Text

Watts Bar, Unit 2 - Submittal of Pre-operational Test Instruction 2-PTI-999-01, Rev. 0, Operational Vibration Testing
	ML15037A088
Person / Time
Site:	Watts Bar
Issue date:	02/05/2015
From:	Shea J W; Tennessee Valley Authority
To:	; Document Control Desk, Office of Nuclear Reactor Regulation
References
	CNL-15-025, L44 150205 003 2-PTI-999-01, Rev 0
	Download: ML15037A088 (185)
	v • d • e

U.S. Nuclear Regulatory Commission CNL-15-025 Page 2 February 5, 2015 cc (Enclosure):

U. S. Nuclear Regulatory Commission Region II Marquis One Tower 245 Peachtree Center Ave., NE Suite 1200 Atlanta, Georgia 30303-1257 NRC Resident Inspector Unit 2 Watts Bar Nuclear Plant 1260 Nuclear Plant Road Spring City, Tennessee 37381

Enclosure Watts Bar Nuclear Plant Unit 2 Preoperational Test

WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 3 of 182

Table of Contents

1.0 INTRODUCTION

.......................................................................................................... 7 1.1 Test Objectives ............................................................................................................. 7 1.2 Scope............................................................................................................................ 7

2.0 REFERENCES

............................................................................................................. 8 2.1 Performance References .............................................................................................. 8 2.2 Developmental References ........................................................................................... 8 3.0 PRECAUTIONS AND LIMITATIONS ......................................................................... 10 4.0 PREREQUISITE ACTIONS ........................................................................................ 11 4.1 Preliminary Actions ..................................................................................................... 11 4.2 Special Tools, Measuring and Test Equipment, Parts, and Supplies .......................... 19 4.3 Field Preparations ....................................................................................................... 20 4.4 Approvals and Notifications ........................................................................................ 20 5.0 ACCEPTANCE CRITERIA ......................................................................................... 21 5.1 Steady State Vibrations .............................................................................................. 21 5.1.1 Observed Vibrations: Steady State vibrations are determined to be acceptable by satisfying any of the following criteria ............................ 21 5.1.2 Instrumented Measurements: The magnitude of steady state instrumented vibration is less than or equal to the acceptable velocity or displacement values. (Attachment 5) ........................................... 22 5.2 Transient Vibration ...................................................................................................... 22 5.2.1 Visual Observation: Transient vibrations are acceptable when no excessive vibrations are observed. .......................................................... 22 5.2.2 Instrumented Measurements: The magnitude of transient instrumented vibration is less than or equal to the acceptable velocity or displacement values. (Attachment 5) ........................................... 22 6.0 PERFORMANCE ........................................................................................................ 23 6.1 Main Steam System .................................................................................................... 23 6.1.1 MS to TDAFP Turbine, Steady State ............................................................ 23 6.1.2 Atmospheric Relief Valve Lift, Transient ....................................................... 24 WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 4 of 182

Table of Contents (continued) 6.1.3 Turbine Bypass, Transients .......................................................................... 28 6.2 Main Feedwater System ............................................................................................. 39 6.2.1 MFP 2A Pump Start, Transient ..................................................................... 39 6.2.2 MFP 2A Recirc, Steady State ....................................................................... 40 6.2.3 MFP 2B Pump Start, Transient ..................................................................... 41 6.2.4 MFP 2B Recirc, Steady State ....................................................................... 42 6.2.5 Standby Main Feed Pump Start, Transient ................................................... 44 6.2.6 Standby Main Feed Pump Long Cycle Recirc, Steady State ........................ 45 6.3 Auxiliary Feedwater System ....................................................................................... 47 6.3.1 MDAFP Recirc (Normal Min Flow), Steady State.......................................... 47 6.3.2 MDAFP Additional Recirc, Steady State ....................................................... 49 6.3.3 MDAFP 2A-A to Steam Generators, Transient, Steady State ....................... 51 6.3.4 MDAFP 2B-B to Steam Generators, Transient, Steady State ....................... 54 6.3.5 TDAFP Recirc, Steady State ........................................................................ 57 6.3.6 TDAFP to Steam Generators, Steady State ................................................. 58 6.3.7 TDAFP Cold Start, Transient ........................................................................ 60 6.3.8 TDAFP Trip, Transient .................................................................................. 61 6.3.9 Aux Feedwater Waterhammer Tests, Transient, Steady State ..................... 63 6.4 Steam Generator Blowdown System .......................................................................... 67 6.4.1 350 F Plateau, SGBD from Heat Exchangers to Cooling Tower Blowdown. Steady State ............................................................................... 67 6.4.2 557 F Plateau, SGBD from Heat Exchangers to Condensate Demin, Steady State ..................................................................................... 69 6.4.3 557 F Plateau, SGBD from Heat Exchangers to Cooling Tower Blowdown, Steady State ............................................................................... 70 6.4.4 557 F Plateau, Steam Generator Blowdown Containment/Blowdown Isolation Transients ................................................ 71 6.5 Chemical and Volume Control System ....................................................................... 75 6.5.1 Normal Charging (CCP 2A-A in Service), Steady State ................................ 75 6.5.2 Normal Charging (CCP 2B-B in Service), Steady State ................................ 77 6.5.3 Alternate Charging Steady State .................................................................. 78 WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 5 of 182

Table of Contents (continued) 6.5.4 Normal Letdown with Valve 2-TCV-62-79 Diverting to VCT, Selected Orifice Alignments, Steady State ................................................... 79 6.5.5 Normal Letdown Through a Mixed Bed Demineralizer to the VCT, Steady State ........................................................................................ 85 6.5.6 Excess Letdown, Steady State ..................................................................... 86 6.5.7 Seal Water Injection, Steady State ............................................................... 87 6.5.8 Auxiliary Pressurizer Spray Steady State ..................................................... 89 6.5.9 Makeup System (Boric Acid Transfer Pumps) Steady State ......................... 90 6.5.10 CCP 2A-A, 2B-B Start, Stop, Transients ....................................................... 91 6.6 Reactor Coolant System ............................................................................................. 95 6.6.1 Loops 1, 2, 3, and 4 Hot, Cold and Crossover Legs Steady State ............................................................................................................. 95 6.6.2 Normal Pressurizer Spray Steady State ....................................................... 96 6.6.3 Pressurizer Surge Steady State .................................................................... 98 6.6.4 PORV Open Transient .................................................................................. 99 6.6.5 Reactor Coolant Pump (2-PMP-68-8) Stop/Start Transient ........................ 102 6.6.6 Reactor Coolant Pump (2-PMP-68-31) Stop/Start Transient ...................... 104 6.6.7 Reactor Coolant Pump (2-PMP-68-50) Stop/Start Transient ...................... 106 6.6.8 Reactor Coolant Pump (2-PMP-68-73) Stop/Start Transient ...................... 108 6.6.9 Spray Valve Cycle Transient ....................................................................... 110 6.6.10 Head Vent Transient ................................................................................... 113 6.7 Residual Heat Removal System ............................................................................... 116 6.7.1 RHR Train 2A, Train 2B Low Pressure Letdown, Steady State .................. 116 7.0 POST PERFORMANCE ACTIVITY .......................................................................... 119 8.0 RECORDS ................................................................................................................ 120 Appendix A: TEST PROCEDURES/INSTRUCTIONS REFERENCE REVIEW ................................................................................................... 121 Appendix B: TEMPORARY CONDITION LOG ............................................................. 122 Appendix C: MEASURING and TEST EQUIPMENT(M&TE) LOG ............................... 123 WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 6 of 182

Table of Contents (continued) Appendix D: MEASUREMENT UNCERTAINTY CALCULATIONS .............................. 132 Appendix E: VIBRATION DATA GUIDELINES ............................................................ 134 Appendix F: ATTACHMENT INDEX ............................................................................. 135 Attachment 1: SIGNATURE LOG SHEET STORAGE .................................................... 136 Attachment 2: CHRONOLOGICAL TEST LOG SHEET STORAGE ............................... 137 Attachment 3: TEST DEFICIENCY LOG SHEET STORAGE .......................................... 138 Attachment 4: TEST DEFICIENCY NOTICE SHEET STORAGE .................................... 139 Attachment 5: DAS VIBRATION DATA........................................................................... 140 Attachment 6: VIBRATION MEASUREMENT/EVALUATION/CALCULATION ................................... 171 Attachment 7: DAS DATA - STEADY STATE STORAGE .............................................. 173 Attachment 8: DAS DATA - TRANSIENT STORAGE ..................................................... 174 Attachment 9: MARKED-UP SYSTEM FLOW DIAGRAMS (TEST BOUNDARIES of INDIVIDUAL FLOW MODES) STORAGE .................. 175 Attachment 10: INSTRUMENTED VIBRATION MONITORING LOCATIONS AND ACCEPTANCE CRITERIA .............................................................. 176 WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 7 of 182

1.0 INTRODUCTION

1.1 Test Objectives Demonstrate acceptable vibration levels exist for selected piping inside Seismic Category I Structures. 1.2 Scope A. Demonstrate acceptable vibration levels exist for the following: 1. Class 1, 2, and 3 piping 2. Other high energy piping systems located inside Seismic Category I Structures 3. High energy portions of systems whose failure could reduce the functioning of any Seismic Category I plant feature to an unacceptable level. B. NSSS Loop monitoring points are recorded for baseline data. 1. Safety Injection and portions of Residual Heat Removal, Chemical and Volume Control and Containment Spray are tested in 2-PTI-063-01 and 2-PTI-063-03. 2. Component Cooling, Emergency Raw Cooling Water, portions of Containment Spray and Residual Heat Removal are tested in their respective preoperational test instructions. 3. Non-safety related systems are observed for vibration in their respective acceptance or preoperational test. 4. This test is performed in conjunction with other procedures that direct operation of plant systems. No plant system operations are performed by this procedure.

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2.0 REFERENCES

2.1 Performance References A. SMP-9.0, Conduct of Test B. N3C-945, Procedure for Evaluation and Qualification of Piping System Vibrations C. TI-31.14, Piping Vibration Measurements 2.2 Developmental References A. Final Safety Analysis Report (FSAR) - Amendment 112 1. FSAR Table 14.2-1, Sheet 80 of 89, Operational Vibration Test Summary 2. FSAR Chapter 3, Section 3.9.2.1, Preoperational Vibration and Dynamic Effects Testing B. Drawings 1. Flow Diagrams a. 2-47W801-1, Rev 18, Flow Diagram Main and Reheat Steam b. 1-47W801-1A, Rev 8, Unit 2 Flow Diagram Main and Reheat Steam c. 2-47W801-2, Rev 19, Flow Diagram Steam Generator Blowdown System d. 2-47W803-1, Rev 23, Flow Diagram Feedwater e. 1-47W803-1A, Rev 6, Unit 2 Flow Diagram Feedwater f. 2-47W803-2, Rev 19, Flow Diagram Auxiliary Feedwater g. 2-47W805-2, Rev 21, Flow Diagram Low Pressure Heater Drains & Vents h. 2-47W809-1, Rev 33, Flow Diagram Chemical and Volume Control System i. 1-47W809-1A, Rev 5, Flow Diagram Chemical and Volume Control System WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 9 of 182

2.2 Developmental References (continued)

j. 2-47W809-2, Rev 14, Flow Diagram Chemical and Volume Control System And Boron Recovery System k. 1-47W810-1A, Rev 4, Flow Diagram Residual Heat Removal l. 2-47W810-1, Rev 21, Flow Diagram Residual Heat Removal m. 2-47W811-1, Rev 37, Flow Diagram Safety Injection n. 1-47W811-1A, Rev 16, Flow Diagram Safety Injection o. 2-47W813-1, Rev 29, Flow Diagram Reactor Coolant 2. Electrical None 3. Mechanical None 4. Logic/Control None 5. Vendor Drawings None 6. Vendor Manuals None C. Documents 1. ASME Code Sect. III, NB-3622.3, Vibration 2. USNRC Regulatory Guide 1.68, Initial Test Programs for Water-Cooled Nuclear Power Plants, Rev 2 3. 2-TSD-HFT-1, Test Scoping Document for Hot Functional Tests, Rev 4 4. PTI-999-01, Rev 0, Operational Vibration Testing WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 10 of 182

3.0 PRECAUTIONS AND LIMITATIONS A. Standard precautions shall be followed for working around energized electrical equipment in accordance with TVA Safety Manual Procedure 1021. B. Observe all Radiation Protection (RP) requirements when working in or near radiological areas. C. Steps may be repeated if all components cannot be tested in a step. However, if the test has been exited, prerequisite steps must be re-verified and a Chronological Test Log (CTL) entry made. D. Notify the Unit 2 Supervisor (US/SRO) or Shift Manager (SM) if severe vibration is observed (judged to have an immediate detrimental impact on acceptability of the piping system). E. All open problems are to be tracked by a corrective action document and entered on the appropriate system punchlist. F. If the vibration is determined to be excessive the Test Engineer shall initiate a Test Deficiency Notice (TDN).

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4.0 PREREQUISITE ACTIONS NOTE Prerequisite steps may be performed in any order unless otherwise stated and should be completed as close in time as practicable to the start of the instruction subsection to which they apply. 4.1 Preliminary Actions [1] VERIFY the test/performance copy of this Preoperational Test Instruction (PTI) is the current revision including any change notices and as needed, each test person assisting in this test has the current revision including any change notices. ________

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4.1 Preliminary Actions (continued)

NOTE Pre-assigned attachment numbers are used in this procedure for data collection and records management on Appendix F, Attachment Index: 1. SIGNATURE LOG STORAGE 2. CHRONOLOGICAL TEST LOG STORAGE 3. TEST DEFICIENCY LOG SHEET STORAGE 4. TEST DEFICIENCY NOTICE SHEET STORAGE 5. DAS VIBRATION DATA STORAGE 6. VIBRATION MEASUREMENT/EVALUATION/CALCULATION 7. DAS DATA-STEADY STATE STORAGE 8. DAS DATA-TRANSIENT STORAGE 9. MARKED-UP SYSTEM FLOW DIAGRAMS (Test boundaries of individual flow modes) STORAGE 10. INSTRUMENTED VIBRATION MONITORING LOCATIONS AND ACCEPTANCE CRITERIA [2] OBTAIN copies of the applicable forms from the latest revision of SMP-9.0 and ATTACH to this PTI, behind the appropriate storage Attachment, for use during the performance of this PTI. ________ [3] VERIFY monitoring location isometrics for instrument locations identified in Attachment 10, have been attached with 0, Instrumented Vibration Monitoring Locations and Acceptance Criteria . ________ [4] ENSURE work orders have been initiated for engineering/craft support for this PTI.

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4.1 Preliminary Actions (continued)

[4.1] Performance of 2-PTI-999-01, Operational Vibration Testing. WO_________________________________________ ________ [4.2] Work Orders have been initiated for the installation and removal of accelerometer mounting brackets and completed. WOs_________________________________________ _____________________________________________ _____________________________________________

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_____________________________________________ ________ [4.3] Work Orders have been initiated for the installation, removal and maintenance of instrumentation and data acquisition equipment including all cables and have been completed. WOs_________________________________________ _____________________________________________

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_____________________________________________ ________ [4.4] Craft Support provide ladders or scaffolds to access measurement locations as needed. WOs ________________________________________ ________ [5] ENSURE changes to the references listed on Appendix A have been reviewed and determined NOT to adversely affect the test performance. ________

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4.1 Preliminary Actions (continued)

[6] VERIFY current revisions and change paper for referenced drawings have been reviewed and determined NOT to adversely affect the test performance, and ATTACH documentation of current drawing revision numbers and change paper that were reviewed to the data package. ________ [7] EVALUATE open items in Watts Bar Integrated Task Equipment List (WITEL), and ENSURE they will NOT adversely affect the test performance and results. [7.1] Main Steam, Subsection, 6.1 ________ [7.2] Main Feedwater, Subsection 6.2 ________ [7.3] Auxiliary Feedwater, Subsection 6.3 ________ [7.4] Steam Generator Blowdown, Subsection 6.4 ________ [7.5] Chemical and Volume Control, Subsection 6.5 ________ [7.6] Reactor Coolant, Subsection 6.6 ________ [7.7] Residual Heat Removal, Subsection 6.7 ________ [8] ENSURE outstanding Engineering Document ConstTemporary Modifications (T-Mods) do NOT adversely impact testing, and

ATTACH documentation of -Mods that were reviewed to the data package. ________ [9] VERIFY Measuring and Test Equipment (M&TE) required for test performance has been recorded on Measuring and Test Equipment Log, Appendix C. [9.1] Main Steam, Subsection, 6.1 ________ [9.2] Main Feedwater, Subsection 6.2 ________ [9.3] Auxiliary Feedwater, Subsection 6.3 ________

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4.1 Preliminary Actions (continued)

[9.4] Steam Generator Blowdown, Subsection 6.4 ________ [9.5] Chemical and Volume Control, Subsection 6.5 ________ [9.6] Reactor Coolant, Subsection 6.6 ________ [9.7] Residual Heat Removal, Subsection 6.7 ________ [10] VERIFY Bechtel Engineering has reviewed as-built monitor locations and instrumentation installations in accordance with 2-TSD-HFT-1. ________ BECHTEL ENGINEERING [11] ENSURE all pipe supports required for testing have been completed. [11.1] Main Steam, Subsection 6.1 ________ BECHTEL ENGINEERING ________ CONSTRUCTION [11.2] Main Feedwater, Subsection 6.2 ________ BECHTEL ENGINEERING ________ CONSTRUCTION [11.3] Auxiliary Feedwater, Subsection 6.3 ________ BECHTEL ENGINEERING ________ CONSTRUCTION [11.4] Steam Generator Blowdown, Subsection 6.4 ________ BECHTEL ENGINEERING ________ CONSTRUCTION WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 16 of 182 Date ________

4.1 Preliminary Actions (continued)

[11.5] Chemical and Volume Control, Subsection 6.5 ________ BECHTEL ENGINEERING ________ CONSTRUCTION [11.6] Reactor Coolant, Subsection 6.6 ________ BECHTEL ENGINEERING ________ CONSTRUCTION [11.7] Residual Heat Removal, Subsection 6.7 ________ BECHTEL ENGINEERING ________ CONSTRUCTION [12] VERIFY the snubbers and spring hangers required for testing have been installed and adjusted. [12.1] Main Steam, Subsection 6.1 ________ Startup Test Engineer [12.2] Main Feedwater, Subsection 6.2 ________ Startup Test Engineer [12.3] Auxiliary Feedwater, Subsection 6.3 ________ Startup Test Engineer [12.4] Steam Generator Blowdown, Subsection 6.4 ________ Startup Test Engineer [12.5] Chemical and Volume Control, Subsection 6.5 ________ Startup Test Engineer [12.6] Reactor Coolant, Subsection 6.6 ________ Startup Test Engineer [12.7] Residual Heat Removal, Subsection 6.7 ________ Startup Test Engineer WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 17 of 182 Date ________

4.1 Preliminary Actions (continued)

NOTE The list of qualified piping vibration observers is maintained at \\Wbngfp2\startup engineering\Training\Piping Vibrations Qual [13] ENSURE visual observation of the piping is performed during predetermined steady state and transient modes of operation by trained personnel familiar with N3C-945. [13.1] Main Steam, Subsection, 6.1 ________ [13.2] Main Feedwater, Subsection 6.2 ________ [13.3] Auxiliary Feedwater, Subsection 6.3 ________ [13.4] Steam Generator Blowdown, Subsection 6.4 ________ [13.5] Chemical and Volume Control, Subsection 6.5 ________ [13.6] Reactor Coolant, Subsection 6.6 ________ [13.7] Residual Heat Removal, Subsection 6.7 ________ [14] PERFORM a pretest walkdown of the system to be tested to ensure no conditions exist that will impact vibration test performance. [14.1] Main Steam, Subsection, 6.1 ________ [14.2] Main Feedwater, Subsection 6.2 ________ [14.3] Auxiliary Feedwater, Subsection 6.3 ________ [14.4] Steam Generator Blowdown, Subsection 6.4 ________ [14.5] Chemical and Volume Control, Subsection 6.5 ________ [14.6] Reactor Coolant, Subsection 6.6 ________ [14.7] Residual Heat Removal, Subsection 6.7 ________

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4.1 Preliminary Actions (continued)

[15] ENSURE that communications are available for areas where testing is to be conducted. ________ [16] ENSURE instrumentation, cables and Data Acquisition systems (DAS) have been calibrated and installed. ________ [17] ENSURE the Test Director has reviewed channel, displacement and velocity input to the Data Acquisition System as listed on Attachment 5. ________ [18] ENSURE the Systems are configured and operational to the extent necessary to perform the vibration testing for the subsections indicated. [18.1] Main Steam, Subsection, 6.1 ________ [18.2] Main Feedwater, Subsection 6.2 ________ [18.3] Auxiliary Feedwater, Subsection 6.3 ________ [18.4] Steam Generator Blowdown, Subsection 6.4 ________ [18.5] Chemical and Volume Control, Subsection 6.5 ________ [18.6] Reactor Coolant, Subsection 6.6 ________ [18.7] Residual Heat Removal, Subsection 6.7 ________ [19] CONDUCT a pretest briefing with Test and Operations personnel in accordance with SMP-9.0 ________ [19.1] Main Steam, Subsection, 6.1 ________ [19.2] Main Feedwater, Subsection 6.2 ________ [19.3] Auxiliary Feedwater, Subsection 6.3 ________ [19.4] Steam Generator Blowdown, Subsection 6.4 ________ [19.5] Chemical and Volume Control, Subsection 6.5 ________ [19.6] Reactor Coolant, Subsection 6.6 ________ [19.7] Residual Heat Removal, Subsection 6.7 ________

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4.2 Special Tools, Measuring and Test Equipment, Parts, and Supplies [1] ENSURE the following M&TE or equivalent is AVAILABLE and within their Calibration Due Dates, AND RECORD the M&TE Data on the Measuring and Test Equipment (M&TE) Log, Appendix C : ________ IRD810, Vibration Meter, Range 10HZ to 1KHZ, (10% of full scale), CSI 2120, Vibration Analyzer, Range 10HZ to 1KHZ, (10% full scale), CSI 2130, Vibration Analyzer, Range 10HZ to 1KHZ, (10% full scale), [2] ENSURE the following Data Acquisition System (10% of reading) or equivalent is AVAILABLE and within the Calibration Due Dates, AND RECORD the M&TE Data on the Measuring and Test Equipment (M&TE) Log, Appendix C : ________ 1 VibDaq Continuous Monitoring System, 24 Channel 2 VibDaq Continuous Monitoring Systems, 8 Channel 37 PCB Piezotronics, Model 357B61, Charge Output Accelerometers with PCB Piezotronics, Model 422E66A, In-line Charge Converters PCB Portable Shaker Vibration Calibrator, Model 9100D, (5% of Reading), [3] ENSURE the following equipment is available. ________ 3 Personal Computers, Windows 7 or greater Operating System Machinist Rule, 0 to 6 inches WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 20 of 182 Date ________

4.3 Field Preparations [1] ENSURE support is available to provide ladders or scaffolds as required. ________ 4.4 Approvals and Notifications [1] OBTAIN permission of the Preoperational Startup Manager to start the test. Preoperational Startup Manager Signature Date [2] OBTAIN (SM) authorization. U2 US/SRO/SM Signature Date [3] OBTAIN (SM) authorization. U1 US/SRO/SM Signature Date WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 21 of 182

5.0 ACCEPTANCE CRITERIA NOTES 1) Measurement uncertainties for instrumented measurements are calculated in Appendix D from allowable velocity and displacements specified in 2-TSD-HFT-1. These adjusted allowable values are incorporated in Attachment 5. The adjusted screening velocity is incorporated in Attachment 6. 2) Measurement uncertainty calculation steps for hand-held instrument measurements are included in Attachment 6. 3) The vibration level for piping and components is to be within acceptable limits in accordance with the requirements of FSAR Section 3.9.2.1. 4) The acceptance criteria for both velocity and displacement shall be in accordance with the Design Criteria WB-DC-40-31.16 and Engineering Specification N3C-945. 5.1 Steady State Vibrations 5.1.1 Observed Vibrations: Steady State vibrations are determined to be acceptable by satisfying any of the following criteria [1] Observing that no excessive vibrations exist. Vibration measurements are not required for acceptable observed vibration.(Steps) 6.1.1[4.1],6.2.2[4.1],6.2.4[4.1], 6.2.6[4.1],6.3.1[2.1],6.3.1[4.1],6.3.2[2.1],6.3.2[4.1],6.3.3[9.1],6.3.4[9.1],6.3.5[4.1],6.3.6[4.1],6.3.9[5.1],6.4.1[4.1],6.4.2[4.1],6.4.3[4.1],6.5.1[4.1],6.5.2[4.1],6.5.3[4.1],6.5.4[4.1],6.5.4[10.1],6.5.4[6.1],6.5.4[8.1],6.5.4[14.1],6.5.5[4.1],6.5.6[4.1],6.5.7[4.1],6.5.8[4.1],6.5.9[4.1],6.6.1[4.1],6.6.2[4.1],6.6.3[4.1],6.7.1[2.1],6.7.1[4.1], [2] Measured velocities are less than or equal to the screening criteria of 0.5 in/sec (peak). (Steps) 6.1.1[4.2]B, 6.2.2[4.2]B,6.2.4[4.2]B,6.2.6[4.2]B,6.3.1[2.2]B,6.3.1[4.2]B,6.3.2[2.2]B,6.3.1[4.2]B,6.3.3[9.2]B,6.3.4[9.2]B,6.3.5[4.2]B,6.3.6[4.2]B,6.3.9[5.2]B,6.4.1[4.2]B,6.4.3[4.2]B,6.5.1[4.2]B,6.5.2[4.2]B,6.5.3[4.2]B,6.4.2[4.2]B,6.5.4[4.2]B,6.5.4[10.2]B,6.5.4[6.2]B,6.5.4[8.2]B,6.5.4[12.1],6.5.4[12.2]B,6.5.4[14.2]B,6.5.5[4.2]B,6.5.6[4.2]B,6.5.7[4.2]B,6.5.8[4.2]B,6.5.9[4.2]B,6.6.1[4.2]B,6.6.2[4.2]B,6.6.3[4.2]B,6.7.1[2.2]B,6.7.1[4.2]B, WBN Unit 2 Operational Vibration Testing 2-PTI-999-01 Rev. 0000 Page 22 of 182

5.1.1 Observed Vibrations: Steady State vibrations are determined to be acceptable by satisfying any of the following criteria (continued) [3] Measured velocities or displacements are less than or equal to the calculated allowable velocities or displacements. (Attachment 6) (Steps) 6.1.1[4.2]C,6.2.2[4.2]C,6.2.4[4.2]C,6.2.6[4.2]C,6.3.1[2.2]C,6.3.1[4.2]C, 6.3.2[2.2]C,6.3.2[4.2]C,6.3.3[9.2]C,6.3.4[9.2]C,6.3.5[4.2]C,6.3.6[4.2]C,6.3.9[5.2]C,6.4.1[4.2]C,6.4.2[4.2]C,6.4.3[4.2]C,6.5.1[4.2]C,6.5.2[4.2]C,6.5.3[4.2]C,6.5.4[4.2]C,6.5.4[6.2]C,6.5.4[8.2]C,6.5.4[10.2]C,6.5.4[12.2]C,6.5.4[14.2]C,6.5.5[4.2]C,6.5.6[4.2]C,6.5.7[4.2]C,6.5.8[4.2]C,6.5.9[4.2]C,6.6.1[4.2]C,6.6.2[4.2]C,6.6.3[4.2]C,6.7.1[2.2]C,6.7.1[4.2]C 5.1.2 Instrumented Measurements: The magnitude of steady state instrumented vibration is less than or equal to the acceptable velocity or displacement values. (Attachment 5) (Steps) 6.1.1[6], 6.2.2[6], 6.2.4[6], 6.2.6[6], 6.3.3[16], 6.3.4[16], 6.3.6[6], 6.3.9[10.2], 6.5.1[6], 6.5.2[6], 6.6.1[6], 6.6.2[6], 6.6.3[6], 5.2 Transient Vibration 5.2.1 Visual Observation: Transient vibrations are acceptable when no excessive vibrations are observed. (Steps) 6.1.2[3.5], 6.1.2[4.1], 6.1.2[5.1], 6.1.2[6.1], 6.1.3[3.5], 6.1.3[4.5], 6.1.3[5.5], 6.1.3[6.5], 6.1.3[7.5], 6.1.3[8.5], 6.1.3[9.5], 6.1.3[10.5], 6.1.3[11.5], 6.1.3[12.5], 6.1.3[13.5], 6.1.3[14.5], 6.2.1[7], 6.2.3[7], 6.2.5[7], 6.3.3[8], 6.3.3[15], 6.3.4[8], 6.3.4[15], 6.3.7[8], 6.3.8[8], 6.3.9[4.5], 6.3.9[6.4], 6.3.9[7.5], 6.3.9[8.6], 6.4.4[3.1], 6.4.4[4.1], 6.4.4[5.1], 6.4.4[6.1], 6.5.10[3.5], 6.5.10[4.5], 6.5.10[5.5], 6.5.10[6.5], 6.6.4[3.5], 6.6.4[5], 6.6.5[3.5], 6.6.5[4.4], 6.6.6[3.5], 6.6.6[4.4], 6.6.7[3.5], 6.6.7[4.4], 6.6.8[3.5], 6.6.8[4.4], 6.6.9[3.5], 6.6.9[4.5], 6.6.10[3.5], 6.6.10[4.5] 5.2.2 Instrumented Measurements: The magnitude of transient instrumented vibration is less than or equal to the acceptable velocity or displacement values. (Attachment 5) (Steps) 6.1.2[8],6.1.3[16], 6.2.1[9],6.2.3[9], 6.2.5[9], 6.3.3[16], 6.3.4[16], 6.3.7[10], 6.3.8[10], 6.3.9[10.1], 6.3.9[10.3], 6.3.9[10.4], 6.3.9[10.5], 6.5.10[8.1], 6.5.10[8.2], 6.5.10[8.3], 6.5.10[8.4], 6.6.5[6], 6.6.6[6], 6.6.7[6], 6.6.8[6], 6.6.9[6], 6.6.10[6]

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6.0 PERFORMANCE NOTE Sections and Subsections may be performed out of sequence or simultaneously. 6.1 Main Steam System 6.1.1 MS to TDAFP Turbine, Steady State [1] VERIFY prerequisites listed in Section 4.0 for Subsection 6.1 have been completed. ________ [2] RECORD the procedure used to operate the system ________ Procedure No./Subsection No. / [3] RECORD applicable flow, pressure, temperature data and instrument numbers WHEN steady state conditions are established. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [4] OBSERVE MS to TDAFP Turbine for the following Vibration Test Sequence: ________ [4.1] IF no vibration is observed, THEN Acceptance Criteria is met. (ACC CRIT 5.1.1[1]) ________ [4.2] IF excessive vibration is observed, THEN A. MEASURE the velocity AND RECORD on Attachment 6. ________ B. IF velocity is < 0.45 ips, THEN Acceptance Criteria is met. (ACC CRIT 5.1.1[2]) ________

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6.1.1 MS to TDAFP Turbine, Steady State (continued)

C. IF velocity is > 0.45 ips, THEN MEASURE displacement(s) AND RECORD on Attachment 6. ________ CALCULATE allowable displacements AND COMPLETE Attachment 6. ________ IF measured displacement(s) are < calculated allowable, THEN Acceptance Criteria is met. (ACC CRIT 5.1.1[3]) ________ [5] RECORD approximately sixty (60) seconds of DAS data using the sensor listed on Attachment 5. ________ [6] REVIEW recorded DAS data AND COMPLETE Attachment 5. (ACC CRIT 5.1.2) ________ [7] LABEL AND ATTACH to Attachment 7 a sample of the velocity and displacement data for the sensor on Attachment 5. ________ [8] ENSURE the system flow diagram is ATTACHED to Attachment 9 and MARKED to indicate the piping observed during this flow mode. ________ 6.1.2 Atmospheric Relief Valve Lift, Transient NOTE Only Atmospheric Relief Valve 2-PCV-1-5 requires DAS data collection during Atmospheric Relief Valve lift. [1] VERIFY prerequisites listed in Section 4.0 for Subsection 6.1 have been completed. ________ [2] RECORD the procedure used to operate the system ________ Procedure No./Subsection No. /

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6.1.2 Atmospheric Relief Valve Lift, Transient (continued)

[3] RECORD, for 2-PCV-1-5, the applicable pre-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [3.1] ACTIVATE the DAS for 2-PCV-1-5 approximately 30 seconds prior to initiation of the Atmospheric Relief Valve lift for the sensors listed on Attachment 5. ________ [3.2] OBSERVE the system piping associated with 2-PCV-1-5 during the transient.

________ [3.3] DEACTIVATE the DAS approximately 60 seconds after the transient has subsided. ________ [3.4] RECORD, for 2-PCV-1-5, the applicable post-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [3.5] VERIFY the observation results for 2-PCV-1-5 are acceptable. (ACC CRIT 5.2.1) ________ [4] RECORD, for 2-PCV-1-12, the applicable pre-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / /

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6.1.2 Atmospheric Relief Valve Lift, Transient (continued)

[4.1] OBSERVE the system piping associated with 2-PCV-1-12 during the transient AND VERIFY the results are acceptable. (ACC CRIT 5.2.1) ________ [4.2] RECORD, for 2-PCV-1-12, the applicable post-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [5] RECORD, for 2-PCV-1-23, the applicable pre-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [5.1] OBSERVE the system piping associated with 2-PCV-1-23 during the transient AND VERIFY the results are acceptable. (ACC CRIT 5.2.1) ________ [5.2] RECORD, for 2-PCV-1-23, the applicable post-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / /

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6.1.2 Atmospheric Relief Valve Lift, Transient (continued)

[6] RECORD, for 2-PCV-1-30, the applicable pre-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [6.1] OBSERVE the system piping associated with 2-PCV-1-30 during the transient AND VERIFY the results are acceptable. (ACC CRIT 5.2.1) ________ [6.2] RECORD, for 2-PCV-1-30, the applicable post-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [7] PERFORM a post-transient walkdown of the test boundary AND VERIFY no damage has occurred. [7.1] 2-PCV-1-5 ________ [7.2] 2-PCV-1-12 ________ [7.3] 2-PCV-1-23 ________ [7.4] 2-PCV-1-30 ________ [8] REVIEW DAS data recorded for 2-PCV-1-5 AND COMPLETE Attachment 5. (ACC CRIT 5.2.2) ________

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6.1.2 Atmospheric Relief Valve Lift, Transient (continued)

[9] LABEL AND ATTACH to Attachment 8 a sample of the velocity and displacement data for the sensors on Attachment 5. ________ [10] ENSURE the system flow diagram is ATTACHED to Attachment 9 and MARKED to indicate the piping observed during this flow mode. ________ 6.1.3 Turbine Bypass, Transients [1] VERIFY prerequisites listed in Section 4.0 for Subsection 6.1 have been completed. ________ [2] RECORD the procedure used to operate the system ________ Procedure No./Subsection No. / [3] RECORD, for 2-FCV-1-103, the applicable pre-transient flow, pressure, temperature data and instrument numbers. N/A any unused blanks. ________ Flow/Instrument Press/Instrument Temp/Instrument / / / / / / [3.1] ACTIVATE the DAS for 2-FCV-1-103 approximately 30 seconds prior to initiation of the Turbine Bypass transient for the sensors listed on Attachment 5. ________ [3.2] OBSERVE the system piping associated with 2-FCV-1-103 during the transient.

________ [3.3] DEACTIVATE the DAS approximately 60 seconds after the transient has subsided. ________

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