ITT Goulds Pumps XHD Series Installation, Operation And Maintenance Manual

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Installation, Operation,
and Maintenance Manual
XHD

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Summary of Contents for ITT Goulds Pumps XHD Series

  • Page 1 Installation, Operation, and Maintenance Manual...
  • Page 3: Table Of Contents

    Table of Contents Table of Contents Introduction and Safety ......................4 Introduction ..........................4 Safety ............................5 Safety terminology and symbols ................... 5 Environmental safety ......................6 User safety ........................... 7 Safety regulations for Ex-approved products in potentially explosive atmospheres ..... 8 Product approval standards ....................
  • Page 4 Table of Contents Commissioning, Startup, Operation, and Shutdown ............40 Preparation for startup ......................40 Remove the V-belt drive guard ..................... 41 Remove the coupling guard ....................41 Check the rotation - Frame Mounted ..................42 Impeller-clearance check ...................... 43 Impeller axial clearances ....................
  • Page 5 Assembly drawings - (exploded views) ................140 Certification: CE or CE ATEX ..................... 150 Certificates of conformance ....................150 Other Relevant Documentation or Manuals ..............156 Local ITT Contacts ......................157 Regional offices ........................157 XHD Installation, Operation, and Maintenance Manual...
  • Page 6: Introduction And Safety

    For instructions, situations, or events that are not considered in this manual or in the sales documents, please contact the nearest ITT representative. Always specify the exact product type and identification code when requesting technical information or spare parts.
  • Page 7: Safety

    Prohibited methods include any modification to the equipment or use of parts not provided by ITT. If there is any uncertainty regarding the appropriate use of the equipment, please contact an ITT representative before proceeding.
  • Page 8: Environmental Safety

    WARNING: If the product has been contaminated in any way, such as from toxic chemicals or nuclear radiation, do NOT send the product to ITT unless it has been properly decontaminated. Electrical installation For electrical installation recycling requirements, consult your local electric utility.
  • Page 9: User Safety

    Introduction and Safety User safety General safety rules These safety rules apply: • Always keep the work area clean. • Pay attention to the risks presented by gas and vapors in the work area. • Avoid all electrical dangers. Pay attention to the risks of electric shock or arc flash hazards. •...
  • Page 10: Safety Regulations For Ex-Approved Products In Potentially Explosive Atmospheres

    Introduction and Safety • Never work alone. • Always wear protective clothing and hand protection. • Stay clear of suspended loads. • Always lift the product by its lifting device. • Beware of the risk of a sudden start if the product is used with an automatic level control. •...
  • Page 11 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 and/or vapor present in hazardous areas.
  • Page 12: Product Approval Standards

    Ensure that the code classifications on the pump are compatible with the specific environment in which the equipment is to be installed. If they are not compatible, do not operate the equipment and contact an ITT representative before proceeding. All standard products are approved according to CSA standards in Canada and UL standards in USA.
  • Page 13: Product Warranty

    • The monitoring equipment incorporated in the product is correctly connected and in use. • All service and repair work is done by ITT-authorized personnel. • Genuine ITT parts are used. • Only Ex-approved spare parts and accessories authorized by ITT are used in Ex-approved products. Limitations The warranty does not cover faults caused by these situations: •...
  • Page 14: Transportation And Storage

    Transportation and Storage Transportation and Storage Inspect the delivery Inspect the package 1. Inspect the package for damaged or missing items upon delivery. 2. Note any damaged or missing items on the receipt and freight bill. 3. 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 15 Transportation and Storage Table 1: Methods Pump type Lifting method A bare pump without lifting Use a suitable sling attached properly to solid points like the casing, the handles flanges, or the frames. A bare pump with lifting lugs Use a suitable sling attached to the lifting lugs in the casing and bearing cartridge.
  • Page 16: Storage Guidelines

    Transportation and Storage Figure 3: Example of base mounted pump proper lifting method Figure 4: Example of overhead mounted pump proper lifting method Storage guidelines Storage location The product must be stored in a covered and dry location free from heat, dirt, and vibrations. XHD Installation, Operation, and Maintenance Manual...
  • Page 17: Pump Storage Requirements

    You can purchase long-term storage treatment with the initial unit order or you can purchase it and apply it after the units are already in the field. Contact your local ITT sales representative. Frostproofing This table shows to what degree the pump is frostproof: When the pump is...
  • Page 18: Product Description

    Product Description Product Description ® General description i-ALERT 2 Equipment Health Monitor Description ® The i-ALERT 2 Equipment Health Monitor is a compact, battery-operated monitoring device ® that continuously measures the vibration and temperature of the pump. The i-ALERT 2 sensor uses blinking red LEDs and wireless notification to alert the pump operator when the pump exceeds vibration and temperature limits.
  • Page 19 Product Description Table 2: Explanation of nameplate on the pump casing Nameplate field Explanation IMPLR. DIA. Impeller diameter, in inches MAX. DIA. Maximum impeller diameter, in inches Rated pump flow, in gallons per minute FT HD Rated pump head, in feet Rated pump speed, revolutions per minute MOD.
  • Page 20 Ensure that the code classifications on the pump are compatible with the specific environment in which the equipment is to be installed. If they are not compatible, do not operate the equipment and contact an ITT representative before proceeding. XHD Installation, Operation, and Maintenance Manual...
  • Page 21: Installation

    • Electrical connections must be made by certified electricians in compliance with all international, national, state and local regulations. • Supervision by an authorized ITT representative is recommended to ensure proper installation. Improper installation may result in equipment damage or decreased perfor- mance.
  • Page 22: Foundation Requirements

    Installation Foundation requirements Requirements • All equipment being installed must be properly grounded to prevent unexpected static electric discharge. If not, a static electric discharge may occur when the pump is drained and disassembled for maintenance purposes. • The location and size of the foundation bolt holes must match those shown on the assembly drawing provided with the pump data package.
  • Page 23: Baseplate-Mounting Procedures

    Installation NOTICE: Slurry Pumps are typically driven with motors mounted overhead, coupled with V- belts and sheaves. This configuration does not require the pump to be mounted and grouted into place. The pump pedestal can be bolted onto a concrete foundation using J-type bolts or Sleeve-type bolts, thru the pedestal or mounting feet.
  • Page 24: Install The Baseplate Using Jackscrews

    Installation 4. Put the machinist's levels across the mounting pads of the driver and the mounting pads of the pump. 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. 5.
  • Page 25 Installation d) Make sure that the center jackscrews do not touch the foundation surface yet. Item Description Jackscrew Baseplate Foundation Plate Figure 13: Jackscrews 3. Level the driver mounting pads: NOTICE: Remove all dirt from the mounting pads in order to ensure that the correct leveling is achieved.
  • Page 26 Installation 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. a) Put one machinist's level lengthwise on one of the two pads. b) Put the other level across the center of the two pads.
  • Page 27: Direct-Coupled Baseplate-Leveling Worksheet

    Installation Direct-coupled baseplate-leveling worksheet XHD Installation, Operation, and Maintenance Manual...
  • Page 28: Install Pump, Driver, And V-Belt Drive

    Installation Install pump, driver, and v-belt drive Install and align the sheaves Before installing the driver onto an overhead motor mount or side-by-side base, ensure that Foundation requirements and baseplate mounting procedures sections are complete. NOTICE: Alignment procedures must be followed to prevent unintended contact of rotating parts. Follow coupling manufacturer’s installation and operation procedures.
  • Page 29: Install The Pump, Driver, And Coupling

    Installation 2. After the belts are seated in the sheave grooves, increase the center distance between the pump and motor shafts to tension the belts. Refer to pump general arrangement drawing for center distance ranges. Figure 17: V-belt tension Many v-belt drive manufacturers offer tension measurement tools that can aid in setting proper belt tension.
  • Page 30: Permitted Indicator Values For Alignment Checks

    Installation Types of alignment checks Type of check When it is used Initial alignment (cold alignment) Prior to operation when the pump and the driver are at ambient check temperature. Final alignment (hot alignment) After operation when the pump and the driver are at operating check temperature.
  • Page 31: Attach The Dial Indicators For Alignment

    Installation Guideline Explanation Check the alignment again after any mechanical adjustments. This corrects any misalignments that an adjustment may have caused. Attach the dial indicators for alignment You must have two dial indicators in order to complete this procedure. 1. Attach two dial indicators on the pump coupling half (X): a) Attach one indicator (P) so that the indicator rod comes into contact with the perimeter of the driver coupling half (Y).
  • Page 32 Installation When the Then... reading value is... Positive The coupling halves are closer at the bottom than at the top. Perform one of these steps: • Remove shims in order to lower the feet of the driver at the shaft end. •...
  • Page 33 Installation When the reading Then... value is... Negative The pump coupling half (X) is lower than the driver coupling half (Y). Remove shims of a thickness equal to half of the indicator reading value under each driver foot. Positive The pump coupling half (X) is higher than the driver coupling half (Y). Add shims of a thickness equal to half of the indicator reading value to each driver foot.
  • Page 34: Grout The Baseplate

    Installation 5. Repeat the previous steps until the permitted reading value is achieved. NOTICE: The specified permitted reading values are valid only at operating temperature. For cold settings, other values are permitted. The correct tolerances must be used. Failure to do so can result in misalignment.
  • Page 35: Piping Checklists

    Installation 5. Allow the grout to set. Item Description Baseplate Shims or wedges Grout Foundation Sleeve Bolt Figure 23: Pour grout into baseplate 6. Fill the remainder of the baseplate with grout, and allow the grout to set for at least 48 hours.
  • Page 36 Installation CAUTION: • Do not move the pump to the pipe. This could make final alignment impossible. NOTICE: Vary the capacity with the regulating valve in the discharge line. Never throttle the flow from the suction side. This action can result in decreased performance, unexpected heat generation, and equipment damage.
  • Page 37: Suction-Piping Checklist

    Installation Example: Installation for expansion Correct Incorrect This illustration shows a correct installation for This illustration shows an incorrect installation for expansion: expansion: 1. Expansion loop/joint Suction-piping checklist Performance curve reference Suction-piping checks Check Explanation/comment Checked Check that the distance between the This minimizes the risk of cavitation in the inlet flange of the pump and closest suction inlet of the pump due to turbulence.
  • Page 38 Installation Check Explanation/comment Checked If more than one pump operates from This recommendation helps you to achieve a the same liquid source, check that higher pump performance and prevent vapor separate suction-piping lines are used locking especially with specific gravity of liquid for each pump.
  • Page 39: Discharge Piping Checklist

    Installation Example: Suction piping equipment Correct Incorrect 1. Suction pipe sloping upwards from liquid source 1. Air pocket, because the eccentric reducer is not 2. Long-radius elbow used and because the suction piping does not 3. Strainer slope gradually upward from the liquid source 4.
  • Page 40: Bypass-Piping Considerations

    When to install a minimum-flow orifice You can size and install a minimum-flow orifice in a bypass line in order to prevent bypassing excessive flows. Consult your ITT representative for assistance in sizing a minimum-flow orifice. When a minimum-flow orifice is unavailable Consider an automatic recirculation control valve or solenoid-operated valve if a constant bypass (minimum-flow orifice) is not possible.
  • Page 41: Auxiliary-Piping Checklist

    Installation Auxiliary-piping checklist Precautions NOTICE: Auxiliary cooling and flush systems must be operating properly to prevent excess heat generation, sparks, and/or premature failure. Ensure auxiliary piping is installed as specified on the pump data sheet prior to startup. When to install You may need to install auxiliary piping for bearing cooling, seal-chamber cover cooling, mechanical seal flush, or other special features supplied with the pump.
  • Page 42: Commissioning, Startup, Operation, And Shutdown

    Commissioning, Startup, Operation, and Shutdown Commissioning, Startup, Operation, and Shutdown 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 43: Remove The V-Belt Drive Guard

    Commissioning, Startup, Operation, and Shutdown Precautions NOTICE: • Verify the driver settings before you start any pump. • Excessive warm-up rates can cause equipment damage. Ensure the warm-up rate does not exceed 1.4°C | 2.5°F per minute. • 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.
  • Page 44: Check The Rotation - Frame Mounted

    Commissioning, Startup, Operation, and Shutdown 4. Remove the driver half of the coupling guard: a) Slightly spread the bottom apart. b) Lift upwards. 5. Remove the remaining nut, bolt, and washers from the pump half of the coupling guard. It is not necessary to remove the end plate from the pump side of the bearing housing. You can access the bearing-housing tap bolts without removing this end plate if maintenance of internal pump parts is necessary.
  • Page 45: Impeller-Clearance Check

    Commissioning, Startup, Operation, and Shutdown 3. Make sure that the coupling spacer is removed, if applicable. The pump ships with the coupling spacer removed. 4. Unlock power to the driver. 5. Make sure that everyone is clear, and then jog the driver long enough to determine that the direction of rotation corresponds to the arrow on the bearing housing or casing.
  • Page 46 Commissioning, Startup, Operation, and Shutdown WARNING: • The pump should be run for a period of 15 minutes to verify the impeller is properly tightened onto the shaft. In addition to verifying the impeller is properly tightened, it is necessary to verify that the bearing frame adjustment plate bolts (352G) and nuts (427D) are properly secured and tight.
  • Page 47: Set Impeller To Suction Seal Ring Clearance Dial Indicator Method

    Commissioning, Startup, Operation, and Shutdown Figure 27: Impeller clearance measurement Set impeller to Suction Seal Ring Clearance Dial Indicator Method WARNING: 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 installation or maintenance tasks.
  • Page 48 Commissioning, Startup, Operation, and Shutdown 4. Back up the Impeller: Turn the two adjusting nuts (415A) on the rearward sides of the bearing frame adjustment plates (234F) counterclockwise sequentially, 1/2 of a turn each at a time, to draw the power end and impeller (101) backward until the face of the rear pump out vanes of the impeller contacts the volute liner (561).
  • Page 49 Commissioning, Startup, Operation, and Shutdown Figure 28: Tighten frame adjustment plate hold down bolts NOTICE: It is critical that adjustment plate hold down bolts (352G) and nuts (427D) are properly torqued to prevent the power frame from moving during operation. 16.
  • Page 50: Set Impeller Clearance Dial Indicator Method - Xhd

    Commissioning, Startup, Operation, and Shutdown Table 7: Impeller clearance - Rubber-lined Pump Size Field Setting Impeller Front Clearance inches (mm) XHD75 0.03 (0.75) XHD80 0.03 (0.75) XHD100 0.03 (0.75) XHD125 0.03 (0.75) XHD150 0.03 (0.75) XHD200 0.03 (0.75) NOTICE: Currently rubber lined assemblies are configured only with single piece suction liners. Impeller adjustment is only accomplished via adjusting the frame adjusting bolts.
  • Page 51: Suction Seal Ring Clearance Check - Xhd Only

    Commissioning, Startup, Operation, and Shutdown 4. Turn the two adjusting nuts (415A) on the forward sides of the bearing frame adjustment plates (234F) sequentially clockwise, 1/2 of a turn each at a time, to draw the power end forward until the impeller (101) contacts the Suction Liner (562). 5.
  • Page 52: Install The V-Belt Drive Guard

    Commissioning, Startup, Operation, and Shutdown After the clearances have been checked/set, the v-belt or coupling guard can be re-installed. Refer to the appropriate guard installation instructions specific to your unit(s). Impeller to Suction liner / Seal Ring Front clearance 0.02 inches 0.50 mm Install the V-belt drive guard NOTICE:...
  • Page 53: V-Belt Drive Monitoring And Protection

    Commissioning, Startup, Operation, and Shutdown V-belt drive monitoring and protection 1. Use all of the information in these sections to ensure that the v-belt drive is properly installed for correct operation and long life. 2. Keep the v-belts clean. Exposure to dirt and grease can reduce belt life. Maintaining a clean drive is the one of the best practices a user can employ to ensure drive longevity.
  • Page 54 Commissioning, Startup, Operation, and Shutdown 1. Coupling guard 2. Coupling Figure 32: Coupling guard assembly Figure 33: Pump with OHMM and belt guard installed XHD Installation, Operation, and Maintenance Manual...
  • Page 55: Install The Coupling Guard

    Commissioning, Startup, Operation, and Shutdown Install the coupling guard WARNING: • Running a pump without safety devices exposes operators to risk of serious personal injury or death. Never operate a unit unless appropriate safety devices (guards, etc.) are properly installed. •...
  • Page 56 Commissioning, Startup, Operation, and Shutdown b) Place the coupling guard half over the pump-side end plate. Item Description Annular groove Pump-side end plate Driver Pump half of the coupling guard Figure 35: Guard half installation The annular groove in the coupling guard half must fit around the end plate. Item Description Annular groove End plate (pump end)
  • Page 57: Bearing Lubrication

    Commissioning, Startup, Operation, and Shutdown Item Description Washer Bolt Figure 37: Secure coupling guard half to end plate 5. Put the driver half of the coupling guard in place: a) Slightly spread the bottom apart. b) Place the driver half of the coupling guard over the pump half of the coupling guard. The annular groove in the coupling guard half must face the motor.
  • Page 58: Shaft-Sealing Options

    Commissioning, Startup, Operation, and Shutdown bearing frame can be found in the ‘Oil Volume Requirements’ section in the ‘Bearing Maintenance’ / ‘Maintenance’ portion of the IOM. 1. Correct level Figure 38: Oil lubricated bearings 4. Replace the oil fill pipe plug (319B). Shaft-sealing options In most cases, the manufacturer seals the shaft before shipping the pump.
  • Page 59: Packed Stuffing Box Option

    Commissioning, Startup, Operation, and Shutdown Method Description Other You can use other methods that employ multiple gland or seal chamber connections. Refer to the mechanical seal reference drawing and seal flush/ cooling piping diagrams. Packed stuffing box option WARNING: Packed stuffing boxes are not allowed in an ATEX-classified environment. The factory does not install the packing, lantern ring, or split gland.
  • Page 60 Commissioning, Startup, Operation, and Shutdown 2. Twist the packing enough to get it around the shaft. Figure 39: Packing rings and lantern rings Packing rings Lantern rings 1. Packing rings 2. Lantern rings 3. Correct 4. Incorrect The XHD stuffing box is supplied with water connections for both the weep type and full flush configurations.
  • Page 61 Commissioning, Startup, Operation, and Shutdown c) Three packing rings (106) 1. Flush connection 2. Packing rings 3. Lantern ring Figure 41: Weep flush setting (2L3) For full flush setting (L5): a) One lantern ring (105) b) Five packing rings (106) 1.
  • Page 62: Pump Priming

    Commissioning, Startup, Operation, and Shutdown c) Four packing rings (106) 1. Flush connection 2. Packing rings 3. Lantern ring Figure 43: Full flush setting (1L4) 4. Install the gland halves and evenly hand-tighten the nuts . NOTICE: Do not overtighten gland nuts. Overtightened packing causes excessive friction between packing and sleeve and will result in damaged components.
  • Page 63: Prime The Pump With The Suction Supply Below The Pump

    Commissioning, Startup, Operation, and Shutdown Item Description Discharge isolation valve Check valve Suction isolation valve Figure 44: Suction supply above pump Prime the pump with the suction supply below the pump Use a foot valve and an outside source of liquid in order to prime the pump. The liquid can come from one of these sources: •...
  • Page 64 Commissioning, Startup, Operation, and Shutdown Item Description Discharge isolation valve Shutoff valve From outside supply Foot valve Check valve Figure 45: Pump priming with suction supply below pump with foot valve and an outside supply XHD Installation, Operation, and Maintenance Manual...
  • Page 65: Other Methods Of Priming The Pump

    Commissioning, Startup, Operation, and Shutdown Item Description By-pass line Shutoff valve Foot valve Check valve Discharge isolation valve Figure 46: Pump priming with suction supply below pump with foot valve using bypass around check valve Other methods of priming the pump You can also use these methods in order to prime the pump: •...
  • Page 66: Activate The I-Alert Health Monitor

    The health monitor is ready for activation when the pump is running and has reached a steady flow, pressure, and temperature. This process only takes a few minutes. 1. Place a small magnet on the health monitor over the ITT logo and then remove it, as this example shows.
  • Page 67: I-Alert ® 2 Equipment Health Monitor

    Commissioning, Startup, Operation, and Shutdown 2. Collects eight samples that are spaced one second apart. 3. Averages these readings to establish the baseline vibration level. 4. Flashes a green LED after approximately twelve seconds. For the first ten minutes, the green LED flashes every second for five consecutive flashes and then pauses to take a vibration reading.
  • Page 68: Shut Down The Pump

    Failure to do so may result in false baseline levels that could cause the health monitor to alert in error. 1. Touch a magnet to the health monitor over the ITT logo to turn the power on.The health monitor begins to establish a new baseline vibration level.
  • Page 69 Commissioning, Startup, Operation, and Shutdown ® Figure 48: i-ALERT 2 Equipment Health monitor XHD Installation, Operation, and Maintenance Manual...
  • Page 70: Make The Final Alignment Of The Pump And Driver

    Commissioning, Startup, Operation, and Shutdown Make the final alignment of the pump and driver WARNING: • 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 installation or maintenance tasks.
  • Page 71: Maintenance

    Maintenance Maintenance Maintenance schedule NOTICE: The preventive maintenance section must be adhered to in order to keep the applicable ATEX classification of the equipment. Failure to follow these procedures will void the ATEX classification for the equipment. Maintenance inspections A maintenance schedule includes these types of inspections: •...
  • Page 72: Bearing Maintenance

    Bearing maintenance These bearing lubrication sections list different temperatures of the pumped fluid. If the pump is ATEX-certified and the temperature of the pumped fluid exceeds the permitted temperature values, then consult your ITT representative. Bearing lubrication schedule Type of bearing...
  • Page 73: Oil Volumes

    Maintenance Oil volumes Oil volume requirements Frame Milliliters Quarts Ounces 1040 1400 1600 PF4S 2630 2.78 3975 4600 Acceptable oil for lubricating bearings Acceptable lubricants Use a high quality turbine oil with rust and oxidation inhibitors. Oil ISO viscosity recommendations can vary based on Operating speed, Ambient temperature and Rotating element loading.
  • Page 74: Lubricating-Grease Requirements

    Maintenance Lubricating-grease requirements Precautions NOTICE: • Avoid equipment damage or decreased performance. Never mix greases of different consistencies (NLGI 1 or 3 with NLGI 2) or with different thickeners. For example, never mix a lithium-based grease with a polyurea based grease. If it is necessary to change the grease type or consistency, remove the rotor and old grease from the housing before regreasing.
  • Page 75: Shaft-Seal Maintenance

    Cartridge seals installed by the user require disengagement of the holding 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 installation and setting.
  • Page 76 Maintenance 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 77 Maintenance Expeller seal maintenance Some services might require a flush if solids have built up on the expeller. The unit contains a flush tap for that purpose. Graphite packing maintenance Graphite packing requires the same maintenance as any other packing. When adjustments can no longer be made with the gland because it contacts the box face, perform these maintenance tasks: •...
  • Page 78: Disassembly

    Maintenance Disassembly Disassembly precautions WARNING: • 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 installation or maintenance tasks. • Electrical connections must be made by certified electricians in compliance with all international, national, state, and local rules.
  • Page 79: Disassembly For Metal-Lined

    Maintenance • Soft face hammer • Spanner wrench • Torque wrench • Wrenches • Lifting eyebolt (dependent on pump / motor size) Disassembly for Metal-Lined The disassembly steps for Metal-lined and Rubber-lined differ. This section, beginning with Typical disassembly and ending with Remove the shaft sleeve, pertains to Metal-lined pumps. For Rubber-lined pumps, refer to the sub-section, Disassembly for Rubber-Lined (page 89).
  • Page 80: Wet End Disassembly Instructions

    Maintenance 10. Remove the hex head cap screws (370Y) that attach the gland half casing (100D) to the pedestal (131). 11. Remove the entire wet end from the pedestal and power end. The wet end will need to be moved forward horizontally enough to clear the end of the shaft before the wet end is lifted or lowered using the hoist.
  • Page 81 Maintenance 3. Remove the two-piece suction and discharge flanges (195C, XHD sizes 150 and above only). Figure 51: Removal of joint gaskets and flanges - metal lined Remove the suction half casing - Metal-Lined The following parts remain attached to the suction half casing when it is removed from the rest of the pump wet end: Model Parts that are still attached...
  • Page 82 Maintenance 6. Remove the tapered alignment studs (600D) from the gland half casing (100D) using a metric stud driver. Figure 53: Casing bolt removal Remove the remaining suction half components - Metal-Lined Pump model Next step to follow • Remove the suction side liner and adjustable seal ring •...
  • Page 83 Maintenance 3. Move the suction side liner (562) with adjustable seal ring (822) inside free from the suction half casing (100A). 4. Remove the suction side liner front gasket (351N). Figure 55: Removal of Suction liner (Metal Lined) Suction side liner holding bolts on XHD sizes 150, 200, 250 and 300 only. Remove the adjustable seal ring - XHD - Metal-Lined 1.
  • Page 84 Maintenance 5. Support the impeller (101) using a Goulds-provided impeller hook attached to the hoist. An overhead hoist chain or sling can also be routed through a vane passage to support the impeller. 6. With one person holding the impeller (101) in place, the other person rotates the shaft (122) counterclockwise to unscrew the impeller.
  • Page 85 Maintenance 5. Remove the packing (106) and lantern ring (105). The lantern ring has a split cut that can be widened to accommodate removal without permanently deforming the part. Figure 58: Removal of split stuffing box Remove the casing volute liner - Metal-Lined NOTICE: The casing volute liner can be removed individually using the following steps if there is an expeller installed or if there is no expeller, then the gland casing, volute liner, and seal cover can be removed as one assembly, using the instructions from the section...
  • Page 86 Maintenance 3. Move the casing volute liner (561) out of and away from the gland half casing. Figure 59: Removal of volute liner - metal lined 4. Remove the seal cover-to-volute liner gasket (351Q). 5. Remove the volute liner retention studs (356K) from the casing volute liner (561) using a metric stud driver.
  • Page 87 Maintenance Figure 61: Removal of expeller Remove the seal cover and gland half casing assembly 1. Remove the gland casing and seal cover assembly by supporting the casing assembly with a hoist hook through the lifting lug. Figure 62: Removal of seal cover and half gland assembly 2.
  • Page 88 Maintenance 3. Hoist the casing assembly to the ground so that the seal cover or stuffing box cover can be removed. Figure 63: Seal cover removal 4. Remove the seal cover retention hex head cap screws (388A) and clipped washers (354A). 5.
  • Page 89 Locate and lift the volute liner for optional discharge locations (field replacement) - Metal- Lined 1. Using the ITT approved volute liner and Impeller lifting device, the Volute Liner (561) can be installed into the Gland Casing (100D) the field in any of the optional discharge orientations.
  • Page 90 Maintenance Figure 68: Impeller removal - metal lined 4. Secure the Volute Liner hook, to the Volute Liner (561) in the proper orientation, as illustrated below. Figure 69: Volute liner replacement - alternate orientations 5. Lift the Hook and volute liner and crane into the Gland casing. 6.
  • Page 91: Disassembly For Rubber-Lined

    Maintenance NOTICE: Item (412A) Impeller O-ring is supplied only with the metal impeller. Figure 70: Removal of shaft sleeve Disassembly for Rubber-Lined The disassembly steps for Metal-lined and Rubber-lined differ. This section, beginning with Typical disassembly and ending with Remove the shaft sleeve, pertains to Rubber-lined pumps.
  • Page 92: Remove The Suction Half Casing - Rubber-Lined

    Maintenance 1. Remove the two-piece suction and discharge flanges (195C, XHD sizes 150 and above only). Figure 72: Joint gaskets and flanges removal Remove the suction half casing - Rubber-Lined The following parts remain attached to the suction half casing when it is removed from the rest of the pump wet end: Model Parts that are still attached...
  • Page 93: Remove The Remaining Suction Half Components - Rubber-Lined

    Maintenance 5. Remove the hex head casing bolts (600A) from the gland half casing (100D). 6. Remove the tapered alignment studs (600D) from the gland half casing (100D) using a metric stud driver. Figure 74: Removal of casing bolting Remove the remaining suction half components - Rubber-Lined Pump model Next step to follow XHD Value Option / Rubber-lined Single Piece...
  • Page 94: Impeller Removal - Rubber-Lined

    Maintenance 3. Remove the suction side liner retention studs (600N) from the suction side liner (600R) using a metric stud driver. Figure 75: Suction liner removal Impeller removal - Rubber-Lined Two people should work together to remove the impeller for safety purposes. 1.
  • Page 95 Maintenance Figure 76: Bearing frame adjustment plate removal 3. Slide the bearing housing and shaft assembly forward towards the suction side of the pump to allow better access to the impeller (101). 4. Remove the two-piece knock-off ring (149). 5. Support the impeller (101) using a strap attached to the hoist. An overhead hoist chain or sling should be routed through a vane passage to support the impeller.
  • Page 96: Stuffing Box Removal

    Maintenance Stuffing box removal Pump Model Next step to follow • The stuffing box is split and can be disassem- bled prior to casing volute liner removal. Con- tinue with the Remove the split stuffing box step below. XHD Value Option •...
  • Page 97 Maintenance 2. Remove the casing volute liner retention nuts (600L) from the volute liner retention studs (600L) at the back of the gland half casing (100D). 3. Move the casing volute liner (600T) out of and away from the gland half casing. Figure 79: Rubber gland liner removal XHD Installation, Operation, and Maintenance Manual...
  • Page 98: Remove The Power End - Quick Disconnect Option For Xhd

    Maintenance 4. Remove the volute liner retention studs (600L) from the casing volute liner (600T) using a metric stud driver. Figure 80: Rubber gland liner stud removal Remove the power end - quick disconnect option for XHD NOTICE: The quick disconnect power end removal procedure cannot be used if the assembly does not not have the Suction seal ring option installed.
  • Page 99: Remove The Expeller (Optional Feature)

    Maintenance 7. Loosen the knock off ring bolts and disassemble the knockoff ring halves(149) from the shaft. 8. Turn the shaft (122) counterclockwise with a strap wrench or shaft wrench to disengage the shaft threads from the impeller. This will cause the bearing frame to move rearward on the pedestal until the shaft disengages from the impeller (101) which is held captive in the casing by the adjustable seal ring and casing volute liner.
  • Page 100: Remove The Seal Cover And Gland Half Casing Assembly

    Maintenance Remove the seal cover and gland half casing assembly 1. Remove the gland casing and seal cover assembly by supporting the casing assembly with a hoist hook through the lifting lug. Figure 82: Removal of seal cover and half gland assembly 2.
  • Page 101: Locate And Lift The Volute Liner For Optional Discharge Locations (Field Replacement) - Rubber-Lined

    Maintenance 3. Carefully remove the assembly and hoist to the ground to disassemble as required, using the instructions in the related sections of this instruction manual. Figure 84: Removal of gland half casing Figure 85: Gland half casing disassembly Locate and lift the volute liner for optional discharge locations (field replacement) - Rubber-Lined 1.
  • Page 102: Remove The Shaft Sleeve

    Maintenance Figure 86: Volute liner and impeller lifting 3. Remove the Impeller as shown in the impeller removal section. Figure 87: Impeller Removal Remove the shaft sleeve 1. Remove the shaft sleeve (126) from the shaft (122). Use a short pry bar to gently facilitate removal, if necessary.
  • Page 103: Remove The Power End- Xhd And Xhd Value Option

    Maintenance NOTICE: Item (412A) Impeller O-ring is supplied only with the metal impeller. Figure 88: Removal of shaft sleeve Remove the power end- XHD and XHD Value Option Before beginning removal of the power end, check to ensure that the pedestal (131) is securely fastened to the foundation, baseplate or work surface, such as a workbench.
  • Page 104 Maintenance 4. Remove the outer bearing frame adjustment rod nuts (415A) and threaded rods (370X). Figure 90: Frame adjustment rods 5. Insert hoist hook through the bearing cartridge housing (228) lifting lug. XHD Installation, Operation, and Maintenance Manual...
  • Page 105: Disassemble The Power End - Xhd, Oil Lubrication

    Maintenance 6. Remove the bearing frame adjustment plate bolts (352G), nuts (427D) and bearing frame adjustment plates (234F). Figure 91: Removal of bearing frame hardware 7. Tension the hoist fully to lift and move the power end to designated work area. Figure 92: Lifting of power end Disassemble the power end - XHD, oil lubrication 1.
  • Page 106 Maintenance NOTICE: A tapped hole is provided in the coupling end of the shaft, to allow for vertical assembly and disassembly of the power frame components. This will provide a location to hold the shaft and withdraw from the frame in the vertical position. Figure 93: Power frame disassembly Once the outboard bearing end cover related components are removed, the shaft can be withdrawn from the frame while in the vertical position.
  • Page 107 Maintenance Note: The drive/outboard end of the shaft contains a threaded hole for eye bolt attachment which can aid in rotating element removal. Figure 95: Rotating element removal 9. Remove the spacer sleeve (157) and spacer sleeve o-rings (512D). 10. Remove the inboard and outboard taper roller bearings (409 and 410) using a suitable puller that only contacts the inner races of the bearings.
  • Page 108: Disassembly Of Other Power End Configurations

    Maintenance 11. Remove and clean or replace bulls eye sight glass (319) and opposite sight glass (408N) if necessary. Figure 98: Bulls eye sight glass Disassembly of other power end configurations The disassembly of other available power end configurations is very similar to that of the XHD oil-lubricated power end.
  • Page 109: Preassembly Inspections

    Maintenance Disassemble the power end XHD, grease lubrication • The XHD grease lubricated power end also uses double lip seals as bearing isolators. The same bearing shields employed on the XHD grease lubricated power end are used as well to properly maintain grease in the bearings. The bearing shields can be removed, inspected and replaced in the same manner as shown for the XHD grease lubricated power end.
  • Page 110: Power End Inspection

    Maintenance Stuffing box cover and seal chamber replacement • Thoroughly clean the gasket surfaces and fits to remove rust and debris. • Inspect surfaces for pitting, and excessive wear or corrosion damage. Fastening WARNING: Risk of serious personal injury or property damage. Fasteners such as bolts and nuts are critical to the safe and reliable operation of the product.
  • Page 111 Maintenance 3. Slide the spacer sleeve (157) onto the inboard end of the shaft (122) until it is flush with the inner race of the inboard taper roller bearing (409). Use care when sliding the spacer sleeve onto the shaft to prevent o-ring damage. 4.
  • Page 112 Maintenance Pump Size Frame Size Shaft lifting hole thread size XHD300 M24x3 Figure 101: Vertical rotating element assembly 12. Insert the Bellville preload washer (529) into the outboard end of the bearing cartridge housing (228) so it is in contact with the outboard taper roller bearing (410). Grease shield 346A shown above is for grease lube only.
  • Page 113: Assemble The Power End To The Pedestal

    Maintenance Figure 102: Outboard bearing cover assembly 21. Insert the shaft key (400) into the keyway in the outboard end of the shaft (122). 22. Install the bulls eye sight glass (319) and plug, opposite (408N) into the bearing cartridge housing (228) if removed previously.
  • Page 114 Maintenance 4. Place the bearing frame adjustment plates (234F) onto the pedestal (131) and bearing cartridge housing (228) rails. 5. Hand tighten the bearing frame adjustment plates (234F) to the pedestal (131) using the adjustment plate hex bolts (352G) and nuts (427D). Figure 104: Frame adjustment plate bolting pre-assembly 6.
  • Page 115: Assembly Of Other Power End Configurations

    Maintenance 7. Secure the threaded adjustment rods (370X) to the bearing frame adjustment plates (234F) and outboard end cover (109) by installing the hex nuts (415A) on the outer face of the adjustment plate and end cover ears. Figure 106: Adjustment rod assembly 8.
  • Page 116: Wet End Assembly Instructions

    Maintenance Wet end assembly instructions WARNING: Before assembling the pump wet end to pedestal and power end, check to ensure that the pedestal is securely fastened to the foundation, baseplate or work surface (such as a workbench). Also ensure that the bearing frame is securely assembled to the pedestal. Failure to do so could result in injury or part(s) damage.
  • Page 117: Wet End Assembly Instructions

    Maintenance 12. Attach the wet end to the pedestal by installing and fully tightening the alignment stud hex nuts (427L). 13. Fully secure the wet end to the pedestal by installing the hex head capscrews (370Y) through the holes in the pedestal's lower front ring into the gland half casing (100D). 14.
  • Page 118 Maintenance 4. Slide the knock-off ring towards the bearing cartridge housing until it is flush with the inboard end cover (119). Be sure to assemble the knock-off ring (149) such that the words "this side out" can be read from the threaded end of the shaft. Figure 108: Knock off ring installation On the XHD model, the knock-off ring will fit over the inboard Inpro seal (332A).
  • Page 119 Maintenance Install the gland half casing and seal cover 1. Install the tapered alignment studs (375B) into the gland half casing (100D) using a metric stud driver. Figure 110: Gland half casing and seal cover installation a) Install the seal cover into the casing. b) With bolts and clipped washers (354A) (388A).
  • Page 120 Maintenance 5. Install the hex head capscrews (370Y) through the pedestal flange into the gland half casing (100D) to complete assembly. Figure 111: Capscrew installation through pedestal flange into gland half casing Stuffing box assembly and installation Pump model Next step to follow XHD Value Option •...
  • Page 121 Maintenance Figure 113: Attachment of stuffing box to seal cover 4. Trim edges of the stuffing box gasket such that they will not interfere with the stuffing box oring. 5. Lubricate and install the seal cover-to-stuffing box o-ring (496R) into the seal cover (184). 6.
  • Page 122 Maintenance Figure 115: Expeller installation Reassembly for Metal-Lined The reassembly steps for Metal-lined and Rubber-lined differ. This section, beginning with Install the casing volute liner and ending with Install suction half casing with other suction half components attached, pertains to Metal-lined pumps. For Rubber-lined pumps, refer to the sub-section, Reassembly for Rubber-Lined (page 124).
  • Page 123 Maintenance 2. Insert the casing volute liner retention studs into the casing volute liner (561) using a metric stud driver. Figure 116: Volute liner stud installation 3. Coat the seal cover-to-volute liner gasket (351Q) with lubricant and install into the casing volute liner (561).
  • Page 124 Maintenance 5. Guide the impeller (101) into position to engage with the shaft impeller threads. 6. With one person holding the impeller steady, the other should turn the shaft (122) clockwise to screw the shaft into the impeller. Begin this operation by hand and finish with an adjustable spanner wrench.
  • Page 125 Maintenance 3. Lubricate and install the volute liner-to-suction side liner gasket (351N). Figure 119: Suction side liner into suction half casing - metal lined After completion, skip the next step listed for the XHD and move onto the Install the suction half casing step.
  • Page 126 Maintenance 9. Install the seal ring hex jam nuts (357B) on the square head adjusting bolts (356F) that now protrude from the suction half casing (100A). Fully tighten to complete assembly. Figure 121: Suction liner installation 10. Coat the volute liner-to-suction side liner flat gasket (351N) with lubricant and install into the suction side liner (561).
  • Page 127 Maintenance 2. Insert the provided gland liner retention studs, into the elastomer liner. Tighten the studs by hand being careful to not overtighten as this can damage the liner. Figure 122: Gland liner stud installation 3. Lift the liner into position and insert into the gland half casing (100D) using the installed retention studs (600L) as a guide.
  • Page 128 Maintenance 4. Secure the casing volute liner (600T) to the gland half casing (100D) by installing and fully tightening the volute liner retention hex nuts (355C). Install the impeller - Rubber-Lined Two (2) people should work together to install the impeller for safety purposes. 1.
  • Page 129 Maintenance 6. With one person holding the impeller steady, the other should turn the shaft (122) clockwise to screw the shaft into the impeller. Begin this operation by hand and finish with an adjustable spanner wrench. Figure 125: Impeller installation 7.
  • Page 130 Maintenance 6. Install the flat washers (553) and casing bolt hex nuts (600C) onto the casing bolts (600A) to complete assembly of the casing halves. Figure 126: Installation of suction half casing with attached components - rubber lined Install packing, lantern ring, and gland 1.
  • Page 131: Assembly References

    Maintenance NOTICE: Flange gaskets 351A and 351B are supplied only with metal lined assemblies. Figure 127: Installation of flanges and joint gaskets Assembly references Spare parts Recommended spare parts In order to prevent a long and costly downtime period, especially on critical services, it is advisable that you have these spare parts on hand: •...
  • Page 132 Maintenance • Shaft (122) • Spacer sleeve o-ring (512D) • Inboard and outboard bearing cover o-rings (412) Bearing bore fits and tolerances Group Bearing Maximum bearing frame bore in inches (millimeters) Inboard 4.3322 (110.037) Outboard Inboard 5.1197 (130.040) Outboard Inboard 7.4821 (190.046) Outboard PF4S...
  • Page 133 Maintenance Bolt torques for XHD75 / PF1 Option Item Description Thread Torque (N- Torque (ft- number size lbs) Lubricated Lubricated (k=.10) (k=.10) Standard 600A Hex bolt, casing M20x2.5 221 Standard 600C Hex nut, casing Standard 600D Taper stud, casing alignment M20x2.5 221 Standard 415B Hex nut, taper stud...
  • Page 134 Maintenance Bolt torques for XHD80 Option Item Description Thread Torque (N- Torque (ft- number size lbs) Lubricated Lubricated (k=.10) (k=.10) Standard 600A Hex bolt, casing M20x2.5 221 Standard 600C Hex nut, casing Standard 600D Taper stud, casing alignment M20x2.5 221 Standard 415B Hex nut, taper stud Standard 356K...
  • Page 135 Maintenance Bolt torques for XHD100 and XHD125 Option Item Description Thread Torque (N- Torque (ft- number size lbs) Lubricated Lubricated (k=.10) (k=.10) Standard 600A Hex bolt, casing M24x3 Standard 600C Hex nut, casing Standard 600D Taper stud, casing alignment M24x3 Standard 415B Hex nut, taper stud Standard 356K...
  • Page 136 Maintenance Bolt torques for XHD150 Option Item Description Thread Torque Torque number size (N-m) (ft-lbs) Lubricat Lubricat (k=.10) (k=.10) Standard 600A Hex bolt, casing M30x3.5 758 Standard 600C Hex nut, casing Standard 600D Taper stud, casing alignment M30x3.5 758 Standard 415B Hex nut, taper stud Standard 356K Stud, volute liner retention...
  • Page 137 Maintenance Bolt torques for XHD200 Option Item Description Thread Torque Torque number size (N-m) (ft-lbs) Lubricat Lubricat (k=.10) (k=.10) Standard 600A Hex bolt, casing M36x4 1324 Standard 600C Hex nut, casing Standard 600D Taper stud, casing alignment M36x4 1324 Standard 415B Hex nut, taper stud Standard 356K Stud, volute liner retention...
  • Page 138 Maintenance Bolt Torques for XHD250 Option Item Description Thread Torque Torque number size (N-m) (ft-lbs) Lubricat Lubricat (k=.10) (k=.10) Standard 600A Hex bolt, casing M42x4.5 2117 1567 Standard 600C Hex nut, casing Standard 600D Taper stud, casing alignment M42x4.5 2117 1567 Standard 415B Hex nut, taper stud...
  • Page 139 Maintenance Bolt torques for XHD300 Option Item Description Thread Torque Torque number size (N-m) (ft-lbs) Lubricat Lubricat (k=.10) (k=.10) Standard 600A Hex bolt, casing M48x5 3175 2350 Standard 600C Hex nut, casing Standard 600D Taper stud, casing alignment M48x5 3175 2350 Standard 415B Hex nut, taper stud...
  • Page 140: Troubleshooting

    Change the rotation. The rotation must match the arrow on the bearing housing or pump casing. The foot valve or suction pipe opening is not Consult an ITT representative for the proper sub- submerged enough. mersion depth. Use a baffle in order to eliminate vortices.
  • Page 141: Alignment Troubleshooting

    Replace the condition monitor. The unit is deactivated. Activate the condition monitor. The unit is malfunctioning. Consult your ITT representative for a warranty replacement. The red LEDs are flashing, but the temperature and The baseline is bad. Check the temperature and vi- vibration are at acceptable levels.
  • Page 142: Parts Listings And Cross-Sectionals

    Parts Listings and Cross-Sectionals Parts Listings and Cross-Sectionals Assembly drawings - (exploded views) Figure 128: XHD Standard oil lubrication - Metal-lined XHD Installation, Operation, and Maintenance Manual...
  • Page 143 Parts Listings and Cross-Sectionals Figure 129: XHD Standard oil lubrication - Rubber-lined Item Description High High Endura- Ultra High CD4MCuNA Elastomers See Chrome Chrome w/ Chrome Chrome 890 Gr.1B Rubber-lined HC600 DI Seal Special HC 35% Cr Table Cover HC600/DI 100A Suction half casing 1018...
  • Page 144 Parts Listings and Cross-Sectionals Item Description High High Endura- Ultra High CD4MCuNA Elastomers See Chrome Chrome w/ Chrome Chrome 890 Gr.1B Rubber-lined HC600 DI Seal Special HC 35% Cr Table Cover HC600/DI Bearing cover, inboard 1018 Shaft 2251 Sleeve, shaft 2222 1216 1216...
  • Page 145 Parts Listings and Cross-Sectionals Item Description High High Endura- Ultra High CD4MCuN Elastomers See Chrome Chrome w/ Chrome Chrome A890 Gr. 1B Rubber-lined HC600 DI Seal Special HC 35% Cr Table Cover HC600/DI 370N Screw, hex cap (out- 2472 board bearing cover) 370P Screw, hex cap (inboard 2472...
  • Page 146 Parts Listings and Cross-Sectionals Item Description High High Endura- Ultra High CD4MCuN Elastomers See Chrome Chrome w/ Chrome Chrome A890 Gr. 1B Rubber-lined HC600 DI Seal Special HC 35% Cr Table Cover HC600/DI 600D Taper stud, casing align- 2472 ment 757A Roll pin, seal ring indica- 5429...
  • Page 147 Parts Listings and Cross-Sectionals Figure 130: Optional features XHD Installation, Operation, and Maintenance Manual...
  • Page 148 Parts Listings and Cross-Sectionals Figure 131: Dynamic seal option XHD Installation, Operation, and Maintenance Manual...
  • Page 149 Parts Listings and Cross-Sectionals Figure 132: XHD Liquid End Metal Lined XHD Installation, Operation, and Maintenance Manual...
  • Page 150 Parts Listings and Cross-Sectionals Figure 133: XHD Oil lube power end - Metal-lined XHD Installation, Operation, and Maintenance Manual...
  • Page 151 Parts Listings and Cross-Sectionals XHD Installation, Operation, and Maintenance Manual...
  • Page 152: Certification: Ce Or Ce Atex

    Certification: CE or CE ATEX Certification: CE or CE ATEX Certificates of conformance CSA Certificate XHD Installation, Operation, and Maintenance Manual...
  • Page 153 Certification: CE or CE ATEX XHD Installation, Operation, and Maintenance Manual...
  • Page 154 Certification: CE or CE ATEX ATEX notification XHD Installation, Operation, and Maintenance Manual...
  • Page 155 Certification: CE or CE ATEX IECEx Certificate of Conformity XHD Installation, Operation, and Maintenance Manual...
  • Page 156 Certification: CE or CE ATEX XHD Installation, Operation, and Maintenance Manual...
  • Page 157 Certification: CE or CE ATEX Chinese Certificate of Conformity XHD Installation, Operation, and Maintenance Manual...
  • Page 158: Other Relevant Documentation Or Manuals

    Other Relevant Documentation or Manuals Other Relevant Documentation or Manuals For additional documentation For any other relevant documentation or manuals, contact your ITT representative. XHD Installation, Operation, and Maintenance Manual...
  • Page 159: Local Itt Contacts

    Local ITT Contacts Local ITT Contacts Regional offices Region Address Telephone North America (Headquarters) ITT - Goulds Pumps +1 315-568-2811 +1 315-568-2418 240 Fall Street Seneca Falls, NY 13148 Houston office 12510 Sugar Ridge Boulevard +1 281-504-6300 +1 281-504-6399 Stafford, TX 77477...
  • Page 160 Visit our website for the latest version of this document and more information: http://www.gouldspumps.com Goulds Pumps Inc. 240 Fall Street Seneca Falls, NY 13148 Form IOM.XHD-en-US.2019-01 © 2019 ITT Corporation The original instruction is in English. All non-English instructions are translations of the original instruction.

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