OL - TVA Letter to NRC_03-26-13_2-PTI-002-02 & 2-PTI-084-01 Transmittal to NRC

ML13099A436
Person / Time
Site:	Watts Bar
Issue date:	03/26/2013
From:	- No Known Affiliation
To:	Division of Operating Reactor Licensing
References
Download: ML13099A436 (242)
v • d • e

Text

WBN2Public Resource From: Boyd, Desiree L [dlboyd@tva.gov]

Sent: Tuesday, March 26, 2013 2:38 PM To: Hon, Andrew; Epperson, Dan; Quichocho, Jessie; Poole, Justin Cc: Arent, Gordon; Hamill, Carol L; Boyd, Desiree L

Subject:

TVA letter to NRC_03-26-13_2-PTI-002-02 & 2-PTI-084-01 transmittal to NRC Attachments: 03-26-13_2-PTI-002-02 & 2-PTI-084-01 transmittal to NRC_Final.pdf Please see attached TVA letter that was sent to the NRC today.

Thank You

~*~*~*~*~*~*~*~*~*~*~

Désireé L. Boyd WBN Unit 2 Licensing dlboyd@tva.gov 423-365-8764 NOTICE: This electronic message transmission contains information which may be TVA SENSITIVE, TVA RESTRICTED, or TVA CONFIDENTIAL. Any misuse or unauthorized disclosure can result in civil penalties. If you are not the intended recipient, be aware that any disclosure, copying, distribution or use of the content of this information is prohibited. If you have receive this communication in error, please notify me immediately by e-mail and delete the original message.

1

Hearing Identifier: Watts_Bar_2_Operating_LA_Public Email Number: 797 Mail Envelope Properties (7AB41F650F76BD44B5BCAB7C0CCABFAF3FAA5EF3)

Subject:

TVA letter to NRC_03-26-13_2-PTI-002-02 & 2-PTI-084-01 transmittal to NRC Sent Date: 3/26/2013 2:38:16 PM Received Date: 3/26/2013 2:38:43 PM From: Boyd, Desiree L Created By: dlboyd@tva.gov Recipients:

"Arent, Gordon" <garent@tva.gov>

Tracking Status: None "Hamill, Carol L" <clhamill@tva.gov>

Tracking Status: None "Boyd, Desiree L" <dlboyd@tva.gov>

Tracking Status: None "Hon, Andrew" <Andrew.Hon@nrc.gov>

Tracking Status: None "Epperson, Dan" <Dan.Epperson@nrc.gov>

Tracking Status: None "Quichocho, Jessie" <Jessie.Quichocho@nrc.gov>

Tracking Status: None "Poole, Justin" <Justin.Poole@nrc.gov>

Tracking Status: None Post Office: TVANUCXVS2.main.tva.gov Files Size Date & Time MESSAGE 759 3/26/2013 2:38:43 PM 03-26-13_2-PTI-002-02 & 2-PTI-084-01 transmittal to NRC_Final.pdf 1366746 Options Priority: Standard Return Notification: No Reply Requested: Yes Sensitivity: Normal Expiration Date:

Recipients Received:

U.S. Nuclear Regulatory Commission Page 2 March 26, 2013 cc (Enclosures):

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

U.S. Nuclear Regulatory Commission Page 3 March 26, 2013 bcc (Enclosures):

Jessie Quichocho U.S. Nuclear Regulatory Commission MS 08G9A One White Flint North 11555 Rockville Pike Rockville, Maryland 20852-2738 Fred Brown, Deputy Regional Administrator for Construction U. S. Nuclear Regulatory Commission Region II Marquis One Tower 245 Peachtree Center Ave., NE Suite 1200 Atlanta, Georgia 30303-1257

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 3 of 198 Table of Contents

1.0 INTRODUCTION

.......................................................................................................... 6 1.1 Test Objectives ............................................................................................................. 6 1.2 Scope............................................................................................................................ 6

2.0 REFERENCES

............................................................................................................. 7 2.1 Performance References .............................................................................................. 7 2.2 Developmental References........................................................................................... 7 3.0 PRECAUTIONS AND LIMITATIONS ......................................................................... 13 4.0 PREREQUISITE ACTIONS ........................................................................................ 15 4.1 Preliminary Actions ..................................................................................................... 15 4.2 Special Tools, Measuring & Test Equipment, Parts & Supplies .................................. 19 4.3 Field Preparations ....................................................................................................... 20 4.4 Approvals and Notifications ........................................................................................ 27 5.0 ACCEPTANCE CRITERIA ......................................................................................... 28 6.0 PERFORMANCE ........................................................................................................ 33 6.1 Condenser Vacuum Exhaust Bypass Valve Logic ...................................................... 34 6.2 Condenser Vacuum Breaker Valve Logic ................................................................... 35 6.3 Condenser Vacuum Pump Seal Water Makeup Valves Logic .................................... 37 6.3.1 CVP 2A Seal Water Makeup Valve Logic ..................................................... 38 6.3.2 CVP 2B Seal Water Makeup Valve Logic ..................................................... 39 6.3.3 CVP 2C Seal Water Makeup Valve Logic ..................................................... 40 6.4 Condenser Vacuum Pump Recirculating Pumps Logic............................................... 41 6.4.1 CVP 2A Seal Water Recirculating Pump Manual Logic ................................ 41 6.4.2 CVP 2B Seal Water Recirculating Pump Manual Logic ................................ 43 6.4.3 CVP 2C Seal Water Recirculating Pump Manual Logic ................................ 45 6.5 Condenser Vacuum Pumps Logic .............................................................................. 47 6.5.1 CVP 2A Logic ............................................................................................... 48 6.5.2 CVP 2B Logic ............................................................................................... 60 6.5.3 CVP 2C Logic ............................................................................................... 72

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 4 of 198 Table of Contents (continued) 6.5.4 CVP Auto-Start on Low Condenser Vacuum ................................................ 84 6.6 Condenser Vacuum Pumps Performance................................................................... 90 6.6.1 Condenser Vacuum Pump 2A Individual Performance ................................. 90 6.6.2 Condenser Vacuum Pump 2B Individual Performance ............................... 101 6.6.3 Condenser Vacuum Pump 2C Individual Performance ............................... 111 6.6.4 Condenser Evacuation................................................................................ 121 7.0 POST-PERFORMANCE ACTIVITIES ...................................................................... 131 8.0 RECORDS ................................................................................................................ 134 Appendix A: TEST PROCEDURES/INSTRUCTIONS REFERENCE REVIEW ................................................................................................... 135 Appendix B: TEMPORARY CONDITION LOG ............................................................. 137 Appendix C: PERMANENT PLANT INSTRUMENTATION LOG .................................. 138 Appendix D: SWITCH LINEUP ..................................................................................... 142 Appendix E: ELECTRICAL LINEUP ............................................................................. 143 Appendix F: INITIAL VALVE LINEUP .......................................................................... 145 Appendix G: VALVE LINEUP FOR CONDENSER EVACUATION ............................... 148 Appendix H: BACKGROUND CALCULATIONS .......................................................... 164 Data Sheet 1: Condenser Vacuum Pump 2A Performance ......................................... 174 Data Sheet 2: Condenser Vacuum Pump 2B Performance ......................................... 180 Data Sheet 3: Condenser Vacuum Pump 2C Performance ......................................... 186 Data Sheet 4: Condenser Vacuum Pump Air Flow Traverse ...................................... 192 Data Sheet 5: Condenser Evacuation Performance Data ........................................... 193 Data Sheet 6: Barometric Pressure .............................................................................. 195 : Condenser Vacuum Pump 2A Curve .................................................... 196

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 5 of 198 Table of Contents (continued) : Condenser Vacuum Pump 2B Curve .................................................... 197 : Condenser Vacuum Pump 2C Curve .................................................... 198

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 6 of 198 Date ________

1.0 INTRODUCTION

1.1 Test Objectives Demonstrate the proper operation of the Condenser Vacuum Pumps (CVPs) and their associated support equipment.

Demonstrate the integrity of the Main Condenser and Main Feed Pump Turbine (MFPT) Condensers.

1.2 Scope A. Each CVPs Seal Water Tank level controls function properly.

B. Each CVP Seal Water Recirculating Pump operates correctly from its respective handswitches and starts automatically when its respective CVP starts.

C. Each CVP operates correctly from its respective handswitches in the Main Control Room and on local panels, and indicating lights indicate correct status.

D. Main Control Room alarms for low CVP seal water pressure, low Main Condenser vacuum, low MFPT Condenser vacuum, and CVP motor tripout function properly.

E. Each CVP suction and discharge valves function properly.

F. Each CVP starts automatically on low suction header vacuum.

G. Each CVP operates within design parameters throughout entire operating range.

H. The Condenser Vacuum Breaker and Condenser Vacuum Exhaust Bypass valves function properly.

I. This instruction does not:

1. Quantitatively verify instrument setpoints. Instrument setpoints are calibrated prior to performance of this instruction. This instruction only verifies qualitative operation of instrumentation.

2. Verify acceptable Main Condenser air in leakage at power operation.

Main Condenser air in leakage at power operation is tested/verified during Power Ascension Testing.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 7 of 198 Date ________

2.0 REFERENCES

2.1 Performance References A. SMP-7.0, Control Of Cleanness, Layup And Flushing B. SMP-9.0, Conduct of Test C. TI-300, Electrical Arc Flash Personal Protective Equipment & Protection Boundary Matrices D. GOI-7, Generic Equipment Operating Guidelines E. 2-SOI-2&3.01, Condensate and Feedwater System F. SOI-30.01, Turbine Building Ventilation System G. 2-SOI-37.01, Gland Seal Water System H. 2-SOI-47.01, Turbine Turning Gear Operation I. 2-SOI-47.03, Main Turbine Steam Seal System 2.2 Developmental References A. Final Safety Analysis Report, Amendment 109

1. Section 10.4.2, Main Condenser Evacuation System

2. Table 14.2-1, Sheet 68 & 69, Condensate and Condenser Vacuum System Test Summary B. Drawings

1. Flow Diagrams

a. 2-47W801-1, Rev 11, MAIN & REHEAT STEAM

b. 2-47W801-2, Rev 16, STEAM GENERATOR BLOWDOWN SYSTEM

c. 2-47W802-1, Rev 10, EXTRACTION STEAM

d. 2-47W803-1, Rev 14, FEEDWATER

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 8 of 198 Date ________

2.2 Developmental References (continued)

e. 2-47W804-1, Rev 13, CONDENSATE DRA 53307-030, Rev 0 DRA 53307-031, Rev 0 DRA 52340-092, Rev 0 DRA 52340-093, Rev 0

f. 2-47W804-2, Rev 14, CONDENSATE

g. 2-47W804-3, Rev 5, CONDENSATE

h. 2-47W805-1, Rev 15, HIGH PRESSURE HEATER DRAINS AND VENTS

i. 2-47W805-2, Rev 14, LOW PRESSURE HEATER DRAINS & VENTS

j. 2-47W805-3, Rev 7, HP & LP - HEATER DRAINS AND VENTS

k. 2-47W805-4, Rev 11, HP & LP - HEATER DRAINS AND VENTS

l. 2-47W805-5, Rev 12, HIGH PRESSURE HEATER DRAINS AND VENTS

m. 2-47W807-1, Rev 14, TURBINE DRAINS AND MISCELLANEOUS PIPING

n. 2-47W815-1, Rev 2, AUXILIARY BOILER SYSTEM

o. 2-47W838-1, Rev 8, CONDENSATE DEMINERALIZER SYSTEM

p. 2-47W841-1, Rev 7, GLAND SEAL WATER

q. 2-47W848-2, Rev 17, CONTROL AIR

r. 2-47W848-3, Rev 14, CONTROL AIR

2. Electrical

a. 2-45W760-2-2, Rev. 3, CONDENSATE SYSTEM SCHEMATIC DIAGRAMS

b. 2-45W760-2-4, Rev. 3, CONDENSATE SYSTEM SCHEMATIC DIAGRAMS

c. 2-45W600-2, Rev. 2, CONDENSATE SYSTEM SCHEMATIC DIAGRAMS

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 9 of 198 Date ________

2.2 Developmental References (continued)

d. 2-45W600-6-2, Rev. 2, HEATER DRAIN & VENTS SCHEMATIC DIAGRAMS

e. 2-45W760-55-1, Rev 3, ANNUNCIATOR SYSTEM SCHEMATIC DIAGRAMS

f. 2-45W600-57-20, Rev. 5, SEPERATION MISC AUX RELAYS SCHEMATIC DIAGRAMS

g. 2-45W600-57-21, Rev. 3, SEPERATION & MISC AUX RELAYS SCHEMATIC DIAGRAMS

h. 2-45W760-30-7, Rev 4, VENTILATING SYSTEM SCHEMATIC DIAGRAMS

i. 2-45W760-203-1, Rev. 0, 480V UNIT AUXILIARY POWER SCHEMATIC DIAGRAM

j. 2-45W747-1, Rev 4, 480V UNIT BOARD 2A SINGLE LINE

k. 2-45W747-2, Rev 4, 480V UNIT BOARD 2B SINGLE LINE

l. 2-45W753-1, Rev 5, 480V TURBINE MOV BD 2A SINGLE LINE

m. 2-45W753-5, Rev 4, 480V TURBINE MOV BD 2B SINGLE LINE

n. 1-45W708-2, Rev 36, MISC 120V AC DISTR PANELS CONNECTION DIAGRAMS

o. 1-45W2646-3, Rev 17, UNIT CONTROL BD 2-M-7 CONNECTION DIAGRAMS

p. 2-45W2747-4, Rev 1, 480V UNIT BOARDS CONNECTION DIAGRAMS

q. 6947D02, Rev H, LVME DS SWGR 480V 3 PH 60 HZ SUBSTATION INTERNALS

r. 6948D26, Rev 905, LVME DS SWGR 480V UNIT BD 2A 480V 3PH 60HZ SUBSTATION CONN DIAG UNIT 3 DRA 54155-042, Rev 1

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 10 of 198 Date ________

2.2 Developmental References (continued)

s. 6948D28, Rev 906, LVME DS SWGR 480V UNIT BD 2A 480V 3PH 60HZ SUBSTATION CONN DIAG UNIT 5 DRA 58324-066, Rev 0 DRA 58324-068, Rev 0 DRA 58324-069, Rev 0

t. 6948D35, Rev 907, LVME DS SWGR 480V UNIT BD 2B 480V 3PH 60HZ SUBSTATION CONN DIAG UNIT 4 DRA 54155-034, Rev 1

u. 6948D37, Rev 908, LVME DS SWGR 480V UNIT BD 2B 480V 3PH 60HZ SUBSTATION CONN DIAG UNIT 6 DRA 58324-074, Rev 0 DRA 58324-076, Rev 0 DRA 58324-077, Rev 0

3. Logic/Control

a. 2-47W610-2-1, Rev. 9, CONTROL DIAGRAM CONDENSATE SYSTEM

b. 2-47W610-2-2, Rev. 9, CONTROL DIAGRAM CONDENSATE SYSTEM

c. 2-47W610-2-3, Rev. 6, CONTROL DIAGRAM CONDENSATE SYSTEM

d. 2-47W611-2-1, Rev 4, LOGIC DIAGRAM CONDENSATE

e. 2-47W610-6-5, Rev 4, CONTROL DIAGRAM HEATER DRAINS &

VENT SYSTEM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 11 of 198 Date ________

2.2 Developmental References (continued)

4. Other

a. 2-45B655-E1B, Rev 0, ANNUNCIATOR WINDOW BOX XA-55-1B ENGRAVING

b. 2-45B655-1B, Rev 1, ANNUNCIATOR INPUTS WINDOW BOX XA-55-1B

c. 2-45B655-E3A, Rev 1, ANNUNCIATOR WINDOW BOX XA-55-3A ENGRAVING

d. 2-45B655-3A, Rev 2, ANNUNCIATOR INPUTS WINDOW BOX XA-55-3A DRA 52378-214, Rev 0

e. 2-45B655-E3B, Rev 1, ANNUNCIATOR WINDOW BOX XA-55-3B ENGRAVING

f. 2-45B655-3B, Rev 2, ANNUNCIATOR INPUTS WINDOW BOX XA-55-3B

g. 2-47A615-0, Rev 1, INTEGRATED COMPUTER SYSTEM TERMINATIONS AND I/O LIST (Pages 4, 13, 14, 22, & 30 of 30)

C. Documents

1. Vendor Manuals

a. WBN-VTD-N010-0020; Rev. 7, Installation and Operation of Nash Condenser Exhaust System Model AT-2004E

b. WBN-VTD-J057-0010, Rev 0, Jo-Bell General Mounting & Operating Instructions for Type R Explosion Proof

2. Other Documents

a. 2-TSD-2-2, Rev 1, Condenser Vacuum System

b. WBN2-2-4002, Rev 1, Condensate System

c. 0-MI-57.002, Rev 1, Westinghouse DS Circuit Breaker Routine Maintenance, Inspection, and Testing

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 12 of 198 Date ________

2.2 Developmental References (continued)

3. Scaling & Setpoint Documents

a. SSD-2-LS-2-169, Rev. 0, Condenser Vac Pump A Seal Water Level

b. SSD-2-PDS-2-171, Rev.0, Condenser Vac Pump A Inlet Valve Control

c. SSD-2-PS-2-171, Rev. 0, Condenser Vac Pump A Control

d. SSD-2-PS-2-250, Rev. 0; Condenser Vac Pump A Back Pressure Control

e. SSD-2-LS-2-174, Rev. 0, Condenser Vac Pump B Seal Water Level

f. SSD-2-PDS-2-176, Rev.0, Condenser Vac Pump B Inlet Valve Control

g. SSD-2-PS-2-176, Rev. 0, Condenser Vac Pump B Control

h. SSD-2-PS-2-246, Rev. 0; Condenser Vac Pump B Back Pressure Control

i. SSD-2-LS-2-179, Rev. 0, Condenser Vac Pump C Seal Water Level

j. SSD-2-PDS-2-181, Rev.0, Condenser Vac Pump C Inlet Valve Control

k. SSD-2-PS-2-181, Rev. 0, Condenser Vac Pump C Control

l. SSD-2-PS-2-248, Rev. 0; Condenser Vac Pump C Back Pressure Control

m. SSD-2-LPP-2-14, Rev 2, MFPT Condenser 2A Shell Vacuum Pressure

n. SSD-2-LPP-2-15, Rev 1, MFPT Condenser 2B Shell Vacuum Pressure

o. SSD-2-LPP-2-7, Rev 3, Condenser Zone B Hotwell Narrow Range Pressure

p. SSD-2-LPP-2-10, Rev 2, Condenser Zone C Hotwell Narrow Range Pressure

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 13 of 198 Date ________

3.0 PRECAUTIONS AND LIMITATIONS A. Standard precautions shall be followed for working around energized electrical equipment in accordance with TI-300 and TVA Safety Manual Procedure 1021.

B. 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.

C. Discrepancies between component ID tags and the description in a procedure/instruction do not require a Test Deficiency Notice (TDN) in accordance with SMP-14.0, if the UNIDs match, exclusive of place-keeping zeros and train designators (e.g. 2-HS-31-468 vs. 2-HS-031-0468) and the noun description is sufficient to identify the component. If the component label needs to be changed, a Tag Request Form (TR Card) should be processed in accordance with TI-12.14. Make an entry in the CTL and continue testing.

D. IF/THEN steps may be N/Ad if stated condition does not exist.

E. All wires removed/lifted from a terminal shall be identified and taped or covered with an insulator to prevent personnel or equipment hazard and possible spurious initiations. The wires should be grouped together and labeled with the work implementing document number that required them to be lifted if left unattended.

F. Condenser Vacuum Pump Switchgear has Overload Trip Switch (OTS) reset coils. Placing the Handswitch to STOP energizes the OTS Reset Coil and resets the OTS. The OTS Reset Coil should only be energized momentarily; the OTS contact in series with the Reset Coil should open to de-energize the coil. Do not hold the Handswitch in STOP if the coil does not de-energize to avoid overheating the coil.

G. When installing fuses with actuators, ensure that the actuating rod is oriented correctly to provide for proper alarm initiation and visual indication.

H. All open problems are to be tracked by a corrective action document and entered on the appropriate system punchlist.

I. Problems identified during the test shall be annotated on the CTL from SMP-9.0 including a description of the problem, the procedure step when/where the problem was identified, corrective action steps taken to resolve the problem, and the number of the corrective action document, if one was required.

J. Observe all Radiation Protection (RP) requirements when working in or near radiologically controlled areas.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 14 of 198 Date ________

3.0 PRECAUTIONS AND LIMITATIONS (continued)

K. Ensure there are no adverse effects to the operation of Unit 1 structures, systems, or components.

L. Test personnel will coordinate with Unit 1 operations when manipulating Unit 1 equipment if required.

M. System water chemistry is within system specifiable parameters especially for fluids supplied from external sources.

N. During the performance of this procedure visual observation of piping and components is required. This includes steady state and transient operations with visual confirmation that vibration is not excessive.

O. If the vibration is determined to be excessive the Test Engineer shall initiate a TDN.

P. This instruction uses both Absolute Pressure and Vacuum Pressure to quantify condenser pressure. Absolute Pressure (measured at inHgA) is zero-referenced against a perfect vacuum, so it is the true total pressure in the system. (Barometric Pressure is an example of an absolute pressure).

Vacuum Pressure (measured at inHgVac) is zero-referenced against atmospheric pressure, so it is the difference between system pressure and atmospheric pressure. Decreasing vacuum pressure corresponds to increasing absolute pressure and vice versa.

Q. The terms Barometric Pressure and Atmospheric Pressure are used interchangeable in this instruction.

R. System air inleakage is not checked with exhaust unit Rotameter in this test.

S. Use caution when opening 2-PCV-6-330 and 2-DRV-2-713, -714, and -715.

Ensure immediate area around these valves is free of debris that could be drawn into the Condenser or Condenser Vacuum Pumps during testing.

Ensure dirt shield and screen are installed at 2-PCV-6-330 inlet.

T. Use caution when installing or removing test gauges; residual pressure or vacuum may be present.

U. Refer to GOI-7 for Condenser Vacuum Pump motor starting limitations.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 15 of 198 Date ________

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 section or 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. ________

[2] OBTAIN copies of the applicable forms from the latest revision of SMP-9.0, AND ATTACH to this PTI for use during the performance of this PTI. ________

[3] ENSURE changes to the references listed on Appendix A, have been reviewed, and determined NOT to adversely affect the test performance. ________

[4] VERIFY current revisions and change paper for the 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 data package. ________

[5] EVALUATE open items on Watts Bar Integrated Task Equipment List (WITEL), AND ENSURE that they will NOT adversely affect the test performance. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 16 of 198 Date ________

4.1 Preliminary Actions (continued)

[6] ENSURE required Component Testing has been completed prior to start of test.

A. Section 6.1 ________

B. Section 6.2 ________

C. Section 6.3 ________

D. Section 6.4 ________

E. Section 6.5 ________

F. Section 6.6 ________

[7] ENSURE outstanding Design Change Notices (DCNs),

Engineering Document Construction Releases (EDCRs) or Temporary Alterations (TAs) do NOT adversely impact testing, AND ATTACH documentation of DCNs, EDCRs, and TAs that were reviewed to the data package. ________

[8] ENSURE a review of outstanding Clearances has been coordinated with Operations for impact to the test performance, AND RECORD in Appendix B, Temporary Condition Log if required. ________

[9] VERIFY system cleanliness as required for the performance of this test has been completed in accordance with SMP-7.0.

A. Section 6.3 ________

B. Section 6.4 ________

C. Section 6.5 ________

D. Section 6.6 ________

[10] ENSURE components contained within the boundaries of this test are under the jurisdictional control of Preoperational Startup Engineering (PSE) and/or Plant Operations. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 17 of 198 Date ________

4.1 Preliminary Actions (continued)

[11] PERFORM a pretest walkdown on equipment to be tested to ensure no conditions exist that will impact test performance.

A. Section 6.1 ________

B. Section 6.2 ________

C. Section 6.3 ________

D. Section 6.4 ________

E. Section 6.5 ________

F. Section 6.6 ________

[12] REVIEW preventive maintenance records for equipment within the scope of this test, AND VERIFY no conditions exist that will impact test performance.

A. Section 6.1 ________

B. Section 6.2 ________

C. Section 6.3 ________

D. Section 6.4 ________

E. Section 6.5 ________

F. Section 6.6 ________

[13] CONDUCT a pretest briefing with Test and Operations personnel in accordance with SMP-9.0.

A. Section 6.1 ________

B. Section 6.2 ________

C. Section 6.3 ________

D. Section 6.4 ________

E. Section 6.5 ________

F. Section 6.6 ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 18 of 198 Date ________

4.1 Preliminary Actions (continued)

[14] ENSURE that communications are available for areas where testing is to be conducted.

A. Section 6.1 ________

B. Section 6.2 ________

C. Section 6.3 ________

D. Section 6.4 ________

E. Section 6.5 ________

F. Section 6.6 ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 19 of 198 Date ________

4.2 Special Tools, Measuring & Test Equipment, Parts & Supplies

[1] OBTAIN the following Measuring & Test Equipment (M&TE),

or equivalent, AND RECORD on the M&TE Log:

MINIMUM DESCRIPTION REQUIRED ACCURACY RANGE Digital Stopwatch* N/A r0.1 sec/hr 600V AC Clamp-on Multi-meter r2.4% of reading + 1 digit 200A Torque Screwdriver 0 - 35 in-lbs r5% of scale Barometer 27 - 31 inHg r0.4% of range Hotwire Anemometer 0-3000 FPM r5% of reading Vacuum Gauge A 0 - 30inHg r0.5% of scale Vacuum Gauge B 0 - 30inHg r0.5% of scale Vacuum Gauge C 0 - 30inHg r0.5% of scale Vacuum Gauge D 0 - 30inHg r0.5% of scale Pressure Gauge A 0 - 5 PSI r1% of scale Pressure Gauge B 0 - 5 PSI r1% of scale Pressure Gauge C 0 - 5 PSI r1% of scale

• Digital stopwatches are calibrated one time only and do not require recalibration.

[2] ENSURE the following are available:

A. One (1) handheld jumper for momentary use ________

B. Two (2) switched jumpers ________

C. Two (2) jumpers for use on secondary contacts in 480V switchgear ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 20 of 198 Date ________

4.3 Field Preparations

[1] ENSURE the following systems are in service or operable to the extent necessary to perform this test:

A. System 1, Main Steam* ________

B. System 2, Condensate* ________

C. System 3A, Main Feedwater* ________

D. System 5, Extraction Steam* ________

E. System 6, Heater Drains and Vents* ________

F. System 7, Turbine Extraction Traps and Drains* ________

G. System 12, Auxiliary Boiler*

(N/A if seal steam is to be supplied by Unit 1) ________

H. System 24, Raw Cooling Water ________

I. System 30O, Turbine Building Pump & Space Coolers ________

J. System 32, Control Air ________

K. System 37, Gland Seal Water ________

L. System 46A, Main Feedwater Controls* ________

M. System 47, Turbogenerator Controls* ________

N. System 261, Integrated Computer System ________

O. System 203, 480V Unit Power ________

P. System 209, Turbine MOV Power ________

• System included only because it is required to support condenser evacuation

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 21 of 198 Date ________

4.3 Field Preparations (continued)

NOTES

1) Any Annunciator points associated with 2-MUX-55-12 and 2-MUX-55-13 ONLY have master switches at the bottom of each terminal strip.

2) All points associated with 2-TBK-55-25, 2-TBK-55-26, 2-TBK-55-27, and 2-TBK-55-28 will not have individual switches or a master switch.

[2] ENSURE System 55, Annunciator and Sequential Events Recording System, applicable TBK Switches are ON, the applicable Master Switches are ON, and window software input(s) are ENABLED for the following Annunciator Windows.

A. 2-XA-55-1B-14E, M-1 THRU M-6 MOTOR TRIPOUT ________

B. 2-XA-55-3A-46C, CONDENSER VACUUM LO ________

C. 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO ________

D. 2-XA-55-3A-48C, VACUUM PMP B SEAL WATER PRESS LO ________

E. 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO ________

F. 2-XA-55-3B-55D, MFPT CONDENSER VACUUM LO ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 22 of 198 Date ________

4.3 Field Preparations (continued)

[3] ENSURE the following ICS Points are in scan:

A. P2270A, MFPT A CONDENSER VACUUM PRESS ________

B. P2271A, MFPT B CONDENSER VACUUM PRESS ________

C. P2263A, COND ZONE A BACKPRESSURE ________

D. P2264A, COND ZONE B BACKPRESSURE ________

E. P2265A, COND ZONE C BACKPRESSURE ________

F. P1133A, COND ZONE C HOTWELL PRESS ________

G. Y9006C, CONDENSER VACUUM LOW ________

H. F2260A, COND VAC PMP AIR EXH FLOW 1 ________

I. F2700A, COND VAC PMP AIR EXHAUST FLOW 2 ________

J. T2467A, COND VAC HDR TEMP ________

K. Y8003A, RCW TEMP UNIT 2 ________

[4] ENSURE plant instruments required for test performance listed on Appendix C, Permanent Plant Instrumentation Log, have been placed in service and are within their calibration interval, AND RECORD in Appendix C.

A. Section 6.3 ________

B. Section 6.5 ________

C. Section 6.6 ________

[5] ENSURE M&TE required for test performance has been (as required) filled, vented, placed in service and recorded on M&TE Log in SMP-9.0.

A. Section 6.5 ________

B. Section 6.6 ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 23 of 198 Date ________

4.3 Field Preparations (continued)

[6] VERIFY M&TE calibration due dates will support the completion of this test performance.

A. Section 6.5 ________

B. Section 6.6 ________

[7] ENSURE Gland Seal Water is established to the Condenser Vacuum Pumps per 2-SOI-37.01 or equivalent approved Temporary Operating Plan (TOP) for this purpose.

Instruction Used: 2-SOI-37.01 TOP: _____________ ________

[8] ENSURE Raw Cooling Water is in service to the Condenser Vacuum Pump Seal Water coolers per 2-SOI-2&3.01 or equivalent approved TOP for this purpose.

Instruction Used: 2-SOI-2&3.01 TOP: ____________ ________

[9] ENSURE Raw Cooling Water is in service to the Condenser Vacuum Pump Area Cooler per SOI-30.01 or equivalent approved TOP for this purpose.

Instruction Used: SOI-30.01 TOP: _______________ ________

[10] PERFORM switch lineup per Appendix D. ________

[11] PERFORM electrical breaker lineup per Appendix E. ________

[12] PERFORM valve lineup per Appendix F. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 24 of 198 Date ________

4.3 Field Preparations (continued)

[13] ENSURE permanent screen and dirt shield is installed on suction of 2-PCV-6-330, CONDENSER VACUUM BREAKER,

[T14G/720], and ENSURE there is no debris in the area of suction around 2-PCV-6-330.

A. Section 6.2 ________

B. Section 6.6 ________

[14] ENSURE temporary test connections are installed in the following instrument sense lines:

A. Downstream (low side/pump side) sense line for 2-PDS-2-171, COND VAC PMP A INLET VLV CONT,

[T14H/685]. ________

B. Downstream (low side/pump side) sense line for 2-PDS-2-176, COND VAC PMP B INLET VLV CONT,

[T14G/685]. ________

C. Downstream (low side/pump side) sense line for 2-PDS-2-181, COND VAC PMP C INLET VLV CONT,

[T14G/685]. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 25 of 198 Date ________

4.3 Field Preparations (continued)

[15] INSTALL the following temporary 0-30 inHg vacuum Test Gauges at the following locations.

A. Vacuum Gauge A:

Downstream (low side/pump side) test connection of 2-PDS-2-171, COND VAC PMP A INLET VLV CONT

[T14H/685]. ________

1st CV B. Vacuum Gauge B:

Downstream (low side/pump side) test connection of 2-PDS-2-176, COND VAC PMP B INLET VLV CONT

[T14G/685]. ________

1st CV C. Vacuum Gauge C:

Downstream (low side/pump side) test connection of 2-PDS-2-181, COND VAC PMP C INLET VLV CONT

[T14G/685]. ________

1st CV D. Vacuum Gauge D:

Upstream (high side) test connection of 2-PDI-2-175, CONDENSER VACUUM PMP 2B SUCTION STRN PRESS, at 2-ISIV-2-388B, [2-L-509, T15G/685]. ________

1st CV

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 26 of 198 Date ________

4.3 Field Preparations (continued)

[16] INSTALL the following temporary 0-5 PSI pressure Test Gauges at the following locations:

A. Pressure Gauge A:

at the test connection downstream of 2-ISV-37-17, PRESSURE SWITCH ISOLATION VAC PUMP 2A,

[T14H/685]. ________

1st CV B. Pressure Gauge B:

at the test connection downstream of 2-ISV-37-18, PRESSURE SWITCH ISOLATION VAC PUMP 2B,

[T14G/685]. ________

1st CV C. Pressure Gauge C:

at the test connection downstream of 2-ISV-37-19, PRESSURE SWITCH ISOLATION VAC PUMP 2C,

[T14G/685]. ________

1st CV

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 27 of 198 Date ________

4.4 Approvals and Notifications

[1] OBTAIN permission of the Preoperational Startup Manager to start the test.

Preoperational Startup Manager Date Signature

[2] OBTAIN the Unit 2 Supervisor's (US/SRO) or Shift Managers (SM) authorization.

U2 US/SRO/SM Signature Date

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 28 of 198 Date ________

5.0 ACCEPTANCE CRITERIA A. The Condenser Vacuum Pumps Seal Water Tank level is maintained correctly Opens on decreasing Closes on increasing COMPONENT Seal Water Tank Level. Seal Water Tank Level 2-LSV-2-169 6.3.1[4] 6.3.1[6]

2-LSV-2-174 6.3.2[4] 6.3.2[6]

2-LSV-2-179 6.3.3[4] 6.3.3[6]

B. The Condenser Vacuum Pumps Seal Water Recirculation Pumps manual and automatic controls, interlocks, annunciations, alarms, and indications operate correctly.

COMPONENT Controls and Indications Alarms and Annunciations 2-PMP-2-171D Subsection 6.4.1 Subsection 6.5.1 2-PMP-2-176D Subsection 6.4.2 Subsection 6.5.2 2-PMP-2-181D Subsection 6.4.3 Subsection 6.5.3 C. The Condenser Vacuum Pumps Seal Water Recirculation Pumps automatically start when their respective Condenser Vacuum Pump starts.

COMPONENT Auto-start on associated CVP start 2-PMP-2-171D 6.5.1[15]

2-PMP-2-176D 6.5.2[15]

2-PMP-2-181D 6.5.3[15]

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 29 of 198 Date ________

5.0 ACCEPTANCE CRITERIA (continued)

D. The Condenser Vacuum Pumps manual and automatic controls, interlocks, annunciations, alarms, and indications operate correctly.

COMPONENT Controls and Indications 2-PMP-2-171 Subsection 6.5.1 2-PMP-2-176 Subsection 6.5.2 2-PMP-2-181 Subsection 6.5.3 E. The Condenser Vacuum Pumps automatically start on low pump suction vacuum.

COMPONENT Auto-start on low vacuum 2-PMP-2-171 6.5.4[29]

2-PMP-2-176 6.5.4[23]

2-PMP-2-181 6.5.4[26]

F. The Condenser Vacuum Pumps respond appropriately to a Bus Undervoltage condition.

Stops on Bus Restarts after bus COMPONENT Undervoltage voltage is restored 2-PMP-2-171 6.5.1[27] 6.5.1[30]

2-PMP-2-176 6.5.2[27] 6.5.2[30]

2-PMP-2-181 6.5.3[27] 6.5.3[30]

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 30 of 198 Date ________

5.0 ACCEPTANCE CRITERIA (continued)

G. The Condenser Vacuum Pumps Suction Valves operate correctly.

Opens on decreasing 'P between COMPONENT associated CVP and Suction Header 2-FCV-2-171 6.5.4[17]

2-FCV-2-176 6.5.4[10]

2-FCV-2-181 6.5.4[13]

H. The Condenser Vacuum Pumps Backpressure Relief Valves operate correctly.

Opens on increasing pressure in COMPONENT associated CVP Seal Water Tank 2-FCV-2-250 6.5.1[51]

2-FCV-2-246 6.5.2[51]

2-FCV-2-248 6.5.3[51]

I. The Condenser Vacuum Pump Exhaust Bypass Valve operates correctly and indicating lights show correct valve position.

COMPONENT Controls and Indications 2-FCV-2-255 Section 6.1 J. The Condenser Vacuum Breaker Valve operates correctly COMPONENT Controls and Indications 2-PCV-6-330 Section 6.2

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 31 of 198 Date ________

5.0 ACCEPTANCE CRITERIA (continued)

K. The Condenser Vacuum Pumps operate within their design parameters.

Condenser Vacuum Pump 2A Suction Measured Suction Motor Operates at Air Flow3 Pressure Pressure4 d 114.5 kVA5 Atmospheric N/A N/A 6.6.1[11]

15 inHgA d 14.83 inHgA 6.6.1[16] t 894 SCFM1 6.6.1[16] 6.6.1[16]

5 inHgA d 4.83 inHgA 6.6.1[20] t 276 SCFM 6.6.1[20] 6.6.1[20]

3 inHgA d 2.83 inHgA 6.6.1[23] t 160 SCFM 6.6.1[23] 6.6.1[23]

2 inHgA d 1.83 inHgA 6.6.1[26] t 95.5 SCFM 6.6.1[26] 6.6.1[26]

1 inHgA d 0.83 inHgA 6.6.1[30] t 32.5 SCFM2 6.6.1[30] 6.6.1[30]

Condenser Vacuum Pump 2B Suction Measured Suction Motor Operates at Air Flow3 Pressure Pressure4 d 114.5 kVA5 Atmospheric N/A N/A 6.6.2[11]

15 inHgA d 14.83 inHgA 6.6.2[16] t 849 SCFM1 6.6.2[16] 6.6.2[16]

5 inHgA d 4.83 inHgA 6.6.2[20] t 290 SCFM 6.6.2[20] 6.6.2[20]

3 inHgA d 2.83 inHgA 6.6.2[23] t 171 SCFM 6.6.2[23] 6.6.2[23]

2 inHgA d 1.83 inHgA 6.6.2[26] t 99 SCFM 6.6.2[26] 6.6.2[26]

1 inHgA d 0.83 inHgA 6.6.2[30] t 29 SCFM2 6.6.2[30] 6.6.2[30]

1 Meeting this value will also verify acceptance criteria of t800 SCFM at 15 inHgA 2 Meeting this value will also verify acceptance criteria of t15 SCFM at 1 inHgA 3 Required air flow calculated using Nash Shop Test Curves (see Appendix H).

4 Required Pump Suction Pressure conservatively adjusted for instrument inaccuracies.

5 Verifies motor operates below overload conditions. (See Appendix H for calculation.)

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 32 of 198 Date ________

5.0 ACCEPTANCE CRITERIA (continued)

Condenser Vacuum Pump 2C Suction Measured Suction Motor Operates at Air Flow3 Pressure Pressure4 d 114.5 kVA5 Atmospheric N/A N/A 6.6.3[11]

15 inHgA d 14.83 inHgA 6.6.3[16] t 856 SCFM1 6.6.3[16] 6.6.3[16]

5 inHgA d 4.83 inHgA 6.6.3[20] t 267 SCFM 6.6.3[20] 6.6.3[20]

3 inHgA d 2.83 inHgA 6.6.3[23] t 154 SCFM 6.6.3[23] 6.6.3[23]

2 inHgA d 1.83 inHgA 6.6.3[26] t 92.5 SCFM 6.6.3[26] 6.6.3[26]

1 inHgA d 0.83 inHgA 6.6.3[30] t 33 SCFM2 6.6.3[30] 6.6.3[30]

1 Meeting this value will also verify acceptance criteria of t800 SCFM at 15 inHgA 2 Meeting this value will also verify acceptance criteria of t15 SCFM at 1 inHgA 3 Required air flow calculated using Nash Shop Test Curves (see Appendix H).

4 Required Pump Suction Pressure conservatively adjusted for instrument inaccuracies.

5 Verifies motor operates below overload conditions. (See Appendix H for calculation.)

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 33 of 198 Date ________

6.0 PERFORMANCE NOTES

1) The Sections of this test shall be performed per the flow chart below.

2) Section 6.1 may be performed any time prior to Section 6.5; likewise, Section 6.2 may be performed any time prior to Section 6.6.

3) System piping and components should be visually monitored for vibration during steady state and transient operations.

4) This instruction does not quantitatively verify instrument setpoints. Unless otherwise noted, system parameters are recorded for information only.

5) Atmospheric conditions can change quickly. During performance of Section 6.6, record atmospheric pressure at least once per shift using Data Sheet 6 and at Test Director discretion during other Sections of this test. This is necessary to accurately determine the required vacuum pressure which corresponds to the required absolute pressure of the instruction.

6) This instruction uses both Absolute Pressure and Vacuum Pressure to quantify condenser pressure. Absolute Pressure (measured at inHgA) is zero-referenced against a perfect vacuum, so it is the true total pressure in the system. (Barometric Pressure is an example of an absolute pressure). Vacuum Pressure (measured at inHgVac) is zero-referenced against atmospheric pressure, so it is the difference between system pressure and atmospheric pressure. Decreasing vacuum pressure corresponds to increasing absolute pressure and vice versa.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 34 of 198 Date ________

6.1 Condenser Vacuum Exhaust Bypass Valve Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.1 have been completed. ________

[2] PLACE 2-HS-2-255, EXH BYPASS COND VAC PMPS,

[2-M-3], to OPEN, AND VERIFY the following:

A. At 2-HS-2-255:

x Red Light is ON ________

x Green Light is OFF ________

B. 2-FCV-2-255, COND VAC PUMP EXH HDR FILTER BYPASS, [T14G/708], is OPEN (locally). ________

[3] PLACE 2-HS-2-255, EXH BYPASS COND VAC PMPS, to CLOSE, AND VERIFY the following:

A. At 2-HS-2-255:

x Red Light is OFF ________

x Green Light is ON ________

B. 2-FCV-2-255, COND VAC PUMP EXH HDR FILTER BYPASS, is CLOSED (locally). ________

[4] PLACE 2-HS-2-255, EXH BYPASS COND VAC PMPS, to OPEN, AND VERIFY 2-FCV-2-255, COND VAC PUMP EXH HDR FILTER BYPASS, is OPEN (locally). ________

[5] VERIFY successful completion of this Section (6.1). (Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 35 of 198 Date ________

6.2 Condenser Vacuum Breaker Valve Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.2 have been completed. ________

CAUTION Use caution when opening 2-PCV-6-330. Ensure immediate area around valve is free of debris that could enter the Condenser.

[2] PLACE 2-HS-6-330A, VACUUM BREAKER COND A, [2-M-3],

to OPEN, AND VERIFY the following:

A. At 2-HS-6-330A:

x Red Light is ON ________

x Green Light is OFF ________

B. VERIFY 2-PCV-6-330, CONDENSER VACUUM BREAKER, [T14G/720] is OPEN (locally). ________

[3] PLACE 2-HS-6-330A, VACUUM BREAKER COND A, to CLOSE, AND VERIFY the following:

A. At 2-HS-6-330A:

x Red Light is OFF ________

x Green Light is ON ________

B. VERIFY 2-PCV-6-330, CONDENSER VACUUM BREAKER, is CLOSED (locally). ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 36 of 198 Date ________

6.2 Condenser Vacuum Breaker Valve Logic (continued)

[4] PLACE 2-HS-6-330B, CONDENSER VACUUM BREAKER,

[2-JB-291-2053, T14G/729], to OPEN, AND VERIFY 2-PCV-6-330, CONDENSER VACUUM BREAKER, is OPEN (locally). ________

[5] PLACE 2-HS-6-330B, CONDENSER VACUUM BREAKER, to CLOSE, AND VERIFY 2-PCV-6-330, CONDENSER VACUUM BREAKER, is CLOSED (locally). ________

[6] VERIFY successful completion of this Section (6.2). (Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 37 of 198 Date ________

6.3 Condenser Vacuum Pump Seal Water Makeup Valves Logic NOTES

1) The CVP Seal Water Tank level controls use a fixed low tank level setpoint and a fixed high tank level reset point based on the tank level (elevation) at which the Seal Water Tank Level Switch is installed. The exterior of the Level Switch float chamber is marked "LOW LIQUID LEVEL at the approximate setpoint level. The reset point is required to be below the tank overflow level and should be approximately 3/4" above the LOW LIQUID LEVEL mark.

2) The measurement marks on the Seal Water Tank Level Gauges are approximate and are used for reference only. The LOW LIQUID LEVEL mark on exterior of the Level Switch float chamber corresponds to approximately the 15 mark on the Level Guage, and the tank overflow level corresponds to approximately the 17 mark. Acceptance Criteria is qualitatively based on Level Switch actuation and its ability to maintain Tank level rather than on specific tank level values at which it actuates.

3) Seal Water Tank Level Makeup Valves are solenoid valves and do not have direct position indication. Valve position may be observed by several methods:

x By hearing the solenoid click as it energizes and de-energizes.

x By visually observing a step change in the Seal Water Tank level trend (e.g.

observing a decreasing tank level begin increasing).

x By using a ferrous object to determine when the solenoid is magnetized. The solenoid coil will be magnetized when it is energized.

x By observing the solenoid change temperature. The solenoid will heat up when it is energized.

4) Subsections 6.3.1 through 6.3.3 may be performed in any order provided the steps within each Subsection are performed in the order written.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 38 of 198 Date ________

6.3.1 CVP 2A Seal Water Makeup Valve Logic NOTE Condenser Vacuum Pump 2A Seal Water Tank level recorded in steps 6.3.1[4] and 6.3.1[6]

is for information only.

[1] ENSURE all prerequisites listed in Section 4.0 for Subsection 6.3 have been completed. ________

[2] ENSURE Condenser Vacuum Pump 2A Seal Water Tank level is above approximately 15 on 2-LG-2-168, COND VAC PUMP A SEAL WATER LEVEL, [T14H/685]. ________

[3] THROTTLE OPEN 2-DRV-37-572, COND VAC PUMP 2A SEAL GSW DRAIN, [T14H/685], AND SLOWLY DRAIN the Condenser Vacuum Pump 2A Seal Water Tank. ________

[4] VERIFY 2-LSV-2-169, COND VAC PMP A SEAL WATER MAKE UP, [T14H/685], OPENS at or below approximately 15 on 2-LG-2-168, COND VAC PUMP A SEAL WATER LEVEL.

(Acc Crit)

Tank Level (2-LG-2-168): __________inches ________

[5] CLOSE 2-DRV-37-572, COND VAC PUMP 2A SEAL WATER TANK DRAIN. ________

[6] VERIFY 2-LSV-2-169, COND VAC PMP A SEAL WATER MAKE UP, CLOSES before the Seal Water Tank level reaches 17 on 2-LG-2-168, COND VAC PUMP A SEAL WATER LEVEL. (Acc Crit)

Tank Level (2-LG-2-168): __________inches ________

[7] VERIFY no water flows from the Condenser Vacuum Pump 2A Seal Water Tank overflow line. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 39 of 198 Date ________

6.3.2 CVP 2B Seal Water Makeup Valve Logic NOTE Condenser Vacuum Pump 2B Seal Water Tank level recorded in steps 6.3.2[4] and 6.3.2[6]

is for information only.

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.3 have been completed. ________

[2] ENSURE Condenser Vacuum Pump 2B Seal Water Tank level is above approximately 15 on 2-LG-2-173, COND VAC PUMP B SEAL WATER LEVEL, [T14G/685]. ________

[3] THROTTLE OPEN 2-DRV-37-571, COND VAC PUMP 2B SEAL GSW DRAIN, [T14G/685], AND SLOWLY DRAIN the Condenser Vacuum Pump 2B Seal Water Tank. ________

[4] VERIFY 2-LSV-2-174, COND VAC PMP B SEAL WATER MAKE UP, [T14G/685], OPENS at or below approximately 15 on 2-LG-2-173, COND VAC PUMP B SEAL WATER LEVEL.

(Acc Crit)

Tank Level (2-LG-2-173): __________inches ________

[5] CLOSE 2-DRV-37-571, COND VAC PUMP 2B SEAL WATER TANK DRAIN. ________

[6] VERIFY 2-LSV-2-174, COND VAC PMP B SEAL WATER MAKE UP, CLOSES before the Seal Water Tank level reaches 17 on 2-LG-2-173, COND VAC PUMP B SEAL WATER LEVEL. (Acc Crit)

Tank Level (2-LG-2-173): __________inches ________

[7] VERIFY no water flows from the Condenser Vacuum Pump 2B Seal Water Tank overflow line. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 40 of 198 Date ________

6.3.3 CVP 2C Seal Water Makeup Valve Logic NOTE Condenser Vacuum Pump 2C Seal Water Tank level recorded in steps 6.3.3[4] and 6.3.3[6]

is for information only.

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.3 have been completed. ________

[2] ENSURE Condenser Vacuum Pump 2C Seal Water Tank level is above approximately 15 on 2-LG-2-178, COND VAC PUMP C SEAL WATER LEVEL, [T14G/685]. ________

[3] THROTTLE OPEN 2-DRV-37-565, COND VAC PUMP 2C SEAL GSW DRAIN, [T14G/685], AND SLOWLY DRAIN the Condenser Vacuum Pump 2C Seal Water Tank. ________

[4] VERIFY 2-LSV-2-179, COND VAC PMP C SEAL WATER MAKE UP, [T14G/685], OPENS at or below approximately 15 on 2-LG-2-178, COND VAC PUMP C SEAL WATER LEVEL.

(Acc Crit)

Tank Level (2-LG-2-178): __________inches ________

[5] CLOSE 2-DRV-37-565, COND VAC PUMP 2C SEAL WATER TANK DRAIN. ________

[6] VERIFY 2-LSV-2-179 COND VAC PMP C SEAL WATER MAKE UP, CLOSES before the Seal Water Tank level reaches 17 on 2-LG-2-178, COND VAC PUMP C SEAL WATER LEVEL. (Acc Crit)

Tank Level (2-LG-2-178): __________inches ________

[7] VERIFY no water flows from the Condenser Vacuum Pump 2C Seal Water Tank overflow line. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 41 of 198 Date ________

6.4 Condenser Vacuum Pump Recirculating Pumps Logic NOTE Subsections 6.4.1 through 6.4.3 may be performed in any order provided the steps within each Subsection are performed in the order written.

6.4.1 CVP 2A Seal Water Recirculating Pump Manual Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.4 have been completed. ________

[2] ENSURE Section 6.3 has been completed. ________

[3] ENSURE Condenser Vacuum Pump 2A Seal Water Tank level is at or above level of 2-VTV-2-1045, COND VACUUM WATER PMP A VENT VALVE, [T14H/685]. ________

[4] OPEN 2-VTV-2-1045, COND VACUUM WATER PMP A VENT VALVE, to vent trapped air from 2-PMP-2-171D, THEN CLOSE 2-VTV-2-1045 ________

[5] ENSURE 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP, [2-JB-291-269, T14G/685] is RESET. ________

[6] VERIFY the following:

x 2-PMP-2-171D, COND VACUUM WATER PMP A,

[T14H/685], is OFF ________

x At 2-BKR-2-171D, COND VAC PMP 2A RECIRC PMP, [TURB MOV BD 2A, Compartment 3B],

Red Light is OFF ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 42 of 198 Date ________

6.4.1 CVP 2A Seal Water Recirculating Pump Manual Logic (continued)

[7] PRESS AND HOLD TEST pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-171D, COND VACUUM WATER PMP A, STARTS ________

x At 2-BKR-2-171D, COND VAC PMP 2A RECIRC PMP, Red Light is ON. ________

[8] RELEASE TEST pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-171D, COND VACUUM WATER PMP A, STOPS. ________

x At 2-BKR-2-171D, COND VAC PMP 2A RECIRC PMP, Red Light is OFF. ________

[9] PRESS SAFE STOP pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP. ________

[10] PRESS AND HOLD TEST pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-171D, COND VACUUM WATER PMP A, is OFF ________

x At 2-BKR-2-171D, COND VAC PMP 2A RECIRC PMP, Red Light is OFF ________

[11] RELEASE TEST pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP. ________

[12] VERIFY successful completion of this Subsection (6.4.1).

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 43 of 198 Date ________

6.4.2 CVP 2B Seal Water Recirculating Pump Manual Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.4 have been completed. ________

[2] ENSURE Section 6.3 has been completed. ________

[3] ENSURE Condenser Vacuum Pump 2B Seal Water Tank level is at or above level of 2-VTV-2-1046, COND VACUUM WATER PMP B VENT VALVE, [T14G/685]. ________

[4] OPEN 2-VTV-2-1046, COND VACUUM WATER PMP B VENT VALVE, to vent trapped air from 2-PMP-2-176D, THEN CLOSE 2-VTV-2-1046 ________

[5] ENSURE 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP, [2-JB-291-269, T14G/685] is RESET. ________

[6] VERIFY the following:

x 2-PMP-2-176D, COND VACUUM WATER PMP B,

[T14G/685], is OFF ________

x At 2-BKR-2-176D, COND VAC PMP 2B RECIRC PMP, [TURB MOV BD 2A, Compartment 5A],

Red Light is OFF ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 44 of 198 Date ________

6.4.2 CVP 2B Seal Water Recirculating Pump Manual Logic (continued)

[7] PRESS AND HOLD TEST pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-176D, COND VACUUM WATER PMP B, STARTS ________

x At 2-BKR-2-176D, COND VAC PMP 2B RECIRC PMP, Red Light is ON. ________

[8] RELEASE TEST pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-176D, COND VACUUM WATER PMP B, STOPS. ________

x At 2-BKR-2-176D, COND VAC PMP 2B RECIRC PMP, Red Light is OFF. ________

[9] PRESS SAFE STOP pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP. ________

[10] PRESS AND HOLD TEST pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-176D, COND VACUUM WATER PMP B, is OFF ________

x At 2-BKR-2-176D, COND VAC PMP 2B RECIRC PMP, Red Light is OFF ________

[11] RELEASE TEST pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP. ________

[12] VERIFY successful completion of this Subsection (6.4.2).

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 45 of 198 Date ________

6.4.3 CVP 2C Seal Water Recirculating Pump Manual Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.4 have been completed. ________

[2] ENSURE Section 6.3 has been completed. ________

[3] ENSURE Condenser Vacuum Pump 2C Seal Water Tank level is at or above level of 2-VTV-2-1047, COND VACUUM WATER PMP C VENT VALVE, [T14G/685]. ________

[4] OPEN 2-VTV-2-1047, COND VACUUM WATER PMP C VENT VALVE, to vent trapped air from 2-PMP-2-181D, THEN CLOSE 2-VTV-2-1047 ________

[5] ENSURE 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP, [2-JB-291-269, T14G/685] is RESET. ________

[6] VERIFY the following:

x 2-PMP-2-181D, COND VACUUM WATER PMP C,

[T14G/685], is OFF ________

x At 2-BKR-2-181D, COND VAC PMP 2C RECIRC PMP, [TURB MOV BD 2B, Compartment 10D],

Red Light is OFF ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 46 of 198 Date ________

6.4.3 CVP 2C Seal Water Recirculating Pump Manual Logic (continued)

[7] PRESS AND HOLD TEST pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-181D, COND VACUUM WATER PMP C, STARTS ________

x At 2-BKR-2-181D, COND VAC PMP 2C RECIRC PMP, Red Light is ON. ________

[8] RELEASE TEST pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-181D, COND VACUUM WATER PMP C, STOPS. ________

x At 2-BKR-2-181D, COND VAC PMP 2C RECIRC PMP, Red Light is OFF. ________

[9] PRESS SAFE STOP pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP. ________

[10] PRESS AND HOLD TEST pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-181D, COND VACUUM WATER PMP C, is OFF ________

x At 2-BKR-2-181D, COND VAC PMP 2C RECIRC PMP, Red Light is OFF ________

[11] RELEASE TEST pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP. ________

[12] VERIFY successful completion of this Subsection (6.4.3).

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 47 of 198 Date ________

6.5 Condenser Vacuum Pumps Logic NOTES

1) Section 6.5 operates the Condenser Vacuum Pumps with the Main Condenser and the Main Feed Pump Turbine Condensers isolated.

2) Low Seal Water Pressure Annunciator Windows 2-XA-55-3A-47C, -48C, and -49C contacts must be closed for approximately 8 seconds for window to actuate and open for approximately 8 seconds for window to clear.

3) Condenser Vacuum Pump Handswitches in the Main Control Room (2-HS-2-171A,

-176A, -181A) spring return to P AUTO from both START and STOP positions.

4) Subsections 6.5.1 through 6.5.3 may be performed in any order provided the steps within each Subsection are performed in the order written. Subsection 6.5.4 is performed after Subsections 6.5.1 through 6.5.3 are complete.

5) Refer to GOI-7 for Condenser Vacuum Pump motor starting limitations.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 48 of 198 Date ________

6.5.1 CVP 2A Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.5 have been completed. ________

[2] ENSURE Sections 6.1 and 6.4 have been completed ________

[3] RACK OUT 2-BKR-2-171, CONDENSER VACUUM PMP 2A,

[480V UNIT BD 2A, Compartment 3D]. ________

[4] REMOVE secondary contact cover on the top rear of 2-BKR-2-171, CONDENSER VACUUM PMP 2A ________

NOTES

1) The following step will allow the CVP 2A control circuit to fully function while 2-BKR-2-171 is in TEST. Breaker will open and close in response to control signals, but CVP 2A itself will remain off.

2) See drawing 6947D02 for typical 480V Switchgear pin arrangement.

[5] INSTALL temporary jumpers between the following stationary secondary side contacts of 2-BKR-2-171. (Drawing 6948D26)

A. Designated A-1:

Between Pin 3TP (wire 3DC) and Pin 13 (wire 3DC) ________

1st CV B. Designated A-2:

Between Pin 6TP (wire 3DT) and Pin 9 (wire 3DT1) ________

1st CV

[6] REPLACE secondary contact cover on the top rear of 2-BKR-2-171, CONDENSER VACUUM PMP 2A. ________

1st CV

[7] RACK 2-BKR-2-171, CONDENSER VACUUM PMP 2A, to the TEST position. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 49 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[8] VERIFY 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO, is CLEAR. ________

[9] VERIFY Unit 2 Alarm Events Display Screen indicates 47-C VACUUM PMP A SEAL WATER PRESS LO (PS-2-251) is NORMAL (Green) ________

CAUTION The following step involves work in an energized panel (250V DC Control Power).

NOTE The following step will disable the Condenser Vacuum Pump 2A auto-start on low suction vacuum function.

[10] LIFT vendor wire 30 at TB30, Point 30 (opposite field wire 3DC5) in CVP 2A skid-mounted terminal box.

(Drawing 2-45W2747-4) ________

1st CV

[11] INSTALL switched jumper (designated TS-171) between TB30 Point 30 and TB10 Point 6 in CVP 2A skid-mounted terminal box. (Drawing 2-45W2747-4), AND ENSURE that the jumper test switch is OPEN (OFF). ________

1st CV

[12] ENSURE 2-ISV-32-2014, CNTL AIR ISOL VLV TO 2-FCV-2-250/2-FCV-2-171, [T14H/685] is CLOSED. ________

[13] PLACE 2-HS-2-171A, COND VACUUM PMP A, [2-M-3],

to P AUTO. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 50 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[14] PRESS CONDENSER VACUUM PUMP 2A BKR TEST CLOSE pushbutton at 480V UNIT BD 2A, Compartment 3D, AND VERIFY the following:

A. At 2-BKR-2-171, CONDENSER VACUUM PMP 2A:

x Red Light is ON ________

x Green Light is OFF ________

x Red Flag at Breaker Panel ________

B. Locally:

x 2-PMP-2-171D, COND VACUUM WATER PMP A,

[T14H/685], is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, [T14G/685], STARTS ________

C. Annunciation & Alarms:

x 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO, is in ALARM ________

x Unit 2 Alarm Events Display Screen indicates 47-C VACUUM PMP A SEAL WATER PRESS LO (PS-2-251) is in ALARM (Red) ________

[15] PRESS RESET pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-171D, COND VACUUM WATER PMP A, STARTS (Acc Crit) ________

x 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 47-C VACUUM PMP A SEAL WATER PRESS LO (PS-2-251) is NORMAL (Green) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 51 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[16] PRESS CONDENSER VACUUM PUMP 2A BKR TEST TRIP pushbutton at 480V UNIT BD 2A, Compartment 3D, AND VERIFY the following:

A. At 2-BKR-2-171, CONDENSER VACUUM PMP 2A:

x Red Light is OFF ________

x Green Light is ON ________

x Green Flag at Breaker Panel ________

B. Locally:

x 2-PMP-2-171D, COND VACUUM WATER PMP A, is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is OFF ________

C. Annunciation & Alarms:

x 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 47-C VACUUM PMP A SEAL WATER PRESS LO (PS-2-251) is NORMAL (Green) ________

[17] PLACE 2-HS-30-883, CONDENSER VACUUM PUMP AREA COOLER, [T14G/685], to OFF. ________

[18] PRESS SAFE STOP pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP, [2-JB-291-269, T14G/685]. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 52 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

NOTE Annunciator Window 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO, will continue to alarm and clear throughout the remainder of this section until step 6.5.1[50] as CVP 2A is simulated started and stopped.

[19] PLACE 2-HS-2-171A, COND VACUUM PMP A, [2-M-3],

to START, AND VERIFY the following A. At 2-HS-2-171A:

x Red Light is ON ________

x Green Light is OFF ________

x White Light is OFF ________

B. At 2-BKR-2-171, CONDENSER VACUUM PMP 2A:

x Red Light is ON ________

x Green Light is OFF ________

[20] PLACE 2-HS-2-171A, COND VACUUM PMP A, to STOP, AND VERIFY the following:

A. At 2-HS-2-171A:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

B. At 2-BKR-2-171, CONDENSER VACUUM PMP 2A:

x Red Light is OFF ________

x Green Light is ON ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 53 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[21] PRESS TEST pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A, [2-JB-291-269, T14G/685], AND VERIFY at 2-HS-2-171A, COND VACUUM PMP A:

x Red Light is ON ________

x Green Light is OFF ________

x White Light is OFF ________

[22] PRESS SAFE STOP pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A, AND VERIFY at 2-HS-2-171A, COND VACUUM PMP A:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

[23] PRESS RESET pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A, AND VERIFY at 2-HS-2-171A, COND VACUUM PMP A:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

[24] PRESS TEST pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A, AND VERIFY at 2-BKR-2-171, CONDENSER VACUUM PMP 2A:

x Red Light is ON ________

x Green Light is OFF ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 54 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

CAUTION Steps 6.5.1[25], 6.5.1[26], and 6.5.1[29] involve work in an energized panel (250V DC Control Power).

NOTE The following two steps will setup and simulate a loss of bus voltage in 480V Unit Board 2A.

[25] LIFT wire (3DC2) from Terminal Point 1 on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX1, [480V UNIT BD 2A, Compartment 5A]. (Drawing 6948D28) ________

1st CV

[26] MOMENTARILY PLACE a handheld jumper between Terminal Point 2 (wire 3DTP) and Point 5 (wire 3DT1) on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX1. (Drawing 6948D28) ________

1st CV

[27] VERIFY at 2-BKR-2-171, CONDENSER VACUUM PMP 2A:

(Acc Crit) x Red Light is OFF ________

x Green Light is ON ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 55 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

NOTE Steps 6.5.1[28] and 6.5.1[32] will temporarily restore and then disable CVP 2A auto-start on low vacuum in order to prove CVP 2A auto-start on restoration of bus voltage..

[28] PLACE Test Switch TS-171 to the CLOSED (ON) position. ________

NOTE The following step will simulate a restoration of bus voltage in 480V Unit Board 2A.

[29] LAND wire (3DC2) on Terminal Point 1 on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX1. (Drawing 6948D28) ________

1st CV

[30] VERIFY at 2-BKR-2-171, CONDENSER VACUUM PMP 2A:

(Acc Crit) x Red Light is ON ________

x Green Light is OFF ________

[31] PRESS SAFE STOP pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A. ________

[32] PLACE Test Switch TS-171 to the OPEN (OFF) position. ________

[33] RACK OUT 2-BKR-2-171, CONDENSER VACUUM PMP 2A. ________

[34] REMOVE front cover of 2-BKR-2-171, CONDENSER VACUUM PMP 2A. ________

[35] PLACE 2-BKR-2-171, CONDENSER VACUUM PMP 2A, Overload Trip Switch (OTS) mechanical lock-in lever (DTA plunger) to the TRIP position. ________

[36] INSTALL front cover of 2-BKR-2-171, CONDENSER VACUUM PMP 2A. ________

1st CV

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 56 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[37] PRESS RESET pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A. ________

[38] RACK 2-BKR-2-171, CONDENSER VACUUM PMP 2A to the TEST position. ________

[39] VERIFY the following:

A. White Light at 2-HS-2-171A, COND VACUUM PMP A, is ON ________

B. 2-XA-55-1B-14E, M-1 THRU M-6 MOTOR TRIPOUT, is in ALARM ________

C. Motor Tripout Buzzer is ON ________

D. Unit 2 Alarm Events Display Screen indicates 14-E M-1 THRU M-6 MOTOR TRIPOUT, is in ALARM (Red). ________

NOTES

1) The following step will electrically reset the Overload Trip Switch (OTS) for 2-BKR-2-171. Do not hold the Handswitch in STOP if the coil does not de-energize to avoid overheating the OTS coil.

2) If the following step does not reset the OTS, then the OTS may be reset manually by pressing the OTS Reset button on the front of the Breaker, and a Test Deficiency Notice shall be initiated.

[40] MOMENTARILY PLACE 2-HS-2-171A, COND VACUUM PMP A, to STOP, AND VERIFY the following:

A. White Light at 2-HS-2-171A is OFF ________

B. 2-XA-55-1B-14E, M-1 THRU M-6 MOTOR TRIPOUT, is CLEAR ________

C. Motor Tripout Buzzer is OFF ________

D. Unit 2 Alarm Events Display Screen indicates 14-E M-1 THRU M-6 MOTOR TRIPOUT, is NORMAL (Green). ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 57 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[41] PLACE 2-HS-2-171A, COND VACUUM PMP A, to STOP PULL TO LOCK. ________

[42] RACK OUT 2-BKR-2-171, CONDENSER VACUUM PMP 2A. ________

[43] REMOVE secondary contact cover on the top rear of 2-BKR-2-171, CONDENSER VACUUM PMP 2A, AND REMOVE temporary jumpers between the following stationary secondary side contacts of 2-BKR-2-171: (Drawing 6948D26)

(Jumpers were installed in step 6.5.1[5])

A. Designated A-1:

Between Pin 3TP (wire 3DC) and Pin 13 (wire 3DC) ________

1st CV B. Designated A-2:

Between Pin 6TP (wire 3DT) and Pin 9 (wire 3DT1) ________

1st CV

[44] REPLACE secondary contact cover on the top rear of 2-BKR-2-171, CONDENSER VACUUM PMP 2A, AND TORQUE between 25 and 35 in-lbs.

M&TE: ________________ ________

1st CV

[45] RACK 2-BKR-2-171, CONDENSER VACUUM PMP 2A, to the CONNECTED position. ________

[46] PLACE 2-HS-30-883, CONDENSER VACUUM PUMP AREA COOLER to AUTO. ________

[47] PRESS RESET pushbutton 2-HS-2-171D, CONDENSER VACUUM PUMP 2A RECIRC PUMP. ________

[48] OPEN 2-ISV-32-2014, CNTL AIR ISOL VLV TO 2-FCV-2-250/2-FCV-2-171. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 58 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[49] ENSURE Condenser Vacuum Pump 2A Seal Water Tank level is at or above approximately 15 on 2-LG-2-168, COND VAC PUMP A SEAL WATER LEVEL, [T14H/685]. ________

[50] PLACE 2-HS-2-171A, COND VACUUM PMP A, to START, AND VERIFY the following x 2-PMP-2-171, CONDENSER VACUUM PUMP 2A,

[T14H/685], is ON. ________

x 2-PMP-2-171D, COND VACUUM WATER PMP A, is ON ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is ON ________

x 2-FCV-2-171, CONDENSER VACUUM PMP 2A SUCTION ISOL, [T14H/685], is OPEN. ________

x 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 47-C VACUUM PMP A SEAL WATER PRESS LO (PS-2-251) is NORMAL (Green) ________

NOTE The following step will cause the pressure in the CVP 2A Seal Water Tank to rise. The pressure switch that controls 2-FCV-2-250 has a setpoint of 4 PSIG (r0.5PSI).

[51] SLOWLY CLOSE 2-CKV-2-710, CONDENSER VACUUM PMP 2A DISCHARGE CHECK, [T14H/685], AND VERIFY 2-FCV-2-250, CONDENSER VACUUM PMP 2A VACUUM BREAKER, [T14H/685], begins to OPEN.

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 59 of 198 Date ________

6.5.1 CVP 2A Logic (continued)

[52] RELEASE handle of 2-CKV-2-710, CONDENSER VACUUM PMP 2A DISCHARGE CHECK, AND VERIFY 2-FCV-2-250, CONDENSER VACUUM PMP 2A VACUUM BREAKER, CLOSES. ________

[53] PLACE 2-HS-2-171A, COND VACUUM PMP A, to STOP PULL TO LOCK, AND VERIFY the following x 2-PMP-2-171, CONDENSER VACUUM PUMP 2A, is OFF. ________

x 2-PMP-2-171D, COND VACUUM WATER PMP A, is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is OFF ________

x 2-FCV-2-171, CONDENSER VACUUM PMP 2A SUCTION ISOL, is CLOSED. ________

x 2-XA-55-3A-47C, VACUUM PMP A SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 47-C VACUUM PMP A SEAL WATER PRESS LO (PS-2-251) is NORMAL (Green) ________

[54] VERIFY successful completion of this Subsection (6.5.1).

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 60 of 198 Date ________

6.5.2 CVP 2B Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.5 have been completed. ________

[2] ENSURE Sections 6.1 and 6.4 have been completed ________

[3] RACK OUT 2-BKR-2-176, CONDENSER VACUUM PMP 2B,

[480V UNIT BD 2B, Compartment 4C]. ________

[4] REMOVE secondary contact cover on the top rear of 2-BKR-2-176, CONDENSER VACUUM PMP 2B. ________

NOTES

1) The following step will allow the CVP 2B control circuit to fully function while 2-BKR-2-176 is in TEST. Breaker will open and close in response to control signals, but CVP 2B itself will remain off.

2) See drawing 6947D02 for typical 480V Switchgear pin arrangement.

[5] INSTALL temporary jumpers between the following stationary secondary side contacts of 2-BKR-2-176. (Drawing 6948D35)

A. Designated B-1:

Between Pin 3TP (wire 4CC) and Pin 13 (wire 4CC) ________

1st CV B. Designated B-2:

Between Pin 6TP (wire 4CT) and Pin 9 (wire 4CT1) ________

1st CV

[6] REPLACE secondary contact cover on the top rear of 2-BKR-2-176, CONDENSER VACUUM PMP 2B. ________

1st CV

[7] RACK 2-BKR-2-176, CONDENSER VACUUM PMP 2B, to the TEST position. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 61 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[8] VERIFY 2-XA-55-3A-48C, VACUUM PMP B SEAL WATER PRESS LO, is CLEAR. ________

[9] VERIFY Unit 2 Alarm Events Display Screen indicates 48-C VACUUM PMP B SEAL WATER PRESS LO (PS-2-247) is NORMAL (Green) ________

CAUTION The following step involves work in an energized panel (250V DC Control Power).

NOTE The following step will disable the Condenser Vacuum Pump 2B auto-start on low suction vacuum function.

[10] LIFT vendor wire 30 at TB30, Point 30 (opposite field wire 4CC5) in CVP 2B skid-mounted terminal box.

(Drawing 2-45W2747-4) ________

1st CV

[11] INSTALL switched jumper (designated TS-176) between TB30 Point 30 and TB10 Point 6 in CVP 2B skid-mounted terminal box. (Drawing 2-45W2747-4), AND ENSURE that the jumper test switch is OPEN (OFF). ________

1st CV

[12] ENSURE 2-ISV-32-2017, CONTROL AIR ISOLATION VALVE TO 2-FCV-2-176, [T14G/685] is CLOSED. ________

[13] PLACE 2-HS-2-176A, COND VACUUM PMP B, [2-M-3],

to P AUTO. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 62 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[14] PRESS CONDENSER VACUUM PUMP 2B BKR TEST CLOSE pushbutton at 480V UNIT BD 2B, Compartment 4C, AND VERIFY the following:

A. At 2-BKR-2-176, CONDENSER VACUUM PMP 2B:

x Red Light is ON ________

x Green Light is OFF ________

x Red Flag at Breaker Panel ________

B. Locally:

x 2-PMP-2-176D, COND VACUUM WATER PMP B,

[T14G/685], is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, [T14G/685], STARTS ________

C. Annunciation & Alarms:

x 2-XA-55-3A-48C, VACUUM PMP B SEAL WATER PRESS LO, is in ALARM ________

x Unit 2 Alarm Events Display Screen indicates 48-C VACUUM PMP B SEAL WATER PRESS LO (PS-2-247) is in ALARM (Red) ________

[15] PRESS RESET pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-176D, COND VACUUM WATER PMP B, STARTS (Acc Crit) ________

x 2-XA-55-3A-48C, VACUUM PMP B SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 48-C VACUUM PMP B SEAL WATER PRESS LO (PS-2-247) is NORMAL (Green) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 63 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[16] PRESS CONDENSER VACUUM PUMP 2B BKR TEST TRIP pushbutton at 480V UNIT BD 2B, Compartment 4C, AND VERIFY the following:

A. At 2-BKR-2-176, CONDENSER VACUUM PMP 2B:

x Red Light is OFF ________

x Green Light is ON ________

x Green Flag at Breaker Panel ________

B. Locally:

x 2-PMP-2-176D, COND VACUUM WATER PMP B, is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is OFF ________

C. Annunciation & Alarms:

x 2-XA-55-3A-48C, VACUUM PMP B SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 48-C VACUUM PMP B SEAL WATER PRESS LO (PS-2-247) is NORMAL (Green) ________

[17] PLACE 2-HS-30-883, CONDENSER VACUUM PUMP AREA COOLER, [T14G/685], to OFF. ________

[18] PRESS SAFE STOP pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP, [2-JB-291-269, T14G/685]. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 64 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

NOTE Annunciator Window 2-XA-55-3A-48C, VACUUM PMP A SEAL WATER PRESS LO, will continue to alarm and clear throughout the remainder of this section until step 6.5.2[50] as CVP 2B is simulated started and stopped.

[19] PLACE 2-HS-2-176A, COND VACUUM PMP B, [2-M-3],

to START, AND VERIFY the following A. At 2-HS-2-176A:

x Red Light is ON ________

x Green Light is OFF ________

x White Light is OFF ________

B. At 2-BKR-2-176, CONDENSER VACUUM PMP 2B:

x Red Light is ON ________

x Green Light is OFF ________

[20] PLACE 2-HS-2-176A, COND VACUUM PMP B, to STOP, AND VERIFY the following:

A. At 2-HS-2-176A:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

B. At 2-BKR-2-176, CONDENSER VACUUM PMP 2B:

x Red Light is OFF ________

x Green Light is ON ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 65 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[21] PRESS TEST pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2A, [2-JB-291-269, T14G/685], AND VERIFY at 2-HS-2-176A, COND VACUUM PMP B:

x Red Light is ON ________

x Green Light is OFF ________

x White Light is OFF ________

[22] PRESS SAFE STOP pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B, AND VERIFY at 2-HS-2-176A, COND VACUUM PMP B:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

[23] PRESS RESET pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B, AND VERIFY at 2-HS-2-176A, COND VACUUM PMP B:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

[24] PRESS TEST pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B, AND VERIFY at 2-BKR-2-176, CONDENSER VACUUM PMP 2B:

x Red Light is ON ________

x Green Light is OFF ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 66 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

CAUTION Steps 6.5.2[25], 6.5.2[26], and 6.5.2[29] involve work in an energized panel (250V DC Control Power).

NOTE The following two steps will setup and simulate a loss of bus voltage in 480V Unit Board 2B.

[25] LIFT wire (4CC2) from Terminal Point 1 on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX1, [480V UNIT BD 2B, Compartment 6A]. (Drawing 6948D37) ________

1st CV

[26] MOMENTARILY PLACE a handheld jumper between Terminal Point 2 (wire 4CTP) and Point 5 (wire 4CT1) on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX1. (Drawing 6948D37) ________

1st CV

[27] VERIFY at 2-BKR-2-176, CONDENSER VACUUM PMP 2B:

(Acc Crit) x Red Light is OFF ________

x Green Light is ON ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 67 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

NOTE Steps 6.5.2[28] and 6.5.2[32] will temporarily restore and then disable CVP 2B auto-start on low vacuum in order to prove CVP 2B auto-start on restoration of bus voltage..

[28] PLACE Test Switch TS-176 to the CLOSED (ON) position. ________

NOTE The following step will simulate a restoration of bus voltage in 480V Unit Board 2A.

[29] LAND wire (4CC2) on Terminal Point 1 on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX1. (Drawing 6948D37) ________

1st CV

[30] VERIFY at 2-BKR-2-176, CONDENSER VACUUM PMP 2B:

(Acc Crit) x Red Light is ON ________

x Green Light is OFF ________

[31] PRESS SAFE STOP pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B. ________

[32] PLACE Test Switch TS-176 to the OPEN (OFF) position. ________

[33] RACK OUT 2-BKR-2-176, CONDENSER VACUUM PMP 2B. ________

[34] REMOVE front cover of 2-BKR-2-176, CONDENSER VACUUM PMP 2B. ________

[35] PLACE 2-BKR-2-176, CONDENSER VACUUM PMP 2B, Overload Trip Switch (OTS) mechanical lock-in lever (DTA plunger) to the TRIP position. ________

[36] INSTALL front cover of 2-BKR-2-176, CONDENSER VACUUM PMP 2B. ________

1st CV

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 68 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[37] PRESS RESET pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B. ________

[38] RACK 2-BKR-2-176, CONDENSER VACUUM PMP 2B to the TEST position. ________

[39] VERIFY the following:

A. White Light at 2-HS-2-176A, COND VACUUM PMP B, is ON ________

B. 2-XA-55-1B-14E, M-1 THRU M-6 MOTOR TRIPOUT, is in ALARM ________

C. Motor Tripout Buzzer is ON ________

D. Unit 2 Alarm Events Display Screen indicates 14-E M-1 THRU M-6 MOTOR TRIPOUT, is in ALARM (Red). ________

NOTES

1) The following step will electrically reset the Overload Trip Switch (OTS) for 2-BKR-2-176. Do not hold the Handswitch in STOP if the coil does not de-energize to avoid overheating the OTS coil.

2) If the following step does not reset the OTS, then the OTS may be reset manually by pressing the OTS Reset button on the front of the Breaker, and a Test Deficiency Notice shall be initiated.

[40] MOMENTARILY PLACE 2-HS-2-176A, COND VACUUM PMP B, to STOP, AND VERIFY the following:

A. White Light at 2-HS-2-176A is OFF ________

B. 2-XA-55-1B-14E, M-1 THRU M-6 MOTOR TRIPOUT, is CLEAR ________

C. Motor Tripout Buzzer is OFF ________

D. Unit 2 Alarm Events Display Screen indicates 14-E M-1 THRU M-6 MOTOR TRIPOUT, is NORMAL (Green). ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 69 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[41] PLACE 2-HS-2-176A, COND VACUUM PMP B, to STOP PULL TO LOCK. ________

[42] RACK OUT 2-BKR-2-176, CONDENSER VACUUM PMP 2B. ________

[43] REMOVE secondary contact cover on the top rear of 2-BKR-2-176, CONDENSER VACUUM PMP 2B, AND REMOVE temporary jumpers between the following stationary secondary side contacts of 2-BKR-2-176: (Drawing 6948D35)

(Jumpers were installed in step 6.5.2[5])

A. Designated B-1:

Between Pin 3TP (wire 4CC) and Pin 13 (wire 4CC) ________

1st CV B. Designated B-2:

Between Pin 6TP (wire 4CT) and Pin 9 (wire 4CT1) ________

1st CV

[44] REPLACE secondary contact cover on the top rear of 2-BKR-2-176, CONDENSER VACUUM PMP 2B, AND TORQUE between 25 and 35 in-lbs.

M&TE: ________________ ________

1st CV

[45] RACK 2-BKR-2-176, CONDENSER VACUUM PMP 2B, to the CONNECTED position. ________

[46] PLACE 2-HS-30-883, CONDENSER VACUUM PUMP AREA COOLER to AUTO. ________

[47] PRESS RESET pushbutton 2-HS-2-176D, CONDENSER VACUUM PUMP 2B RECIRC PUMP. ________

[48] OPEN 2-ISV-32-2017, CONTROL AIR ISOLATION VALVE TO 2-FCV-2-176. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 70 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[49] ENSURE Condenser Vacuum Pump 2B Seal Water Tank level is at or above approximately 15 on 2-LG-2-173, COND VAC PUMP B SEAL WATER LEVEL, [T14G/685]. ________

[50] PLACE 2-HS-2-176A, COND VACUUM PMP B, to START, AND VERIFY the following x 2-PMP-2-176, CONDENSER VACUUM PUMP 2B,

[T14G/685], is ON. ________

x 2-PMP-2-176D, COND VACUUM WATER PMP B, is ON ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is ON ________

x 2-FCV-2-176, CONDENSER VACUUM PMP 2B SUCTION ISOL, [T14G/685], is OPEN. ________

x 2-XA-55-3A-48C, VACUUM PMP B SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 48-C VACUUM PMP B SEAL WATER PRESS LO (PS-2-247) is NORMAL (Green) ________

NOTE The following step will cause the pressure in the CVP 2B Seal Water Tank to rise. The pressure switch that controls 2-FCV-2-246 has a setpoint of 4 PSIG (r0.5PSI).

[51] SLOWLY CLOSE 2-CKV-2-711, CONDENSER VACUUM PMP 2B DISCHARGE CHECK, [T14G/685], AND VERIFY 2-FCV-2-246, CONDENSER VACUUM PMP 2B VACUUM BREAKER, [T14G/685], begins to OPEN.

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 71 of 198 Date ________

6.5.2 CVP 2B Logic (continued)

[52] RELEASE handle of 2-CKV-2-711, CONDENSER VACUUM PMP 2B DISCHARGE CHECK, AND VERIFY 2-FCV-2-246, CONDENSER VACUUM PMP 2B VACUUM BREAKER, CLOSES. ________

[53] PLACE 2-HS-2-176A, COND VACUUM PMP B, to STOP PULL TO LOCK, AND VERIFY the following x 2-PMP-2-176, CONDENSER VACUUM PUMP 2B, is OFF. ________

x 2-PMP-2-176D, COND VACUUM WATER PMP B, is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is OFF ________

x 2-FCV-2-176, CONDENSER VACUUM PMP 2B SUCTION ISOL, is CLOSED. ________

x 2-XA-55-3A-48C, VACUUM PMP B SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 48-C VACUUM PMP B SEAL WATER PRESS LO (PS-2-247) is NORMAL (Green) ________

[54] VERIFY successful completion of this Subsection (6.5.2).

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 72 of 198 Date ________

6.5.3 CVP 2C Logic

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.5 have been completed. ________

[2] ENSURE Sections 6.1 and 6.4 have been completed ________

[3] RACK OUT 2-BKR-2-181, CONDENSER VACUUM PMP 2C,

[480V UNIT BD 2B, Compartment 4D]. ________

[4] REMOVE secondary contact cover on the top rear of 2-BKR-2-181, CONDENSER VACUUM PMP 2C. ________

NOTES

1) The following step will allow the CVP 2C control circuit to fully function while 2-BKR-2-181 is in TEST. Breaker will open and close in response to control signals, but CVP 2C itself will remain off.

2) See drawing 6947D02 for typical 480V Switchgear pin arrangement.

[5] INSTALL temporary jumpers between the following stationary secondary side contacts of 2-BKR-2-181. (Drawing 6948D35)

A. Designated C-1:

Between Pin 3TP (wire 4DC) and Pin 13 (wire 4DC) ________

1st CV B. Designated C-2:

Between Pin 6TP (wire 4DT) and Pin 9 (wire 4DT1) ________

1st CV

[6] REPLACE secondary contact cover on the top rear of 2-BKR-2-181, CONDENSER VACUUM PMP 2C. ________

1st CV

[7] RACK 2-BKR-2-181, CONDENSER VACUUM PMP 2C, to the TEST position. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 73 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[8] VERIFY 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO, is CLEAR. ________

[9] VERIFY Unit 2 Alarm Events Display Screen indicates 49-C VACUUM PMP C SEAL WATER PRESS LO (PS-2-249) is NORMAL (Green) ________

CAUTION The following step involves work in an energized panel (250V DC Control Power).

NOTE The following step will disable the Condenser Vacuum Pump 2C auto-start on low suction vacuum function.

[10] LIFT vendor wire 30 at TB30, Point 30 (opposite field wire 4DC5) in CVP 2C skid-mounted terminal box.

(Drawing 2-45W2747-4) ________

1st CV

[11] INSTALL switched jumper (designated TS-181) between TB30 Point 30 and TB10 Point 6 in CVP 2C skid-mounted terminal box. (Drawing 2-45W2747-4), AND ENSURE that the jumper test switch is OPEN (OFF). ________

1st CV

[12] ENSURE 2-ISV-32-2019, CNTL AIR ISOL VLV TO 2-FCV-2-248/2-FCV-2-181, [T14G/685] is CLOSED. ________

[13] PLACE 2-HS-2-181A, COND VACUUM PMP C, [2-M-3],

to P AUTO. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 74 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[14] PRESS CONDENSER VACUUM PUMP 2C BKR TEST CLOSE pushbutton at 480V UNIT BD 2B, Compartment 4D, AND VERIFY the following:

A. At 2-BKR-2-181, CONDENSER VACUUM PMP 2C:

x Red Light is ON ________

x Green Light is OFF ________

x Red Flag at Breaker Panel ________

B. Locally:

x 2-PMP-2-181D, COND VACUUM WATER PMP C,

[T14G/685], is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, [T14G/685], STARTS ________

C. Annunciation & Alarms:

x 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO, is in ALARM ________

x Unit 2 Alarm Events Display Screen indicates 49-C VACUUM PMP C SEAL WATER PRESS LO (PS-2-249) is in ALARM (Red) ________

[15] PRESS RESET pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP, AND VERIFY the following:

x 2-PMP-2-181D, COND VACUUM WATER PMP C, STARTS (Acc Crit) ________

x 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 49-C VACUUM PMP C SEAL WATER PRESS LO (PS-2-249) is NORMAL (Green) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 75 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[16] PRESS CONDENSER VACUUM PUMP 2C BKR TEST TRIP pushbutton at 480V UNIT BD 2B, Compartment 4D, AND VERIFY the following:

A. At 2-BKR-2-181, CONDENSER VACUUM PMP 2C:

x Red Light is OFF ________

x Green Light is ON ________

x Green Flag at Breaker Panel ________

B. Locally:

x 2-PMP-2-181D, COND VACUUM WATER PMP C, is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is OFF ________

C. Annunciation & Alarms:

x 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 49-C VACUUM PMP C SEAL WATER PRESS LO (PS-2-249) is NORMAL (Green) ________

[17] PLACE 2-HS-30-883, CONDENSER VACUUM PUMP AREA COOLER, [T14G/685], to OFF. ________

[18] PRESS SAFE STOP pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP, [2-JB-291-269, T14G/685]. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 76 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

NOTE Annunciator Window 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO, will continue to alarm and clear throughout the remainder of this section until step 6.5.3[50] as CVP 2C is simulated started and stopped.

[19] PLACE 2-HS-2-181A, COND VACUUM PMP C, [2-M-3],

to START, AND VERIFY the following A. At 2-HS-2-181A:

x Red Light is ON ________

x Green Light is OFF ________

x White Light is OFF ________

B. At 2-BKR-2-181, CONDENSER VACUUM PMP 2C:

x Red Light is ON ________

x Green Light is OFF ________

[20] PLACE 2-HS-2-181A, COND VACUUM PMP C, to STOP, AND VERIFY the following:

A. At 2-HS-2-181A:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

B. At 2-BKR-2-181, CONDENSER VACUUM PMP 2C:

x Red Light is OFF ________

x Green Light is ON ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 77 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[21] PRESS TEST pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C, [2-JB-291-269, T14G/685], AND VERIFY at 2-HS-2-181A, COND VACUUM PMP C:

x Red Light is ON ________

x Green Light is OFF ________

x White Light is OFF ________

[22] PRESS SAFE STOP pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C, AND VERIFY at 2-HS-2-181A, COND VACUUM PMP C:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

[23] PRESS RESET pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C, AND VERIFY at 2-HS-2-181A, COND VACUUM PMP C:

x Red Light is OFF ________

x Green Light is ON ________

x White Light is OFF ________

[24] PRESS TEST pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C, AND VERIFY at 2-BKR-2-181, CONDENSER VACUUM PMP 2C:

x Red Light is ON ________

x Green Light is OFF ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 78 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

CAUTION Steps 6.5.3[25], 6.5.3[26], and 6.5.3[29] involve work in an energized panel (250V DC Control Power).

NOTE The following two steps will setup and simulate a loss of bus voltage in 480V Unit Board 2B.

[25] LIFT wire (4DC2) from Terminal Point 1 on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX2, [480V UNIT BD 2B, Compartment 6A]. (Drawing 6948D37) ________

1st CV

[26] MOMENTARILY PLACE a handheld jumper between Terminal Point 2 (wire 4DTP) and Point 5 (wire 4DT1) on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX2. (Drawing 6948D37) ________

1st CV

[27] VERIFY at 2-BKR-2-181, CONDENSER VACUUM PMP 2C:

(Acc Crit) x Red Light is OFF ________

x Green Light is ON ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 79 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

NOTE Steps 6.5.3[28] and 6.5.3[32] will temporarily restore and then disable CVP 2C auto-start on low vacuum in order to prove CVP 2C auto-start on restoration of bus voltage..

[28] PLACE Test Switch TS-181 to the CLOSED (ON) position. ________

NOTE The following step will simulate a restoration of bus voltage in 480V Unit Board 2B.

[29] LAND wire (4DC2) on Terminal Point 1 on 480-V BUS UNDERVOLTAGE AUX RELAY 27BX2. (Drawing 6948D37) ________

1st CV

[30] VERIFY at 2-BKR-2-181, CONDENSER VACUUM PMP 2C:

(Acc Crit) x Red Light is ON ________

x Green Light is OFF ________

[31] PRESS SAFE STOP pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C. ________

[32] PLACE Test Switch TS-181 to the OPEN (OFF) position. ________

[33] RACK OUT 2-BKR-2-181, CONDENSER VACUUM PMP 2C. ________

[34] REMOVE front cover of 2-BKR-2-181, CONDENSER VACUUM PMP 2C. ________

[35] PLACE 2-BKR-2-181, CONDENSER VACUUM PMP 2C, Overload Trip Switch (OTS) mechanical lock-in lever (DTA plunger) to the TRIP position. ________

[36] INSTALL front cover of 2-BKR-2-181, CONDENSER VACUUM PMP 2C. ________

1st CV

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 80 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[37] PRESS RESET pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C. ________

[38] RACK 2-BKR-2-181, CONDENSER VACUUM PMP 2C to the TEST position. ________

[39] VERIFY the following:

A. White Light at 2-HS-2-181A, COND VACUUM PMP C, is ON ________

B. 2-XA-55-1B-14E, M-1 THRU M-6 MOTOR TRIPOUT, is in ALARM ________

C. Motor Tripout Buzzer is ON ________

D. Unit 2 Alarm Events Display Screen indicates 14-E M-1 THRU M-6 MOTOR TRIPOUT, is in ALARM (Red). ________

NOTES

1) The following step will electrically reset the Overload Trip Switch (OTS) for 2-BKR-2-181. Do not hold the Handswitch in STOP if the coil does not de-energize to avoid overheating the OTS coil.

2) If the following step does not reset the OTS, then the OTS may be reset manually by pressing the OTS Reset button on the front of the Breaker, and a Test Deficiency Notice shall be initiated.

[40] MOMENTARILY PLACE 2-HS-2-181A, COND VACUUM PMP C, to STOP, AND VERIFY the following:

A. White Light at 2-HS-2-181A is OFF ________

B. 2-XA-55-1B-14E, M-1 THRU M-6 MOTOR TRIPOUT, is CLEAR ________

C. Motor Tripout Buzzer is OFF ________

D. Unit 2 Alarm Events Display Screen indicates 14-E M-1 THRU M-6 MOTOR TRIPOUT, is NORMAL (Green). ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 81 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[41] PLACE 2-HS-2-181A, COND VACUUM PMP C, to STOP PULL TO LOCK. ________

[42] RACK OUT 2-BKR-2-181, CONDENSER VACUUM PMP 2C. ________

[43] REMOVE secondary contact cover on the top rear of 2-BKR-2-181, CONDENSER VACUUM PMP 2C, AND REMOVE temporary jumpers between the following stationary secondary side contacts of 2-BKR-2-181: (Drawing 6948D35)

(Jumpers were installed in step 6.5.3[5])

A. Designated C-1:

Between Pin 3TP (wire 4DC) and Pin 13 (wire 4DC) ________

1st CV B. Designated C-2:

Between Pin 6TP (wire 4DT) and Pin 9 (wire 4DT1) ________

1st CV

[44] REPLACE secondary contact cover on the top rear of 2-BKR-2-181, CONDENSER VACUUM PMP 2A, AND TORQUE between 25 and 35 in-lbs.

M&TE: ________________ ________

1st CV

[45] RACK 2-BKR-2-181, CONDENSER VACUUM PMP 2C, to the CONNECTED position. ________

[46] PLACE 2-HS-30-883, CONDENSER VACUUM PUMP AREA COOLER to AUTO. ________

[47] PRESS RESET pushbutton 2-HS-2-181D, CONDENSER VACUUM PUMP 2C RECIRC PUMP. ________

[48] OPEN 2-ISV-32-2019, CNTL AIR ISOL VLV TO 2-FCV-2-248/2-FCV-2-181. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 82 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[49] ENSURE Condenser Vacuum Pump 2C Seal Water Tank level is at or above approximately 15 on 2-LG-2-178, COND VAC PUMP C SEAL WATER LEVEL, [T14G/685]. ________

[50] PLACE 2-HS-2-181A, COND VACUUM PMP C, to START, AND VERIFY the following x 2-PMP-2-181, CONDENSER VACUUM PUMP 2C,

[T14H/685], is ON. ________

x 2-PMP-2-181D, COND VACUUM WATER PMP C, is ON ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is ON ________

x 2-FCV-2-181, CONDENSER VACUUM PMP 2C SUCTION ISOL, [T14H/685], is OPEN. ________

x 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 49-C VACUUM PMP A SEAL WATER PRESS LO (PS-2-249) is NORMAL (Green) ________

NOTE The following step will cause the pressure in the CVP 2C Seal Water Tank to rise. The pressure switch that controls 2-FCV-2-248 has a setpoint of 4 PSIG (r0.5PSI).

[51] SLOWLY CLOSE 2-CKV-2-712, CONDENSER VACUUM PMP 2C DISCHARGE CHECK, [T14G/685], AND VERIFY 2-FCV-2-248, CONDENSER VACUUM PMP 2C VACUUM BREAKER, [T14H/685], begins to OPEN.

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 83 of 198 Date ________

6.5.3 CVP 2C Logic (continued)

[52] RELEASE handle of 2-CKV-2-712, CONDENSER VACUUM PMP 2C DISCHARGE CHECK, AND VERIFY 2-FCV-2-248, CONDENSER VACUUM PMP 2C VACUUM BREAKER, CLOSES. ________

[53] PLACE 2-HS-2-181A, COND VACUUM PMP C, to STOP PULL TO LOCK, AND VERIFY the following x 2-PMP-2-181, CONDENSER VACUUM PUMP 2C, is OFF. ________

x 2-PMP-2-181D, COND VACUUM WATER PMP C, is OFF ________

x 2-CLR-30-883, CONDENSER VACUUM PUMP AREA COOLER, is OFF ________

x 2-FCV-2-181, CONDENSER VACUUM PMP 2C SUCTION ISOL, is CLOSED. ________

x 2-XA-55-3A-49C, VACUUM PMP C SEAL WATER PRESS LO, is CLEAR ________

x Unit 2 Alarm Events Display Screen indicates 49-C VACUUM PMP C SEAL WATER PRESS LO (PS-2-249) is NORMAL (Green) ________

[54] VERIFY successful completion of this Subsection (6.5.3).

(Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 84 of 198 Date ________

6.5.4 CVP Auto-Start on Low Condenser Vacuum

[1] ENSURE Subsections 6.5.1, 6.5.2, and 6.5.3 have been completed. ________

CAUTION Steps 6.5.4[2] through 6.5.4[5] involve work in energized panels (250V DC Control Power).

[2] REMOVE the switched jumpers from the following locations:

[2.1] Designated TS-171:

in CVP 2A skid-mounted terminal box between TB30 Point 30 and TB10 Point 6.

(Drawing 2-45W2747-4) ________

1st CV

[2.2] Designated TS-176:

in CVP 2B skid-mounted terminal box between TB30 Point 30 and TB10 Point 6.

(Drawing 2-45W2747-4) ________

1st CV

[2.3] Designated TS-181:

in CVP 2C skid-mounted terminal box between TB30 Point 30 and TB10 Point 6.

(Drawing 2-45W2747-4) ________

1st CV

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 85 of 198 Date ________

6.5.4 CVP Auto-Start on Low Condenser Vacuum (continued)

NOTE The following three steps will restore and enable the Condenser Vacuum Pumps auto-start on low vacuum function that was disabled in steps 6.5.1[10], 6.5.2[10], and 6.5.3[10].

[3] LAND vendor wire 30 at TB30, Point 30 (opposite field wire 3DC5) in CVP 2A skid-mounted terminal box, [T14H/685].

(Drawing 2-45W2747-4) ________

1st CV

[4] LAND vendor wire 30 at TB30, Point 30 (opposite field wire 4CC5) in CVP 2B skid-mounted terminal box, [T14G/685].

(Drawing 2-45W2747-4) ________

1st CV

[5] LAND vendor wire 30 at TB30, Point 30 (opposite field wire 4DC5) in CVP 2C skid-mounted terminal box, [T14G/685].

(Drawing 2-45W2747-4) ________

1st CV

[6] PLACE 2-HS-2-171A, COND VACUUM PMP A, [2-M-3],

to P AUTO, AND VERIFY 2-PMP-2-171, CONDENSER VACUUM PUMP 2A,

[T14H/685], STARTS. ________

[7] ALLOW Condenser Vacuum Pump suction header vacuum to stabilize on Vacuum Gauge D.

CVP Header Vacuum: ________________ inHgVac

[8] PLACE 2-HS-2-176A, COND VACUUM PMP B, [2-M-3],

to P AUTO, AND VERIFY 2-PMP-2-176, CONDENSER VACUUM PUMP 2B,

[T14G/685], remains OFF. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 86 of 198 Date ________

6.5.4 CVP Auto-Start on Low Condenser Vacuum (continued)

[9] PRESS TEST pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B, [2-JB-291-269, T14G/685], AND VERIFY 2-PMP-2-176, CONDENSER VACUUM PUMP 2B, STARTS. ________

NOTE 2-FCV-2-176 should not open until Condenser Vacuum Pump 2B draws enough vacuum within itself to approach the suction header vacuum. The differential pressure switch that controls 2-FCV-2-176 has a setpoint of 2.0 inHgDiff (r0.5 inHg).

[10] VERIFY 2-FCV-2-176, CONDENSER VACUUM PMP 2B SUCTION ISOL, [T14G/685], OPENS. (Acc Crit) ________

[11] PLACE 2-HS-2-181A, COND VACUUM PMP C, [2-M-3],

to P AUTO, AND VERIFY 2-PMP-2-181, CONDENSER VACUUM PUMP 2C,

[T14G/685], remains OFF. ________

[12] PRESS TEST pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C, [2-JB-291-269], AND VERIFY 2-PMP-2-181, CONDENSER VACUUM PUMP 2C, STARTS. ________

NOTE 2-FCV-2-181 should not open until Condenser Vacuum Pump 2C draws enough vacuum within itself to approach the suction header vacuum. The differential pressure switch that controls 2-FCV-2-181 has a setpoint of 2.0 inHgDiff (r0.5 inHg).

[13] VERIFY 2-FCV-2-181, CONDENSER VACUUM PMP 2C SUCTION ISOL, [T14G/685], OPENS. (Acc Crit) ________

[14] PRESS SAFE STOP pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A, AND VERIFY 2-PMP-2-171, CONDENSER VACUUM PUMP 2A, STOPS. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 87 of 198 Date ________

6.5.4 CVP Auto-Start on Low Condenser Vacuum (continued)

[15] PRESS RESET pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A, AND VERIFY 2-PMP-2-171, CONDENSER VACUUM PUMP 2A, remains OFF. ________

[16] PRESS TEST pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A, AND VERIFY 2-PMP-2-171, CONDENSER VACUUM PUMP 2A, STARTS. ________

NOTE 2-FCV-2-171 should not open until Condenser Vacuum Pump 2A draws enough vacuum within itself to approach the suction header vacuum. The differential pressure switch that controls 2-FCV-2-171 has a setpoint of 2.0 inHgDiff (r0.5 inHg).

[17] VERIFY 2-FCV-2-171, CONDENSER VACUUM PMP 2A SUCTION ISOL, [T14G/685], OPENS. (Acc Crit)

[18] PRESS SAFE STOP pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C. ________

[19] PRESS SAFE STOP pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B. ________

[20] PRESS SAFE STOP pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A. ________

[21] PRESS RESET pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 88 of 198 Date ________

6.5.4 CVP Auto-Start on Low Condenser Vacuum (continued)

NOTES

1) Valve 2-DRV-2-714 is throttled open in the following step and will remain open for the remainder of this section.

2) The pressure switches that control the auto-start feature of the Condenser Vacuum Pumps have a setpoint of 25.5 inHgVac (r0.3inHg).

[22] THROTTLE OPEN 2-DRV-2-714, CONDENSER VACUUM PMP 2B SUCTION DRAIN, [T14G/685], until the Condenser Vacuum Pump suction header vacuum begins to gradually decrease as read on Vacuum Gauge D. ________

[23] VERIFY 2-PMP-2-176, CONDENSER VACUUM PUMP 2B, STARTS. (Acc Crit) ________

[24] PRESS RESET pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C. ________

[25] PRESS SAFE STOP pushbutton 2-HS-2-176B, CONDENSER VACUUM PUMP 2B, AND VERIFY 2-PMP-2-176, CONDENSER VACUUM PUMP 2B, STOPS. ________

[26] VERIFY 2-PMP-2-181, CONDENSER VACUUM PUMP 2C, STARTS. (Acc Crit) ________

[27] PRESS RESET pushbutton 2-HS-2-171B, CONDENSER VACUUM PUMP 2A. ________

[28] PRESS SAFE STOP pushbutton 2-HS-2-181B, CONDENSER VACUUM PUMP 2C, AND VERIFY 2-PMP-2-181, CONDENSER VACUUM PUMP 2C, STOPS. ________

[29] VERIFY 2-PMP-2-171, CONDENSER VACUUM PUMP 2A, STARTS. (Acc Crit) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 89 of 198 Date ________

6.5.4 CVP Auto-Start on Low Condenser Vacuum (continued)

[30] PLACE the following Handswitches to STOP PULL TO LOCK:

x 2-HS-2-171A, COND VACUUM PMP A ________

x 2-HS-2-176A, COND VACUUM PMP B ________

x 2-HS-2-181A, COND VACUUM PMP C ________

[31] PRESS the RESET pushbutton on the following Handswitches:

x 2-HS-2-176B, CONDENSER VACUUM PUMP 2B ________

x 2-HS-2-181B, CONDENSER VACUUM PUMP 2C ________

[32] CLOSE 2-DRV-2-714, CONDENSER VACUUM PMP 2B SUCTION DRAIN. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 90 of 198 Date ________

6.6 Condenser Vacuum Pumps Performance NOTES

1) Atmospheric conditions can change quickly. Atmospheric pressure should be recorded at least once per shift using Data Sheet 6 during performance of this Section.

2) Subsections 6.6.1 through 6.6.3 may be performed in any order provided the steps within each Subsection are performed in the order written.

3) Refer to GOI-7 for Condenser Vacuum Pump motor starting limitations.

4) All air flow traverses are taken in the condenser vacuum exhaust line at T14G/729.

6.6.1 Condenser Vacuum Pump 2A Individual Performance

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.6 have been completed. ________

[2] ENSURE Sections 6.2 and 6.5 have been completed ________

[3] ENSURE 2-FCV-2-255 is OPEN using 2-HS-2-255, EXH BYPASS COND VAC PMPS, [2-M-3]. ________

CAUTION Use caution when opening 2-PCV-6-330. Ensure immediate area around valve is free of debris that could enter the Condenser.

[4] ENSURE 2-PCV-6-330 is OPEN using 2-HS-6-330A, VACUUM BREAKER COND A, [2-M-3]. ________

[5] OPEN 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL, [T14H/720]. ________

[6] OPEN 2-ISV-2-716, MAIN CONDENSER VACUUM LINE ISOL, [T14H/720]. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 91 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

[7] BEGIN recording Atmospheric Pressure on Data Sheet 6 (N/A if pressure recording has already begun) ________

[8] VERIFY Condenser Vacuum Pump Suction Header vacuum is at atmospheric pressure (0 inHgVac on Vacuum Gauge D). ________

[9] START 2-PMP-2-171 using 2-HS-2-171A, COND VACUUM PMP A, [2-M-3]. ________

[10] RECORD Condenser Vacuum Pump 2A operating data at Atmospheric Pressure on Data Sheets 1 and 4, AND PERFORM calculations on Data Sheets 1 and 4. ________

[11] RECORD Condenser Vacuum Pump 2A Motor Running kVA at Atmospheric Pressure from Data Sheet 1, AND VERIFY motor kVA meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA

[12] CLOSE 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL. ________

[13] CLOSE 2-ISV-2-716, MAIN CONDENSER VACUUM LINE ISOL. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 92 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

NOTES

1) Throttle 2-ISV-2-1034 and -1035 in the following step first. If CVP 2A suction pressure of 15 inHgA cannot be obtained using 2-ISV-2-1034 and -1035, then 2-ISV-2-706 may be used in lieu of or in addition to them.

2) The intent of the following step is to increase the air flow rate of CVP 2A without increasing the suction pressure above 15 inHgA (to verify CVP 2A flow at 15 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[14] THROTTLE any or all of the following valves to obtain a pressure of 14.83 inHgA (or slightly less) on Vacuum Gauge A.

x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL,

[T14H/720]

CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL,

[T14H/720]

CLOSED THROTTLED FULL OPEN x 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL CLOSED THROTTLED FULL OPEN

[15] RECORD Condenser Vacuum Pump 2A operating data at 15 inHgA on Data Sheets 1 and 4, AND PERFORM calculations on Data Sheets 1 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 93 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

[16] RECORD Condenser Vacuum Pump 2A Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 15 inHgA from Data Sheet 1, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 14.83 inHgA SCFM Acc Crit: t 894 SCFM

[17] ENSURE 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL is CLOSED. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 94 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-713. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-ISV-2-1034 and/or -1035 in the following step first and then use 2-DRV-2-713 to fine-tune CVP 2A suction pressure if necessary.

2) The intent of the following step is to increase the air flow rate of CVP 2A without increasing the suction pressure above 5 inHgA (to verify CVP 2A flow at 5 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[18] THROTTLE any or all of the following valves to obtain a pressure of 4.83 inHgA (or slightly less) on Vacuum Gauge A.

x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-DRV-2-713, CONDENSER VACUUM PMP 2A SUCTION DRAIN, [T14H/685]

CLOSED THROTTLED FULL OPEN

[19] RECORD Condenser Vacuum Pump 2A operating data at 5 inHgA on Data Sheets 1 and 4 PERFORM calculations on Data Sheets 1 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 95 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

[20] RECORD Condenser Vacuum Pump 2A Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 5 inHgA from Data Sheet 1, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 4.83 inHgA SCFM Acc Crit: t 276 SCFM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 96 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-713. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-DRV-2-713 in the following step first. If CVP 2A suction pressure of 3 inHgA cannot be obtained using 2-DRV-2-713, then 2-ISV-2-1034 and/or -1035 may be used in lieu of or in addition to it.

2) The intent of the following step is to increase the air flow rate of CVP 2A without increasing the suction pressure above 3 inHgA (to verify CVP 2A flow at 3 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[21] THROTTLE any or all of the following valves to obtain a pressure of 2.83 inHgA (or slightly less) on Vacuum Gauge A.

x 2-DRV-2-713, CONDENSER VACUUM PMP 2A SUCTION DRAIN CLOSED THROTTLED FULL OPEN x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN

[22] RECORD Condenser Vacuum Pump 2A operating data at 3 inHgA on Data Sheets 1 and 4, AND PERFORM calculations on Data Sheets 1 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 97 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

[23] RECORD Condenser Vacuum Pump 2A Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 3 inHgA from Data Sheet 1, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 2.83 inHgA SCFM Acc Crit: t 160 SCFM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 98 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-713. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-DRV-2-713 in the following step first. If CVP 2A suction pressure of 2 inHgA cannot be obtained using 2-DRV-2-713, then 2-ISV-2-1034 and/or -1035 may be used in lieu of or in addition to it.

2) The intent of the following step is to increase the air flow rate of CVP 2A without increasing the suction pressure above 2 inHgA (to verify CVP 2A flow at 2 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[24] THROTTLE any or all of the following valves to obtain a pressure of 1.83 inHgA (or slightly less) on Vacuum Gauge A x 2-DRV-2-713, CONDENSER VACUUM PMP 2A SUCTION DRAIN CLOSED THROTTLED FULL OPEN x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN

[25] RECORD Condenser Vacuum Pump 2A operating data at 2 inHgA on Data Sheets 1 and 4, AND PERFORM calculations on Data Sheets 1 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 99 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

[26] RECORD Condenser Vacuum Pump 2A Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 2 inHgA from Data Sheet 1, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 1.83 inHgA SCFM Acc Crit: t 95.5 SCFM

[27] ENSURE the following valves are CLOSED.

x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL ________

x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL ________

CAUTION Use caution when opening 2-DRV-2-713. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTE The intent of the following step is to increase the air flow rate of CVP 2A without increasing the suction pressure above 1 inHgA (to verify CVP 2A flow at 1 inHgA). 2-DRV-2-713 should be throttled open slowly and the vacuum allowed to stabilize before recording air flow.

[28] THROTTLE 2-DRV-2-713, CONDENSER VACUUM PMP 2A SUCTION DRAIN, as open as possible while still maintaining suction pressure of 0.83 inHgA (or slightly less) on Vacuum Gauge A. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 100 of 198 Date ________

6.6.1 Condenser Vacuum Pump 2A Individual Performance (continued)

[29] RECORD Condenser Vacuum Pump 2A operating data at 1 inHgA on Data Sheets 1 and 4, AND PERFORM calculations on Data Sheets 1 and 4. ________

[30] RECORD Condenser Vacuum Pump 2A Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 1 inHgA from Data Sheet 1, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 0.83 inHgA SCFM Acc Crit: t 32.5 SCFM

[31] STOP 2-PMP-2-171 by placing 2-HS-2-171A, COND VACUUM PMP A, to STOP PULL TO LOCK. ________

[32] CLOSE 2-DRV-2-713, CONDENSER VACUUM PMP 2A SUCTION DRAIN. ________

[33] SUBMIT a copy of the Condenser Vacuum Pump 2A performance data to Engineering for their review and evaluation, AND RECORD name of engineer/department receiving data.

________________/________________ ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 101 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.6 have been completed. ________

[2] ENSURE Sections 6.2 and 6.5 have been completed ________

[3] ENSURE 2-FCV-2-255 is OPEN using 2-HS-2-255, EXH BYPASS COND VAC PMPS, [2-M-3]. ________

CAUTION Use caution when opening 2-PCV-6-330. Ensure immediate area around valve is free of debris that could enter the Condenser.

[4] ENSURE 2-PCV-6-330 is OPEN using 2-HS-6-330A, VACUUM BREAKER COND A, [2-M-3]. ________

[5] OPEN 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL, [T14H/720]. ________

[6] OPEN 2-ISV-2-716, MAIN CONDENSER VACUUM LINE ISOL, [T14H/720]. ________

[7] BEGIN recording Atmospheric Pressure on Data Sheet 6 (N/A if pressure recording has already begun) ________

[8] VERIFY Condenser Vacuum Pump Header vacuum is at atmospheric pressure (0 inHgVac on Vacuum Gauge D). ________

[9] START 2-PMP-2-176 using 2-HS-2-176A, COND VACUUM PMP B, [2-M-3]. ________

[10] RECORD Condenser Vacuum Pump 2B at Atmospheric Pressure operating data on Data Sheets 2 and 4, AND PERFORM calculations on Data Sheets 2 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 102 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

[11] RECORD the Motor Running kVA obtained from Condenser Vacuum Pump 2B at Atmospheric Pressure from Data Sheet 2, AND VERIFY motor kVA meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA

[12] CLOSE 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL. ________

[13] CLOSE 2-ISV-2-716, MAIN CONDENSER VACUUM LINE ISOL. ________

NOTES

1) Throttle 2-ISV-2-1034 and -1035 in the following step first. If CVP 2B suction pressure of 15 inHgA cannot be obtained using 2-ISV-2-1034 and -1035, then 2-ISV-2-706 may be used in lieu of or in addition to them.

2) The intent of the following step is to increase the air flow rate of CVP 2B without increasing the suction pressure above 15 inHgA (to verify CVP 2B flow at 15 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[14] THROTTLE any or all of the following valves to obtain a pressure of 14.83 inHgA (or slightly less) on Vacuum Gauge B.

x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL,

[T14H/720]

CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL,

[T14H/720]

CLOSED THROTTLED FULL OPEN x 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL CLOSED THROTTLED FULL OPEN

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 103 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

[15] RECORD Condenser Vacuum Pump 2B operating data at 15 inHgA operating data on Data Sheets 2 and 4, AND PERFORM calculations on Data Sheets 2 and 4. ________

[16] RECORD Condenser Vacuum Pump 2B Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 15 inHgA from Data Sheet 2, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 14.83 inHgA SCFM Acc Crit: t 849 SCFM

[17] ENSURE 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL is CLOSED. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 104 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-714. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-ISV-2-1034 and/or -1035 in the following step first and then use 2-DRV-2-714 to fine-tune CVP 2B suction pressure.

2) The intent of the following step is to increase the air flow rate of CVP 2B without increasing the suction pressure above 5 inHgA (to verify CVP 2B flow at 5 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[18] THROTTLE any or all of the following valves to obtain a pressure of 4.83 inHgA (or slightly less) on Vacuum Gauge B.

x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-DRV-2-714, CONDENSER VACUUM PMP 2B SUCTION DRAIN, [T14G/685]

CLOSED THROTTLED FULL OPEN

[19] RECORD Condenser Vacuum Pump 2B operating data at 5 inHgA on Data Sheets 2 and 4, AND PERFORM calculations on Data Sheets 2 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 105 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

[20] RECORD Condenser Vacuum Pump 2B Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 5 inHgA from Data Sheet 2, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 4.83 inHgA SCFM Acc Crit: t 290 SCFM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 106 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-714. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-DRV-2-714 in the following step first. If CVP 2B suction pressure of 3 inHgA cannot be obtained using 2-DRV-2-714, then 2-ISV-2-1034 and/or -1035 may be used in lieu of or in addition to it.

2) The intent of the following step is to increase the air flow rate of CVP 2B without increasing the suction pressure above 3 inHgA (to verify CVP 2B flow at 3 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[21] THROTTLE any or all of the following valves to obtain a pressure of 2.83 inHgA (or slightly less) on Vacuum Gauge B.

x 2-DRV-2-714, CONDENSER VACUUM PMP 2B SUCTION DRAIN CLOSED THROTTLED FULL OPEN x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN

[22] RECORD Condenser Vacuum Pump 2B operating data at 3 inHgA on Data Sheets 2 and 4, AND PERFORM calculations on Data Sheets 2 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 107 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

[23] RECORD Condenser Vacuum Pump 2B Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 3 inHgA from Data Sheet 2, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 2.83 inHgA SCFM Acc Crit: t 171 SCFM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 108 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-714. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-DRV-2-714 in the following step first. If CVP 2B suction pressure of 2 inHgA cannot be obtained using 2-DRV-2-714, then 2-ISV-2-1034 and/or -1035 may be used in lieu of or in addition to it.

2) The intent of the following step is to increase the air flow rate of CVP 2B without increasing the suction pressure above 2 inHgA (to verify CVP 2B flow at 2 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[24] THROTTLE any or all of the following valves to obtain a pressure of 1.83 inHgA (or slightly less) on Vacuum Gauge B x 2-DRV-2-714, CONDENSER VACUUM PMP 2B SUCTION DRAIN CLOSED THROTTLED FULL OPEN x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN

[25] RECORD Condenser Vacuum Pump 2B operating data at 2 inHgA operating data on Data Sheets 2 and 4, AND PERFORM calculations on Data Sheets 2 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 109 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

[26] RECORD Condenser Vacuum Pump 2B Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 2 inHgA from Data Sheet 2, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 1.83 inHgA SCFM Acc Crit: t 99 SCFM

[27] ENSURE the following valves are CLOSED x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL ________

x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL ________

CAUTION Use caution when opening 2-DRV-2-714. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTE The intent of the following step is to increase the air flow rate of CVP 2B without increasing the suction pressure above 1 inHgA (to verify CVP 2B flow at 1 inHgA). 2-DRV-2-714 should be throttled open slowly and the vacuum allowed to stabilize before recording air flow.

[28] THROTTLE 2-DRV-2-714, CONDENSER VACUUM PMP 2B SUCTION DRAIN, as much as possible while still maintaining suction pressure of 0.83 inHgA (or slightly less) on Vacuum Gauge B. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 110 of 198 Date ________

6.6.2 Condenser Vacuum Pump 2B Individual Performance (continued)

[29] RECORD Condenser Vacuum Pump 2B operating data at 1 inHgA on Data Sheets 2 and 4, AND PERFORM calculations on Data Sheets 2 and 4. ________

[30] RECORD Condenser Vacuum Pump 2B Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 1 inHgA from Data Sheet 2, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 0.83 inHgA SCFM Acc Crit: t 29 SCFM

[31] STOP 2-PMP-2-176 by placing 2-HS-2-176A, COND VACUUM PMP B, to STOP PULL TO LOCK. ________

[32] CLOSE 2-DRV-2-714, CONDENSER VACUUM PMP 2B SUCTION DRAIN. ________

[33] SUBMIT a copy of the Condenser Vacuum Pump 2B performance data to Engineering for their review and evaluation, AND RECORD name of engineer/department receiving data.

________________/________________ ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 111 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance

[1] ENSURE all prerequisites listed in Section 4.0 for Section 6.6 have been completed. ________

[2] ENSURE Sections 6.2 and 6.5 have been completed ________

[3] ENSURE 2-FCV-2-255 is OPEN using 2-HS-2-255, EXH BYPASS COND VAC PMPS, [2-M-3]. ________

CAUTION Use caution when opening 2-PCV-6-330. Ensure immediate area around valve is free of debris that could enter the Condenser.

[4] ENSURE 2-PCV-6-330 is OPEN using 2-HS-6-330A, VACUUM BREAKER COND A, [2-M-3]. ________

[5] OPEN 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL, [T14H/720]. ________

[6] OPEN 2-ISV-2-716, MAIN CONDENSER VACUUM LINE ISOL, [T14H/720]. ________

[7] BEGIN recording Atmospheric Pressure on Data Sheet 6 (N/A if pressure recording has already begun) ________

[8] VERIFY Condenser Vacuum Pump Header vacuum is at atmospheric pressure (0 inHgVac on Vacuum Gauge D). ________

[9] START 2-PMP-2-181 using 2-HS-2-181A, COND VACUUM PMP C, [2-M-3]. ________

[10] RECORD Condenser Vacuum Pump 2C at Atmospheric Pressure operating data on Data Sheets 3 and 4, AND PERFORM calculations on Data Sheets 3 and 4. ________

[11] RECORD the Motor Running kVA obtained from Condenser Vacuum Pump 2C at Atmospheric Pressure from Data Sheet 3, AND VERIFY motor kVA meets acceptance criteria.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 112 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued) kVA Acc Crit: d 114.5 kVA

[12] CLOSE 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL. ________

[13] CLOSE 2-ISV-2-716, MAIN CONDENSER VACUUM LINE ISOL. ________

NOTES

1) Throttle 2-ISV-2-1034 and -1035 in the following step first. If CVP 2C suction pressure of 15 inHgA cannot be obtained using 2-ISV-2-1034 and -1035, then 2-ISV-2-706 may be used in lieu of or in addition to them.

2) The intent of the following step is to increase the air flow rate of CVP 2C without increasing the suction pressure above 15 inHgA (to verify CVP 2C flow at 15 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[14] THROTTLE any or all of the following valves to obtain a pressure of 14.83 inHgA (or slightly less) on Vacuum Gauge C.

x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL,

[T14H/720]

CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL,

[T14H/720]

CLOSED THROTTLED FULL OPEN x 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL CLOSED THROTTLED FULL OPEN

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 113 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

[15] RECORD Condenser Vacuum Pump 2C operating data at 15 inHgA on Data Sheets 3 and 4, AND PERFORM calculations on Data Sheets 3 and 4. ________

[16] RECORD Condenser Vacuum Pump 2C Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 15 inHgA from Data Sheet 3, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 14.83 inHgA SCFM Acc Crit: t 856 SCFM

[17] ENSURE 2-ISV-2-706, MAIN CONDENSER VACUUM LINE ISOL is CLOSED. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 114 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-715. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-ISV-2-1034 and/or -1035 in the following step first and then use 2-DRV-2-715 to fine-tune CVP 2C suction pressure.

2) The intent of the following step is to increase the air flow rate of CVP 2C without increasing the suction pressure above 5 inHgA (to verify CVP 2C flow at 5 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[18] THROTTLE any or all of the following valves to obtain a pressure of 4.83 inHgA (or slightly less) on Vacuum Gauge C.

x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-DRV-2-715, CONDENSER VACUUM PMP 2C SUCTION DRAIN, [T14G/685]

CLOSED THROTTLED FULL OPEN

[19] RECORD Condenser Vacuum Pump 2C operating data at 5 inHgA operating on Data Sheets 3 and 4, AND PERFORM calculations on Data Sheets 3 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 115 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

[20] RECORD Condenser Vacuum Pump 2C Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 5 inHgA from Data Sheet 3, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 4.83 inHgA SCFM Acc Crit: t 267 SCFM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 116 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-715. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-DRV-2-715 in the following step first. If CVP 2C suction pressure of 3 inHgA cannot be obtained using 2-DRV-2-715, then 2-ISV-2-1034 and/or -1035 may be used in lieu of or in addition to it.

2) The intent of the following step is to increase the air flow rate of CVP 2C without increasing the suction pressure above 3 inHgA (to verify CVP 2C flow at 3 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[21] THROTTLE any or all of the following valves to obtain a pressure of 2.83 inHgA (or slightly less) on Vacuum Gauge C.

x 2-DRV-2-715, CONDENSER VACUUM PMP 2C SUCTION DRAIN CLOSED THROTTLED FULL OPEN x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN

[22] RECORD Condenser Vacuum Pump 2C operating data at 3 inHgA on Data Sheets 3 and 4, AND PERFORM calculations on Data Sheets 3 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 117 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

[23] RECORD Condenser Vacuum Pump 2C Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 3 inHgA from Data Sheet 3, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 2.83 inHgA SCFM Acc Crit: t 154 SCFM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 118 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

CAUTION Use caution when opening 2-DRV-2-715. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTES

1) Throttle 2-DRV-2-715 in the following step first. If CVP 2C suction pressure of 2 inHgA cannot be obtained using 2-DRV-2-715, then 2-ISV-2-1034 and/or -1035 may be used in lieu of or in addition to it.

2) The intent of the following step is to increase the air flow rate of CVP 2C without increasing the suction pressure above 2 inHgA (to verify CVP 2C flow at 2 inHgA).

Valves should be throttled open slowly and the pressure allowed to stabilize before recording air flow.

3) Use check boxes to record the as-left valve positions.

[24] THROTTLE any or all of the following valves to obtain a pressure of 1.83 inHgA (or slightly less) on Vacuum Gauge C x 2-DRV-2-715, CONDENSER VACUUM PMP 2C SUCTION DRAIN CLOSED THROTTLED FULL OPEN x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL CLOSED THROTTLED FULL OPEN

[25] RECORD Condenser Vacuum Pump 2C operating data at 2 inHgA on Data Sheets 3 and 4, AND PERFORM calculations on Data Sheets 3 and 4. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 119 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

[26] RECORD Condenser Vacuum Pump 2C Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 2 inHgA from Data Sheet 3, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 1.83 inHgA SCFM Acc Crit: t 92.5 SCFM

[27] ENSURE the following valves are CLOSED x 2-ISV-2-1034, MFPT COND 2A SHELL VENT LINE ISOL ________

x 2-ISV-2-1035, MFPT COND 2B SHELL VENT LINE ISOL ________

CAUTION Use caution when opening 2-DRV-2-715. Ensure immediate area around valve is free of debris that could enter the Condenser Vacuum Pump suction.

NOTE The intent of the following step is to increase the air flow rate of CVP 2C without increasing the suction pressure above 1 inHgA (to verify CVP 2C flow at 1 inHgA). 2-DRV-2-715 should be throttled open slowly and the vacuum allowed to stabilize before recording air flow.

[28] THROTTLE 2-DRV-2-715, CONDENSER VACUUM PMP 2C SUCTION DRAIN, as much as possible while still maintaining suction pressure of 0.83 inHgA (or slightly less) on Vacuum Gauge C. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 120 of 198 Date ________

6.6.3 Condenser Vacuum Pump 2C Individual Performance (continued)

[29] RECORD Condenser Vacuum Pump 2C operating data at 1 inHgA on Data Sheets 3 and 4, AND PERFORM calculations on Data Sheets 3 and 4. ________

[30] RECORD Condenser Vacuum Pump 2C Motor Running kVA, Pump Suction Pressure, and Airflow Rate (use airflow traverse data) at 1 inHgA from Data Sheet 3, AND VERIFY it meets acceptance criteria.

kVA Acc Crit: d 114.5 kVA inHgA Acc Crit: d 0.83 inHgA SCFM Acc Crit: t 33 SCFM

[31] STOP 2-PMP-2-181 by placing 2-HS-2-181A, COND VACUUM PMP B, to STOP PULL TO LOCK. ________

[32] CLOSE 2-DRV-2-715, CONDENSER VACUUM PMP 2C SUCTION DRAIN. ________

[33] SUBMIT a copy of the Condenser Vacuum Pump 2C performance data to Engineering for their review and evaluation, AND RECORD name of engineer/department receiving data.

________________/________________ ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 121 of 198 Date ________

6.6.4 Condenser Evacuation NOTES

1) If Main Condenser absolute pressure stabilizes at greater than 5 inHgA, the Condenser Vacuum Pumps may have to be stopped to repair excessive Condenser air inleakage. Re-perform this Subsection after Condenser inleakage is repaired.

2) Condenser Vacuum piping should be observed for excessive vibration or noise during the entire performance of this subsection. Performance of vibration walkdown is documented in step 6.6.4[22].

[1] ENSURE Subsections 6.6.1, 6.6.2, and 6.6.3 have been completed. ________

[2] ENSURE system valves are positioned in accordance with Appendix G, Valve Lineup for Condenser Evacuation. ________

[3] ENSURE all Main Condenser and MFPT Condenser manways and access hatches are securely closed. ________

[4] ENSURE 2-FCV-2-255 is OPEN using 2-HS-2-255, EXH BYPASS COND VAC PMPS. [2-M-3]. ________

[5] ENSURE 2-PCV-6-330 is CLOSED using 2-HS-6-330A, VACUUM BREAKER COND A, [2-M-3]. ________

[6] ENSURE Main Condenser and Main Feed Pump Turbine Condensers are at atmospheric pressure (0 inHgVac on Vacuum Gauge D). ________

[7] ENSURE Main Turbine is placed on Turning Gear per 2-SOI-47.01 or equivalent approved Temporary Operating Plan (TOP) for this purpose.

Instruction Used: 2-SOI-47.01 TOP: _____________ ________

[8] ENSURE Main Turbine Steam Seals have been established per 2-SOI-47.03 or equivalent approved TOP for this purpose.

Instruction Used: 2-SOI-47.03 TOP: _____________ ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 122 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

[9] ENSURE Gland Seal Water to Condenser Boot Seal and Condenser Vacuum Breaker has been established per 2-SOI-37.01 or equivalent approved TOP for this purpose.

Instruction Used: 2-SOI-37.01 TOP: _____________ ________

[10] ENSURE Main Feed Pump Turbines are placed on Turning Gear, AND ENSURE Main Feed Pump Turbine Steam Seals have been established per 2-SOI-2&3.01 or equivalent approved TOP for this purpose.

Instruction Used: 2-SOI-2&3.01 TOP: ____________ ________

[11] VERIFY the following Annunciation and Alarms:

A. Annunciator Windows:

x 2-XA-55-3A-46C, CONDENSER VACUUM LO, is in ALARM ________

x 2-XA-55-3B-55D, MFPT CONDENSER VACUUM LO, is in ALARM ________

B. Unit 2 Alarm Events Display Screen:

x 46-C CONDENSER VACUUM LO (PS-2-7B/10) is in ALARM (Red) ________

x 46-C CONDENSER VACUUM LO/LO-LO (Y9006C) is in ALARM (Red) ________

x 55-D MFPT A CONDENSER VACUUM LO (PS-2-14) is in ALARM (Red) ________

x 55-D MFPT B CONDENSER VACUUM LO (PS-2-15) is in ALARM (Red) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 123 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

[12] RECORD the starting values of the following parameters.

(Zone A) ICS Point P2263A ________________ inHgA (Zone B) ICS Point P2264A ________________ inHgA (Zone C) ICS Point P2265A ________________ inHgA (MFPTC A) ICS Point P2270A ________________ inHgA (MFPTC B) ICS Point P2271A ________________ inHgA (Inleakage) ICS Point F2700A ________________ SCFM (Zone C) 2-P/TR-2-2 ________________ inHgA (M&TE) Vacuum Gauge D ________________ inHgVac (M&TE) Atmospheric Pressure ________________ inHg NOTE Start the stopwatch simultaneously with the first CVP started in the following step.

(The CVP that is started first should have a recorded stopwatch time of 00:00:00)

[13] START all three Condenser Vacuum Pumps using their respective Control Room handswitch as follows, AND RECORD stopwatch time (in hh:mm:ss) at each CVP start:

x 2-PMP-2-171 using 2-HS-2-171A, COND VACUUM PMP A, [2-M-3]

x 2-PMP-2-176 using 2-HS-2-176A, COND VACUUM PMP B, [2-M-3]

x 2-PMP-2-181 using 2-HS-2-181A, COND VACUUM PMP C, [2-M-3]

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 124 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

NOTES

1) Step 6.6.4[14] is performed concurrently with steps 6.6.4[15] through 6.6.4[19].

2) Steps 6.6.4[15], 6.6.4[16], and 6.6.4[17] may be performed in parallel.

[14] RECORD system data on Data Sheet 5 at each of the listed Main Condenser absolute pressures as Main Condenser absolute pressure lowers.

A. Atmospheric Pressure ________

B. 25 inHgA ________

C. 20 inHgA ________

D. 15 inHgA ________

E. 10 inHgA ________

F. 5 inHgA ________

G. Final Pressure ________

[15] RECORD the MFPT Condenser pressures at which the following Alarms on the Unit 2 Alarm Events Display Screen change to NORMAL (Green).

A. 55-D MFPT A CONDENSER VACUUM LO (PS-2-14)

ICS Point P2270A ________________ inHgA B. 55-D MFPT B CONDENSER VACUUM LO (PS-2-15)

ICS Point P2271A ________________ inHgA

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 125 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

[16] RECORD the Main Condenser pressures at which the following Alarms on the Unit 2 Alarm Events Display Screen change to NORMAL (Green)

A. 46-C, CONDENSER VACUUM LO (PS-2-7B/10)

ICS Point P2265 ________________ inHgA B. 46-C, CONDENSER VACUUM LO/LO-LO (Y9006C)

ICS Point P2265 ________________ inHgA

[17] VERIFY the following Annunciation and Alarms:

A. Annunciator Windows:

x 2-XA-55-3A-46C, CONDENSER VACUUM LO, is CLEAR ________

x 2-XA-55-3B-55D, MFPT CONDENSER VACUUM LO, is CLEAR ________

B. Unit 2 Alarm Events Display Screen:

x 46-C CONDENSER VACUUM LO (PS-2-7B/10) is NORMAL (Green) ________

x 46-C CONDENSER VACUUM LO/LO-LO (Y9006C) is NORMAL (Green) ________

x 55-D MFPT A CONDENSER VACUUM LO (PS-2-14) is NORMAL (Green) ________

x 55-D MFPT B CONDENSER VACUUM LO (PS-2-15) is NORMAL (Green) ________

[18] WHEN condenser pressure on 2-P/TR-2-2, COND TEMP &

PRESS, [2-M-3], falls below 5 inHgA, THEN CLOSE 2-FCV-2-255 using 2-HS-2-255, EXH BYPASS COND VAC PMPS. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 126 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

NOTE Steps 6.6.4[19] and 6.6.4[21] may be performed in parallel.

[19] WHEN main condenser pressure on 2-P/TR-2-2, COND TEMP

& PRESS, stabilizes, THEN STOP the stopwatch, AND RECORD the values below and on Data Sheet 5.

(hh:mm:ss)

(Zone A) ICS Point P2263A ________________ inHgA (Zone B) ICS Point P2264A ________________ inHgA (Zone C) ICS Point P2265A ________________ inHgA (MFPTC A) ICS Point P2270A ________________ inHgA (MFPTC B) ICS Point P2271A ________________ inHgA (Inleakage) ICS Point F2700A ________________ SCFM (Zone C ) 2-P/TR-2-2 ________________ inHgA (M&TE) Vacuum Gauge D ________________ inHgVac

[20] OPEN 2-FCV-2-255 using 2-HS-2-255, EXH BYPASS COND VAC PMPS. ________

[21] MEASURE CVP discharge air flow traverse (Condenser air inleakage) using Data Sheet 4, AND RECORD Condenser air inleakage from Data Sheet 4.

SCFM

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 127 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

[22] ENSURE Condenser Vacuum piping has been walked down to observe for excessive vibration or noise. ________

[23] CLOSE 2-ISV-2-627, MFPT COND 2A SHELL VENT LINE ISOL, [T15H/708]. ________

NOTE The MFPT Condenser 2A Low Vacuum Alarm may take some time to come in. Normal system inleakage will cause MFPT Condenser 2A to slowly lose vacuum.

MFPTC 2A Low Vacuum Alarm Setpoint is 17.5 inHgA.

[24] VERIFY 2-XA-55-3B-55D, MFPT CONDENSER VACUUM LO, is in ALARM. ________

[25] VERIFY Unit 2 Alarm Events Display Screen indicates 55-D MFPT A CONDENSER VACUUM LO (PS-2-14) is in ALARM (Red). ________

[26] CLOSE 2-ISV-2-626, MFPT COND 2B SHELL VENT LINE ISOL, [T15H/708]. ________

NOTE The MFPT Condenser 2B Low Vacuum Alarm may take some time to come in. Normal system inleakage will cause MFPT Condenser 2B to slowly lose vacuum.

MFPTC 2B Low Vacuum Alarm Setpoint is 17.5 inHgA.

[27] VERIFY 2-XA-55-3B-55D, MFPT CONDENSER VACUUM LO, REFLASHES. ________

[28] VERIFY Unit 2 Alarm Events Display Screen indicates 55-D MFPT B CONDENSER VACUUM LO (PS-2-15) is in ALARM (Red) ________

[29] PLACE the following handswitches in STOP PULL TO LOCK:

x 2-HS-2-171A, COND VACUUM PMP A ________

x 2-HS-2-176A, COND VACUUM PMP B ________

x 2-HS-2-181A, COND VACUUM PMP C ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 128 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

NOTE The Main Condenser Low Vacuum Alarm may take some time to come in. Normal system inleakage will cause the Main Condenser to slowly lose vacuum. Main Condenser Low Vacuum Alarm setpoint is 6.9 inHgA.

[30] VERIFY 2-XA-55-3A-46C, CONDENSER VACUUM LO is in ALARM. ________

[31] VERIFY Unit 2 Alarm Events Display Screen indicates 46-C CONDENSER VACUUM LO (PS-2-7B) is in ALARM (Red) ________

NOTE The Main Condenser Lo-Lo Vacuum Alarm may take some time to come in. Normal system inleakage will cause the Main Condenser to slowly lose vacuum. Main Condenser Lo-Lo Vacuum Alarm setpoint is 10.0 inHgA.

[32] VERIFY 2-XA-55-3A-46C, CONDENSER VACUUM LO, REFLASHES. ________

[33] VERIFY Unit 2 Alarm Events Display Screen indicates 46-C CONDENSER VACUUM LO/LO-LO (Y9006C) is in ALARM (Red) ________

[34] OPEN the following Valves:

x 2-ISV-2-627, MFPT COND 2A SHELL VENT LINE ISOL. ________

x 2-ISV-2-626, MFPT COND 2B SHELL VENT LINE ISOL ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 129 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

NOTE Steps 6.6.4[35] through 6.6.4[41] may be N/Ad if system is to be left in its current configuration to facilitate other testing activities.

[35] ENSURE Main Turbine is removed from Turning Gear per 2-SOI-47.01 or equivalent approved TOP for this purpose.

[36] Instruction Used: 2-SOI-47.01 TOP: _____________ ________

[37] ENSURE Main Turbine Steam Seals are secured per 2-SOI-47.03 or equivalent approved TOP for this purpose.

[38] Instruction Used: 2-SOI-47.03 TOP: _____________ ________

[39] ENSURE Gland Seal Water to the Condenser Vacuum Pumps, Condenser Boot Seal and Condenser Vacuum Breaker is secured per 2-SOI-37.01 or equivalent approved TOP for this purpose.

Instruction Used: 2-SOI-37.01 TOP: _____________ ________

[40] ENSURE Main Feed Pump Turbines are removed from Turning Gear, AND ENSURE Main Feed Pump Turbine Steam Seals are secured per 2-SOI-2&3.01 or equivalent approved TOP for this purpose.

Instruction Used: 2-SOI-2&3.01 TOP: _____________ ________

[41] STOP recording Atmospheric Pressure on Data Sheet 6. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 130 of 198 Date ________

6.6.4 Condenser Evacuation (continued)

[42] OBTAIN trend printouts of the following ICS points, as available (from ICS, PEDS, DatAWare, etc), for the duration of condenser evacuation, AND ATTACH trend printouts to this data package:

(Unavailable points may be marked N/A.)

x P2263A, COND ZONE A BACKPRESSURE ________

x P2264A, COND ZONE B BACKPRESSURE ________

x P2265A, COND ZONE C BACKPRESSURE ________

x P1132A, COND ZONE A HOTWELL PRESS ________

x P1133A, COND ZONE C HOTWELL PRESS ________

x F2260A, COND VAC PMP AIR EXH FLOW 1 ________

x F2700A, COND VAC PMP AIR EXHAUST FLOW 2 ________

x P2270A, MFPT A CONDENSER VACUUM PRESS ________

x P2271A, MFPT B CONDENSER VACUUM PRESS ________

x T2467A, COND VAC HDR TEMP ________

x Y8003A, RCW TEMP UNIT 2 ________

x T2430A, COND CCW INLET-EAST SIDE TEMP ________

x T2431A, COND CCW INLET-WEST SIDE TEMP ________

x T2440A, COND CCW OUTLET-EAST SIDE TEMP ________

x T2441A, COND CCW OUTLET-WEST SIDE TEMP ________

[43] SUBMIT a copy of the Condenser Evacuation data to Engineering for their review and evaluation, AND RECORD name of engineer/department receiving data.

________________/________________ ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 131 of 198 Date ________

7.0 POST-PERFORMANCE ACTIVITIES NOTE Post-performance steps may be performed in any order unless otherwise stated and should be completed as close in time as practicable to the end of instruction performance.

[1] VERIFY Engineering has reviewed and evaluated test data to the extent necessary for acceptable system performance, AND ATTACH copy of Engineering concurrence to the data package. ________

[2] VERIFY that post-test calibration of the M&TE used to record quantitative acceptance criteria has been satisfactorily performed, AND RECORD the results in the M&TE log. ________

[3] VERIFY no excessive vibration of piping system and components was observed during performance of Section 6.0.

(If excessive vibration was observed, then verify engineering has evaluated the vibration and corrective actions have been initiated.) ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 132 of 198 Date ________

7.0 POST-PERFORMANCE ACTIVITIES (continued)

[4] REMOVE the following temporary 0-30 inHg vacuum Test Gauges at the following locations: (Installed in Step 4.3[15])

A. Vacuum Gauge A:

Downstream (low side) test connection of 2-PDS-2-171, COND VAC PMP A INLET VLV CONT, [T14H/685]. ________

1st CV B. Vacuum Gauge B:

Downstream (low side) test connection of 2-PDS-2-176, COND VAC PMP B INLET VLV CONT, [T14G/685]. ________

1st CV C. Vacuum Gauge C:

Downstream (low side) test connection of 2-PDS-2-181, COND VAC PMP C INLET VLV CONT, [T14G/685]. ________

1st CV D. Vacuum Gauge D:

Upstream (high side) test connection of 2-PDI-2-175, CONDENSER VACUUM PMP 2B SUCTION STRN PRESSS, at 2-ISIV-2-388B, [2-L-509, T15G/685]. ________

1st CV

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 133 of 198 Date ________

7.0 POST-PERFORMANCE ACTIVITIES (continued)

[5] REMOVE the following temporary 0-5 PSI pressure Test Gauges at the following locations: (Installed in Step 4.3[16])

A. Pressure Gauge A:

at the test connection downstream of 2-ISV-37-17 PRESSURE SWITCH ISOLATION VAC PUMP 2A,

[T14H/685]. ________

1st CV B. Pressure Gauge B:

at the test connection downstream of 2-ISV-37-18 PRESSURE SWITCH ISOLATION VAC PUMP 2B,

[T14G/685]. ________

1st CV C. Pressure Gauge C:

at the test connection downstream of 2-ISV-37-19 PRESSURE SWITCH ISOLATION VAC PUMP 2C,

[T14G/685]. ________

1st CV

[6] NOTIFY the Unit 2 US/SRO of the test completion and system alignment. ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 134 of 198 Date ________

8.0 RECORDS A. QA Records Completed Test Package B. Non-QA Records None

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 135 of 198 Appendix A (Page 1 of 2)

TEST PROCEDURES/INSTRUCTIONS REFERENCE REVIEW Date ________

NOTES

1) Additional copies of this table may be made as necessary.

2) Initial and date indicates review has been completed for impact.

PROCEDURE/ IMPACT INITIAL AND DATE.

REVISION/CHANGES INSTRUCTION Yes/No (N/A for no change) 2-TSD-2-2 FSAR Section 10.4.2 Table 14.2-1 Sh 68 &

69 WBN2-2-4002 VTD-N010-0020 VTD-J057-0010 0-MI-57.002 SSD-2-LS-2-169 SSD-2-PDS-2-171 SSD-2-PS-2-171 SSD-2-PS-2-250 SSD-2-LS-2-174 SSD-2-PDS-2-176 SSD-2-PS-2-176 SSD-2-PS-2-246 SSD-2-LS-2-179

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 136 of 198 Appendix A (Page 2 of 2)

TEST PROCEDURES/INSTRUCTIONS REFERENCE REVIEW Date ________

PROCEDURE/ IMPACT INITIAL AND DATE.

REVISION/CHANGES INSTRUCTION Yes/No (N/A for no change)

SSD-2-PDS-2-181 SSD-2-PS-2-181 SSD-2-PS-2-248 SSD-2-LPP-2-14 SSD-2-LPP-2-15 SSD-2-LPP-2-7 SSD-2-LPP-2-10

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 137 of 198 Appendix B (Page 1 of 1)

TEMPORARY CONDITION LOG Date ________

NOTES

1) Additional copies of this table may be made as necessary.

2) These steps will be N/Ad if no temporary condition existed.

ITEM TEMPORARY CONDITION PERFORMED RETURNED TO NORMAL No. DESCRIPTION Step Performed By/Date Step Returned By/Date No. CV By/Date No. CV By/Date

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 138 of 198 Appendix C (Page 1 of 4)

PERMANENT PLANT INSTRUMENTATION LOG Date ________

USED FOR POST-TEST INSTRUMENT OR FILLED AND PLACED IN CAL DUE QUANTITATIVE POST-TEST CALIBRATION INSTRUMENT VENTED1 SERVICE1 DATE ACC CRIT CAL DATE2 ACCEPTABLE2 LOOP #

INIT/DATE INIT/DATE YES NO INITIAL/DATE 2-LG-2-168 N/A NO N/A N/A 2-LS-2-169 NO N/A N/A 2-PDI-2-1704 NO N/A N/A 2-PDS-2-171 NO N/A N/A 2-PS-2-171 NO N/A N/A 2-PS-2-250 NO N/A N/A 2-PS-2-251 NO N/A N/A 2-TI-2-3204 NO N/A N/A 2-LG-2-173 N/A NO N/A N/A 2-LS-2-174 NO N/A N/A 2-PDI-2-1754 NO N/A N/A 2-PDS-2-176 NO N/A N/A 2-PS-2-176 NO N/A N/A

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 139 of 198 Appendix C (Page 2 of 4)

PERMANENT PLANT INSTRUMENTATION LOG Date ________

USED FOR POST-TEST INSTRUMENT OR FILLED AND PLACED IN CAL DUE QUANTITATIVE POST-TEST CALIBRATION INSTRUMENT VENTED1 SERVICE1 DATE ACC CRIT CAL DATE2 ACCEPTABLE2 LOOP #

INIT/DATE INIT/DATE YES NO INITIAL/DATE 2-PS-2-246 NO N/A N/A 2-PS-2-247 NO N/A N/A 2-TI-2-3214 NO N/A N/A 2-LG-2-178 N/A NO N/A N/A 2-LS-2-179 NO N/A N/A 2-PDI-2-1804 NO N/A N/A 2-PDS-2-181 NO N/A N/A 2-PS-2-181 NO N/A N/A 2-PS-2-248 NO N/A N/A 2-PS-2-249 NO N/A N/A 2-TI-2-3224 NO N/A N/A

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 140 of 198 Appendix C (Page 3 of 4)

PERMANENT PLANT INSTRUMENTATION LOG Date ________

USED FOR POST-TEST INSTRUMENT OR FILLED AND PLACED IN CAL DUE QUANTITATIVE POST-TEST CALIBRATION INSTRUMENT VENTED1 SERVICE1 DATE ACC CRIT CAL DATE2 ACCEPTABLE2 LOOP #

INIT/DATE INIT/DATE YES NO INITIAL/DATE 2-TE-2-1834 NO N/A N/A 2-LPF-2-256 NO N/A N/A 2-LPF-2-257 NO N/A N/A 2-LPP-2-14 NO N/A N/A 2-LPP-2-23,4 NO N/A N/A 2-LPP-2-74 NO N/A N/A 2-LPP-2-104 NO N/A N/A 2-LPP-2-3363,4 NO N/A N/A 2-LPP-2-144 NO N/A N/A 2-LPP-2-154 NO N/A N/A 2-LPT-24-244 NO N/A N/A

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 141 of 198 Appendix C (Page 4 of 4)

PERMANENT PLANT INSTRUMENTATION LOG Date ________

USED FOR POST-TEST INSTRUMENT OR FILLED AND PLACED IN CAL DUE QUANTITATIVE POST-TEST CALIBRATION INSTRUMENT VENTED1 SERVICE1 DATE ACC CRIT CAL DATE2 ACCEPTABLE2 LOOP #

INIT/DATE INIT/DATE YES NO INITIAL/DATE 2-LPT-27-583,4 NO N/A N/A 2-LPT-27-683,4 NO N/A N/A 2-LPT-27-743,4 NO N/A N/A 2-LPT-27-843,4 NO N/A N/A 1

These items may be initialed and dated by personnel performing the task. Instrumentation not required to be filled and vented may be identified as Not Applicable. (N/A) 2 May be identified as N/A if instrument was not used to verify/record quantitative acceptance criteria data.

3 May be identified as N/A if instrument is not available.

4 These instruments are only used in Subsection 6.6.4, Condenser Evacuation.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 142 of 198 Appendix D (Page 1 of 1)

SWITCH LINEUP Date ________

VERIFIED BY SWITCH LOCATION NOMENCLATURE POSITION INITIAL STOP PULL 2-HS-2-171A 2-M-3 COND VACUUM PMP A TO LOCK STOP PULL 2-HS-2-176A 2-M-3 COND VACUUM PMP B TO LOCK STOP PULL 2-HS-2-181A 2-M-3 COND VACUUM PMP C TO LOCK EXH BYPASS COND VAC 2-HS-2-255 2-M-3 OPEN PMPS 2-HS-6-330A 2-M-3 VACUUM BREAKER COND A CLOSED 2-JB-291-269 CONDENSER VACUUM 2-HS-2-171B SAFE STOP

[T14G/685] PUMP 2A 2-JB-291-269 CONDENSER VACUUM 2-HS-2-176B SAFE STOP

[T14G/685] PUMP 2B 2-JB-291-269 CONDENSER VACUUM 2-HS-2-181B SAFE STOP

[T14G/685] PUMP 2C 2-JB-291-269 CONDENSER VACUUM PUMP 2-HS-2-171D SAFE STOP

[T14G/685] 2A RECIRC PUMP 2-JB-291-269 CONDENSER VACUUM PUMP 2-HS-2-176D SAFE STOP

[T14G/685] 2B RECIRC PUMP 2-JB-291-269 CONDENSER VACUUM PUMP 2-HS-3-181D SAFE STOP

[T14G/685] 2C RECIRC PUMP 2-JB-291-2053 CONDENSER VACUUM 2-HS-6-330B CLOSED

[T14G/729] BREAKER CONDENSER VACUUM PUMP 2-HS-30-883 T14G/685 AUTO AREA COOLER

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 143 of 198 Appendix E (Page 1 of 2)

ELECTRICAL LINEUP Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 480V UNIT BD 2A CONDENSER VACUUM 2-BKR-2-171 DISCONNECTED Compt 3D PMP 2A 2-FU-203-A3/31 480V UNIT BD 2A COND VAC PMP 2A INSTALLED*

2-FU-203-A3/32 Compt 5A CLOSE/TRIP CONT 480V UNIT BD 2B CONDENSER VACUUM 2-BKR-2-176 DISCONNECTED Compt 4C PMP 2B 480V UNIT BD 2B CONDENSER VACUUM 2-BKR-2-181 DISCONNECTED Compt 4D PMP 2C 2-FU-203-B4/21 480V UNIT BD 2B COND VAC PMP 2B INSTALLED*

2-FU-203-B4/22 Compt 6A CLOSE/TRIP CONT 2-FU-203-B4/31 480V UNIT BD 2B COND VAC PMP 2C INSTALLED*

2-FU-203-B4/32 Compt 6A CLOSE/TRIP CONT 480V TURB MOV COND VAC PMP 2A 2-BKR-2-171D ON BD 2A, Compt 3B RECIRC PMP 480V TURB MOV CVP 2A RECIRCULATING 2-FU-209-A3/11 INSTALLED*

BD 2A, Compt 3B PUMP 480V TURB MOV COND VAC PMP 2B 2-BKR-2-176D ON BD 2A, Compt 5A RECIRC PMP 480V TURB MOV CVP 2B RECIRCULATING 2-FU-209-A5/1 INSTALLED*

BD 2A, Compt 5A PUMP 480V TURB MOV COND VAC PMP 2C 2-BKR-2-181D ON BD 2B, Compt 10D RECIRC PMP 480V TURB MOV CVP 2C RECIRCULATING 2-FU-209-B10/31 INSTALLED*

BD 2B, Compt 10D PUMP 480V TURB MOV CNDS VACUUM PUMP 2-BKR-30-883 ON BD 2A, Compt 8B AREA CLR 480V TURB MOV 2-FU-210-A8/11 COND VACUUM PMP COOLER INSTALLED*

BD 2A, Compt 8B

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 144 of 198 Appendix E (Page 2 of 2)

ELECTRICAL LINEUP Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 120V AC INST PWR INST PWR DIST PNL B BKR16 2-BKR-278-M2C DISTR PNL 2B TO 2-PNL-278-M2 ON BKR 16 CND VAC EXH 120V PANEL 2-M-7 UNIT CNTL BD 2-M-7A BKR24 2-BKR-278-M2E INST PWR A RACK ON TO 2-PNL-278-M2 BKR 24 2-FU-275-R76/N1 MOTOR TRIPOUT BUZZER 2-R-76 FOR PANELS M-1 THROUGH INSTALLED*

2-FU-275-R76/N2 Row N, Fuse 1 & 2 M-6 AND M-9 PANELS M-1 THROUGH M-6 2-FU-275-R76/N3 2-R-76 MOTOR TRIPOUT INSTALLED*

2-FU-275-R76/N4 Row N, Fuse 3 & 4 ANNUNCIATION AUXILIARY RELAYS

• When installing fuses with actuators, ensure that the actuating rod is oriented correctly to provide for proper alarm initiation and visual indication.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 145 of 198 Appendix F (Page 1 of 3)

INITIAL VALVE LINEUP Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL CONDENSER VACUUM PMP 2A 2-ISV-2-568 T14H/685 OPEN SUCTION HDR ISOL CONDENSER VACUUM PMP 2A 2-ISV-2-571 T14H/685 OPEN DISCHARGE ISOL 2-RTV-2-386A T14H/685 2-PDI-2-170 ROOT OPEN 2-RTV-2-387A T14H/685 2-PDI-2-170 ROOT OPEN CONDENSER VACUUM PMP 2A 2-DRV-2-713 T14H/685 CLOSED SUCTION DRAIN COND VACUUM WATER PMP A 2-VTV-2-1045 T14H/685 CLOSED VENT VALVE CNTL AIR ISOL VLV TO 2-ISV-32-2014 T14H/685 OPEN 2-FCV-2-250/2-FCV-2-171 CONDENSER VACUUM PMP 2B 2-ISV-2-569 T14G/685 OPEN SUCTION HDR ISOL CONDENSER VACUUM PMP 2B 2-ISV-2-572 T14G/685 OPEN DISCHARGE ISOL 2-RTV-2-388A T14G/685 2-PDI-2-175 ROOT OPEN 2-RTV-2-389A T14G/685 2-PDI-2-175 ROOT OPEN CONDENSER VACUUM PMP 2B 2-DRV-2-714 T14G/685 CLOSED SUCTION DRAIN COND VACUUM WATER PMP B 2-VTV-2-1046 T14G/685 CLOSED VENT VALVE CONTROL AIR ISOLATION VALVE 2-ISV-32-2017 T14G/685 OPEN TO 2-FCV-2-176 CONDENSER VACUUM PMP 2C 2-ISV-2-570 T14G/685 OPEN SUCTION HDR ISOL CONDENSER VACUUM PMP 2C 2-ISV-2-573 T14G/685 OPEN DISCHARGE ISOL 2-RTV-2-390A T14G/685 2-PDI-2-180 ROOT OPEN 2-RTV-2-391A T14G/685 2-PDI-2-180 ROOT OPEN CONDENSER VACUUM PMP 2C 2-DRV-2-715 T14G/685 CLOSED SUCTION DRAIN

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 146 of 198 Appendix F (Page 2 of 3)

INITIAL VALVE LINEUP Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL COND VACUUM WATER PMP C 2-VTV-2-1047 T14G/685 CLOSED VENT VALVE CNTL AIR ISOL VLV TO 2-ISV-32-2019 T14G/685 OPEN 2-FCV-2-248/2-FCV-2-181 2-DRV-2-879 CONDENSER VACUUM PUMP T14G/685 CLOSED DISCHARGE HDR DRAIN MFPT COND 2A SHELL 2-ISV-2-1032 T14H/708 OPEN VENT LINE ISOL MFPT COND 2B SHELL 2-ISV-2-1033 T14H/708 OPEN VENT LINE ISOL MFPT COND 2B SHELL 2-ISV-2-626 T15G/708 CLOSED VENT LINE ISOL MFPT COND 2A SHELL 2-ISV-2-627 T15H/708 CLOSED VENT LINE ISOL COND VACUUM PMP 2-ISIV-90-119I T14G/708 CLOSED AIR EXH MON ISV COND VACUUM PMP 2-ISIV-90-119J T14G/708 CLOSED AIR EXH MON ISV 2-RTV-2-256/A1 T14G/708 2-FT-2-256 ROOT OPEN 2-RTV-2-256/A2 T14G/708 2-FT-2-256 ROOT OPEN 2-RTV-2-257A1 T14G/708 2-FT-2-257 ROOT OPEN 2-RTV-2-257A2 T14G/708 2-FT-2-257 ROOT OPEN COND VAC PUMP EXH HDR 2-ISV-2-574 T14G/708 OPEN INLET FILTER ISOL COND VAC PUMP EXH HDR 2-ISV-2-575 T14G/708 OPEN OUTLET FILTER ISOL

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 147 of 198 Appendix F (Page 3 of 3)

INITIAL VALVE LINEUP Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-RTV-2-350A T14G/708 2-PDIS-2-255 ROOT CLOSED 2-RTV-2-351A T14G/708 2-PDIS-2-255 ROOT CLOSED CNDS VAC PMP AIR EXH 2-ISIV-90-129A T14G/708 CLOSED PART-IODINE SAMP ISV CNDS VAC PMP AIR EXH 2-ISIV-90-129F T14G/708 CLOSED PART-IODINE SAMP ISV CONTROL AIR ISOLATION VALVE 2-ISV-32-2060 T14G/708 OPEN TO 2-FCV-2-255 MAIN CONDENSER VACUUM 2-ISV-2-706 T14H/720 CLOSED LINE ISOL MAIN CONDENSER VACUUM 2-ISV-2-716 T14H/720 CLOSED LINE ISOL MFPT COND 2A SHELL 2-ISV-2-1034 T14H/720 CLOSED VENT LINE ISOL MFPT COND 2B SHELL 2-ISV-2-1035 T14H/720 CLOSED VENT LINE ISOL CONTROL AIR ISOLATION VALVE 2-ISV-32-2625 T14G/720 OPEN TO 2-PCV-6-330

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 148 of 198 Appendix G (Page 1 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL MAIN CONDENSER LEVEL INSTR RACK 2-RTV-2-412A T12E/680 CLOSED SPARE MAIN CONDENSER LEVEL INSTR RACK 2-RTV-2-414A T12E/680 CLOSED SPARE MAIN CONDENSER LEVEL INSTR RACK 2-RTV-2-415A T12E/680 CLOSED SPARE MAIN CONDENSER LEVEL INSTR RACK 2-RTV-2-416A T12E/680 CLOSED SPARE MAIN CONDENSER LEVEL INSTR RACK 2-RTV-2-417A T12E/680 CLOSED SPARE 2-RTV-2-418A T12E/680 2-LS-2-12B ROOT CLOSED 2-RTV-2-419A T12E/680 2-LS-2-12B ROOT CLOSED 2-RTV-2-420A T12E/680 2-LS-2-12A ROOT CLOSED 2-RTV-2-421A T12E/680 2-LS-2-12A ROOT CLOSED 2-DRV-2-920A T12E/680 MAIN CONDENSER 2-LG-2-12 DRAIN CLOSED 2-VTV-2-882 T12E/680 MAIN CONDENSER 2-LG-2-12 VENT CLOSED 2-DRV-2-565 T13C/680 MAIN CONDENSER HOTWELL DRAIN CLOSED 2-RTV-2-1013A T13H/680 HOTWELL A INSTR SPARE CLOSED 2-RTV-2-1015A T13H/680 RT VLV TO LS-2-1009B CLOSED 2-RTV-2-1016A T13H/680 RT VLV TO LS-2-1009B CLOSED 2-RTV-2-1017A T13H/680 RT VLV TO LS-2-1009A CLOSED 2-RTV-2-1018A T13H/680 RT VLV TO LS-2-1009A CLOSED HOTWELL A LEVEL 2-VTV-2-1019 T13H/680 CLOSED CONDENSATE RSVR VENT 2-DRV-2-1023 T13H/680 HOTWELL A LG-2-1009 DRAIN CLOSED 2-ISV-2-581 T14E/680 COND HOTWELL PUMP 2C SUCTION ISOL CLOSED 2-ISV-6-22 T14E/680 MFW HTR A2 COND BYP DNSTR ISOL CLOSED 2-ISV-6-23 T14E/680 MFW HTR B2 COND BYP DNSTR ISOL CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 149 of 198 Appendix G (Page 2 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-ISV-2-579 T14F/680 COND HOTWELL PUMP 2A SUCTION ISOL CLOSED 2-ISV-2-580 T14F/680 COND HOTWELL PUMP 2B SUCTION ISOL CLOSED 2-RTV-2-300A T14F/680 COND HOTWELL PUMP 2B SUCTION PRESS CLOSED 2-ISV-6-823 T14F/680 HOT WELL PUMP 2A VENT TO CONDENSER CLOSED 2-ISV-6-824 T14F/680 HOT WELL PUMP 2B VENT TO CONDENSER CLOSED 2-ISV-6-825 T14F/680 HOT WELL PUMP 2C VENT TO CONDENSER CLOSED 2-ISV-6-617 T14F/680 #3 HDT BYP 2-LCV-6-105B D/S ISOL CLOSED 2-ISV-6-619 T14F/680 #3 HDT BYP 2-LCV-6-105A D/S ISOL CLOSED 2-ISV-6-24 T14F/680 MFW HTR C2 COND BYP DNSTR ISOL CLOSED 2-ISV-6-793 T10E/685 #7 HDT PUMP 2A MIN FLOW ISOL CLOSED 2-ISV-6-794 T10E/685 #7 HDT PUMP 2B MIN FLOW ISOL CLOSED 2-ISV-6-1980 T10E/685 ISOL VLV TO NO. 7 HTR DRAIN TANK CLOSED NITROGEN INJECTION PORT 2-THV-6-195 T114H/685 CLOSED THROTTLE VALVE 2-DRV-12-514 T11F/685 CONDENSER SPARGING DRAIN CLOSED MFPT COND DR TK DR LINE 2-ISV-6-2027 T11H/685 CLOSED ISOLATION VALVE MFPT COND DRAIN TANK 2-LCV-6-209 T14G/685 CLOSED BYPASS TO CONDENSER NITROGEN INJECTION PORT 2-THV-6-203 T14H/685 CLOSED THROTTLE VALVE MFPT COND DR PUMP DISCH 2-ISV-6-2028 T14H/685 CLOSED ISOLATION VALVE 2-PFV-12-512 T8F/708 SPARGING NOZ SUP U2 CLOSED 2-VTV-6-156 T9E/708 2-LG-6-190 VENT CLOSED 2-VTV-6-126 T9E/708 2-LG-6-190 DRAIN CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 150 of 198 Appendix G (Page 3 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL CNDS HTR A6 SHELL SIDE 2-ISV-6-764 T10E/708 CLOSED 2-LCV-6-138 U/S ISOL CNDS HTR A6 SHELL SIDE 2-ISV-6-767 T10E/708 CLOSED 2-LCV-6-138 D/S ISOL CNDS HTR B6 SHELL SIDE 2-ISV-6-765 T10E/708 CLOSED 2-LCV-6-158 U/S ISOL CNDS HTR B6 SHELL SIDE 2-ISV-6-768 T10E/708 CLOSED 2-LCV-6-158 D/S ISOL CNDS HTR C6 SHELL SIDE 2-ISV-6-766 T10E/708 CLOSED 2-LCV-6-177 U/S ISOL CNDS HTR C6 SHELL SIDE 2-ISV-6-769 T10E/708 CLOSED 2-LCV-6-177 D/S ISOL

1. 7 HEATER DRAIN TANK LEVEL 2-DRV-6-953 T10E/708 CLOSED COLUMN DRAIN 2-ISV-12-650 T10F/708 BLDG HTG SYS CNDS ISOL CLOSED AUX STM CNDS RETURN 2-LCV-12-698 D/S 2-ISV-12-644 T10F/708 CLOSED ISOL MAIN STEAM HEADER MSTR TRAP 2-ISV-1-992 T10G/708 CLOSED DRAIN ISOL MAIN STEAM HEADER MSTR TRAP 2-ISV-1-1002 T10G/708 CLOSED DRAIN ISOL MAIN STEAM HEADER MSTR TRAP 2-ISV-1-982 T10H/708 CLOSED DRAIN ISOL CNDS POLISHER RINSE HDR 2-FCV-14-114 T11E/708 CLOSED TO HOTWELL ISOL 2-DRV-6-894 T11E/708 CNDS HEATER C5 SHELL SIDE DRAIN CLOSED 2-RTV-6-413A T11E/708 2-PI-6-174 ROOT CLOSED

1. 7 HEATER DRAIN TANK 2-ISV-6-776 T11E/708 CLOSED 2-LCV-6-190B U/S ISOL

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 151 of 198 Appendix G (Page 4 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL

1. 7 HEATER DRAIN TANK 2-ISV-6-777 T11E/708 CLOSED 2-LCV-6-190B D/S ISOL 2-RTV-6-419A T11F/708 2-PI-6-179 ROOT CLOSED 2-VTV-15-852 T11H/708 SG BLOWDOWN PUMP SUCT HDR VENT CLOSED MAIN STEAM HEADER MSTR TRAP 2-ISV-1-972 T11J/708 CLOSED DRAIN ISOL 2-ISV-15-919 T11J/708 SG BLOWDOWN RAD MON RETURN ISOL CLOSED MAIN STEAM HEADER MSTR TRAP 2-ISV-1-962 T12J/708 CLOSED DRAIN ISOL 2-RTV-15-113A T12J/708 2-RE-90-120/2-RE-90-121 ROOT CLOSED 2-RTV-15-100A T12J/708 2-PI-15-30 ROOT CLOSED 2-FCV-3-195 T13J/708 MFW DEAERATION LINE CONTROL CLOSED MFW DEAERATION LINE 2-PCV-3-40 T13J/708 CLOSED BACK PRESSURE CONTROL 2-ISV-5-622 T14E/708 #3 EXTR STM HDR COND ISOL CLOSED 2-VTV-6-679 T14G/708 MFW HTR C1 SHELL SIDE OPERATING VENT CLOSED 2-ISV-5-623 T14H/708 #3 EXTR STM HDR DRAIN ISOL CLOSED 2-ISV-2-626 T15G/708 MFPT COND 2B SHELL VENT LINE ISOL OPEN 2-VTV-6-677 T15G/708 MFW HTR A1 SHELL SIDE OPERATING VENT CLOSED 2-VTV-6-678 T15G/708 MFW HTR B1 SHELL SIDE OPERATING VENT CLOSED 2-ISV-6-798 T15G/708 MFPT CONDENSER 2B OUT ISOL CLOSED 2-VTV-6-800 T15G/708 MFPT CONDENSER 2B VENT CLOSED 2-VTV-6-995 T15G/708 MFPT CONDENSER 2B IN VENT CLOSED 2-VTV-6-996 T15G/708 MFPT CONDENSER 2B OUT VENT CLOSED 2-ISV-2-627 T15H/708 MFPT COND 2A SHELL VENT LINE ISOL OPEN

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 152 of 198 Appendix G (Page 5 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-ISV-6-797 T15H/708 MFPT CONDENSER 2A OUT ISOL CLOSED 2-VTV-6-799 T15H/708 MFPT CONDENSER 2A VENT CLOSED 2-VTV-6-993 T15H/708 MFPT CONDENSER 2A IN VENT CLOSED 2-VTV-6-994 T15H/708 MFPT CONDENSER 2A OUT VENT CLOSED MAIN STEAM LOOP 4 MSTR TRAP 2-ISV-1-952 T15M/708 CLOSED DRAIN ISOL MAIN STEAM LOOP 2 MSTR TRAP 2-ISV-1-932 T15M/708 CLOSED DRAIN ISOL MAIN STEAM LOOP 1 MSTR TRAP 2-ISV-1-922 T15M/708 CLOSED DRAIN ISOL MAIN STEAM LOOP 3 MSTR TRAP 2-ISV-1-942 T15M/708 CLOSED DRAIN ISOL 2-RTV-2-308A T16H/708 2-PS-2-252B/2-PS-2-252E ROOT OPEN 2-RTV-2-307A T16J/708 2-PS-2-252A/2-PS-2-252D ROOT OPEN MFW HTR A1 SHELL SIDE BYP 2-ISV-6-602 T14G/720 CLOSED LCV-6-15B D/S ISOL MFW HTR B1 SHELL SIDE BYP 2-ISV-6-603 T14G/720 CLOSED LCV-6-35B D/S ISOL MFW HTR C1 SHELL SIDE BYP 2-ISV-6-604 T14G/720 CLOSED LCV-6-58B D/S ISOL 2-ISV-2-706 T14H/720 MAIN CONDENSER VACUUM LINE ISOL OPEN 2-ISV-2-716 T14H/720 MAIN CONDENSER VACUUM LINE ISOL OPEN 2-IBV-1-637 T10F/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-113 T10F/724 CONDENSER B MAIN STEAM DUMP VLV CLOSED 2-IBV-1-638 T10F/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-114 T10F/724 CONDENSER C MAIN STEAM DUMP VLV CLOSED 2-DRV-6-893 T10F/724 CNDS HEATER B5 SHELL SIDE DRAIN CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 153 of 198 Appendix G (Page 6 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-DRV-6-908 T10F/724 CNDS HEATER B6 SHELL SIDE DRAIN CLOSED 2-FCV-1-112 T10G/724 CONDENSER B MAIN STEAM DUMP VLV CLOSED 2-IBV-1-631 T10G/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-107 T10G/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-IBV-1-632 T10G/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-108 T10G/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-IBV-1-633 T10G/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-109 T10G/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-IBV-1-634 T10G/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-110 T10G/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-IBV-1-635 T10G/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-111 T10G/724 CONDENSER B MAIN STEAM DUMP VLV CLOSED 2-IBV-1-636 T10G/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-DRV-6-920 T10G/724 CNDS HEATER B7 SHELL SIDE DRAIN CLOSED 2-IBV-1-627 T10H/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-103 T10H/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-IBV-1-628 T10H/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-104 T10H/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-IBV-1-629 T10H/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-105 T10H/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-IBV-1-630 T10H/724 MAIN STEAM DUMP MANUAL ISOL CLOSED 2-FCV-1-106 T10H/724 CONDENSER A MAIN STEAM DUMP VLV CLOSED 2-RTV-6-418A T11E/724 2-PI-6-160 ROOT CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 154 of 198 Appendix G (Page 7 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-DRV-6-909 T11E/724 CNDS HEATER C6 SHELL SIDE DRAIN CLOSED 2-RTV-6-425A T11E/724 2-PI-6-183 ROOT CLOSED CNDS HTR C6 SHELL SIDE LEVEL 2-DRV-6-951 T11E/724 CLOSED COLUMN DRAIN 2-DRV-6-1138 T11E/724 2-LIC-6-177 DRAIN CLOSED 2-VTV-6-1148 T11E/724 2-LIC-6-177 VENT CLOSED 2-VTV-6-1836B T11E/724 2-LG-6-177 VENT CLOSED 2-DRV-6-1837B T11E/724 DRAIN VALVE FOR 2-LG-6-177 CLOSED 2-RTV-47-215CA T11F/724 2-FCV-47-215C SENSING LINE ROOT CLOSED SGBD 1ST STAGE HX 2-ISV-2-861 T11F/724 CLOSED TO MN CONDENSER ISOL 2-RTV-6-421A T11F/724 2-PI-6-145 ROOT CLOSED 2-RTV-6-412A T11F/724 2-PI-6-155 ROOT CLOSED 2-RTV-6-423A T11F/724 2-PI-6-165 ROOT CLOSED CNDS HTR C5 SHELL SIDE 2-ISV-6-754 T11F/724 CLOSED 2-LCV-6-172 U/S ISOL CNDS HTR C5 SHELL SIDE 2-ISV-6-757 T11F/724 CLOSED 2-LCV-6-172 D/S ISOL 2-DRV-6-921 T11F/724 CNDS HEATER C7 SHELL SIDE DRAIN CLOSED 2-ISV-5-624 T11F/724 MSR A2/B2/C2 EXTR STM COND DRN ISOL CLOSED CNDS HTR B5 SHELL SIDE LEVEL 2-DRV-6-947 T11F/724 CLOSED COLUMN DRAIN 2-DRV-6-1122 T11F/724 2-LIC-6-153 DRAIN CLOSED 2-VTV-6-1132 T11F/724 2-LIC-6-153 VENT CLOSED 2-VTV-6-1796B T11F/724 2-LG-6-153 VENT CLOSED 2-DRV-6-1797B T11F/724 DRAIN VALVE FOR 2-LG-6-153 CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 155 of 198 Appendix G (Page 8 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL LP TURB B EXHAUST HOOD SPRAY 2-ISV-47-427- T11G/724 CLOSED FCV D/S ISOL LP TURB B EXHAUST HOOD SPRAY 2-BYV-47-432 T11G/724 CLOSED FCV BYPASS 2-RTV-47-215BA T11G/724 2-FCV-47-215B SENSING LINE ROOT CLOSED LP TURB C EXHAUST HOOD SPRAY 2-ISV-47-429 T11G/724 CLOSED FCV D/S ISOL LP TURB C EXHAUST HOOD SPRAY 2-BYV-47-433 T11G/724 CLOSED FCV BYPASS 2-DRV-6-892 T11G/724 CNDS HEATER A5 SHELL SIDE DRAIN CLOSED 2-RTV-6-411A T11G/724 2-PI-6-134 ROOT CLOSED CNDS HTR A5 SHELL SIDE 2-ISV-6-752 T11G/724 CLOSED 2-LCV-6-133 U/S ISOL CNDS HTR A5 SHELL SIDE 2-ISV-6-755 T11G/724 CLOSED 2-LCV-6-133 D/S ISOL 2-RTV-6-414A T11G/724 2-PI-6-136 ROOT CLOSED 2-DRV-6-907 T11G/724 CNDS HEATER A6 SHELL SIDE DRAIN CLOSED 2-RTV-6-417A T11G/724 2-PI-6-140 ROOT CLOSED 2-RTV-6-408A T11G/724 2-PI-6-132 ROOT CLOSED CNDS HTR B5 SHELL SIDE 2-ISV-6-753 T11G/724 CLOSED 2-LCV-6-153 U/S ISOL CNDS HTR B5 SHELL SIDE 2-ISV-6-756 T11G/724 CLOSED 2-LCV-6-153 D/S ISOL 2-RTV-6-415A T11G/724 2-PI-6-157 ROOT CLOSED 2-RTV-6-409A T11G/724 2-PI-6-152 ROOT CLOSED CNDS HTR A5 SHELL SIDE LEVEL 2-DRV-6-946 T11G/724 CLOSED COLUMN DRAIN

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 156 of 198 Appendix G (Page 9 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-DRV-6-1118 T11G/724 2-LIC-6-133 DRAIN VALVE CLOSED 2-VTV-6-1128 T11G/724 2-LIC-6-133 VENT CLOSED 2-VTV-6-1786B T11G/724 2-LG-6-133 VENT CLOSED 2-DRV-6-1787B T11G/724 DRAIN VALVE FOR 2-LG-6-133 CLOSED CNDS HTR C5 SHELL SIDE LEVEL 2-DRV-6-948 T11G/724 CLOSED COLUMN DRAIN 2-DRV-6-1126 T11G/724 2-LIC-6-172 DRAIN CLOSED 2-VTV-6-1136 T11G/724 2-LIC-6-172 VENT CLOSED 2-VTV-6-1806B T11G/724 2-LG-6-172 VENT CLOSED 2-DRV-6-1807B T11G/724 DRAIN VALVE FOR 2-LG-6-172 CLOSED CNDS HTR B6 SHELL SIDE LEVEL 2-DRV-6-950 T11G/724 CLOSED COLUMN DRAIN 2-DRV-6-1134 T11G/724 2-LIC-6-158 DRAIN CLOSED 2-VTV-6-1144 T11G/724 2-LIC-6-158 VENT CLOSED 2-VTV-6-1826B T11G/724 2-LG-6-158 VENT CLOSED 2-DRV-6-1827B T11G/724 DRAIN VALVE FOR 2-LG-6-158 CLOSED LP TURB A EXHAUST HOOD SPRAY 2-ISV-47-426 T11H/724 CLOSED FCV U/S ISOL LP TURB A EXHAUST HOOD SPRAY 2-BYV-47-431 T11H/724 CLOSED FCV BYPASS 2-RTV-47-215AA T11H/724 2-FCV-47-215A SENSING LINE ROOT CLOSED 2-VTV-6-916 T11H/724 HTR A7 CHANNEL DRAIN CLOSED 2-ISV-5-621 T11H/724 MSR A1/B1/V1 EXTR STM COND DRN ISOL CLOSED CNDS HTR A6 SHELL SIDE LEVEL 2-DRV-6-949 T11H/724 CLOSED COLUMN DRAIN

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 157 of 198 Appendix G (Page 10 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-DRV-6-1130 T11H/724 2-LIC-6-138 DRAIN CLOSED 2-VTV-6-1140 T11H/724 2-LIC-6-138 VENT CLOSED 2-VTV-6-1816B T11H/724 2-LG-6-138 VENT CLOSED 2-DRV-6-1817B T11H/724 DRAIN VALVE FOR 2-LG-6-138 CLOSED 2-RTV-6-416A T12E/724 2-PI-6-176 ROOT CLOSED 2-RTV-6-410A T12E/724 2-PI-6-171 ROOT CLOSED MSR B-1 LP DRN TNK BYP 2-ISV-6-875 T11E/729 CLOSED 2-LCV-6-28B D/S ISOL MSR C-1 LP DRN TNK BYP 2-ISV-6-876 T11E/729 CLOSED 2-LCV-6-50B D/S ISOL MSR A-1 LP DRN TNK BYP 2-ISV-6-874 T11F/729 CLOSED 2-LCV-6-4B D/S ISOL MSR A-2 HP DRN TNK BYP 2-ISV-6-830 T11G/729 CLOSED 2-LCV-6-76B D/S ISOL MSR B-2 HP DRN TNK BYP 2-ISV-6-831 T11G/729 CLOSED 2-LCV-6-85B D/S ISOL MSR C-2 HP DRN TNK BYP 2-ISV-6-832 T11G/729 CLOSED 2-LCV-6-94B D/S ISOL MSR A-1 HP DRN TNK BYP 2-ISV-6-833 T11G/729 CLOSED 2-LCV-6-13B D/S ISOL MSR B-1 HP DRN TNK BYP 2-ISV-6-842 T11G/729 CLOSED 2-LCV-6-33B D/S ISOL MSR C-1 HP DRN TNK BYP 2-ISV-6-843 T11G/729 CLOSED 2-LCV-6-56B D/S ISOL 2-VTV-15-922 T11H/729 SG BLOWDOWN FLASH TANK DISCH VENT CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 158 of 198 Appendix G (Page 11 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-FCV-7-1 T12H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-2 T12H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-3 T12H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-4 T12H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-5 T12H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-6 T12H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-7 T13H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-8 T13H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-9 T13H/729 TURBINE EXTRACTION DRAIN CLOSED 2-FCV-7-10 T13H/729 MN TURBINE VENTILATING STEAM DUMP CLOSED 2-FCV-7-11 T13H/729 MN TURBINE VENTILATING STEAM DUMP CLOSED MSR A-2 BELLY DRN TNK BYP 2-ISV-6-850 T14D/729 CLOSED LCV-6-74B D/S ISOL MSR B-2 BELLY DRN TNK BYP 2-ISV-6-851 T14D/729 CLOSED LCV-6-83B D/S ISOL MSR C-2 BELLY DRN TNK BYP 2-ISV-6-852 T14D/729 CLOSED LCV-6-92B D/S ISOL MSR A-1 BELLY DRN TNK BYP 2-ISV-6-859 T14D/729 CLOSED LCV-6-9B D/S ISOL MSR B-1 BELLY DRN TNK BYP 2-ISV-6-860 T14D/729 CLOSED LCV-6-31B D/S ISOL MSR C-1 BELLY DRN TNK BYP 2-ISV-6-861 T14D/729 CLOSED LCV-6-52B D/S ISOL 2-VTV-5-573 T14E/729 CNDS HTR C4 EXTR STM INLET VENT CLOSED MSR B-2 LP DRN TNK BYP 2-ISV-6-867 T14E/729 CLOSED 2-LCV-6-81B D/S ISOL

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 159 of 198 Appendix G (Page 12 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-ISV-6-1988 T14E/729 HTR A3/B3/C3 OPER VENT COND ISOL CLOSED 2-ISV-6-1989 T14E/729 HTR A2/B2/C2 OPER VENT COND ISOL CLOSED CNDS HTR C4 EXTR STM INLET 2-IBV-5-502 T14F/729 CLOSED 2-FCV-5-70 BYP 2-FCV-5-70 T14F/729 CNDS HTR C4 EXTR STM INLET FLOW CNTL CLOSED 2-VTV-5-572 T14F/729 CNDS HTR B4 EXTR STM INLET VENT CLOSED 2-RTV-5-228A T14F/729 2-PI-5-68/2-PT-5-68 ROOT CLOSED 2-RTV-5-232A T14F/729 2-PI-5-83/2-PT-5-83 ROOT CLOSED 2-RTV-5-235A T14F/729 2-PI-5-86/2-PT-5-86 ROOT CLOSED 2-RTV-5-240A T14F/729 2-PI-5-91B/2-PT-5-91 ROOT CLOSED 2-RTV-5-241A T14F/729 2-PI-5-92 ROOT CLOSED 2-TV-5-551 T14F/729 CNDS HTR C4 EXTR STM TEST CONN CLOSED 2-TV-5-552 T14F/729 CNDS HTR C5 EXTR STM TEST CONN CLOSED 2-TV-5-553 T14F/729 CNDS HTR C6 EXTR STM TEST CONN CLOSED 2-TV-5-554 T14F/729 CNDS HTR C7 EXTR STM TEST CONN CLOSED 2-TV-5-555 T14F/729 CNDS HTR C7 EXTR STM TEST CONN CLOSED CNDS HTR B4 SHELL SIDE 2-ISV-6-738 T14F/729 CLOSED 2-LCV-6-147A D/S ISOL MSR A-2 LP DRN TNK BYP 2-ISV-6-841 T14F/729 CLOSED 2-LCV-6-72B D/S ISOL CNDS HTR C4 SHELL SIDE 2-ISV-6-739 T14F/729 CLOSED 2-LCV-6-166A D/S ISOL CNDS HTR C4 SHELL SIDE BYP 2-IBV-6-748 T14F/729 CLOSED LCV-6-166B D/S ISOL 2-ISV-6-868 T14F/729 DRN TNK BYP 2-LCV-6-90B D/S ISOL CLOSED 2-VTV-5-571 T14G/729 CNDS HTR A4 EXTR STM INLET VENT CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 160 of 198 Appendix G (Page 13 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-RTV-5-226A T14G/729 2-PI-5-60/2-PT-5-60 ROOT CLOSED 2-RTV-5-231A T14G/729 2-PI-80/2-PT-5-80 ROOT CLOSED 2-RTV-5-234A T14G/729 2-PI-5-85/2-PT-5-85 ROOT CLOSED 2-RTV-5-238A T14G/729 2-PI-5-89B/2-PT-5-89 ROOT CLOSED 2-RTV-5-239A T14G/729 2-PI-5-90 ROOT CLOSED 2-TV-5-546 T14G/729 CNDS HTR B4 EXTR STM TEST CONN CLOSED 2-TV-5-547 T14G/729 CNDS HTR B5 EXTR STM TEST CONN CLOSED 2-TV-5-548 T14G/729 CNDS HTR B6 EXTR STM TEST CONN CLOSED 2-TV-5-549 T14G/729 CNDS HTR B7 EXTR STM TEST CONN CLOSED 2-TV-5-550 T14G/729 CNDS HTR B7 EXTR STM TEST CONN CLOSED 2-RTV-2-369A T14G/729 SPARE ROOT CLOSED 2-RTV-2-994A T14G/729 SPARE ROOT CLOSED 2-TV-2-1000 T14G/729 SPARE TEST CLOSED 2-RTV-2-927A T14G/729 2-PT-2-1, 2-PT-2-2 ROOT OPEN 2-RTV-2-370A T14G/729 SPARE ROOT CLOSED 2-RTV-2-995A T14G/729 SPARE ROOT CLOSED 2-RTV-2-1001 T14G/729 SPARE TEST CLOSED 2-RTV-2-925A T14G/729 2-PT-2-7 ROOT OPEN 2-RTV-2-380A T14G/729 SPARE ROOT CLOSED 2-RTV-2-996A T14G/729 SPARE ROOT CLOSED 2-RTV-2-1002 T14G/729 SPARE TEST CLOSED 2-RTV-2-926A T14G/729 2-PT-2-10, 2-PT-2-336 ROOT OPEN CNDS HTR A4 SHELL SIDE 2-ISV-6-737 T14G/729 CLOSED 2-LCV-6-127 D/S ISOL

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 161 of 198 Appendix G (Page 14 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL CNDS HTR A4 SHELL SIDE BYP 2-IBV-6-746 T14G/729 CLOSED LCV-6-127B D/S ISOL CNDS HTR B4 SHELL SIDE BYP 2-IBV-6-747 T14G/729 CLOSED LCV-6-147B D/S ISOL 2-RTV-5-224A T14H/729 2-PI-5-52B/2-PT-5-52 ROOT CLOSED 2-RTV-5-230A T14H/729 2-PI-5-77B/2-PT-5-77 ROOT CLOSED 2-RTV-5-233A T14H/729 2-PI-5-84B/2-PT-5-84 ROOT CLOSED 2-RTV-5-236A T14H/729 2-PI-5-87B/2-PT-5-87 ROOT CLOSED 2-RTV-5-237A T14H/729 2-PI-5-88 ROOT CLOSED 2-TV-5-541 T14H/729 CNDS HTR A4 EXTR STM TEST CONN CLOSED 2-TV-5-542 T14H/729 CNDS HTR A5 EXTR STM TEST CONN CLOSED 2-TV-5-543 T14H/729 CNDS HTR A6 EXTR STM TEST CONN CLOSED 2-TV-5-544 T14H/729 CNDS HTR A7 EXTR STM TEST CONN CLOSED 2-TV-5-545 T14H/729 CNDS HTR A7 EXTR STM TEST CONN CLOSED 2-ISV-5-629 T14H/729 MSR A2/B2/C2 EXTR STM DRN COND ISO CLOSED CNDS HTR B4 EXTR STM INLET 2-IBV-5-501 T15F/729 CLOSED 2-FCV-5-62 BYP 2-FCV-5-62 T15F/729 CNDS HTR B4 EXTR STM INLET FLOW CNTL CLOSED 2-FCV-1-45 T15H/729 MFPT 2B LP STEAM CONTROL VLV CLOSED 2-FCV-1-46 T15H/729 MFPT 2B LP STEAM STOP VLV CLOSED 2-ISV-3-580 T15H/729 MAIN FEEDWATER PUMP A RECIRC ISOL CLOSED 2-ISV-3-581 T15H/729 MAIN FEEDWATER PUMP B RECIRC ISOL CLOSED 2-FCV-1-38 T15J/729 MFPT 2A LP STEAM CONTROL VLV CLOSED 2-FCV-1-39 T15J/729 MFPT 2A LP STEAM STOP VLV CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 162 of 198 Appendix G (Page 15 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-FCV-3-208 STANDBY MAIN FEEDWATER PUMP T15J/729 CLOSED MIN FLOW CNDS HTR A4 EXTR STM INLET 2-IBV-5-500 T16F/729 CLOSED 2-FCV-5-54 BYP 2-FCV-5-54 T16F/729 CNDS HTR A4 EXTR STM INLET FLOW CNTL CLOSED 2-FCV-1-43 T16H/729 MFPT 2B HP STEAM STOP VLV CLOSED 2-FCV-1-44 T16H/729 MFPT 2B HP STEAM CONTROL VLV CLOSED 2-FCV-1-36 T16J/729 MFPT 2A HP STEAM STOP VLV CLOSED 2-FCV-1-37 T16J/729 MFPT 2A HP STEAM CONTROL VLV CLOSED STANDBY MAIN FEEDWATER PUMP 2-HCV-3-208 T16J/729 CLOSED RECIRC WARMING 2-PCV-6-47 T10F/755 MSR C-1 LOW PRESSURE START UP VENT CLOSED ISOLATION VALVE FOR MSR 2C-1 2-ISV-6-2042 T10G/755 CLOSED START UP VENT 2-PCV-6-25 T12E/755 MSR B-1 LOW PRESSURE START UP VENT CLOSED 2-FCV-1-101 T12F/755 MSR C-1 TO LP TURB C STOP VLV CLOSED 2-FCV-1-102 T12F/755 MSR C-1 TO LP TURB C INTERCEPT VLV CLOSED ISOLATION VALVE FOR MSR 2B-1 2-ISV-6-2041 T12F/755 CLOSED START UP VENT 2-FCV-1-94 T12G/755 MSR B-1 TO LP TURB B STOP VLV CLOSED 2-FCV-1-95 T12G/755 MSR B-1 TO LP TURB B INTERCEPT VLV CLOSED ISOLATION VALVE FOR MSR 2A-1 2-ISV-2-2040 T12G/755 CLOSED START UP VENT 2-FCV-1-87 T12H/755 MSR A-1 TO LP TURB A STOP VLV CLOSED 2-FCV-1-88 T12H/755 MSR A-1 TO LP TURB A INTERCEPT VLV CLOSED 2-PCV-6-1 T12J/755 MSR A-1 LOW PRESSURE START UP VENT CLOSED

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 163 of 198 Appendix G (Page 16 of 16)

VALVE LINEUP FOR CONDENSER EVACUATION Date ________

VERIFIED BY COMPONENT LOCATION NOMENCLATURE POSITION INITIAL 2-FCV-1-133 T13F/755 MSR C-2 TO LP TURB C STOP VLV CLOSED 2-FCV-1-134 T13F/755 MSR C-2 TO LP TURB C INTERCEPT VLV CLOSED 2-FCV-1-128 T13G/755 MSR B-2 TO LP TURB B STOP VLV CLOSED 2-FCV-1-129 T13G/755 MSR B-2 TO LP TURB B INTERCEPT VLV CLOSED 2-FCV-1-123 T13H/755 MSR A-2 TO LP TURB A STOP VLV CLOSED 2-FCV-1-124 T13H/755 MSR A-2 TO LP TURB A INTERCEPT VLV CLOSED 2-LOV-47-727 T13J/755 HP TURBINE STEAM SEAL LEAKOFF CLOSED 2-LOV-47-728 T13J/755 HP TURBINE STEAM SEAL LEAKOFF CLOSED 2-LOV-47-729 T13J/755 HP TURBINE STEAM SEAL LEAKOFF CLOSED 2-LOV-47-730 T13J/755 HP TURBINE STEAM SEAL LEAKOFF CLOSED 2-PCV-6-78 T14E/755 MSR B-2 LOW PRESSURE START UP VENT CLOSED ISOLATION VALVE FOR MSR 2B-2 2-ISV-6-2044 T14F/755 CLOSED START UP VENT 2-RTV-7-200A T14G/755 2-PS-7-1 ROOT CLOSED ISOLATION VALVE FOR MSR 2A-2 2-ISV-2-2043 T14G/755 CLOSED START UP VENT 2-PCV-6-69 T14J/755 MSR A-2 LOW PRESSURE START UP VENT CLOSED 2-PCV-6-87 T15F/755 MSR C-2 LOW PRESSURE START UP VENT CLOSED ISOLATION VALVE FOR MSR 2C-2 2-ISV-6-2045 T15G/755 CLOSED START UP VENT

• If condensate is run in long path recirculation then these valves will be positioned as required by applicable operating guidelines.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 164 of 198 Appendix H (Page 1 of 10)

BACKGROUND CALCULATIONS Date ________

1.0 CVP Motor Running Overload CVP Motors are required to operate below overload conditions.

CVP Motors have the following nameplate information:

Amps: 151 Volts: 460 Assuming each measured current and voltage value is within r2.4% of reading, then the instrument uncertainty associated with the motor current and voltage measurements can be calculated.

I AVG I IA  IB  IC 3 3 IA I AM r 0.024I AM I AM 1 r 0.024 IB I BM r 0.024I BM I BM 1 r 0.024 IC I CM r 0.024I CM I CM 1 r 0.024 Where IAM, IBM, and ICM are measured currents in A, B, and C phases, respectively.

I AM 1 r 0.024  I BM 1 r 0.024  I CM 1 r 0.024 1 r 0.024 I AM  I BM  I CM I AVG 3 3 Applying that same logic to measured Voltage:

I AM  I BM  I CM I AVG VABM  VBCM  VACM VAVG and 3 1 r 0.024 3 1 r 0.024

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 165 of 198 Appendix H (Page 2 of 10)

BACKGROUND CALCULATIONS Date ________

1.0 CVP Motor Running Overload (continued)

Using these values as inputs to motor running kVA 3 u Actual Volts u Actual Amps Actual kVA 1000 I AVG VAVG I AVG u VAVG 3u u 3u 1 r 0.024 1 r 0.024 1 r 0.024 2

Actual kVA 1000 1000 3 u I AVG u VAVG 1 3 u I AVG u VAVG 1 u or u 1000 1.0486 1000 0.9526 Maximum CVP motor kVA is 120.3 based on the following calculation:

3 u NP Volts u NP Amps 3 u 460 u 151 Namelate kVA 120.3 kVA 1000 1000 Therefore, since actual kVA cannot exceed Nameplate kVA:

1 1 120.3 u 114.7 or 120.3 u 126.3 1.0486 0.9526 The Acceptance Criteria to ensure no CVP Motor overload is that the CVP Motors operate at no greater than 114.5 kVA to conservatively account for instrument inaccuracies.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 166 of 198 Appendix H (Page 3 of 10)

BACKGROUND CALCULATIONS Date ________

2.0 CVP Air Flows A. SCOPE The required air flows required to meet the acceptance criteria of equaling or exceeding pump shop test curve for suction pressure and capacity were extracted from the Nash Shop Test Curves for the respective CVPs. These curves are Attachments 1, 2, and 3 of this instruction.

The Nash Shop Test curves are measured in Actual Cubic Feet per Minute (ACFM) at the pump suction pressure at a pump speed of 590 RPM. This presents three challenges.

1. The CVPs in this test are configured to operate at 500 RPM.

2. Plant configuration does not facilitate measuring airflow at the CVP suction; CVP flows are measured at the common discharge line.

3. The instrumentation that will be used to measure air flow measured in Standard Cubic Feet per Minute (SCFM)

Therefore, the required pump flows must be converted to SCFM values at 500 RPM.

Calculating the required CVP flows is a four-step process.

1. Pump flow values are adjusted to 500 RPM pump speed.

2. Linear interpolation is used to determine the required flow value in ACFM

3. The interpolated flow value is then converted to SCFM

4. Instrument inaccuracies are applied.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 167 of 198 Appendix H (Page 4 of 10)

BACKGROUND CALCULATIONS Date ________

2.0 CVP Air Flows (continued)

B. EQUATIONS USED

1. Using Pump laws, if the pump wheel diameter is constant a change in pump speed is linearly proportional to pump flow rate.

q1 n1 n2 Where:

which becomes: q2 u q1 q = flow rate q2 n2 n1 n = pump speed

2. The generic formula for linear interpolation is:

Where:

X  X1 Y2  Y1 X1,Y1 = First coordinates Y  Y1 X2,Y2 = Second coordinates X 2  X1 X = Target X coordinate Y = Interpolated Y coordinate

3. The formula for relating ACFM to SCFM (standard conditions are Barometric Pressure = 29.92inHg and Air Temp = 70qF) is:

Where:

P  PStatic TSTD  460 q = flow rate q SCFM q ACFM u Barometric u PSTD TA  460 P = Air Pressure (inHg)

T = Temperature (qF)

PSTD = 29.92 inHg Assuming standard conditions, TSTD= 70qF this relationship becomes: PA = Air Stream Absolute Pressure (inHgA)

TA = Air Stream Temperature (qF)

PA 530 PA q SCFM q ACFM u u 17.714 u q ACFM u 29.92 TA  460 TA  460

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 168 of 198 Appendix H (Page 5 of 10)

BACKGROUND CALCULATIONS Date ________

2.0 CVP Air Flows (continued)

4. Assuming each measured air velocity value is within r5% of reading, then the instrument uncertainty associated with the air flow measurements can be calculated.

Where:

q = flow rate VMeasured VActual r 0.05VActual VActual 1 r 0.05 A = Area V = Air Velocity n = number of Traverse Points VAVG V Actual VMeasured(1) 1 r 0.05  VMeasured( 2) 1 r 0.05  ...  VMeasured( n ) 1 r 0.05 n n 1 r 0.05 VMeasured(1)  VMeasured( 2)  ...  VMeasured( n )

1 r 0.05 V Measuredl 1 r 0.05 VAVG( Measuredl) n n q A u VAVG q A u 1 r 0.05 VAVG ( Measured )

Therefore, since Area is a constant and has no associated uncertainties:

q A u VAVG ( Measured ) q Measured 1 r 0.05

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 169 of 198 Appendix H (Page 6 of 10)

BACKGROUND CALCULATIONS Date ________

2.0 CVP Air Flows (continued)

C. CALCULATIONS This Appendix will step through the complete process with one point on the curve for CVP 2A and show the other curve point calculations in a table.

Determine the Air Flow at 15 inHgA for CVP 2A based on the data from Nash Shop Test Curve 78U4265 (Attachment 1):

Point 1 = 1968.6 CFM at 15.54 inHgA and Point 2 = 1848.3 CFM at 7.82 inHgA Temperature = 60qF

1. Adjusting pump flow values to 500 RPM pump speed:

n2 Where:

q2 u q1 q = flow rate n1 n = pump speed 500 q2 u 1968.6 1668.3 590 500 q2 u 1848.3 1566.4 590 So the pump flows adjusted to a pump speed of 500 RPM are:

Point 1 = 1668.3 CFM at 15.54 inHgA and Point 2 = 1566.4 CFM at 7.82 inHgA

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 170 of 198 Appendix H (Page 7 of 10)

BACKGROUND CALCULATIONS Date ________

2.0 CVP Air Flows (continued)

2. Interpolating to determine the required flow value in ACFM:

Where:

X  X1 Y2  Y1 X1,Y1 = First coordinates Y  Y1 X2,Y2 = Second coordinates X 2  X1 X = Target X coordinate Y = Interpolated Y coordinate Point coordinates are (15.54, 1668.3) and (7.82, 1566.4) and the value to be interpolated is Air Flow (Y) at target pressure of 15 inHgA (X):

15  15.54 1566.4  1668.3 Y  1668.3 1661.2 7.82  15.54 So, pump flow is 1661.2 CFM at 15 inHgA

3. Converting the interpolated flow value to SCFM:

Where:

P q = flow rate q SCFM 17.714 u q ACFM u T  460 P = Air Stream Absolute Pressure (inHgA)

T = Air Stream Temperature (qF) 15 q SCFM 17.714 u 1661.2 u 848.8 60  460 So, pump flow at 15 inHgA is 848.8 SCFM

4. Applying instrument inaccuracies:

q q Measured 1 r 0.05 848.8 848.8 808.4 893.5 1.05 0.95 Since 848.8 SCFM is the minimum required flow, the Acceptance Criteria value will be adjusted to 894 SCFM to account for instrument inaccuracies.

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 171 of 198 Appendix H (Page 8 of 10)

BACKGROUND CALCULATIONS Date ________

2.0 CVP Air Flows (continued)

5. Calculation Tables These tables use the same four-step process shown in 2.0C.1 through 2.0C.4 to determine the acceptance criteria values for the CVP flow rates.

Condenser Vacuum Pump 2A Temperature: 60qF Pressure (inHgA) 22.86 15.54 7.82 4.25 2.30 1.50 Flow @ 590 RPM 2084.9 1968.6 1848.3 1805.8 1715.2 1311.3 (CFM) @ 500 RPM 1766.9 1668.3 1566.4 1530.3 1453.6 1111.3 Pressure (inHgA) 15 5 3 2 1 Interpolation Flow (CFM) 1661.2 1537.9 1481.1 1325.2 897.3 Convert to SCFM 848.8 261.9 151.4 90.3 30.6 Apply instrument inaccuracies (SCFM) 893.5 275.7 159.4 95.1 32.2 Acceptance Criteria (SCFM) 894 276 160 95.5 32.5 Condenser Vacuum Pump 2B Temperature: 60qF Pressure (inHgA) 22.94 16.32 8.00 4.16 2.33 1.56 Flow @ 590 RPM 2086.8 1866.2 1838.0 1922.4 1845.6 1321.7 (CFM) @ 500 RPM 1768.5 1581.5 1557.6 1629.2 1564.1 1120.1 Pressure (inHgA) 15 5 3 2 1 Interpolation Flow (CFM) 1577.7 1613.5 1587.9 1373.8 797.2 Convert to SCFM 806.2 274.8 162.3 93.6 27.2 Apply instrument inaccuracies (SCFM) 848.6 289.3 170.8 98.5 28.5 Acceptance Criteria (SCFM) 849 290 171 99 29

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 172 of 198 Appendix H (Page 9 of 10)

BACKGROUND CALCULATIONS Date ________

2.0 CVP Air Flows (continued)

Condenser Vacuum Pump 2C Temperature: 60qF Pressure (inHgA) 22.86 15.93 7.96 4.34 2.32 1.47 Flow @ 590 RPM 2058.2 1887.4 1792.6 1741.4 1654.6 1285.2 (CFM) @ 500 RPM 1744.2 1599.5 1519.2 1475.8 1402.2 1089.2 Pressure (inHgA) 15 5 3 2 1 Interpolation Flow (CFM) 1590.1 1483.7 1427.0 1284.3 916.1 Convert to SCFM 812.5 252.7 145.8 87.5 31.2 Apply instrument inaccuracies (SCFM) 855.3 266.0 153.5 92.1 32.8 Acceptance Criteria (SCFM) 856 267 154 92.5 33

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 173 of 198 Appendix H (Page 10 of 10)

BACKGROUND CALCULATIONS Date ________

3.0 CVP Suction Pressure Assuming the Barometric Pressure reading is within r0.4% of range:

Range: 27-31 inHg 0.004 u 31  27 0.016 inHg Assuming that the Vacuum Gauge readings are within 0.5% of scale Scale: 0-30 inHg 0.005 u 30  0 0.15 inHg Since the barometric pressure and the vacuum pressure are used together to determine the CVP suction absolute pressure, the maximum error in CVP suction pressure will be the sum of each readings maximum error.

0.016  0.15 0.166 inHg Therefore, the acceptance criteria for each CVP suction value will be adjusted to be 0.17 inHg less than its required value.

Required Value 15 5 3 2 1 Acceptance Criteria 14.83 4.83 2.83 1.83 0.83

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 174 of 198 Data Sheet 1 (Page 1 of 6)

Condenser Vacuum Pump 2A Performance Date ________

Step 6.6.1[10] CVP 2A at Atmospheric Pressure Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg CVP 2A Suction Pressure (Vacuum Gauge A) inHgVac = inHgA CVP 2A Discharge Pressure (Pressure Gauge A) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge A M&TE:

Multimeter M&TE: Pressure Gauge A M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 175 of 198 Data Sheet 1 (Page 2 of 6)

Condenser Vacuum Pump 2A Performance Date ________

Step 6.6.1[15] CVP 2A at 15 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 14.83 inHgA = BP - 14.83= inHgVac CVP 2A Suction Pressure (Vacuum Gauge A) inHgVac = inHgA CVP 2A Discharge Pressure (Pressure Gauge A) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge A M&TE:

Multimeter M&TE: Pressure Gauge A M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 176 of 198 Data Sheet 1 (Page 3 of 6)

Condenser Vacuum Pump 2A Performance Date ________

Step 6.6.1[19] CVP 2A at 5 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 4.83 inHgA = BP - 4.83= inHgVac CVP 2A Suction Pressure (Vacuum Gauge A) inHgVac = inHgA CVP 2A Discharge Pressure (Pressure Gauge A) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge A M&TE:

Multimeter M&TE: Pressure Gauge A M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 177 of 198 Data Sheet 1 (Page 4 of 6)

Condenser Vacuum Pump 2A Performance Date ________

Step 6.6.1[22] CVP 2A at 3 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 2.83 inHgA = BP - 2.83= inHgVac CVP 2A Suction Pressure (Vacuum Gauge A) inHgVac = inHgA CVP 2A Discharge Pressure (Pressure Gauge A) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge A M&TE:

Multimeter M&TE: Pressure Gauge A M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 178 of 198 Data Sheet 1 (Page 5 of 6)

Condenser Vacuum Pump 2A Performance Date ________

Step 6.6.1[25] CVP 2A at 2 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 1.83 inHgA = BP - 1.83= inHgVac CVP 2A Suction Pressure (Vacuum Gauge A) inHgVac = inHgA CVP 2A Discharge Pressure (Pressure Gauge A) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge A M&TE:

Multimeter M&TE: Pressure Gauge A M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 179 of 198 Data Sheet 1 (Page 6 of 6)

Condenser Vacuum Pump 2A Performance Date ________

Step 6.6.1[29] CVP 2A at 1 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 0.83 inHgA = BP - 0.83= inHgVac CVP 2A Suction Pressure (Vacuum Gauge A) inHgVac = inHgA CVP 2A Discharge Pressure (Pressure Gauge A) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge A M&TE:

Multimeter M&TE: Pressure Gauge A M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 180 of 198 Data Sheet 2 (Page 1 of 6)

Condenser Vacuum Pump 2B Performance Date ________

Step 6.6.2[10] CVP 2B at Atmospheric Pressure Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg CVP 2B Suction Pressure (Vacuum Gauge B) inHgVac = inHgA CVP 2B Discharge Pressure (Pressure Gauge B) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge B M&TE:

Multimeter M&TE: Pressure Gauge B M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 181 of 198 Data Sheet 2 (Page 2 of 6)

Condenser Vacuum Pump 2B Performance Date ________

Step 6.6.2[15] CVP 2B at 15 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 14.83 inHgA = BP - 14.83= inHgVac CVP 2B Suction Pressure (Vacuum Gauge B) inHgVac = inHgA CVP 2B Discharge Pressure (Pressure Gauge B) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge B M&TE:

Multimeter M&TE: Pressure Gauge B M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 182 of 198 Data Sheet 2 (Page 3 of 6)

Condenser Vacuum Pump 2B Performance Date ________

Step 6.6.2[19] CVP 2B at 5 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 4.83 inHgA = BP - 4.83= inHgVac CVP 2B Suction Pressure (Vacuum Gauge B) inHgVac = inHgA CVP 2B Discharge Pressure (Pressure Gauge B) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge B M&TE:

Multimeter M&TE: Pressure Gauge B M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 183 of 198 Data Sheet 2 (Page 4 of 6)

Condenser Vacuum Pump 2B Performance Date ________

Step 6.6.2[22] CVP 2B at 3 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 2.83 inHgA = BP - 2.83= inHgVac CVP 2B Suction Pressure (Vacuum Gauge B) inHgVac = inHgA CVP 2B Discharge Pressure (Pressure Gauge B) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge B M&TE:

Multimeter M&TE: Pressure Gauge B M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 184 of 198 Data Sheet 2 (Page 5 of 6)

Condenser Vacuum Pump 2B Performance Date ________

Step 6.6.2[25] CVP 2B at 2 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 1.83 inHgA = BP - 1.83= inHgVac CVP 2B Suction Pressure (Vacuum Gauge B) inHgVac = inHgA CVP 2B Discharge Pressure (Pressure Gauge B) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge B M&TE:

Multimeter M&TE: Pressure Gauge B M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 185 of 198 Data Sheet 2 (Page 6 of 6)

Condenser Vacuum Pump 2B Performance Date ________

Step 6.6.2[29] CVP 2B at 1 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 0.83 inHgA = BP - 0.83= inHgVac CVP 2B Suction Pressure (Vacuum Gauge B) inHgVac = inHgA CVP 2B Discharge Pressure (Pressure Gauge B) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge B M&TE:

Multimeter M&TE: Pressure Gauge B M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 186 of 198 Data Sheet 3 (Page 1 of 6)

Condenser Vacuum Pump 2C Performance Date ________

Step 6.6.3[10] CVP 2C at Atmospheric Pressure Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg CVP 2C Suction Pressure (Vacuum Gauge C) inHgVac = inHgA CVP 2C Discharge Pressure (Pressure Gauge C) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge C M&TE:

Multimeter M&TE: Pressure Gauge C M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 187 of 198 Data Sheet 3 (Page 2 of 6)

Condenser Vacuum Pump 2C Performance Date ________

Step 6.6.3[15] CVP 2C at 15 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 14.83 inHgA = BP - 14.83= inHgVac CVP 2C Suction Pressure (Vacuum Gauge C) inHgVac = inHgA CVP 2C Discharge Pressure (Pressure Gauge C) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge C M&TE:

Multimeter M&TE: Pressure Gauge C M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 188 of 198 Data Sheet 3 (Page 3 of 6)

Condenser Vacuum Pump 2C Performance Date ________

Step 6.6.3[19] CVP 2C at 5 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 4.83 inHgA = BP - 4.83= inHgVac CVP 2C Suction Pressure (Vacuum Gauge C) inHgVac = inHgA CVP 2C Discharge Pressure (Pressure Gauge C) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge C M&TE:

Multimeter M&TE: Pressure Gauge C M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 189 of 198 Data Sheet 3 (Page 4 of 6)

Condenser Vacuum Pump 2C Performance Date ________

Step 6.6.3[22] CVP 2C at 3 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 2.83 inHgA = BP - 2.83= inHgVac CVP 2C Suction Pressure (Vacuum Gauge C) inHgVac = inHgA CVP 2C Discharge Pressure (Pressure Gauge C) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge C M&TE:

Multimeter M&TE: Pressure Gauge C M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 190 of 198 Data Sheet 3 (Page 5 of 6)

Condenser Vacuum Pump 2C Performance Date ________

Step 6.6.3[25] CVP 2C at 2 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 1.83 inHgA = BP - 1.83= inHgVac CVP 2C Suction Pressure (Vacuum Gauge C) inHgVac = inHgA CVP 2C Discharge Pressure (Pressure Gauge C) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge C M&TE:

Multimeter M&TE: Pressure Gauge C M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 191 of 198 Data Sheet 3 (Page 6 of 6)

Condenser Vacuum Pump 2C Performance Date ________

Step 6.6.3[29] CVP 2C at 1 inHgA Absolute Pressure (inHgA) Barometric Pressure (inHg ) - Vacuum Pressure (inHgVac)

Barometric Pressure (BP): inHg Reqd Vac = 0.83 inHgA = BP - 0.83= inHgVac CVP 2C Suction Pressure (Vacuum Gauge C) inHgVac = inHgA CVP 2C Discharge Pressure (Pressure Gauge C) PSI Airflow Traverse (Use Data Sheet 4) SCFM ICS Point F2260A SCFM Phase Current (Amps) Phase Voltage (Volts)

A A-B B A-C C B-C TOTAL TOTAL AVERAGE AVERAGE 3 3 3 3 3 u Average Volts u Average Amps 3u u Motor kVA kVA 1000 1000 Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

Barometer M&TE: Vacuum Gauge C M&TE:

Multimeter M&TE: Pressure Gauge C M&TE:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 192 of 198 Data Sheet 4 (Page 1 of 1)

Condenser Vacuum Pump Air Flow Traverse Date ________

NOTE Additional Copies of this Data Sheet will be required and may be made as necessary Step: ________ CVP: _____ Suction Pressure: ______________ inHgA Anemometer M&TE ID:

1- 1/4 in.

2- 1 in.

3- 1 3/4 in.

Inside Pipe Diameter = 12.00 in. 4- 2 3/4 in.

2 5- 4 1/8 in.

Duct Area (A) = 0.785 ft 6- 7 7/8 in.

7- 9 1/4 in.

8- 10 1/4 in.

9- 11 in.

10 - 11 3/4 in Dimensions are from inside wall.

Traverse Point Velocity (FPM) Traverse Point Velocity (FPM)

A1 B1 A2 B2 A3 B3 A4 B4 A5 B5 A6 B6 A7 B7 A8 B8 A9 B9 A10 B10 Test port caps/plugs reinstalled: __________ 2nd Party Verified: __________

VAVG Velocities y 20 20 FPM Airflow A u VAVG 0.785 u SCFM Data Taken By:

Calculations Performed By: Date:

Calculations Verified By: Date:

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 193 of 198 Data Sheet 5 (Page 1 of 2)

Condenser Evacuation Performance Data Date ________

Step 6.6.4[14] 6.6.4[14]A 6.6.4[14]B 6.6.4[14]C 6.6.4[14]D 6.6.4[14]E 6.6.4[14]F 6.6.4[14]G Condenser

__________ 25 20 15 10 5 __________

Pressure 2-P/TR-2-2 (Atm) (Final)

(inHgA)

Time Stopwatch (hh:mm:ss) M&TE:_________

Condenser ICS Pt. F2700A Exhaust Flow (SCFM) ICS Pt. F2260A RCW Inlet Temp ICS Pt. Y8003A (qF)

CVP Seal Wtr 2-TI-2-320 HTX Outlet 2-TI-2-321 Temp (qF) 2-TI-2-322 2-PDI-2-170 CVP Suction Strainer 'P 2-PDI-2-175 (inH2O) 2-PDI-2-180

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 194 of 198 Data Sheet 5 (Page 2 of 2)

Condenser Evacuation Performance Data Date ________

Step 6.6.4[14] 6.6.4[14]A 6.6.4[14]B 6.6.4[14]C 6.6.4[14]D 6.6.4[14]E 6.6.4[14]F 6.6.4[14]G Condenser

__________ 25 20 15 10 5 __________

Pressure 2-P/TR-2-2 (Atm) (Final)

(inHgA)

Pressure Gauge A M&TE:_________

CVP Discharge Pressure Gauge B Pressure (PSI) M&TE:_________

Pressure Gauge C M&TE:_________

MFPT Condenser 2A ICS Pt. P2270A Pressure (inHgA)

MFPT Condenser 2B ICS Pt. P2271A Pressure (inHgA)

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 195 of 198 Data Sheet 6 (Page 1 of 1)

Barometric Pressure Date ________

NOTES

1) Additional copies of this Data Sheet may be made as necessary

2) Atmospheric conditions can change quickly. Record atmospheric pressure at least once per shift during performance of Section 6.6.

Barometer Time Date Barometric Pressure Initials M&TE inHg inHg inHg inHg inHg inHg inHg inHg inHg inHg inHg inHg inHg inHg inHg inHg

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 196 of 198 Attachment 1 (Page 1 of 1)

Condenser Vacuum Pump 2A Curve Date ________

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 197 of 198 Attachment 2 (Page 1 of 1)

Condenser Vacuum Pump 2B Curve

WBN Condenser Vacuum 2-PTI-002-02 Unit 2 Rev. 0000 Page 198 of 198 Attachment 3 (Page 1 of 1)

Condenser Vacuum Pump 2C Curve Date ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 3 of 39 Table of Contents

1.0 INTRODUCTION

.......................................................................................................... 5 1.1 Test Objectives ............................................................................................................. 5 1.2 Scope............................................................................................................................ 5

2.0 REFERENCES

............................................................................................................. 6 2.1 Performance References .............................................................................................. 6 2.2 Developmental References........................................................................................... 7 3.0 PRECAUTIONS AND LIMITATIONS ........................................................................... 9 4.0 PREREQUISITE ACTIONS ........................................................................................ 11 4.1 Preliminary Actions ..................................................................................................... 11 4.2 Special Tools, M&TE, Parts, and Supplies ................................................................. 15 4.3 Field Preparations ....................................................................................................... 17 4.4 Approvals and Notifications ........................................................................................ 17 5.0 ACCEPTANCE CRITERIA ......................................................................................... 18 6.0 PERFORMANCE ........................................................................................................ 19 6.1 Performance Test of Flood Mode Aux Charging Pump 2A ......................................... 19 6.2 Performance Test of Flood Mode Aux Charging Pump 2B ......................................... 20 6.3 Install Flood Prep Aux Chg Sys Spool Piece (2-SPPC-84-112).................................. 22 6.4 Install Flood Prep RCDT Spool Piece (2-SPPC-84-111) ............................................ 24 6.5 Install Flood Prep Sample Htx Spool Pieces............................................................... 26 6.6 Install Flood Prep Spool Pieces - ERCW/CCS ........................................................... 28 6.7 Install Flood Prep Spool Piece - SFPC/RHR .............................................................. 30 6.8 HPFP Supply Capability to Flood Mode Aux Boration M/U Tank ................................ 32 6.9 ALT HPFP Capability to Flood Mode Aux Boration M/U Tank .................................... 33 7.0 POST PERFORMANCE ACTIVITIES ........................................................................ 35 8.0 RECORDS .................................................................................................................. 36 8.1 QA Records ................................................................................................................ 36 8.2 Non-QA Records ........................................................................................................ 36

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 4 of 39 Table of Contents (continued)

Appendix A: INSTRUCTIONS REFERENCE REVIEW ................................................... 37 Appendix B: TEMPORARY CONDITION LOG ............................................................... 38 Appendix C: PERMANENT PLANT INSTRUMENTATION LOG .................................... 39

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 5 of 39

1.0 INTRODUCTION

1.1 Test Objectives The objective of this test is to verify the operability and performance of the Unit 2 Auxiliary Charging Pumps and other components of the Auxiliary Charging System (ACS) and to demonstrate the operability of the system as a whole under conditions as close to design as possible. This test will also verify the connection and proper mating of applicable spool pieces.

This test shall verify flow through the Unit 2 ACS pumps only. Flow through the Auxiliary Charging Booster Pumps, non-regenerative demineralizer tank and filters are Unit 0 and have previously been tested.

This test shall also verify the connection and proper mating of affected spool pieces to include make up flow from the U-2 Reactor Coolant Drain Tank (RCDT) and to the Reactor Coolant System (RCS) via the Chemical and Volume Control System (CVCS).

1.2 Scope Performance of this test will demonstrate that:

A. The Unit 2 ACS pumps can provide makeup water to the U-2 Reactor Coolant System (RCS).

B. The spool pieces required for flood mode operation can be installed and mate properly.

C. The intertie piping between Chemical & Volume Control System (CVCS) and Reactor Coolant System (RCS) is unobstructed.

D. Testing observations are made of the vibration of system pumps, piping and other components during normal steady state and transient operations. Based on engineering judgment by test personnel, measurements shall be taken on areas and components exhibiting excessive vibration. Transient operations include pump starts, trips, valve openings and closures, and all components which are considered an integral part of the transient.

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 6 of 39

2.0 REFERENCES

2.1 Performance References A. SMP-9.0, Conduct of Test B. TI-31.02, Plant Equipment Vibration Monitoring & Vibration Diagnostics Program C. MI-17.003, Flood Mode Preparation Storage Locations and Periodic Inventory D. 2-TI-50.048, Flood Mode Auxiliary Charging Pump 2A Performance Test E. 2-TI-50.049, Flood Mode Auxiliary Charging Pump 2B Performance Test F. 2-MI-17.019, Flood Preparation - Auxiliary Charging System Spool Piece G. 2-MI-17.018, Flood Preparation High Pressure Fire Protection System Spool Pieces H. 2-MI-17.020, Flood Preparation - Sample Heat Exchanger Spool Pieces I. 0-MI-17.021, Installation of Spool Pieces between ERCW and Component Cooling System J. 2-MI-17.022, Flood Preparation- Installation of Spool Pieces between SFPC and RHR Systems K. 2-MI-17.023, Flood Preparation - Reactor Coolant Drain Tank Spool Pieces L. 2-CP-062-02, Cleanness Plan, Rev. 0000 M. 2-CP-077-01, Cleanness Plant, Rev. 0000

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 7 of 39 2.2 Developmental References A. Final Safety Analysis Report

1. FSAR-(Amendment 109)

a. Section 9.3.6, Auxiliary Charging System

b. Table 14.2-1, Sheet 20 of 89, Flood Mode Boration System Test Summary B. Drawings

1. Flow Diagrams

a. 2-47W809-7,Rev 5 (CC) Flow Diagram Flood Mode Boration Makeup System

b. 2-47W809-1 Rev 12 (CC), Flow Diagram Chemical and Volume Control System

c. 2-47W830-1 Rev 6 (CC), Mechanical Flow Diagram Waste Disposal System

d. 1-47W850-2 Rev 35 (CC), Flow Diagram Fire Protection Raw Service Water

e. 2-47W845-2 Rev 7 (CC), Mechanical Flow Diagram Essential Raw Cooling Water System

2. Electrical

a. 2-45W760-84-1, Rev 1 (CC), Wiring Diagram Flood Mode Boration Makeup Sys Schematic Diagrams

b. 2-45W756-2 Rev 1 (CC), 480V Cont and Aux Bldg VT Bd 2A1-A Single Line - Sh-2

c. 2-45W756-6 Rev 0 (CC), 480V Cont and Aux Bldg VT Bd 2B1-B Single Line - Sh-2

3. Logic/Control

a. 2-47W610-41-1 Rev 2 (CC), Electrical Control Diagram Flood Mode Boration Makeup Sys Layup Wtr Treatment System

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 8 of 39 2.2 Developmental References (continued)

C. Documents

1. WBN2-84-4001, Flood Mode Boration Makeup System (Rev. 01)

2. 2-TSD-84-1, Flood Mode Boration System, (Rev. 0001)

3. NPG-SPP-18.4.6, Control of Fire Protection Impairments (Rev 0001)

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 9 of 39 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. 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.

C. Discrepancies between component ID tags and the description in a procedure/instruction do not require a Test Deficiency Notice (TDN), in accordance with SMP-14.0, if the UNIDs match, exclusive of place-keeping zeros and train designators (e.g. 2-HS-31-468 vs. 2-HS-031-0468) and the noun description is sufficient to identify the component. If the component label needs to be changed, a Tag Request Form (TR Card) should be processed in accordance with TI-12.14. Make an entry in the CTL and continue testing.

D. The hinged cover of the Auxiliary Boration Mixing Tank (ABMT) must be open during flood mode operation so the tanks associated instrumentation will not be damaged. Use CAUTION to ensure tank/system is not overpressurized.

E. All open problems are to be tracked by a corrective action document and entered on the appropriate system punchlist.

F. RCS pressure must be less than 350 psig before installation and removal of temporary spool pieces.

G. Observe all Radiation Protection (RP) requirements when working in or near radiological areas.

H. Ensure there are no adverse effects to the operation of Unit 1 structures, systems, or components.

I. Test personnel will coordinate with Unit 1 Operations when manipulating Unit 1 equipment if required.

J. System water chemistry is within system specifiable parameters especially for fluids supplied from external sources.

K. Problems identified during the test shall be annotated on the CTL from SMP-9.0 including a description of the problem, the procedure step when/where the problem was identified, corrective action steps taken to resolve the problem, and the number of the corrective action document, if one was required.

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 10 of 39 3.0 PRECAUTIONS AND LIMITATIONS (continued)

L. Notification/Coordination of activities with Unit 1 is required, since Mixing Tank falls under the control of the operating unit.

M. Transients include pump starts and stops, water hammers or other fluid transients. Check valves should be observed for abnormal slam during startup or shutdown of pumps.

N. If the vibration is determined to be excessive the Test Engineer shall initiate a Test Deficiency Notice (TDN) and notify Preventive and Diagnostic Maintenance (PDM). Submit the findings to Nuclear Engineering (NE).

O. Unit 1, 2, and common components operated in this test are in close proximity.

Use caution to ensure correct component is selected and operated.

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 11 of 39 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] EVALUATE open items in Watts Bar Integrated Task Equipment List (WITEL), and ENSURE they will NOT adversely affect the test performance and results. ________

[2] OBTAIN copies of the applicable forms from the latest revision of SMP-9.0, Conduct of Test and ATTACH to this PTI for use during the performance of this test. ________

[3] ENSURE changes to the references listed in Appendix A, Test Procedure/Instruction Reference Review, have been reviewed, recorded, and determined NOT to adversely affect the test performance. ________

[4] 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. (Unit 1 SM/US must approve performance on or affecting Unit 0 or Unit 1 components.) ________

[5] ENSURE special environmental conditions are available for testing if required. ________

[6] ENSURE outstanding Design Change Notices (DCNs),

Engineering Document Construction Releases (EDCRs) or Temporary Alterations (TAs) do not adversely impact testing, and Attach documentation of DCNs, EDCRs, and TAs that were reviewed to the data package. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 12 of 39 4.1 Preliminary Actions (continued)

[7] ENSURE required Component Testing has been completed prior to start of test. ________

[8] ENSURE 2-TI-50.048, 2-TI-50.049, 0-MI-17.021, 2-MI-17.018, 2-MI-17.019, 2-MI-17.020, 2-MI-17.022, and 2-MI-17.023 have been reviewed for concurrence by JTG.

JTG Meeting: _________________. ________

[9] VERIFY the system cleanliness, as required for the performance of this test has been completed in accordance with SMP-7.0, Control of Cleanness, Layup and Flushing. ________

[10] ENSURE all piping supports required for testing are installed and adjusted as required. ________

[11] CONDUCT a pretest briefing with Test and Operations personnel in accordance with SMP-9.0, Conduct of Test. ________

[12] ENSURE communications are available for areas where testing is to be conducted. ________

[13] VERIFY plant instruments, listed on Appendix C, Permanent Plant Instrumentation Log, are placed in service, and are within their calibration interval. ________

IM

[14] ENSURE components contained within the boundaries of this test are under the jurisdictional control of Preoperational Startup Engineering (PSE) in accordance with SMP-4.0, System Completion and Turnover. ________

[15] PERFORM a pretest walk down on equipment to be tested to ensure no conditions exist that will impact test performance. ________

[16] VERIFY supports required for System 84 testing are in place or an equivalent engineering approved temporary support is installed.

STE

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 13 of 39 4.1 Preliminary Actions (continued)

[17] VERIFY spring cans identified for Systems 84 are installed, unpinned, and on scale with no visual indication of damage, loose parts or interferences.

STE

[18] VERIFY snubbers identified for Systems 84 are installed with no visual indication of damage, loose parts or interferences.

STE

[19] VERIFY Boundary Drawings are up to date or necessary changes accomplished prior to the start of testing and that any change to the Boundary Drawings do not impact the validity of the test. ________

[20] CONDUCT a pretest briefing with test and operations personnel in accordance with SMP-9.0. ________

[21] ESTABLISH communications in areas where testing is to be conducted. ________

[22] PREPARE Work Order to install & restore spool piece 2-SPPC-84-112, Aux Chg Sys in accordance with 2-MI-17.019 WO# _____________________. ________

[23] PREPARE Work Order to install & restore spool piece 2-SPPC-84-111, RCDT in accordance with 2-MI-17.023 WO# _____________________. ________

[24] PREPARE Work Order to install & restore spool pieces 2-SPPC-084-0687 and 0-SPPC-067-559A & 559B, Sample Htx in accordance with 2-MI-17.020 WO# _____________________. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 14 of 39 4.1 Preliminary Actions (continued)

[25] PREPARE Work Order to install & restore spool pieces 0-SPPC-067-0529, 0557, 0558A and 0558B,ERCW/CCS Sys in accordance with 2-MI-17.021 WO# _____________________. ________

[26] PREPARE Work Order to install & restore spool pieces 2-SPPC-078-0625 and 0-SPPC-078-0625, SFPC/RHR Sys in accordance with 2-MI-17.022 WO# _____________________. ________

[27] PREPARE Work Order to install & restore spool piece 2-SPPC-003-6384 and 6385, HPFP/AFW Sys in accordance with 2-MI-17.018 WO# _____________________. ________

[28] PREPARE Work Order to install & restore fire hose connected at 2-ISV-3-6385, AFW/FP XCONN SPOOL BRANCH ISOLATION VALVE routed to Aux Boration Makeup Tank (0-TANK-084-110) and placed in hinged access at top of tank WO# _____________________. ________

[29] PREPARE Work Order to install & restore fire hose (without nozzle) from 2-ISV-26-670 EL 757/A12U to Aux Boration Makeup tank and place in hinged access at top of tank.

WO# _____________________. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 15 of 39 4.2 Special Tools, M&TE, Parts, and Supplies NOTE Steps 4.2[1] through 4.2[4] will be performed by Maintenance.

[1] OBTAIN a 1-inch hose or tubing (approximately 20 ft) with an attached 1-inch globe valve, and a 3-inch by 1-inch reducer rated at a minimum of 200 psig for connection to the Flood Mode Boration Non-Regenerative Demineralizer resin fill plug. ________

[2] OBTAIN a strainer assembly and flush cloth for filtering pump discharge to prevent resin from entering the drainage system. ________

NOTE Temporary valve and flange for the following step must be rated for t 600 psig. Hose must be located downstream of the temporary valve and must be rated for 200 psig.

[3] OBTAIN a 1-inch hose or tubing (approximately 20 ft) with a 1-inch pipe flange attached on one end and a valve suitable to throttle flow (ball valve is not permitted), for connection at spool piece 2-SPPC-084-0112 to provide a pump discharge flow path. ________

[4] OBTAIN container and tubing approximately 1/4 inch diameter for insertion into ear of each pump cylinder or a plastic bag to collect venting fluid. ________

[5] ENSURE a stethoscope is available for check valve testing. ________

NOTE Steps 4.2[6] and 4.2[7] will be performed by Plant Services. The drums should have removable lids or tops.

[6] OBTAIN four 55-gallon drums for receiving water discharged during this test. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 16 of 39 4.2 Special Tools, M&TE, Parts, and Supplies (continued)

[7] MARK the four drums to identify the contents (one drum marked similar to TI Test Quantity, one drum marked similar to TI CKV Test and the other two drums similar to TI Water Collection, and INDICATE all to contain potentially contaminated DI water. ________

[8] OBTAIN either a 3-foot scale or a tape measure with a minimum of 1/16-inch graduations for use as a dip-stick. ________

NOTE PDM/Operations will supply vibration meter with identification and calibration due date.

[9] OBTAIN a stopwatch with an accuracy of r 1.5 sec/hr, and RECORD the following M&TE information:

M&TE ________

NOTE Step 4.2[10] will be performed by IM.

[10] ENSURE a liquid catch container is available. ________

[11] ENSURE the following M&TE is available:

MIN RANGE ACTUAL DESCRIPTION MAX RANGE RANGE ACCURACY Discharge 0 - 600 psig r 1 of full Press Gauge 0 - 600 psig scale Suction 0 - 100 psig r 1 of full Press Gauge 0 - 100 psig scale Suction 0 - 30 psig r 1 of full Press Gauge 0 - 30 psig scale Suction 0 - 15 psig r 1 of full Press Gauge 0 - 15 psig scale

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 17 of 39 4.3 Field Preparations NOTE Unit 1 permission is required prior to installing equipment or operating any portion of the Aux Boration Makeup Tank.

[1] OBTAIN Unit 1 SM/US authorization prior to installing equipment or operating any portion of the Aux Boration Makeup Tank or System. ________

[2] ENSURE mixed bed demineralizer resin is in Flood Mode Boration Non-Regenerative Demineralizer. ________

[3] ENSURE filter cartridge is in Flood Mode Boration Makeup System Filter, 0-FLTR-84-1. ________

[4] ENSURE filter cartridge is in Flood Mode Boration Makeup System Filter, 0-FLTR-84-512. ________

4.4 Approvals and Notifications

[1] OBTAIN permission of the Preoperational Startup Manager to start the test.

Preoperational Startup Manager Signature Date

[2] OBTAIN the Unit 1 Supervisor (US/SRO) or Shift Managers (SM) authorization to perform the test.

US/SRO/SM Signature Date

[3] OBTAIN the Unit 2 Supervisor's (US/SRO) or Shift Managers (SM) authorization to perform the test.

US/SRO/SM Signature Date

[4] OBTAIN Fire Protection Impairment Permit (FPIP) for affected hose station in accordance with NPG-SPP-18.4.6. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 18 of 39 5.0 ACCEPTANCE CRITERIA

[1] The Hydraulic performance of the auxiliary charging pumps and booster pumps meets or exceeds design requirements.

A. Auxiliary Charging Pump flow rates are greater than or equal to 100 gph, at 350 psig or greater discharge pressure. (2-TI-50.048, 2-TI-50.049 Steps 6.2[12],

6.2[34]), Section 6.1, and 6.2 B. Each Auxiliary Charging Pump can be operated from a local control station and indicating lights operate correctly.

(2-TI-50.048, 2-TI-50.049 Step 6.2[27], 6.2[28]), Section 6.1, and 6.2

[2] Equipment required for Flood Mode Boration Operation can be properly installed.

A. Auxiliary Charging Spool Piece, 2-SPPC-084-0112, can be properly installed. (Step 6.3[5])

B. Reactor Coolant Drain Tank Spool Piece, 2-SPPC-084-0111, can be properly installed. (Step 6.4[6])

C. Sample HTX Spool Pieces 2-SPPC-067-687 and 0-SPPC-067-559A &

559B, can be properly installed. (Step 6.5[5])

D. ERCW/CCS Spool Pieces 0-SPPC-067-067-0529, 0557, 0558A, and 0558B can be properly installed. (Step 6.6[5])

E. Spend Fuel Pool Cooling/Residual Heat Removal Spool Piece 2-SPPC-078-0625 and 0-SPPC-078-0625 can be properly installed.

(Step 6.7[5])

F. High Pressure Fire Protection (HPFP) hose can be routed to the Flood Mode Aux Boration Makeup Tank. (Step 6.8[4], 6.9[6])

G. High Pressure Fire Protection System to Auxiliary Feedwater System spool pieces can be properly installed. (Step 6.9[10])

[3] The interconnected piping between CVCS and RCS is unobstructed (Step 6.2[5])

[4] Piping and components do not exhibit indications of excessive vibration in various operating modes (Steps 6.1[1] and 6.2[1])

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 19 of 39 6.0 PERFORMANCE NOTES

1) Subsections 6.1 and 6.2 are to be performed in sequence, although certain steps may be performed concurrently.

2) Subsections 6.3 through 6.9 may be performed in any order or concurrently.

3) Sign off steps may be delayed until completion of both test sections when duplicate actions would result.

6.1 Performance Test of Flood Mode Aux Charging Pump 2A NOTES

1) Auxiliary Charging System equipment is located in the Auxiliary Building EL 757/A5U, unless otherwise noted.

2) During the performance of this subsection visual observation of transient and steady-state vibration is required.

[1] PERFORM observations to ensure piping and components do not exhibit indications of excessive vibration while testing in accordance with Step 6.1[2] and DOCUMENT in Chronological Test Log (CTL) (Acc Crit 5.0[4]) ________

[2] PERFORM 2-TI-50.048, Flood Mode Auxiliary Charging Pump 2A Performance Test. ________

[3] VERIFY Completed test 2-TI-50.048, Flood Mode Auxiliary Charging Pump 2A Performance Test met acceptance criteria as specified in Section 5.0. (Acc Crit 5.0[1]A, 5.0[1]B) ________

Reviewer

[4] ATTACH the completed 2-TI-50.048 performance test to this instruction. (Acc Crit 5.0[1]A, 5.0[1]B) ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 20 of 39 6.2 Performance Test of Flood Mode Aux Charging Pump 2B NOTES

1) Auxiliary Charging System equipment is located in the Auxiliary Building EL 757/A5U, unless otherwise noted.

2) During the performance of this subsection visual observation of transient and steady-state vibrations is required.

[1] PERFORM observations to ensure piping and components do not exhibit indications of excessive vibration while testing in accordance with Step 6.2[2] and DOCUMENT in Chronological Test Log (CTL) (Acc Crit 5.0[4]) ________

[2] PERFORM 2-TI-50.049, Flood Mode Auxiliary Charging Pump 2B Performance Test. ________

[3] VERIFY Completed test 2-TI-50.049, Flood Mode Auxiliary Charging Pump 2B Performance Test met acceptance criteria as specified in Section 5.0. (Acc Crit 5.0[1]A, 5.0[1]B) ________

Reviewer

[4] ATTACH the completed 2-TI-50.049 performance test to this instruction.(Acc Crit 5.0[1]A, 5.0[1]B) ________

[5] VERIFY completed performance of 2-CP-062-02 Cleanness Plan and 2-CP-077-01, Cleanness Plan demonstrate flow paths from Flood Mode Auxiliary Charging Pump(s) discharge spool piece to the CVCS charging line and discharge line from the Reactor Coolant Drain Tank to the makeup spool piece to the Auxiliary Boron Mixing tank, are unobstructed.

(Acc Crit 5.0[3]). ________

Reviewer

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 21 of 39 6.2 Performance Test of Flood Mode Aux Charging Pump 2B (continued)

[6] ATTACH copies of appropriate pages of 2-CP-062-02 and 2-CP-077-01 to document discharge of Auxiliary Charging Pump piping spool piece connection to CVCS, and discharge of RCDT pumps to Aux Boration Mixing Tank piping spool piece are unobstructed, for inclusion with this test (Acc Crit 5.0[3]). ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 22 of 39 6.3 Install Flood Prep Aux Chg Sys Spool Piece (2-SPPC-84-112)

NOTE Auxiliary Charging System equipment is located in the Auxiliary Building EL 757/A5U, unless otherwise noted.

[1] VERIFY prerequisites listed in Section 4.0, for subsection 6.3 have been completed. ________

NOTE Step 6.3[2] is to be performed immediately prior to performance of Step 6.2[3] to ensure accuracy of required installation time.

[2] RECORD date and time (prior to start of Step 6.2[3]).

Date Time

[3] PERFORM 2-MI-17.019, Flood Preparation Auxiliary Charging System Spool Piece to install 2-SPPC-84-112. ________

[4] RECORD date and time at completion of Step 6.2[3].

Date Time

[5] VERIFY Auxiliary Charging System Spool Piece (2-SPPC-84-112) with all gaskets, studs, and nuts, has been properly installed. (Acc Crit 5.0[2]A) ________

[6] DETERMINE the actual installation Time.

Step 6.3[4] (-) Step 6.3[2] = hr.

[7] VERIFY the installation time recorded in Step 6.3[6] is less than or equal to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 23 of 39 6.3 Install Flood Prep Aux Chg Sys Spool Piece (2-SPPC-84-112)

(continued)

[8] REMOVE Auxiliary Charging System Spool Piece, 2-SPPC-84-112, and RESTORE both Blind Flanges at each spool piece location. ________

IV

[9] RETURN 2-SPPC-84-112, Auxiliary charging System Spool Piece, to storage location and replace required gaskets, tools, rigging etc. as needed to ensure readiness for future installation in accordance with MI-17.003. ________

IV

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 24 of 39 6.4 Install Flood Prep RCDT Spool Piece (2-SPPC-84-111)

NOTE Auxiliary Charging System equipment is located in the Auxiliary Building EL 757/A5U unless otherwise noted.

[1] VERIFY prerequisites listed in Section 4.0, for subsection 6.4 have been completed. ________

[2] OBTAIN U-2 US authorization to install and remove RCDT spool piece 2- SPPC-84-111. ________

NOTE Step 6.4[3] is to be performed immediately prior to performance of Step 6.4[4] to ensure accuracy of required installation time.

[3] RECORD date and time (prior to start of Step 6.4[4]).

Date Time

[4] PERFORM 2-MI-17.023, Flood Preparation Reactor Coolant Drain Tank Spool Pieces to install 2-SPPC-84-111. ________

[5] RECORD date and time at completion of Step 6.4[4].

Date Time

[6] VERIFY Reactor Coolant Drain Tank Spool Piece (2-SPPC-84-111) with all gaskets, studs, and nuts, has been properly installed. (Acc Crit 5.0[2]B) ________

[7] DETERMINE the actual installation Time.

6.4[5] (-) Step 6.4[3] = hr.

[8] VERIFY the installation time recorded in Step 6.4[7] is less than or equal to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 25 of 39 6.4 Install Flood Prep RCDT Spool Piece (2-SPPC-84-111)

(continued)

[9] REMOVE Reactor Coolant Drain Tank Spool Piece, 2-SPPC-84-111, and RESTORE both Blind Flanges at spool piece location. ________

IV

[10] RETURN 2-SPPC-84-111, Reactor Coolant Drain Tank Spool Piece, to storage location and replace required gaskets, tools, rigging, etc. as needed to ensure readiness for future installation in accordance with MI-17.003. ________

IV

[11] NOTIFY U-2 US that 2-SPPC-84-111 has been removed and stored in accordance with 2-MI-17.003. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 26 of 39 6.5 Install Flood Prep Sample Htx Spool Pieces

[1] OBTAIN authorization from Unit 1 Shift Manager/Unit Supervisor (SM/US) and Unit 2 US to install/remove spool pieces. ________

NOTE Step 6.5[2] is to be performed immediately prior to performance of Step 6.5[3] to ensure accuracy of required installation time.

[2] RECORD date and time (prior to start of Step 6.5[3]).

Date Time

[3] PERFORM 2-MI-17.020, Sample HTX Spool Pieces 2-SPPC-67-687 and 0-SPPC-67-559A and 559B . ________

[4] RECORD date and time at completion of Step 6.5[3]

Date Time

[5] VERIFY Sample HTX Spool Pieces (2-SPPC-067-687 and 0-SPPC-067-559A and 559B) with all gaskets, studs, and nuts, have been properly installed. (Acc Crit 5.0[2]C) ________

[6] DETERMINE the actual installation Time.

Step 6.5[4] (-) Step 6.5[2] = hr.

[7] VERIFY the installation time recorded in Step 6.5[6] is less than or equal to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

[8] REMOVE Sample HTX Spool Pieces, 2-SPPC-067-687 and 0-SPPC-067-559A & 559B, and RESTORE both Blind Flanges at spool piece location. ________

IV

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 27 of 39 6.5 Install Flood Prep Sample Htx Spool Pieces (continued)

[9] RETURN 2-SPPC-067-687 and 0-SPPC-067-559A & 559B, Sample HTX Spool Pieces, to storage location and replace required gaskets, tools, rigging, etc. as needed to ensure readiness for future installation in accordance with MI-17.003 . ________

IV

[10] NOTIFY Unit 1 SM/US and Unit 2 US that 2-MI-17.020 is complete. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 28 of 39 6.6 Install Flood Prep Spool Pieces - ERCW/CCS

[1] OBTAIN authorization from Unit 1 SM/US and Unit 2 US to install/remove spool piece (0-SPPC-67-529, 557, 558A, and 558B). ________

NOTE Step 6.6[2] is to be performed immediately prior to performance of Step 6.6[3] to ensure accuracy of required installation time.

[2] RECORD date and time (prior to start of Step 6.6[3]).

Date Time

[3] PERFORM 2-MI-17.021, ERCW/CCS Spool Piece to install 0-SPPC-67-529, 557, 558A and 558B, per WO# __________. ________

[4] RECORD date and time at completion of Step 6.6[3].

Date Time

[5] VERIFY ERCW/CCS Spool Pieces (0-SPPC-67-529, 557, 558A, and 558B) with all gaskets, studs, and nuts, have been properly installed. (Acc Crit 5.0[2]D) ________

[6] DETERMINE the actual installation Time.

Step 6.6[4] (-) Step 6.6[2] = hr.

[7] VERIFY the installation time recorded in Step 6.6[6] is less than or equal to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. ________

[8] REMOVE ERCW/CCS Spool Pieces, (0-SPPC-67-529, 557, 558A, and 558B), and RESTORE both Blind Flanges at spool piece location. ________

IV

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 29 of 39 6.6 Install Flood Prep Spool Pieces - ERCW/CCS (continued)

[9] RETURN 0-SPPC-67-529, 557, 558A, and 558B, ERCW/CCS Spool Pieces, to storage location and replace required gaskets, tools, etc. as needed to ensure readiness for future installation in accordance with MI-17.003. ________

IV

[10] NOTIFY Unit 1 SM/US and Unit 2 US, 2-MI-17.021 is complete. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 30 of 39 6.7 Install Flood Prep Spool Piece - SFPC/RHR

[1] OBTAIN authorization from Unit 1 SM/US and Unit 2 US to install/remove spool piece. ________

NOTE Step 6.7[2] is to be performed immediately prior to performance of Step 6.7[3] to ensure accuracy of required installation time.

[2] RECORD date and time (prior to start of Step 6.7[3]).

Date Time

[3] PERFORM 2-MI-17.022, to install SFPC/RHR Spool Piece 2-SPPC-78-625 and 0-SPPC-78-625. ________

[4] RECORD date and time at completion of Step 6.7[3].

Date Time

[5] VERIFY SFPC/RHR Spool Pieces (0-SPPC-078-625 and 2-SPPC-78-625) with all gaskets, studs, and nuts, have been properly installed. (Acc Crit 5.0[2]E) ________

[6] DETERMINE the actual installation Time.

Step 6.7[4] (-) Step 6.7[2] = hr.

[7] VERIFY the installation time recorded in Step 6.7[6] is less than or equal to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

[8] REMOVE SFPC/RHR Spool Pieces (0-SPPC-78-625 and 2-SPPC-78-625) and RESTORE both Blind Flanges at spool piece location. ________

IV

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 31 of 39 6.7 Install Flood Prep Spool Piece - SFPC/RHR (continued)

[9] RETURN 0-SPPC-78-625 and 2-SPPC-78-625, SFPC/RHR Spool Pieces, to storage location and replace required gaskets, tools, rigging, etc. as needed to ensure readiness for future installation in accordance with MI-17.003. ________

IV

[10] NOTIFY Unit 1 SM/US and Unit 2 US, 2-MI-17.022 is complete. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 32 of 39 6.8 HPFP Supply Capability to Flood Mode Aux Boration M/U Tank NOTE Auxiliary Charging System equipment is located in the Auxiliary Building EL 757/A5U, unless otherwise noted.

[1] ENSURE FPIP for deployment of fire hose (at 2-ISV-26-670) without nozzle, as a makeup source to Auxiliary Boration Makeup Tank is on hand. ________

CAUTION NO fire header water is to be introduced into the Auxiliary Boration Makeup Tank.

[2] VERIFY Manual Valve 2-ISV-26-670, AUXILIARY BLDG HPFP HOSE STA ISOL, located at EL 757/A12U in Rm 757.0-A10, is CLOSED. ________

[3] REMOVE nozzle from fire hose connected at Manual Valve 2-ISV-26-670, AUXILIARY BLDG HPFP HOSE STA ISOL. ________

[4] ROUTE fire hose connected at 2-ISV-26-670, AUXILIARY BLDG HPFP HOSE STA ISOL, to 0-TANK-84-110, FLOOD MODE AUXILIARY BORATION MAKEUP TANK, and PLACE fire hose in hinged access at top of tank.

(Acc Crit 5.0[2]F) ________

[5] REMOVE fire hose from 0-TANK-84-110, FLOOD MODE AUXILIARY BORATION MAKEUP TANK, and RESTORE fire hose station to normal configuration and CLOSE Fire Protection Impairment Permit (FPIP). ________

[6] VERIFY hose station (2-ISV-26-670) is restored and FPIP appropriately closed in accordance with NPG-SPP-18.4.6.. ________

IV

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 33 of 39 6.9 ALT HPFP Capability to Flood Mode Aux Boration M/U Tank

[1] OBTAIN U-1 SRO/Fire Ops authorization to install AFW/HPFP spool pieces in accordance with 2-MI-17.018. ________

[2] OBTAIN U-2 SM/US authorization to install AFW/HPFP spool pieces in accordance with 2-MI-17.018. ________

NOTE Step 6.9[3] is to be performed immediately prior to performance of Step 6.9[4] to ensure accuracy of required installation time.

[3] RECORD date and time (prior to start of Step 6.9[4]).

Date Time

[4] PERFORM 2-MI-17.018 Flood Preparation High Pressure Fire Protection System Spool Pieces to install 2-SPPC-3-6384 and 2-SPPC-3-6385. ________

[5] CONNECT fire hose to hose connection at valve 2-ISV-3-6385, AFW/FP XCONN SPOOL BRANCH ISOLATION VALVE. ________

[6] ROUTE fire hose to 0-TANK-84-110, FLOOD MODE AUXILIARY BORATION MAKEUP TANK, and PLACE fire hose in hinged access at top of tank.

(Acc Crit 5.0[2]F) ________

[7] RECORD date and time at completion of Step 6.9[6].

Date Time

[8] DETERMINE the actual installation Time.

Step 6.9[7] (-) Step 6.9[3] = hr.

[9] VERIFY the installation time recorded in Step 6.9[8] is less than or equal to 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 34 of 39 6.9 ALT HPFP Capability to Flood Mode Aux Boration M/U Tank (continued)

[10] VERIFY High Pressure Fire Protection System to Auxiliary Feedwater System spool pieces with all gaskets, studs, and nuts, have been properly installed. (Acc Crit 5.0[2]G) ________

[11] REMOVE fire hose from 0-TANK-84-110, FLOOD MODE AUXILIARY BORATION MAKEUP TANK. ________

[12] REMOVE the High Pressure Fire Protection System to Auxiliary Feedwater System spool pieces, and RESTORE the blind flanges at each spool piece location. ________

IV

[13] RETURN High Pressure Fire Protection System to Auxiliary Feedwater System spool pieces and fire hose to their storage location and replace required gaskets, tools, rigging, etc. for future installation in accordance with MI-17.003. ________

IV

[14] NOTIFY U-1 US/Fire Ops of section completion for Fire Operating Requirement evaluation. ________

[15] NOTIFY U-2 SM/US of section completion for Fire Operating Requirement evaluation. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 35 of 39 7.0 POST PERFORMANCE ACTIVITIES

[1] VERIFY that Post-test calibration of the M&TE used to record quantitative acceptance criteria has been satisfactorily performed and the results RECORDED on Measuring and Test Equipment (M&TE) Log in SMP-9.0 ________

[2] VERIFY that Post-test calibration of permanent plant instruments used to record quantitative acceptance criteria has been satisfactorily performed and RECORD the results on Appendix C, Permanent Plant Instrumentation Log. ________

[3] ENSURE M&TE and temporary test equipment installed, has been removed and system returned to original (normal) configuration. ________

IM IV

[4] NOTIFY the Unit 1 SM/US and Unit 2 US of the test completion and System alignment. ________

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 36 of 39 8.0 RECORDS 8.1 QA Records Complete Test Package 8.2 Non-QA Records None

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 37 of 39 Appendix A (Page 1 of 1)

INSTRUCTIONS REFERENCE REVIEW Additional copies of this table may be made as necessary.

PROCEDURE/ INITIAL AND DATE.

REVISION/CHANGES INSTRUCTION (N/A for no change)

FSAR Amendment 109 Section 9.3.6, Figure 9.3-18 Table 14.2-1 Sht 20 of 89 2-TSD-84-1 001 WBN2-84-4001 draft

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 38 of 39 Appendix B (Page 1 of 1)

TEMPORARY CONDITION LOG Additional copies of this table may be made as necessary.

ITEM TEMPORARY CONDITION PERFORMED RETURNED TO NORMAL No. DESCRIPTION Step Performed By/Date Step Returned By/Date No. CV By/Date No. CV By/Date

WBN FLOOD MODE BORATION 2-PTI-084-01 Unit 2 Rev. 0000 Page 39 of 39 Appendix C (Page 1 of 1)

PERMANENT PLANT INSTRUMENTATION LOG INSTRUMENT CAL DUE FILLED AND PLACED IN USED FOR POST-TEST POST-TEST OR DATE VENTED1 SERVICE1 QUANTITATIVE CAL DATE2 CALIBRATION INSTRUMENT Acc Crit ACCEPTABLE2 LOOP # INIT/DATE INIT/DATE YES NO INITIAL/DATE 0-PI-84-5 0-PI-84-7 0-PI-84-10 0-PI-84-12 0-LI-84-1 2-PI-84-15 2-PI-84-17 2-PI-84-20 2-PI-84-22 1

These items may be initialed and dated by personnel performing the task. Instrumentation not required to be filled and vented may be identified as Not Applicable. (N/A) 2 May be identified as Not Applicable (N/A) if instrument was not used to verify/record quantitative acceptance criteria data.