authorizations prior to OSC activation.
TSC Operations Manager/Operations Shift Manager:
A P
P Print / Signature Date R
O Radiation Protection Coordinator/Supervision, RP:
V A
L Print / Signature Date Operations Shift Manager and Supervision, RP should approve Emergency Dose Authorizations prior to TSC activation.
OT-3701-ADM_019SRO Rev 0 JPM CUE SHEET INITIAL Same as before.
CONDITIONS:
INITIATING CUE: As the Shift Manager, assign operator(s) to rescue the NLO Roberts and complete the Request and Approval portions of the Perry Emergency Dose Authorization form PNPP 10136.
OT-3701-ADM_019SRO Rev 0 EMERGENCY DOSE AUTHORIZATION PNPP No. 10136 Rev. 7/26/01 HPI B-0003 INCREASE IS REQUIRED TO SUPPORT THE FOLLOWING EMERGENCY OPERATIONS:
Name SSN Current Lifetime Signature Level Year - All required to Required to exceed 5 rem Approved exceed 5 Facilities rem R
E Q
U E
S T
OSC Support Supervisor/Operations Shift Manager:
Print / Signature Date Health Physics Support Supervisor/Shift Health Physics Supervisor:
Print / Signature Date LIMITS TEDE:
10CFR20 - 5 rem Services - 5 rem Valuable Property - 10 rem Large Pop. or Lifesaving - 25 rem*
- If persons have volunteered to perform lifesaving activities or protect large populations and are fully aware of the risks involved the above dose limits may be exceeded. Doses should be limited to the lowest practicable.
Operations Shift Manager and Shift Health Physics Supervisor should submit Emergency Dose Authorizations prior to OSC activation.
TSC Operations Manager/Operations Shift Manager:
A P
P Print / Signature Date R
O Radiation Protection Coordinator/Supervision, RP:
V A
L Print / Signature Date Operations Shift Manager and Supervision, RP should approve Emergency Dose Authorizations prior to TSC activation.
NOTE: Normally, planned doses during an emergency should be controlled to within <10CFR20> limits. However, under emergency circumstances these limits may be waived by TSC Operations Manager along with the Radiation Protection Coordinator, or the Operations Shift Manager, acting as Emergency Coordinator, if the TSC is not activated, to allow personnel to perform valuable emergency actions. Due to the urgent nature of emergency dose requirements, completion of the Emergency Dose Authorization can be accomplished subsequent to receiving dose if situations warrant. The doses received should be voluntary and commensurate with the significance of the objective and held to the lowest practicable level that the emergency permits.
OT-3701-ADM_019SRO Rev 0 JPM CUE SHEET INITIAL
- The plant is in an Unusual Event due to lowering Spent Fuel Pool level.
CONDITIONS: No facilities are currently activated and Emergency Coordinator duties remain in the Control Room.
- While investigating a leak in the FPCC Heat Exchanger Room, an NLO (Roberts) became pinned against the east wall near the A HX when a scaffold supporting lead blankets collapsed. Due to the weight of the blankets he is unable to move, but is shielded. He has suffered potentially life threatening injuries.
- You must assign two operators to rescue NLO Roberts.
- RP Supervision informs you that travel path dose rates are 3 REM/hr to NLO Roberts and 60 REM/hr where NLO Roberts is located. It is estimated that total travel time to and from NLO Roberts is 5 minutes (2&1/2 minutes each way) and it will take 30 minutes to move the blankets and rescue NLO Roberts.
- The four operators available for this assignment are Bob Smith, Bill Johnson, Ray Jones, and Tom Bell
- Bob Smith is 52 years old and has a life time dose of 7.2 Rem. Bob has a year to date dose of 20 mrem. Bob has not volunteered for this assignment.
- Bill Johnson is 34 years old and has a life time dose of 16.5 Rem. Bill has a year to date dose of 200 mrem. Bill has volunteered for this assignment.
- Ray Jones is 28 years old and has a life time dose of 700 mrem. Ray has a year to date dose of 100 mrem. Ray has volunteered for this assignment.
- Tom Bell is 21 years old and has a lifetime dose of 128 mrem. Tom has a year to date dose of 23 merm. Tom has not volunteered for this assignment.
INITIATING CUE: Determine which if any of these operators can be assigned to rescue NLO Roberts.
OT-3701-ADM_312SRO Rev 0 JOB PERFORMANCE MEASURE SETUP SHEET System: Administrative Time Critical: Yes Applicability: SRO Safety Function: Emergency Procedures / Plan Setting: Classroom / Simulator Validated: 15 minutes
References:
EPI-A1 Rev. 26, EPI-A2 Rev. 15, EPI-B1 Rev. 21, & EPI-B8 Rev. 18 Required Material EPI-A1 - Emergency Action Levels EPI-A2 - Emergency Actions Based On Event Classification EPI-B1 - Emergency Notification System EPI-B8, Protective Actions And Guides Tasks: 344-532-05-02 Prepare Emergency Plan Initial Notification Form 344-502-05-03 Determine Protective Action Recommendations (PARs) and Ensure that the State and Counties are Notified 451-162-05-52 Determine the appropriate PAR using the PAR Decision Flowchart.
Task Standard: Classify the emergency, complete Initial Notifications and issue Protective Action Recommendations IAW appropriate E-plan procedures.
K/A Data: 295017 AK3.03 Implementation of site emergency plan. IR: RO 3.3 SRO 4.5 295038 EK3.01 Implementation of site emergency plan. IR: RO 3.6 SRO 4.5 2.4.30 Knowledge of events related to system operation/status that must be reported to internal organizations or external agencies, such as the State, the NRC, or the transmission system operator. IR: RO 2.7 SRO 4.1 2.4.44 Knowledge of emergency plan protective action recommendations.
IR: RO 2.4 SRO 4.4 OT-3701-ADM_312SRO Rev 0
- 1. Setup Instructions: None
- 2. Location / Method: Simulator / Classroom
- 3. Initial Condition: The Plant scrammed. All rods are in. Reviewed EPI-A1 Emergency Action Levels, and declared AS3 Site Area Emergency, Challenge to either the Fuel Clad barrier OR Reactor Coolant System barrier, AND the loss of any additional barrier.
Chemistry has performed a MIDAS run due to uncontrolled release and the results are attached.
- 4. Initiating Cue: With the information provided, declare the emergency action level, complete initial notifications and other required actions.
Task is Time Critical Start Time: End Time:
Candidate:
OT-3701-ADM_312SRO Rev 0 JPM BODY SHEET Standard: Performer obtains or simulates obtaining all materials, procedures, tools, keys, radios, etc before performing task.
Standard: Performer follows management expectations with regards to safety and communication standards.
Step 1 Review EPI-A1 and classify the event/
EPI-A1, Emergency Action Levels 5.1 Event Assessment and Event Classification 5.1 Classify the emergency as follows:
- 1. Using Initiating Condition Index (PNPP No. 8852, Attachment 1), identify the emergency by event category and determine the most appropriate Initiating Condition
- 2. Refer to Attachment 2 for the applicable Initiating Condition(s) to determine whether the criteria are met for the operating mode(s) listed.
- 3. Declare an emergency class when all the conditions listed in at least one EAL column have been met, and implement <EPI-A2>.
- a. When several Initiating Conditions are met, declare the most severe emergency class.
JPM Step 1 continued next page OT-3701-ADM_312SRO Rev 0 JPM Step 1 continued Initiating Conditions Entry Criteria A valid indication greater than the reading Emergency dose Field survey listed for one or more of the following plant calculations, using results indicate gaseous effluent monitors: actual meteorology that one or more of HG1 indicate that one or the following have Site Boundary dose
- PLANT VENT GAS 1D19-K300 3.8E0 Ci/cc more of the been met at the resulting from an actual
or imminent release of
- TB/HB VENT GAS 1D17-K856 1.6E5 cpm the Site Boundary:
gaseous radioactivity
- PLANT VENT GAS 2D19-K300 6.0E-0Ci/cc
- Greater than that exceeds
- Greater than ChildThyroid dose for
- Greater than 5000 mRem theactual or projected 5000 mRem CDE Child duration of the release CDE Child Thyroid Thyroid Emergency dose calculations CANNOT Dose rates are confirm, within 15 minutes of exceeding expected to above limit, that levels at the Site continue for Boundary are less than 1000 mRem TEDE greater than or and 5000 mRem CDE Child Thyroid dose equal to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.
using actual meteorology.
Applicable Modes:
1 2 3 4 5 D Critical Step: Candidate classifies event as HG1 within 15 minutes.
Instructor Cue: Notify the Candidate that time critical action starts after the first read of initial conditions and he is given initiating cue.
Notes: Dose is GREATER than 1 REM TEDE and 5 REM child thyroid at site boundary per MIDAS printout.
Start Time ________ Classification Time __________
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_312SRO Rev 0 Step 2
- 4. Complete the EVENT CLASSIFICATION CHECKLIST (PNPP No. 7983A),
contained in <EPI-A2>.
Standard: Operator uses Event Classification Checklist to assist with required actions.
Instructor Cue: Give Operator E-Plan Packet, when he identifies where to obtain.
I&C has been contacted and is en route.
Notes: Checklist completed through line A.6.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 3 EPI-A2, Emergency Actions Based On Event Classification - Event Classification Checklist
- 4. Complete an Initial Notification form (PNPP No. 7794) and forward to communicators within 10 minutes of decision to classify event Critical Step: Initial Notification completed within 15 minutes of classification. Block 3.a is checked for General Emergency HG1. Blocks 5.a and 6.a are also checked.
Instructor Cue: None Notes: Time Given to Communicator ________
The goal is to give to communicator within 10 minutes, but MUST be completed within 15 minutes.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
OT-3701-ADM_312SRO Rev 0 Step 4 EPI-B8, Protective Actions And Guides 5.1 Protective Action Logic 5.1.3 Emergency Coordinator:
- 3. APPROVE PARs for the general public developed utilizing Attachment 1 and ensure that the State of Ohio, local counties, and the NRC are notified per <EPI-B1>.
JPM Step 4 continued next page OT-3701-ADM_312SRO Rev 0 JPM Step 1 continued Critical Step: Protective action recommendation, evacuate 1, 3, and Lake. Block 5.a and 6.a are checked.
Instructor Cue: If asked, No impediment to evacuation, No controlled release.
Notes: Wind Direction on MIDAS is 53 degrees = 12° to 101° EVACUATE 1, 3,
& Lake*. Table A is used due to Child thyroid > 5 Rem at Site Boundary and < 5 REM at 5 miles.
SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Step 5 EPI-A2, Emergency Actions Based On Event Classification - Event Classification Checklist
- 6. Complete the Pager Messages form (PNPP No. 9100), approve, and forward to the SAS within 10 minutes of decision to classify event or revise PARs.
Standard: Pager Message completed, Scenario ID No. 4 Instructor Cue: None Notes: None SAT ___ UNSAT ___
Comment(s):________________________________________________________________
Terminating Cue: Event Classified (HG1) within 15 minutes and Initial Notification given to communicator 5 minutes prior to notification due time.
Evaluation Results: SAT_____ UNSAT_____
End Time:
OT-3701-ADM_312SRO Rev 0 EVENT CLASSIFICATION CHECKLIST PNPP No. 7983A Rev. 6/20/13 Page 1 of 2 EPI-A2 Event classified as a/an: General Emergency Site Area Emergency Alert Unusual Event At Within 15 minutes of CUE on / / .
Time Date Checklist completed by: (Shift Manager/TSC Operations Manager/ EOF Emergency Coordinator)
A. IMMEDIATE ACTIONS INITIAL TIME
- 1. Announce event classification and reason for declaring emergency over the Plant PA System.
- 2. Sound Plant Emergency Alarm. (Request Control Room to initiate Alarm)
- 3. [CONTROL ROOM ONLY] Call the shift I&C technician to the Control Room as a communicator.
NOTE: For a GENERAL EMERGENCY, ensure that PAR is included using EPI-B8, Attachment 1, PAR Decision Flowchart.
- 4. Complete an Initial Notification form (PNPP No. 7794), approve, and forward to communicators within 10 minutes of decision to classify event or revise Protective Action Recommendations (PARs).
5a. Determine facilities to be activated using table below: (R-required; O-optional)
Classification/Facility OSC TSC PIRT EOF JIC Unusual Event O O O O O Alert R R R O O Site Area Emergency R R R R R General Emergency R R R R R 5b. Announce facilities to be activated over the Plant PA System.
NOTE: (1) Completion of form is delegated to the Security Coordinator once TSC is operational. (2) Activation of ERO pagers is NOT needed if required facilities have already been/are being mobilized.
- 6. Complete the Pager Messages form (PNPP No. 9100), approve, and forward to the SAS within 10 minutes of decision to classify event or revise PARs.
- 7. Complete a Reactor Plant Event Notification Worksheet form (NOP-OP-1015-01),
approve, and forward to communicators immediately following notification of the State of Ohio and local counties, but within 50 minutes of event classification.
NOTE: It may be prudent to delay implementation of accountability in situations where personnel safety could be jeopardized, such as a security event or severe weather.
- 8. [SITE AREA EMERGENCY or above] Initiate personnel accountability per EPI-B5, if not yet implemented: Not Required 8a. Direct Shift Manager, or designee, to initiate appropriate Emergency message over the Exclusion Area Paging System, and use PA feature to provide further guidance on offsite assembly if required.
8b. The Shift Manager, or designee, is to manually repeat the accountability message approximately every 5 minutes until accountability is completed, if the automated message is not working
- 9. Verify that notifications and/or requests for offsite support were completed by the SAS:
- a. Fire Department (911) Not Required
- b. Ambulance (911) Not Required
- c. Hospital: Primary - TriPoint; Backup - Lake West Not Required
- 10. If the NRC requests that the ENS circuit remains open then verify that an individual knowledgeable in system operations is assigned to the NRC ENS Circuit to answer questions and inquiries.
REFER TO page 2 of 2 FOR LISTING OF FOLLOW-UP ACTIONS OT-3701-ADM_312SRO Rev 0 FENOC NUCLEAR POWER USE FOR: STATE / COUNTY USE ONLY INITIAL CLASSIFICATIONS, PLANT INITIAL NOTIFICATION DATE: _______ TIME: ______
CHANGES IN CLASSIFICATIONS, FORM CHANGES IN PROTECTIVE ACTION MESSAGE NO:
Perry RECOMMENDATIONS. ______________
PNPP No. 7794 Rev. 6/8/11 EPI-B1 EVENT TERMINATION
- 1. This is the: Perry Nuclear Power Plant
- 2. This is: An Actual Emergency A Drill
- 3. a. A(n) GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVENT was declared at: 15 min from on Today based on EAL: HG-1 (TIME) (DATE)
- b. The Emergency situation has been terminated at: _ on ___
(TIME) (DATE)
- c. The Protective Action Recommendation is being changed at: _____ on _
(TIME) (DATE)
- 4. Brief non-technical description of event: Site Boundary dose resulting from an actual or imminent release of gaseous radioactivity that exceeds 1000 mRem TEDE dose OR 5000 mRem CDE Child Thyroid dose for the actual or projected duration of the release
- 5. The radiological conditions are:
- a. A non-routine release of radioactive material, as a result of this event, is in progress.
- b. The release of radioactive material associated with this event has been terminated.
- c. NO Radiological Release in progress as a result of this event.
- 6. Utility Protective Action Recommendations (PARs):
- a. Evacuation:
(check applicable subareas) 1 2 3 4 5 6 7 LAKE AND that potassium iodide (KI) be administered to the general public in accordance with State procedures. The general public in unaffected areas should be advised to go indoors and monitor EAS broadcasts.
- b. Sheltering:
(check applicable subareas) 1 2 3 AND Evacuate the Lake AND that potassium iodide (KI) be administered to the general public in accordance with State procedures. The general public in unaffected areas should be advised to go indoors and monitor EAS broadcasts.
- c. None For Utility Use Only Approved: _________________________________
OT-3701-ADM_312SRO Rev 0 PAGER MESSAGES PNPP No. 9100 Rev. 9/8/14 Page 1 of 1 EPI-B1 CONTROL ROOM/TSC SECURITY COORDINATOR INSTRUCTIONS:
- 1. Select appropriate Scenario ID number.
- 2. Initiate the notification by forwarding to SAS or by forwarding the information contained within the form to an ERS representative.
TSC SECURITY COORDINATOR/SAS OPERATOR INSTRUCTIONS:
Using the information on this form, initiate the notification of the Emergency Response Organization per SPI-0032.
Scenario ID No. Event Code Message Narrative
()
1 1111 Unusual Event - No facility activation.
2 2222 Alert - OSC, TSC, and PIRT to be activated.
3 3333 Site Area Emergency - OSC, TSC, EOF, PIRT, and JIC to be activated.
4 4444 General Emergency - OSC, TSC, EOF, and JIC to be activated.
51 5555 Event Termination 52 5555 OSC to be staffed.
53 5555 TSC to be staffed.
54 5555 PIRT to be staffed.
55 5555 OSC, TSC and PIRT to be staffed.
56 5555 EOF to be staffed.
57 5555 JIC to be staffed.
61 6666 ERO Teams respond to your offsite facility.
62 6666 Site Inaccessible, ERO Teams respond to your offsite facility.
81 8888 Drive-In Drill - OSC, TSC & EOF to be activated.
91 9999 Weekly Pager Test (Shift Manager approval not required) 92 9999 Unannounced Pager Test (Shift Manager approval not required) 93 9999 Security Pager Test (Shift Manager approval not required)
Approved by: / /
Date Time Emergency Coordinator Delivered to: / /
Date Time Name Activated by: / /
Date Time Name OT-3701-ADM_312SRO Rev 0 JPM CUE SHEET INITIAL
- The Plant scrammed.
CONDITIONS:
- All rods are in.
- Reviewed EPI-A1 Emergency Action Levels, and declared AS3 Site Area Emergency, Challenge to either the Fuel Clad barrier OR Reactor Coolant System barrier, AND the loss of any additional barrier.
- Chemistry has performed a MIDAS run due to uncontrolled release and the results are attached.
INITIATING CUE: With the information provided:
- Declare the emergency action level
- Complete initial notifications and other required actions.
Task is Time Critical OT-3701-ADM_312SRO Rev 0 FENOC NUCLEAR POWER PLANT State/ County USE ONLY FOLLOW-UP NOTIFICATION FORM Part B Page 1 of 1 DATE: _____________ TIME: _____________
MESSAGE NO: _________________________
Dose Assessment Data Form SITE: PERRY ACTUAL MENU: A Summary For Calculation: Today - 5 minutes ago DATE PRINTED: Today - Now Current Input Data Adjusted Measured Precipitation Meteorological Data: Level Wind Direction from Wind Speed Wind Speed inch/15 min Stability Class 10 meters 53 degrees 6.0 mph 6.0 mph No Rain E Effective Release Monitor Conversion Concentration Flow Release Rate Monitor ID Point Reading Status* Units to uCi/cc (uCi/cc) Reading Status* Units (uCi/sec)
TB VNT L 1 1.8E+05 0 cpm 3.5E-08 6.3E-03 3.1E+05 0 CFM 9.2E+05
- Status: 0=Good, 1=Questionable, 2=Bad, 7=Manual Override of Raw Data Release Characterization: Accident Type: Mix ID # 0: CONTAINMENT GAP RELEASE Type Noble Gases Iodines Particulates Total Units 3.3E-02 8.9E-01 0.0E+00 9.2E-01 Ci/sec Start of Release: A while ago - Today End of Release: 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> after start - Today Time of Trip: A while ago - Today Start of Projection: A while ago - Today Dose Projection Parameters: Projection Period: 4.00 Hours Estimated Remaining Release Duration: 4.00 Hours Dose Results Dispersion: (s/m3) Projected Dose: (mrem) Current Dose Rate: (mrem/hr)
Child Child TEDE/EDE at Distance X/Q TEDE Thyroid CDE TEDE Thyroid CDE EDE TEDE Rate EAB / Site Boundary 5.9E-05 2.6E+02 8.5E+03 1.2E+02 5.5E+03 2.6E+01 4.78 2 miles 1.4E-05 1.4E+02 3.9E+03 1.0E+01 4.2E+03 1.4E+00 5 miles 4.5E-06 6.4E+01 1.4E+02 0.0E+00 0.0E+00 0.0E+00 10 miles 1.9E-06 2.0E+01 4.5E+01 0.0E+00 0.0E+00 0.0E+00 PAG Limit is Exceeded 10% of PAG Limit Exceeded Prepared by:_________________________ /____________ Reviewed by:_________________________ /____________
(Date) (Date)