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ITT ProCast PC3 Installation, Operation And Maintenance Manual

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Installation, Operation, and
Maintenance Manual
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Summary of Contents for ITT ProCast PC3

  • Page 1 Installation, Operation, and Maintenance Manual...

  • Page 3: Table Of Contents

    Table of Contents Table of Contents 1 Introduction and Safety ............................ 4 1.1 Introduction..............................4 1.1.1 Requesting other information ......................4 1.2 Safety ................................ 4 1.2.1 Safety terminology and symbols ..................... 5 1.2.2 Environmental safety........................6 1.2.3 User safety ............................7 1.2.4 Ex-approved products ........................
  • Page 4 Table of Contents 4.5.3 Discharge piping checklist......................42 5 Commissioning, Startup, Operation, and Shutdown ................... 43 5.1 Preparation for startup..........................43 5.2 Check the rotation ........................... 44 5.3 Bearing lubrication ..........................45 5.3.1 Lubricating-oil requirements......................45 5.3.2 Acceptable oil for lubricating bearings ..................45 5.3.3 Lubricate the bearings with oil.......................
  • Page 5 Table of Contents 9 Parts Listings and Cross Sectionals ......................70 9.1 PC3 Group 1 ............................70 9.2 PC3 Group 2 and 3 ..........................71 9.3 Recommended spare parts ........................72 10 Dimensional Drawing ............................ 73 10.1 Dimensional Data ..........................73 PC3 Installation, Operation, and Maintenance Manual...

  • Page 6: Introduction And Safety

    1 Introduction and Safety 1 Introduction and Safety 1.1 Introduction Purpose of this manual The purpose of this manual is to provide necessary information for: • Installation • Operation • Maintenance CAUTION: Failure to observe the instructions contained in this manual could result in personal injury and/or property damage, and may void the warranty.

  • Page 7: Safety Terminology And Symbols

    1.2 Safety • If the pump or motor is damaged or leaking, electric shock, fire, explosion, liberation of toxic fumes, physical harm, or environmental damage may result. Do not operate the unit until the problem has been corrected or repaired. •...

  • Page 8: Environmental Safety

    WARNING: If the product has been contaminated in any way, such as from toxic chemicals or nuclear radi- ation, do NOT send the product to ITT until it has been properly decontaminated and advise ITT of these conditions before returning.

  • Page 9: Recycling Guidelines

    1.2 Safety Electrical installation For electrical installation recycling requirements, consult your local electric utility. 1.2.2.1 Recycling guidelines Always follow local laws and regulations regarding recycling. 1.2.3 User safety General safety rules These safety rules apply: • Always keep the work area clean. •...

  • Page 10: Precautions Before Work

    1.2 Safety Temperature WARNING: Equipment and piping surfaces may exceed 130ºF (54ºC) in operating process plants. Clear visual warnings or other indicators should alert personnel to surfaces that may reach a poten- tially unsafe temperature. Do not touch hot surfaces. Allow pumps operating at a high tempera- ture to cool sufficiently before performing maintenance.

  • Page 11: Hazardous Liquids

    Personnel requirements These are the personnel requirements for Ex-approved products in potentially explosive atmospheres: • All work on the product must be carried out by certified electricians and ITT-authorized mechanics. Special rules apply to installations in explosive atmospheres. • All users must know about the risks of electric current and the chemical and physical characteristics of the gas, the vapor, or both present in hazardous areas.

  • Page 12: Product Approval Standards

    Use of equipment unsuitable for the environment can pose risks of ignition and/or explosion. Ensure the pump driver and all other auxiliary components meet the required area classifica- tion at the site. If they are not compatible, do not operate the equipment and contact an ITT representative before proceeding.

  • Page 13: Ex Considerations And Intended Use

    Personnel requirements These are the personnel requirements for Ex-approved products in potentially explosive atmospheres: • All work on the product must be carried out by certified electricians and ITT-authorized mechanics. Special rules apply to installations in explosive atmospheres. • All users must know about the risks of electric current and the chemical and physical characteristics of the gas, the vapor, or both present in hazardous areas.
  • Page 14 Maintenance manual (IOM) can cause serious personal injury or damage to the equipment. This in- cludes any modification to the equipment or use of parts not provided by ITT Goulds Pumps. If there is any question regarding the intended use of the equipment, please contact an ITT Goulds representative before proceeding.
  • Page 15 The code classification marked on the equipment must be in accordance with the specified area where the equipment will be installed. If it is not, do not operate the equipment and contact your ITT Goulds Pumps sales representative before proceeding.
  • Page 16 If the equipment is Ex certified and the listed temperature exceeds the applicable value shown in Table 1 under SAFETY, then that temperature is not valid. Should this situation occur, please consult with your ITT/Goulds representative. • Cooling systems, such as those for bearing lubrication, mechanical seal systems, etc., where provided, must be operating properly to prevent excess heat generation, sparks and premature failure.
  • Page 17 In plants or pumps with cathodic corrosion protection, a small current constantly flows through the construction. This is not permissible on the complete pump or partially-as- sembled machinery without further precautions being taken. ITT should be consulted in this context.

  • Page 18: Transportation And Storage

    2 Transportation and Storage 2 Transportation and Storage 2.1 Inspect the delivery 2.1.1 Inspect the package Inspect the package for damaged or missing items upon delivery. Note any damaged or missing items on the receipt and freight bill. File a claim with the shipping company if anything is out of order. If the product has been picked up at a distributor, make a claim directly to the distributor.
  • Page 19 2.2 Transportation guidelines Table 2: Methods Pump type Lifting method Bare pump without lifting handles Use a suitable sling attached properly to solid points like the casing, the flang- es, or the frames. A base-mounted pump Use slings under the pump casing and the drive unit, or under the base rails. Examples Figure 3: Example of a proper lifting method Figure 4: Example of a proper lifting method...

  • Page 20: Storage Guidelines

    2.3 Storage guidelines Figure 6: Example of a proper lifting method 2.3 Storage guidelines 2.3.1 Pump storage requirements Storage requirements depend on the amount of time that you store the unit. The normal packaging is designed only to protect the unit during shipping. Length of time in storage Storage requirements Upon receipt/short-term (less than six months)

  • Page 21: Product Description

    3 Product Description 3 Product Description 3.1 General description The ProCast PC3 is a horizontal overhung, semi-closed impeller, centrifugal pump designed for chemical processes. This pump meets the dimensional requirements of ANSI B73.1. 3.2 Nomenclature DBP1-1.5162-SS-CBS Assembly DBP - Durco Bare Pump...
  • Page 22 3.2 Nomenclature DPE - Durco Power End DBPO - Durco Back Pull Out DSK - Durco Shaft Kit MK - Maintenance Kit RK - Repair Kit 1st Numeric Digit 1 - Group 1 2 - Group 2 3 - Group 3 Middle Numeric Digits Size - 1.5 X 1 (Suction/Discharge) Last Numeric Digits...

  • Page 23: Installation

    Electrical connections must be made by certified electricians in compliance with all inter- national, national, state and local regulations. • Supervision by an authorized ITT representative is recommended to ensure proper instal- lation. Improper installation may result in equipment damage or decreased performance. 4.1.1 Pump location guidelines...

  • Page 24: Foundation Requirements

    4.1 Pre-installation 4.1.2 Foundation requirements Requirements • The location and size of the foundation bolt holes must match those shown on the assembly draw- ing provided with the pump data package. • The foundation must weigh between two and three times the weight of the pump. •...

  • Page 25: Baseplate-Mounting Procedures

    4.2 Baseplate-mounting procedures 4.2 Baseplate-mounting procedures 4.2.1 Prepare the baseplate for mounting Remove all the attached equipment from the baseplate. Clean the underside of the baseplate completely. If applicable, coat the underside of the baseplate with an epoxy primer. Use an epoxy primer only if using an epoxy-based grout. Remove the rust-proofing coat from the machined mounting pads using an appropriate solvent.

  • Page 26: Install The Baseplate Using Jackscrews

    4.2 Baseplate-mounting procedures Level the baseplate both lengthwise and across by adding or removing shims or moving the wedg- These are the leveling tolerances: • A maximum difference of 3.2 mm | 0.125 in. lengthwise • A maximum difference of 1.5 mm | 0.059 in. across You can use the 4.2.6 Baseplate-leveling worksheet on page 29 when you take the readings.
  • Page 27 4.2 Baseplate-mounting procedures NOTICE: Remove all dirt from the mounting pads in order to ensure that the correct leveling is achieved. Failure to do so can result in equipment damage or decreased performance. Put one machinist's level lengthwise on one of the two pads. Put the other machinist's level across the ends of the two pads.

  • Page 28: Install The Baseplate Using Spring Mounting

    4.2 Baseplate-mounting procedures Item Description Driver's mounting pads Machinist's levels Foundation bolts Jackscrews Grout hole Pump's mounting pads Figure 13: Level pump mounting pads Hand-tighten the nuts for the foundation bolts. Check that the driver's mounting pads are level and adjust the jackscrews and the foundation bolts if necessary.

  • Page 29: Install The Baseplate Using Stilt Mounting

    4.2 Baseplate-mounting procedures Thread the upper jam nut onto the spring stud by hand. Repeat steps 2 through 4 for all the spring assemblies. Lower the baseplate so that the spring assemblies fit into the foundation pads. Level the baseplate and make the final height adjustments: Loosen the upper jam nuts and adjusting nuts.
  • Page 30 4.2 Baseplate-mounting procedures The correct height depends on the required distance between the foundation/floor and the base- plate. Put a washer onto the lower adjusting- nut. Install the stilt assembly on the baseplate: Insert the stilt assembly into the baseplate's anchorage hole from below. Put a washer onto the stilt.

  • Page 31: Baseplate-Leveling Worksheet

    4.2 Baseplate-mounting procedures 4.2.6 Baseplate-leveling worksheet Level measurements 1)____________________ 2)____________________ 3)____________________ 4)____________________ 5)____________________ 6)____________________ 7)____________________ 8)____________________ 9)____________________ 10)___________________ 11)___________________ 12)___________________ 13)___________________ 14)___________________ 15)___________________ 16)___________________ 17)___________________ 18)___________________ PC3 Installation, Operation, and Maintenance Manual...

  • Page 32: Pump-To-Driver Alignment

    4.3 Pump-to-driver alignment 4.3 Pump-to-driver alignment Precautions WARNING: • Misalignment can cause decreased performance, equipment damage, and even cata- strophic failure of frame-mounted units leading to serious injury. Proper alignment is the responsibility of the installer and the user of the unit. Check the alignment of all drive components prior to operating the unit.

  • Page 33: Permitted Indicator Values For Alignment Checks

    The correct tolerances must be used. Failure to do so can result in misalignment. Contact ITT for further information. When dial indicators are used to check the final alignment, the pump and drive unit are correctly aligned when these conditions are true: •...

  • Page 34: Pump-To-Driver Alignment Instructions

    4.3 Pump-to-driver alignment Attach one indicator (P) so that the indicator rod comes into contact with the perimeter of the driver coupling half (Y). This indicator is used to measure parallel misalignment. Attach the other indicator (A) so that the indicator rod comes into contact with the inner end of the driver coupling half.

  • Page 35: Perform Angular Alignment For A Horizontal Correction

    4.3 Pump-to-driver alignment Shims Figure 17: Side view of an incorrect vertical alignment Repeat the previous steps until the permitted reading value is achieved. 4.3.5.2 Perform angular alignment for a horizontal correction Set the angular alignment indicator (A) to zero on left side of the driver coupling half (Y), 90° from the top-center position (9 o’clock).

  • Page 36: Perform Parallel Alignment For A Horizontal Correction

    The specified permitted reading values are valid only at operating temperature. For cold set- tings, other values are permitted. The correct tolerances must be used. Failure to do so can result in misalignment. Contact ITT for further information. 4.3.5.4 Perform parallel alignment for a horizontal correction Refer to 4.3.2.1 Cold settings for parallel vertical alignment on page 31...

  • Page 37: Perform Complete Alignment For A Vertical Correction

    The specified permitted reading values are valid only at operating temperature. For cold set- tings, other values are permitted. The correct tolerances must be used. Failure to do so can result in misalignment. Contact ITT for further information. 4.3.5.5 Perform complete alignment for a vertical correction A unit is in complete alignment when both the angular indicator (A) and the parallel indicator (P) do not vary by more than 0.05 mm | 0.002 in.
  • Page 38 4.4 Grout the baseplate • Pump the grout into place. Allow the grout to set. Item Description Baseplate Shims or wedges Grout Foundation Sleeve Bolt Figure 21: Pour grout into baseplate Fill the remainder of the baseplate with grout, and allow the grout to set for at least 48 hours. Item Description Baseplate Grout...

  • Page 39: Piping Checklists

    4.5 Piping checklists 4.5 Piping checklists 4.5.1 General piping checklist Precautions WARNING: Risk of premature failure. Casing deformation can result in misalignment and contact with • rotating parts, causing excess heat generation and sparks. Flange loads from the piping system, including those from the thermal expansion of the piping, must not exceed the limits of the pump.
  • Page 40 4.5 Piping checklists Check Explanation/comment Checked • The grout for the pit cover be- comes hard. • The hold-down bolts for the pump and the driver are tight- ened. Make sure that all the piping joints and fittings are airtight. If the pump handles corrosive fluids, make sure that the piping allows you to flush out the liquid before you re-...

  • Page 41: Suction-Piping Checklist

    4.5 Piping checklists 4.5.1.1 Fastening WARNING: Risk of serious personal injury or property damage. Fasteners such as bolts and nuts are criti- cal to the safe and reliable operation of the product. Ensure appropriate use of fasteners during installation or reassembly of the unit. •...
  • Page 42 4.5 Piping checklists Check Explanation/comment Checked If more than one pump operates from the This recommendation helps you to achieve a higher same liquid source, check that separate pump performance and prevent vapor locking espe- suction-piping lines are used for each cially with specific gravity of liquid less than 0.60.
  • Page 43 4.5 Piping checklists Example: Elbow close to the pump suction inlet Correct Incorrect The correct distance between the inlet flange of the pump and the closest elbow must be at least five pipe di- ameters. Enough distance to prevent cavitation Eccentric reducer with a level top Example: Suction piping equipment Correct...

  • Page 44: Discharge Piping Checklist

    4.5 Piping checklists 4.5.3 Discharge piping checklist Checklist Check Explanation/comment Checked Check that an isolation valve is installed in The isolation valve is required for: the discharge line. For specific gravity less • Priming than 0.60, minimize distance from pump •...

  • Page 45: Commissioning, Startup, Operation, And Shutdown

    5 Commissioning, Startup, Operation, and Shutdown 5 Commissioning, Startup, Operation, and Shutdown 5.1 Preparation for startup WARNING: • Risk of serious physical injury or death. Exceeding any of the pump operating limits (e.g. - pressure, temperature, power, etc.) could result in equipment failure, such as explosion, seizure, or breach of containment.

  • Page 46: Check The Rotation

    5.2 Check the rotation CAUTION: When a cartridge mechanical seal is used, ensure that the set screws in the seal locking ring are tightened and that the centering clips have been removed prior to startup. This prevents seal or shaft sleeve damage by ensuring that the seal is properly installed and centered on the sleeve.

  • Page 47: Bearing Lubrication

    5.3 Bearing lubrication Make sure that everyone is clear, and then jog the driver long enough to determine that the direc- tion of rotation corresponds to the arrow on the casing, bearing housing, or close-coupled frame. Lock out power to the driver. 5.3 Bearing lubrication WARNING: Risk of explosive hazard and premature failure from sparks and heat generation.

  • Page 48: Lubricate The Bearings With Pure Oil Mist

    5.4 Shaft-sealing options Fill the bearing frame with oil through the filler connection, which is located on top of the bearing frame. Fill the bearing frame with oil until the oil level reaches the middle of the sight glass (200). Oil lubricated bearings 113A...

  • Page 49: Packed Stuffing Box Option

    5.5 Impeller clearance Method Description External flush Run the piping so that the pump injects a clean, cool, compatible liquid directly into the seal gland. The pressure of the flushing liquid must be 0.35 to 1.01 kg/cm | 5 to 15 psi greater than the seal chamber pres- sure.

  • Page 50: Impeller Clearance Setting

    5.5 Impeller clearance • Electrical connections must be made by certified electricians in compliance with all inter- national, national, state, and local rules. • Refer to driver/coupling manufacturer's installation and operation manuals (IOM) for spe- cific instructions and recommendations. CAUTION: Check impeller clearance prior to starting.
  • Page 51 5.5 Impeller clearance • Failure to disconnect and lock out driver power may result in serious physical injury or death. Always disconnect and lock out power to the driver before performing any installa- tion or maintenance tasks. • Electrical connections must be made by certified electricians in compliance with all international, national, state, and local rules.
  • Page 52 5.5 Impeller clearance Rotate the bearing carrier (201) clockwise to set proper clearance. (Refer to Impeller Clearance Val- ues table above for proper settings for operating temperatures.) Rotating the carrier the width of one of the indicator patterns on the bearing carrier (See Figure 25: Bearing Carrier on page 50.) moves the impeller axially 0.1mm | 0.004 inches.

  • Page 53: Pump Priming

    5.6 Pump priming 5.6 Pump priming 5.6.1 Prime the pump with the suction supply above the pump Slowly open the suction isolation valve. Open the air vents on the suction and discharge piping until the pumped fluid flows out. Close the air vents. Item Description Discharge isolation valve Check valve...

  • Page 54: Other Methods Of Priming The Pump

    5.7 Start the pump Item Description By-pass line Item Description Shutoff valve Discharge isolation valve Foot valve Shutoff valve Check valve From outside supply Discharge isolation valve Foot valve Check valve Figure 28: Pump priming with suction supply below pump with foot valve using bypass Figure 27: Pump priming with suction supply around check valve below pump with foot valve and an outside sup-...

  • Page 55: Pump Operation Precautions

    5.8 Pump operation precautions • To avoid risk of equipment damage, observe the pump for vibration levels, bearing tem- perature, and excessive noise. If normal levels are exceeded, shut down the pump and resolve the issue. NOTICE: Risk of equipment damage on pure or purge-oil mist-lubricated units. Remove the viewing port plugs to verify that oil mist is flowing properly.

  • Page 56: Shut Down The Pump

    5.9 Shut down the pump • Risk of explosion and serious physical injury. Do not operate pump with blocked system piping or with suction or discharge valves closed. This can result in rapid heating and va- porization of pumpage. • Risk of equipment damage and serious physical injury.
  • Page 57 5.10 Make the final alignment of the pump and driver • Follow the coupling installation and operation procedures from the coupling manu- facturer. You must check the final alignment after the pump and driver are at operating temperature. For initial alignment instructions, see the Installation chapter.

  • Page 58: Maintenance

    6 Maintenance 6 Maintenance 6.1 Maintenance schedule Maintenance inspections A maintenance schedule includes these types of inspections: • Routine maintenance • Routine inspections • Three-month inspections • Annual inspections Shorten the inspection intervals appropriately if the pumped fluid is abrasive or corrosive or if the envi- ronment is classified as potentially explosive.

  • Page 59: Bearing Maintenance

    These bearing lubrication sections list different temperatures of the pumped fluid. If the pump is Ex-certified and the temperature of the pumped fluid exceeds the permitted temperature values, then consult your ITT representative. For Ex applications bearing replacement (all) is recommended after 17,500 hours of opera- tion.

  • Page 60: Lubricate The Bearings After A Shutdown Period

    Cartridge seals installed by the user require disengagement of the hold- ing clips prior to operation, allowing the seal to slide into place. If the seal has been installed in the pump by ITT, these clips have already been disengaged. Other mechanical seal types For other types of mechanical seals, refer to the instructions provided by the seal manufacturer for instal- lation and setting.

  • Page 61: Packed Stuffing-Box Maintenance

    6.4 Disassembly Reference drawing The manufacturer supplies a reference drawing with the data package. Keep this drawing for future use when you perform maintenance and seal adjustments. The seal drawing specifies the required flush fluid and attachment points. Before you start the pump Check the seal and all flush piping.

  • Page 62: Tools Required

    6.4 Disassembly • Refer to driver/coupling/gear manufacturer's installation and operation manuals (IOM) for specific instructions and recommendations. • Risk of serious personal injury. Applying heat to impellers, propellers, or their retaining devices can cause trapped liquid to rapidly expand and result in a violent explosion. This manual clearly identifies accepted methods for disassembling units.

  • Page 63: Remove The Coupling

    6.4 Disassembly 6.4.4 Remove the coupling Disconnect the coupling. Remove the coupling-guard pump end-plate. 6.4.5 Remove the back pull-out assembly WARNING: Lifting and handling heavy equipment poses a crush hazard. Use caution during lifting and handling and wear appropriate Personal Protective Equipment (PPE, such as steel-toed shoes, gloves, etc.) at all times.

  • Page 64: Remove The Coupling Hub

    6.4 Disassembly Clean surfaces prevent the casing gasket from partially adhering to the casing due to binders and adhesives in the gasket material. 6.4.6 Remove the coupling hub Clamp the frame adapter securely to the workbench. Remove the coupling hub. Mark the shaft for relocation of the coupling hub during reassembly.

  • Page 65: Pre-Assembly Inspections

    6.5 Pre-assembly inspections For Mechanical Seal Remove the mechanical seal rotating element from the pump shaft sleeve by loosening the set screws and sliding off assembly. Discard all O-rings and gaskets. Remove shaft sleeve if quipped. Slide off seal gland with stationary seat and discard all O-rings and gaskets. If packing is used, remove packing, seal cage, and gland.

  • Page 66: Reassembly

    6.6 Reassembly NOTICE: Protect machined surfaces while cleaning the parts. Failure to do so may result in equipment damage. 6.6 Reassembly 6.6.1 Assemble the pump Install a new oil slinger on the shaft if one was removed during disassembly. Only used and is op- tional on oil lubricated bearing housings.
  • Page 67 6.6 Reassembly WARNING: Risk of physical injury from hot bearings. Wear insulated gloves when using a bearing heater. NOTICE: There are several methods you can use to install bearings. The recommended method is to use an induction heater that heats and demagnetizes the bearings. Position the bearing (112) on the shaft (122) against the shoulder and snug the locknut (136) against the bearing until it is cool.
  • Page 68 6.6 Reassembly NOTICE: Each manufacturer has their own seal assembly instructions. Follow seal manufacture's in- structions for installation and maintenance. 17. Install and set seal whether packing or mechanical. If packing, insert two rings, seal ring, and then last two rows of packing. Make sure the holes in seal ring align with the flushing connections. 18.

  • Page 69: Assembly References

    7 Assembly References 7 Assembly References 7.1 Bolt torque values Item No Description Group 1 Group 2 Group 3 Bearing retainer 201E 5/16" - 16 Nm | 12 ft-lbf cap screws Bearing housing/ adapter cap 1/2" - 54 Nm | 40 ft-lbf 5/8"...

  • Page 70: Troubleshooting

    The shaft is rotating in the wrong direction. Change the rotation. The rotation must match the arrow on the bearing housing or pump casing. The foot valve or suction pipe opening is Consult an ITT representative for the proper not submerged enough. submersion depth. Use a baffle in order to eliminate vortices.

  • Page 71: Alignment Troubleshooting

    If this does liquid. not help, then contact your ITT representa- tive. The liquid is heavier than expected. Check the specific gravity and viscosity. The stuffing-box packing is too tight.

  • Page 72: Parts Listings And Cross Sectionals

    9 Parts Listings and Cross Sectionals 9 Parts Listings and Cross Sectionals 9.1 PC3 Group 1 Table 8: Group 1 Parts List Item # Description Item # Description Item # Description Casing Bearing (Outboard) Sight Gauge 1" NPT Impeller - Reverse Vane Locknut (Bearing) Bearing Carrier Gasket - Impeller Groove 125...

  • Page 73: Pc3 Group 2 And 3

    9.2 PC3 Group 2 and 3 9.2 PC3 Group 2 and 3 Group 3 carrier retainer Table 9: Group 2 and 3 Parts List Item # Description Item # Description Item # Description Casing Locknut (Bearing) 201A Set Screw (Bearing Carrier) Impeller - Reverse Vane Lockwasher (Bearing) 201B...

  • Page 74: Recommended Spare Parts

    9.1 PC3 Group 1 on page 9.2 PC3 Group 2 and 3 on page 71, and the price catalog when placing an order to ITT ProCast. State the part number and description on the purchase order. Table 10: Group 1 Parts List...

  • Page 75: Dimensional Drawing

    10 Dimensional Drawing 10 Dimensional Drawing 10.1 Dimensional Data Foot Pattern Shaft Pump Pump Size ANSI 1.5x1-6 3x1.5-6 3/16x3/ Group 1 6 1/2 5 1/4 4 17 1/2 7 1/4 5/8 3x2-6 1.5x1-8 3x1.5-8 7 1/2 3x2-8 9 1/2 4x3-8 2x1-10A 8 1/2 23 1/2 4 7/8 3 5/8 12 1/2 5/8 1 1/8 1/4x1/8 2 5/8...
  • Page 76 Visit our website for the latest version of this document and more information: https://www.procastparts.com Goulds Pumps Inc. 240 Fall Street Seneca Falls, NY 13148 Form IOM.PC3.en-US.2024-05 ©2024 ITT Corporation The original instruction is in English. All non-English instructions are translations of the original instruction.

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