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Mission Magnum XP Blender Pump and MCM XL Pump are ideally suited for pumping high volumes of heavy slurries that are abrasive, corrosive, and difficult to pump. The compact overall dimensions make it an excellent choice for high volume mobile and stationary applications where a small footprint is critical. High chrome alloy or hard iron material options for different applications

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Foreword… This manual contains instructions for the installation, operation and maintenance of the Mission Magnum I Pump.As pump service conditions and specifications vary considerably in pump installations, this manual cannot possiblycover every situation, but it is hoped that the information included will serve as a guide. Should questions arise, or start-up problems occur, it is suggested that you contact the Mission Pump Distributor or Salesman in your area.

The Magnum I pump generation is an improved version of the older Mission S & W pump line. The Magnum I pumpis designed to give longer service life through heavier fluid end parts, heavier shaft bearings and reduced hydraulicloads.

There are many principles of proper pump installation and application as well as special considerations for theMagnum I design which, if followed, will further enhance the performance of your Magnum I pump.

I. GENERAL A. Initial Lubrication (Oil lubricated pumps)........................................................................ 10 B. Mechanical Seals ...........................................................................................................10 C. Start Up ..........................................................................................................................10

I. GENERAL A. Priming ...........................................................................................................................11 B. Maximum Operating Conditions .....................................................................................11 C. Pump Records................................................................................................................12 D. Pump Speed Limitations.................................................................................................12 E. Lubrication 1. Bearings ....................................................................................................................13 2. Stuffing Box ...............................................................................................................13 3. Lip Seals....................................................................................................................14

IV. ASSEMBLY A. General .......................................................................................................................... 17 B. Shaft and Bearing Sub-Assembly .................................................................................. 17 C. Power Frame Sub-Assembly ......................................................................................... 18 D. Assembly of Fluid End to Power Frame ......................................................................... 19 E. Packing the Pump .......................................................................................................... 19 F. Mechanical Seal ........................................................................................................ 20-21

Interchangeability between Magnum I horizontal centrifugal pumps and older W pumps will permit pumps of thesame nominal size to be interchanged using existing piping and bases.

The pump should be located near the liquid source so that the suction line may be short and direct. The pumpshould be located below the level of the liquid to eliminate the necessity of priming.

The foundation should be sufficiently rigid and substantial to absorb any vibration and to permanently support thebase plate at all points. A concrete foundation, poured on a solid footing of adequate thickness to support the pumpingunit, provides the most satisfactory foundation. The base plate should be installed in a level position. Figure 1 shows atypical arrangement for bolting channel bases.

The rugged design of the frame and the fluid end makes the Magnum I more tolerant of improper foundations thanmany other pumps. When fabricated skid bases are utilized, the foundation should be sufficiently rigid and leveledproperly to absorb any vibration and to permanently support the base at all points.

Good service life of the pump and driver depends upon good alignment through the flexible coupling. If the electricmotor was mounted at the factory, the pump and motor were in alignment when shipped. The alignment between thedriver and pump should be inspected after installation to ensure that transportation or other handling has notcaused misalignment of the unit. Poor alignment may cause failure of the coupling, pump, or motor bearings, or ofeither shaft.

The recommended procedure for coupling adjustment is by the use of a dial indicator, as illustrated in Figures 2and 3. The dial indicator is attached to one coupling half with the indicator button resting on the O.D. of the othercoupling half to measure offset misalignment. To measure angular misalignment, the indicator is positioned so that thebutton rests on the face, near the O.D., of the other coupling half. Rotate the shaft and dial indicator one full revolutionwhile the other shaft remains stationary and note the T.I.R. Unless otherwise specified by the coupling manufacturer,offset misalignment should be limited to 0.010 inches T.I.R. and angular misalignment should be limited to 0.005 inchesT.I.R. Adjust misalignment by loosening driver or pump mounting bolts and re-tightening or shimming as required.

Piping should be anchored independently of the pump and as near to it as possible. Pipe companion flanges should line up naturally with pump flanges. Do not draw the pipe to the pump with flange bolts.

Properly selected and installed suction piping is extremely important to eliminate vibration and cavitation in the pump. Vibration can cause packing problems, mechanical seal damage or undue bearing loads. The suction line should be equal to or larger than the pump suction.

The capacity of a centrifugal pump should never be adjusted by throttling the suction line. A positive shut-off valve of a type to cause minimum turbulence should be installed in the suction line to permit the closing of the line and removal of the pump for inspection and maintenance.

The suction line should have a straight section into the pump of a length equivalent to at least two (2) times its diameter; i.e., 4-inch suction; 8-inch straight run.

All piping should be independently supported and accurately aligned. The pump must not support the weight of the pipe or compensate for misalignment.

If operating conditions are not known with sufficient accuracy, it will be necessary to provide a throttle valve in the discharge line to ensure that the pump operates at the design point.

If the pump is connected to a pressurized system, it is important to install a check valve between the pump discharge and the throttling valve. The check valve will prevent back flow through the pump. Back flow may cause the impeller to become loose on the shaft. A loose impeller will likely result in mechanical damage and fluid leakage beneath the shaft sleeve.

Standard pumps are shipped with empty oil reservoirs. Oil must be added before operating the pump. Attachthe oiler to the bearing housing, fill the bottle with oil and place it in position. Refill the bottle until the bottle remains fullof oil. Oil should not be added to the reservoir except through the oiler bottle.

When mechanical seals are furnished, the description and identification is indicated on the order write-ups, whichare a part of the order acknowledgment, dimension print and the packing list. The seals are installed and adjusted at thefactory. To properly prepare the seal for operation, various cooling and flushing flows may have to be connected. Liquidfrom an outside source may be required. Connect necessary cooling and flushing flows to mechanical seal, be sure flowis turned on before starting the pump.

! WARNING ! WARNING ! WARNING !IT IS ABSOLUTELY ESSENTIAL THAT THE ROTATION OF THE MOTOR BE CHECKED BEFORE CONNECTINGTHE SHAFT COUPLING. INCORRECT ROTATION OF THE PUMP FOR EVEN A SHORT TIME WILL DISLODGETHE IMPELLER AND DAMAGE THE IMPELLER, SHAFT OR BEARING HOUSING. THE PUMP SHAFT MUST TURNCLOCKWISE WHEN VIEWED FROM THE MOTOR END.

1. Pump rotates freely by hand 2. Coupling aligned 3. Oiler full and oil level correct 4. Suction valve fully open 5. Pump and suction line full of fluid 6. Water to stuffing box or gland flush 7. Discharge valve slightly open

Vent air from suction line and fill with liquid. Start pump with discharge valve cracked open. After dischargepressure stabilizes, gradually open discharge valve to required position. If flow is lost, close discharge valve and wait afew seconds for discharge pressure to build.

Continued flow difficulty indicates an improper selection or installation. Running the pump too long with improperprime may destroy the sealing faces of the mechanical seal due to mechanical damage from pulsation and interferencebetween rotating and stationary components.

4. Cooling water through the lantern ring is required when the fluid being pumped is between 150ºF and 250ºF. In addition, it may be necessary to run water over the exposed shaft to prevent excessive heat at lip seals and bearings.

Maintain data cards or pump records whenever possible. This will provide ready access to information forordering spare parts and for evaluating pump and mechanical seal performance.

Bearings are prelubricated from the factory and in low speed, low temperature application may need no lubrication throughout the life of the pump. (RE: Ambient temperature of pumped fluids less than or equal to 1.2 specific gravity should not exceed 1150 to 1750 RPM.)

If the packing leakage is excessive, a thick water compatible pump grease should be used rather than the general purpose grease. In most cases, general purpose grease will be acceptable.

The inboard bearing cover is supplied with a zerk fitting between the 10 and 11 o’clock position facing the suction. This is designed to create a grease barrier between the inboard lip seals and should be greased prior to washdown and at least once a week with 5 shots of general purpose or water pump grease. (See Fig. 4, Pg. 12.)

4. Restrain the shaft (7) at the coupling end to prevent rotation while removing the impeller. NOTE: Mission Impeller Removal Wrench Part No. 20952 is very useful.

Put a block of wood or pipe, etc. against web between impeller vanes. Hit wooden block with sledge to turn impeller counterclockwise as viewed from suction end. If Mission Impeller Wrench is used, the wrench can be impacted against a solid surface using the impeller’s own weight to jar it loose.

8. Remove shaft sleeve (7A). A wedge may be driven between the end of the sleeve and shoulder on shaft to free the sleeve. If the pump has a mechanical seal that does not need to be replaced, care must be taken to avoid damaging or dropping the rotary seal ring (Item 4A on Figure 9, Pg. 25) when removing the sleeve.

7. Slip shaft sleeve seal (7C) onto the shaft and push it to the shoulder where the sleeve will seat. For pumps with a mechanical seal, see mechanical seal installation instructions in “Assembly” for assembling the remainder of the pump.

With the packing gland (4) in position, swing gland bolts into place. Tighten the gland lightly against the packingusing the gland bolt nuts. CAUTION: tighten gland against packing finger tight only. If packing is over tightenedit may be burned when the pump is started.

14. Attach gland bolts (6) to pump with nuts (6A). Start the gland bolt nuts. With the packing gland (4) in position, swing the gland bolts into place. Tighten gland bolt nuts lightly against the packing.

Arrangement for Magnum I Item Qty. Part Name Pumps in Severe Service 1 1 Stationary Seat 1A 1 Seat O-Ring 4A 1 Rotating Seal Ring Recommended Spare Parts 4B 1 Bellows Items 1, 4A, 4B, 4C, 5. 4C 1 Cage Assembly 5 3 Packing** See Dwg. 17538 for Subassembly Part Nos. and Stuffing Box 6 1 Spring Conversion Unit. 7A 1 Sleeve** 9 1 Spring Retainer 15 1 Spring Pin

Excessive Short Noise/ No Insufficient Insufficient IntermittentCauses Power Bearing Vibration Flow Flow Pressure Flow Required LifePump not primed X XSpeed too low X XExcessive discharge head X XInsufficient NPSH available X X X XImpeller clogged X X XWrong direction of rotation X XPlugged suction or discharge X X XlineFoot valve or suction line not X X Ximmersed deeply enoughImpeller damaged X X XShaft packing or seal defective X XImpeller diameter too small X XImpeller diameter too large XExcessive amount of air or gas X X Xin liquidSpeed too high X XTotal head lower than design XSpecific gravity or viscosity too X X XhighBent shaft X X XImproper electric motor wiring Xor voltageRotating elements bind X X XLeaky suction line or shaft seal X X XMisalignment X X XBearings worn X XImpeller out of balance X XSuction or discharge piping not XanchoredImproper foundation XInsufficient discharge head X X X X X(excessive flow)Improper lubricant or level XImpeller clearance too large X X X

Information requested can be more quickly and accurately furnished if the size and serial number of the pump are given with your request for information.

Sales/Technical Information: National Oilwell is a leading manufacturer © Copyright 1999 by National Oilwell, L.P. All Rights Reserved. NATIONAL OILWELL, NATIONAL, and USA Tollfree: 1 (800) 800-4110 of reciprocating plunger pumps, Mission OILWELL are registered trademarks of NATIONAL centrifugal pumps, and fluid end OILWELL, L.P. Houston, Texas, USA. All other replacement parts. We also offer a trademarks used are registered to their respective Internet: http://www.natoil.com complete set of solutions to your fluid companies. The information and data in this brochure, including but not limited to pictures, transfer challenges. For more Information, photographs, charts, diagrams, drawings, lists, contact National Oilwell directly at the written comments, and specifications, are accurate to Headquarters in Houston, Texas. All the best of our knowledge and belief, but are intended for general information only. Applications National Oilwell products are available suggested for the materials and other information are throughout the U.S. and around the world described only to help readers make their own from service centers, authorized evaluations and decisions, and are neither guarantees nor are they to be construed as express distributors, and representatives. or implied warranties of suitability for these or other applications. National Oilwell makes no warranty, either express or implied, beyond that stipulated in National Oilwell’s Standard Terms and Conditions of Sale which are available upon request.

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BETTER designs and produces series of heavy-duty centrifugal pumps which is equivalent to all kinds of foreign major brand design, basing on the introduced brand drawings and samples. Though our pump’s function is similar as most of factories made in China, but why we gave up the domestic common design to build a new line:1.Mission centrifugal pump line has proven to be the best centrifugal design for handling abrasive mud to compare with other brand centrifugal pumps made in China2.Foreign design pumps deliver superior performance, better longevity, and these pump line offers a broad selection of innovative features for a variety of routine, demanding, abrasive and corrosive applications 3.In order to better stand with other popular brand pump existed in the markets, we must make sure our pump and parts compatible with them4.To save or reduce the usage cost for all the users because of all BETTER pumps and parts completely replaceable.BUT BETTER COULD PROVIDE A MUCH COMPETITIVE PRICE FOR YOU.And,All BETTER pumps are build using the excellent quality components, and its parts are 100 identical in all dimensions to Mission™ Magnum™, 2500 supreme™, Halco™ 2500, SPD™ Baker™ Mud Hog™ 2.5, MCM™ 250 series, Double life™ 250, Derick Premium™ 250, XBSY™/Victory/Westpetro, TSC™/HCP, Mattco™, Cobra Pump, Harrisburg™, and Dragon™ 250, etc.BETTER now offering:Mission Magnum Style Mission Sandmaster Hydraulic Drive StyleMission Spacesaver Close Coupled StyleMission Magnum XP/XL StyleMCM 250 Style Centrifugal PumpSPD Mud Hog 2.5 StyleMission Vertical StyleShear Pump Centrifugal Pump Package Skid O.E.M. Pump Interchangeable SparesCommon Application•Mix and transfer abrasive fluids for drilling industry•Applied in Barite, ferric oxide, mineral oil, base drilling mud, glass fibers, sugar processing, Ash or coal conveyers, cement, mine de-watering, lime slurries, kaolin clay, crystalline forms•Best choice for solid control system or mud cleaning system for land and offshore drilling rigs •Size ranges from 3x2x13, 4x3x13, 5x4x14, 6x5x11, 6x5x14, 8x6x14, 10x8x14 to 14x12x22. Bare pumps, horizontal packages, and overhead belt drive type are available. Explosion-proof electric motors are available up to 350HP, in 1150, 1450, 1750 RPM at 50Hz or 60Hz.Complete Bare Pump w/o MotorBT-640202123-ITXX** 3 x 2 x 13 Centrifugal Pump, Mechanical Seal 640202123ITA0BT-640202222-ITXX** 4 x 3 x 13 Centrifugal Pump, Mechanical Seal 640202222ITA0BT-640202321-ITXX** 5 x 4 x 14 Centrifugal Pump, Mechanical Seal 640202321ITA0BT-640202529-ITXX** 6 x 5 x 11 Centrifugal Pump, Mechanical Seal 640202529ITA0BT-640202628-ITXX** 6 x 5 x 14 Centrifugal Pump, Mechanical Seal 640202628ITA0BT-640202826-ITXX** 8 x 6 x 11 Centrifugal Pump, Mechanical Seal 640202826ITA0BT-640202925-ITXX** 8 x 6 x 14 Centrifugal Pump, Mechanical Seal 640202925ITA0BT-640203121-ITXX**10 x 8 x14 Centrifugal Pump, Mechanical Seal 640203121ITA0Please don’t hesitate to contact our sales if you are interested in any of our products.Sales AssistantAtt.: Mike LeeBETTER Drilling Fluid Equipment Industrial Limitedwww.drillingfluidsolution.com

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Mission Magnum I Centrifugal Pumps are proven as reliable, heavy-duty, low-cost slurry pumps. The 3x2x13 through 8x6x14 pumps all feature the same power end, which ensures production and reduced spare-part inventory requirements. The Mission MAGNUM I has been engineered for the toughest jobs in drilling, production, well-servicing, and industrial applications. The MAGNUM I is more powerful, more durable, and easier to maintain than any conventional pump in use today.

The Magnum has an open impeller design that contains wide-tipped vanes and a more tangential circumference of the suction allowing the pump to create a smoother flow pattern when handling abrasive fluids. The Magnum is available in Magnachrome™, hard iron, stainless steel, and aluminum bronze fluid ends. The pumps can be unitized with electric motors, diesel engines, and hydraulic motors (horizontal, vertical, or close-coupled configuration).

Mission centrifugal pumps can be used as Frac discharge pump, Frac suction pump, Oil drilling centrifugal pump, electric centrifugal transfer pump, Skid mounted mixing pump, Transfer pump, Trash pump, Grinding pump, Circulating mud pump, Centrifugal sludge pump, Drilling fluid centrifugal pump, Horizontal directional drilling pump, Denver pump, Filling pump, Feeding pump, Heavy duty oil drilling centrifugal pump, etc

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Foreword… This manual contains instructions for the installation, operation and maintenance of the Mission Magnum I Pump. As pump service conditions and specifications vary considerably in pump installations, this manual cannot possibly cover every situation, but it is hoped that the information included will serve as a guide. Should questions arise, or startup problems occur, it is suggested that you contact the Mission Pump Distributor or Salesman in your area. The Magnum I pump generation is an improved version of the older Mission S & W pump line. The Magnum I pump is designed to give longer service life through heavier fluid end parts, heavier shaft bearings and reduced hydraulic loads. There are many principles of proper pump installation and application as well as special considerations for the Magnum I design which, if followed, will further enhance the performance of your Magnum I pump. This document will deal with both general and specific recommendations for improved Magnum I performance in both oilfield and industrial applications. GENERAL INSTRUCTIONS 1. Operate the pump only in the performance range for which it was designed. 2. When operating in drilling mud, prevent packing drippage from clogging the drip pan and hardening around the slinger and front seal area. 3. Adjust the packing so that a small amount of leakage remains for lubrication and cooling. 4. See “Maintenance, Assembly” Section F in this manual for Mechanical Seal Installation.

! WARNING ! WARNING ! WARNING ! BEFORE SERVICING PUMPS: 1. SHUT DOWN OR DISENGAGE THE PUMP POWER SOURCE. 2. SHUT DOWN ALL PUMP ACCESSORY EQUIPMENT. 3. RELIEVE OR "BLEED OFF" ALL PRESSURE FROM THE LINES PRIOR TO REMOVING PIPING. FAILURE TO SHUT DOWN POWER AND RELIEVE PRESSURE FROM THE PUMP BEFORE SERVICING CAN RESULT IN SERIOUS PERSONAL INJURY AND PROPERTY DAMAGE.

Where a pump or pump unit is to be installed in a potentially explosive atmosphere ensure that this has been specified at the time of purchase and that the equipment has been supplied accordingly and displays an ATEX nameplate or is supplied with a certificate of conformity. If there is any doubt as to the suitability of the equipment please contact National Oilwell before commencing with installation and commissioning.

Process liquids or fluids should be kept within specified temperature limits otherwise the surface of pump or system components may become an ignition source due to temperature rises. Where the process liquid temperature is less that 90ºC the maximum surface temperature will not exceed 90ºC provided the pump is installed, operated and maintained in accordance with this manual.

To minimize the risk of sparking or temperature rises due to mechanical or electrical overload the following control and safety devices should be fitted. A control system that will shut the pump down if the motor current or temperature exceed specified limits. An isolator switch that will disconnect all electrical supply to the motor and ancillary electrical equipment and be capable of being locked in the off position. All control and safety devices should be fitted, operated and maintained in accordance with the manufacturer’s instructions. All valves on the system should be open when the pump is started otherwise serious mechanical overload and failure may result.

It is important that the pump rotates in the direction indicated on the nameplate. This must be checked on installation and commissioning and after any maintenance has been carried out. Failure to observe this may lead to dry running or mechanical or electrical overload.

When fitting drives, couplings, belts, pulleys and guards to a pump or pump unit it is essential that these are correctly fitted, aligned and adjusted in accordance with the manufacturer’s instructions. Failure to do so may result in sparking due to unintended mechanical contact or temperature rises due to mechanical or electrical overload or slipping of drive belts. Regular inspection of these parts must be carried out to ensure they are in good condition and replacement of any suspect part must be carried out immediately.

10. Where a packed gland seal is fitted this must be correctly fitted and adjusted. This type of seal relies on the process liquid to cool the shaft and packing rings so a constant drip of liquid from the gland section is required. Where this is undesirable an alternative seal type should be fitted. 11. Failure to operate or maintain the pump and ancillary equipment in line with the manufacturer’s instructions may lead to premature and potentially dangerous failure of components. Regular inspection, and where necessary, replacement of bearings and lubrication is essential. 12. The pump and its components have been designed to ensure safe operation within the guidelines covered by legislation. Accordingly National Oilwell has declared the machine safe to use for the duty specified as defined by the Declaration of Incorporation or Conformity that is issued with this instruction manual.

Declaration of Incorporation (Machinery) EC Declaration of Conformity (ATEX) MANUFACTURER: National Oilwell 10000 Richmond Houston, Texas 77006 PRODUCT DESCRIPTION: Mission Magnum I Centrifugal Pumps APPLICABLE EUROPEAN DIRECTIVES: Machinery: ATEX: PED

PREPARTION FOR OPERATION I. GENERAL A. Initial Lubrication (Oil lubricated pumps) ........................................................................ 13 B. Mechanical Seals............................................................................................................13 C. Start Up ..........................................................................................................................13

OPERATION I. GENERAL A. Priming............................................................................................................................14 B. Maximum Operating Conditions......................................................................................14 C. Pump Records ................................................................................................................15 D. Pump Speed Limitations .................................................................................................15 E. Lubrication 1. Bearings.....................................................................................................................16 2. Stuffing Box................................................................................................................16 3. Lip Seals ....................................................................................................................17

Table of Contents… MAINTENANCE PAGE I. GENERAL............................................................................................................................. 17 II. DISASSEMBLY A. General...................................................................................................................... 17-18 III. INSPECTION A. Impeller........................................................................................................................... 19 B. Shaft ............................................................................................................................... 19 C. Shaft Sleeve................................................................................................................... 19 D. Mechanical Seal............................................................................................................. 19 E. Ball Bearings .................................................................................................................. 19 F. Seals .............................................................................................................................. 19 G. General .......................................................................................................................... 19 IV. ASSEMBLY A. General........................................................................................................................... 20 B. Shaft and Bearing Sub-Assembly................................................................................... 20 C. Power Frame Sub-Assembly.......................................................................................... 21 D. Assembly of Fluid End to Power Frame ......................................................................... 22 E. Packing the Pump .......................................................................................................... 22 F. Mechanical Seal ........................................................................................................ 23-24 G. Assembly Figures 5 thru 9 ........................................................................................ 25-29

MOUNTING DIMENSIONS I. PUMP DIMENSIONS.............................................................................................................32 II. PUMP and FABRICATED BASE.........................................................................................33 III. PUMP and CHANNEL BASE..............................................................................................34 IV. PUMP and SKID BASE ......................................................................................................35 V. 2½ SHAFT MAGNUM PUMPS WITH FABRICATED BASES FOR T FRAME MOTORS ..36 VI. DUTY MASTER ALTERNATING CURRENT MOTORS.....................................................37

Installation… I. GENERAL A. INTERCHANGEABILITY Interchangeability between Magnum I horizontal centrifugal pumps and older W pumps will permit pumps of the same nominal size to be interchanged using existing piping and bases. B. LOCATION The pump should be located near the liquid source so that the suction line may be short and direct. The pump should be located below the level of the liquid to eliminate the necessity of priming. C. FOUNDATION The foundation should be sufficiently rigid and substantial to absorb any vibration and to permanently support the base plate at all points. A concrete foundation, poured on a solid footing of adequate thickness to support the pumping unit, provides the most satisfactory foundation. The base plate should be installed in a level position. Figure 1 shows a typical arrangement for bolting channel bases. The rugged design of the frame and the fluid end makes the Magnum I more tolerant of improper foundations than many other pumps. When fabricated skid bases are utilized, the foundation should be sufficiently rigid and leveled properly to absorb any vibration and to permanently support the base at all points.

Installation… I. GENERAL (Continued)… D. COUPLING ALIGNMENT Good service life of the pump and driver depends upon good alignment through the flexible coupling. If the electric motor was mounted at the factory, the pump and motor were in alignment when shipped. The alignment between the driver and pump should be inspected after installation to ensure that transportation or other handling has not caused misalignment of the unit. Poor alignment may cause failure of the coupling, pump, or motor bearings, or of either shaft. Alignment must not be attempted until the base is in position and the mounting and flange bolts have been tightened. The recommended procedure for coupling adjustment is by the use of a dial indicator, as illustrated in Figures 2 and 3. The dial indicator is attached to one coupling half with the indicator button resting on the O.D. of the other coupling half to measure offset misalignment. To measure angular misalignment, the indicator is positioned so that the button rests on the face, near the O.D., of the other coupling half. Rotate the shaft and dial indicator one full revolution while the other shaft remains stationary and note the T.I.R. Unless otherwise specified by the coupling manufacturer, offset misalignment should be limited to 0.010 inches T.I.R. and angular misalignment should be limited to 0.005 inches T.I.R. Adjust misalignment by loosening driver or pump mounting bolts and re-tightening or shimming as required.

Installation… I. GENERAL (Continued)… E. PIPING 1. General NOTE: Piping must not be connected to the pump until the grout has hardened and foundation bolts and pump holddown bolts have been tightened. Piping should be anchored independently of the pump and as near to it as possible. Pipe companion flanges should line up naturally with pump flanges. Do not draw the pipe to the pump with flange bolts. 2. Suction Properly selected and installed suction piping is extremely important to eliminate vibration and cavitation in the pump. Vibration can cause packing problems, mechanical seal damage or undue bearing loads. The suction line should be equal to or larger than the pump suction. The capacity of a centrifugal pump should never be adjusted by throttling the suction line. A positive shut-off valve of a type to cause minimum turbulence should be installed in the suction line to permit the closing of the line and removal of the pump for inspection and maintenance. The suction line should be designed to eliminate any air pockets. downwards to the source of supply to eliminate air pockets.

The suction line should have a straight section into the pump of a length equivalent to at least two (2) times its diameter; i.e., 4-inch suction; 8-inch straight run. For temporary hook-up, where flexible hose is used, a non-collapsing hose is essential since the suction line pressure is often below atmospheric pressure. A collapsing suction line will result in below average or complete loss of flow. (See “Engineering Data” in this manual for illustrations.) 3. Discharge A positive shut-off valve should be located in the discharge piping to permit inspection and maintenance of the pump. All piping should be independently supported and accurately aligned. The pump must not support the weight of the pipe or compensate for misalignment. If operating conditions are not known with sufficient accuracy, it will be necessary to provide a throttle valve in the discharge line to ensure that the pump operates at the design point. If the pump is connected to a pressurized system, it is important to install a check valve between the pump discharge and the throttling valve. The check valve will prevent back flow through the pump. Back flow may cause the impeller to become loose on the shaft. A loose impeller will likely result in mechanical damage and fluid leakage beneath the shaft sleeve.

Preparation for Operation… I. GENERAL A. INITIAL LUBRICATION (OIL LUBRICATED PUMP) NOTE: Oilers are set at the factory to the lowest position. This setting will place the oil level just below the center of the bottom ball of the bearing when the housing is level. Higher levels may cause churning and overheating of the bearings; lower levels may provide insufficient lubrication and promote rapid wear. The correct oil level will be visible at the center of the sight oil gauge. Standard pumps are shipped with empty oil reservoirs. Oil must be added before operating the pump. Attach the oiler to the bearing housing, fill the bottle with oil and place it in position. Refill the bottle until the bottle remains full of oil. Oil should not be added to the reservoir except through the oiler bottle. A good grade of SAE 10W 30 oil may be used. The air vent should be kept clean to prevent pressure build-up because of normal heating that occurs in operation. A Trico Optomatic Oiler No. EB-64 with a 4 ounce capacity bottle is used. The correct bottle must be used with the corresponding oiler body. B. MECHANICAL SEALS When mechanical seals are furnished, the description and identification is indicated on the order write-ups, which are a part of the order acknowledgment, dimension print and the packing list. The seals are installed and adjusted at the factory. To properly prepare the seal for operation, various cooling and flushing flows may have to be connected. Liquid from an outside source may be required. Connect necessary cooling and flushing flows to mechanical seal, be sure flow is turned on before starting the pump.

! WARNING ! WARNING ! WARNING ! IT IS ABSOLUTELY ESSENTIAL THAT THE ROTATION OF THE MOTOR BE CHECKED BEFORE CONNECTING THE SHAFT COUPLING. INCORRECT ROTATION OF THE PUMP FOR EVEN A SHORT TIME WILL DISLODGE THE IMPELLER AND DAMAGE THE IMPELLER, SHAFT OR BEARING HOUSING. THE PUMP SHAFT MUST TURN CLOCKWISE WHEN VIEWED FROM THE MOTOR END. Check the following items before starting the pump: 1. 2. 3. 4. 5. 6. 7.

Pump rotates freely by hand Coupling aligned Oiler full and oil level correct Suction valve fully open Pump and suction line full of fluid Water to stuffing box or gland flush Discharge valve slightly open

Operation… I. GENERAL A. PRIMING Vent air from suction line and fill with liquid. Start pump with discharge valve cracked open. After discharge pressure stabilizes, gradually open discharge valve to required position. If flow is lost, close discharge valve and wait a few seconds for discharge pressure to build. Continued flow difficulty indicates an improper selection or installation. Running the pump too long with improper prime may destroy the sealing faces of the mechanical seal due to mechanical damage from pulsation and interference between rotating and stationary components. Thermal shock may crack the ceramic stationary seat if temperature is raised from room temperature to 250ºF in less than 30 seconds. Do not run pump with suction and discharge valves closed. B. MAXIMUM OPERATING CONDITIONS NOTE: These maximum operating conditions apply to pumps which are exposed to room temperatures without external insulation. 1. Cast Iron: Maximum working pressure 175 psig at 150ºF for 150 psig at 250ºF. Interpolate for pressure between 150º and 250ºF maximum. 2. Steel: Maximum working pressure and test pressure in accordance with Tables 2.1 through 2.23 and Table 3, ANSI B 16.5-1973. 3. For H-30 and Magchrome Alloy: contact Mission Distributor. 4. Cooling water through the lantern ring is required when the fluid being pumped is between 150ºF and 250ºF. In addition, it may be necessary to run water over the exposed shaft to prevent excessive heat at lip seals and bearings. 5. Maximum hydraulic performance in accordance with published performance curves for individual pump sizes.

Operation… C. PUMP RECORDS Maintain data cards or pump records whenever possible. This will provide ready access to information for ordering spare parts and for evaluating pump and mechanical seal performance. Information to be included in these records should be: 1. Pump size and serial number. 2. Pump model number, impeller diameter, material of construction. 3. Mechanical seal manufacturer, type, code and drawing number. 4. Motor horsepower and speed of operation. 5. Service conditions. 6. Frequency of operation. 7. Record of maintenance, including parts usage and general condition of the pump. 8. Nomenclature and part number of replacement items. D. PUMP SPEED LIMITATIONS Pump Speed Limitations Bearing Lubricant Max. RPM Allowable Grease 2400 Oil Bath 3500 With the large shaft and bearings used in this pump, the above limitations must be observed in order to control bearing operating temperature.

Operation… E. LUBRICATION 1. Bearings a. Grease Bearings are prelubricated from the factory. Grease lubricated and oil lubricated centrifugal pumps should be included in the customer’s lubrication maintenance program. It is recommended that grease lubricated pumps have five shots from a standard hand operated grease gun injected into the inboard and outboard bearing lubrication ports every three (3) months. The shaft should be rotated 1/4 turn between each shot of grease. Mystic JT-6 Hi-Temp No. 2 is used during assembly at the factory. It is important that the same or a compatible NLGI No. 2 certified for GC-LB high temperature grease be utilized. Grease available in sealed tubes is recommended. If grease from other type containers is used, ensure the grease is clean and free from water or other contamination. The inboard bearing cap is equipped with an inlet and relief grease port. The relief port should be removed and grease should be added to the inlet port until grease exits the relief port. Be sure to replace the relief plug after lubrication. b. Oil Pumps are shipped less oil. Oil lubricated pumps must be maintained and operated in a horizontal level position. The pump is equipped with a dip stick to allow the operators to check the oil level. Oil lubricated pumps should be inspected on a daily basis to ensure proper oil levels are maintained. The oil should be changed on a quarterly basis or if contamination has occurred. The recommended oil is 10W30 nondetergent. Synthetic oils are not recommended due to their incompatibility with standard oils. 2. Stuffing Box The stuffing box may be relubricated as often as necessary to prevent the packing from overheating. It should be lubricated at lease once a day. Grease should be pumped into the box while turning the shaft until it comes out around the packing gland (approximately 20 shots). If the packing leakage is excessive, a thick water compatible pump grease should be used rather than the general purpose grease. In most cases, general purpose grease will be acceptable.

Operation… E. LUBRICATION (Continued)… 3. Lip Seals The inboard bearing cover is supplied with a zerk fitting between the 10 and 11 o’clock position facing the suction. This is designed to create a grease barrier between the inboard lip seals and should be greased prior to washdown and at least once a week with 5 shots of general purpose or water pump grease. (See Fig. 4, Pg. 12.)

Maintenance… I. GENERAL Refer to Cross Section Drawing and Parts List for materials and location, Fig. 5, Pg. 21, Fig. 6, Pg. 22, and Fig. 9, Pg. 25. II. DISASSEMBLY A. GENERAL 1. Loosen packing gland nuts (6B) and swing gland bolts to side. Remove packing gland halves (4). 2. Remove casing bolt nuts (1B). 3. Remove casing (1). 4. Restrain the shaft (7) at the coupling end to prevent rotation while removing the impeller. NOTE: Mission Impeller Removal Wrench Part No. 20952 is very useful. Put a block of wood or pipe, etc. against web between impeller vanes. Hit wooden block with sledge to turn impeller counterclockwise as viewed from suction end. If Mission Impeller Wrench is used, the wrench can be impacted against a solid surface using the impeller’s own weight to jar it loose. 5. Remove stuffing box cover bolt (3A). 6. Remove stuffing box cover (3) from frame by hammering on the back side in the area where the box fits into the frame (9). NOTE: If the disassembly being performed does not require the replacement of the mechanical seal, the stationary seat (Item 1 on Figure 9) must not be removed from the stuffing box. 7. Pull packing (5) from stuffing box bore.

Maintenance… II. DISASSEMBLY A. GENERAL (Continued)… 8. Remove shaft sleeve (7A). A wedge may be driven between the end of the sleeve and shoulder on shaft to free the sleeve. If the pump has a mechanical seal that does not need to be replaced, care must be taken to avoid damaging or dropping the rotary seal ring (Item 4A on Figure 9, Pg. 25) when removing the sleeve. NOTE: If the disassembly is being performed to replace or install a mechanical seal and/or shaft sleeve only, no further disassembly is required. See mechanical seal installation instructions in “Maintenance, Assembly, F. Mechanical Seal Assembly Instructions” in this manual. 9. Remove the deflector (8). 10. Remove plug (10A) from inboard bearing cover (10). 11. Remove the two through bolts (12B) on the outboard bearing housing (12). These are the bolts threaded into the frame (9). 12. The complete shaft and bearing subassembly can now be pulled from the frame. 13. Remove outboard bearing cover (13). 14. Bend tab on lockwasher (14A) back and remove locknut (14B) and lockwasher. 15. Remove bearing housing (12) and bearings (14) from shaft. NOTE: Impacting of entire shaft assembly against a board on the ground will remove the outboard bearing assembly. 16. Inboard bearing (11) may now be pressed off shaft. NOTE: A piece of 3” standard wall pipe slipped over shaft and impacted against the inner race of the bearing works exceptionally well.

Maintenance (Continued)… III. INSPECTION A. IMPELLER Replace if impeller shows excessive erosion (especially on pump-out vanes on back side of impeller), corrosion, extreme wear or vane breakage. B. SHAFT Check for runout to see that shaft has not been bent. If runout exceeds 0.002”, replace shaft. Bearing seats and oil seal area must be smooth and free of scratches or grooves. Shaft threads must be in good condition. Replace shaft if necessary. C. SHAFT SLEEVE Sleeve surface in stuffing box must be smooth and free of grooves. If grooved, replace. D. MECHANICAL SEAL Seal faces, gaskets and shaft sealing members must be in perfect condition or excessive leakage may result. Replace worn or damaged parts. E. BALL BEARINGS Replace if worn, loose or rough and noisy when rotated. New bearings should not be unwrapped until ready for use. Replacement bearings must be of the proper size and type as supplied with original equipment. F. SEALS It is recommended that all O-Ring and gasket seals removed during disassembly be replaced. In those cases where new seals are not available, the old ones can be reused if they are not torn or otherwise damaged. G. GENERAL All parts should be clean before assembly. This is especially important at retaining ring and O-Ring grooves, threads, gasket surfaces and bearings and bearing lubricated areas. Any burrs should be removed with crocus cloth.

Maintenance… IV. ASSEMBLY (Continued)… C. POWER FRAME SUB-ASSEMBLY 1. Install inboard bearing cover seal (10C) into inboard bearing cover (10) flush with the backside of the cover. Install the exclusion seal (10F) flush with the outside of the cover. The sealing lips on both seals should be pointed outward (away) from the bearings for grease lubrication, the lip of inboard bearing cover (10C) points inward for oil lubrication. Pack the area between the lip seals full with grease. Using grease to hold it in place, put the inboard bearing cover gasket (10B) on the cover. 2. Insert the shaft and bearing subassembly into the frame (9) until the threaded end of the shaft extends approximately halfway into the drip pan area. 3. Slip inboard bearing cover assembly (10) over the end of the shaft. Continue installing the shaft and bearing assembly in the frame until the gap between the frame and bearing housing flange is approximately 1/4”. 4. Install two (12B) bolts (1/2D x 1½”) with jam nuts (12C) in the threaded holes in the bearing housing. Install the remaining two (12B) bolts through the unthreaded holes in the bearing housing and thread them into the frame. Do not tighten any bolts. 5. Bolt inboard cover to frame with (10D) bolts (3/8D x 2”) and (10E) nuts. 6. Lubricate deflector O-Ring (8A) and install in deflector (8). Slip deflector assembly on shaft with ribbed side facing away from the bearing cover. 7. Slip shaft sleeve seal (7C) onto the shaft and push it to the shoulder where the sleeve will seat. For pumps with a mechanical seal, see mechanical seal installation instructions in “Assembly” for assembling the remainder of the pump. 8. The sleeved area of the shaft must be lightly coated with an anti-seize compound before installing the sleeve. Install sleeve (7A) with a twisting motion to spread anti-seize compound. The gap between the sleeve and the shaft shoulder will be approximately 1/32”.

Maintenance… IV. ASSEMBLY (Continued)… D. ASSEMBLY OF FLUID END TO POWER FRAME 1. Lubricate the inside of the frame where the stuffing box cover slips in with an anti-seize compound. Install stuffing box cover (3) and secure with bolt (3A). 2. Lubricate shaft threads and face of shaft sleeve with anti-seize compound. Wash off the O-Ring with clean shop solvent and pat dry with a clean cloth. Install the O-Ring into the impeller. DO NOT USE ANY LUBRICANTS. Thread the impeller (2) with impeller seal O-Ring (2A) onto the shaft. Tighten to approximately 160 ft/lb torque. 3. Loosen the two through bolts (12B). 4. Draw the bearing housing rearward with the jam bolts (12B) while rotating the impeller. Stop when the impeller just touches the stuffing box cover. 5. Bring the through bolts up finger tight. 6. Loosen the jam bolts. 7. Tighten the through bolts (12B) until a clearance of .020” exists between the impeller (2) back vanes and stuffing box cover (3). A hack saw blade is about .020” thick and can be used as a gauge when no better tooling is available. 8. Advance both jam bolts (12B) until they touch the frame finger tight, then tighten the jam nuts (12C). 9. Now tighten the through bolts down evenly. Rotate the shaft. The impeller should turn freely without rubbing. 10. Install casing gasket (1A). Hold it in place with grease if necessary. 11. Apply a light coat of anti-seize compound on the stuffing box cover. 12. Install casing (1) on the frame using studs (1C) and nuts (1B). Put a small quantity of anti-seize lubricant on the threads on the nut end of the studs. Tighten nuts to 140 ft/lb torque using a crisscross tightening pattern. E. PACKING THE PUMP Grease all five shaft packing rings (5). Insert three packing rings alternating the splits in the rings from top to bottom starting with the split on the first ring at the bottom. If King type packing is being used, the rings should be installed with lips toward the impeller. Install the lantern ring with the split in the vertical position. The two halves of the packing gland (4) may be used to push packing and lantern ring together and to the bottom of the box. Insert the final two packing rings. If King packing is being used, insert the final ring with the lip toward the outside and split on top and follow with the single ring of square packing. With the packing gland (4) in position, swing gland bolts into place. Tighten the gland lightly against the packing using the gland bolt nuts. CAUTION: tighten gland against packing finger tight only. If packing is over tightened it may be burned when the pump is started.

Maintenance… IV. ASSEMBLY (Continued)… F. MECHANICAL SEAL 1. Tighten the two through bolts (12B) until the gap between the frame (9) outboard bearing housing (12) is about 1/16”. 2. Make sure that the inside of the stuffing box (3) is clean and that the 30º bevel on the 3⅜” I.D. is free burrs and sharp edges. Coat the I.D. of the stuffing box stationary seat pocket with oil. Place the stuffing box on a table or other flat surface with the impeller side facing up. 3. Remove the sticker from stationary seat (Item 1, Figure 9) if one is attached. The sticker side or slotted side must be installed away from the impeller or down when the stuffing box is positioned as described in step No. 2 above. Coat the O.D. of the stationary seat and O-Ring (Items 1 and 1A, Figure 9) with a thin film of oil. 4. Carefully install the stationary seat (Item 1, Figure 9) into the stuffing box. Be sure groove of stationary fits properly over drive pin. (See Figure 9, Items 1 and 15.) Be sure that the stationary seats evenly against the stuffing box shoulder. (See cross section drawing.) HINT: Wrap the end of a wooden hammer handle with a rag and press firmly on the face of the stationary. Do not strike. Push gently on a side alternating from side to side until the stationary seat is all the way down. Coat the stationary seat (Item 1, Figure 9) face with light oil, then wipe off the majority of the oil with a clean cloth leaving only a light film. 5. Lubricate the inside of the frame (9) where the stuffing box (3) slips in with an anti-seize compound. Install the stuffing box and secure with bolt (3A). Care should be taken to prevent bumping the stationary seat (Item 1, Figure 9) on the shaft end. 6. Remove the rotating seal ring (Item 4A, Figure 9) if it is not glued in position and stored in a safe place. Whether or not it is glued can be determined by pulling on it gently. Coat the O.D. of the shaft sleeve (7A) and the I.D. of the bellows (Item 4B, Figure 9) with a thin coat of oil. 7. Place the sleeve (7A) with impeller end up on a table. The impeller end is the end with the smallest I.D. With the sealing face of the rotary unit facing down and the rubber end up, gently ease the rubber bellows over the sleeve and push it to the bottom half of the sleeve. (Not necessary to push all the way to the bottom.) If the rotating seal ring (4A) has been removed, lightly coat the face of the bellows (Item 4B, Figure 9) with grease. (This is necessary to hold the rotating seal ring in place during assembly.) Reinstall the rotating seal ring into the cage assembly (Item 4C, Figure 9) if it has been removed. 8. Make sure no foreign material is on the seal faces. Make sure the shaft (7) is free of nicks and burns and is clean and dry. The sleeve area of the shaft, the shaft threads and shaft face must be lightly coated with an antiseize compound before installing the sleeve (7A). Install sleeve with a twisting motion. As the seal faces make contact continue to push the sleeve through the I.D. of the rotary seal element until the gap between the sleeve and the shaft shoulder is approximately 1/32”. CAUTION: Older pumps will have a drive pin. It must be engaged in the groove provided in the sleeve I.D.

Maintenance… IV. ASSEMBLY F. MECHANICAL SEAL (Continued)… 9. Install the spring retainer (Item 9, Figure 9) and the impeller O-Ring (2A) in its groove and coat with anti-seize compound. Place the mechanical seal spring (Item 6, Figure 9) over rotary unit of the seal which is inside the back cover. 10. Thread the impeller (2) onto the shaft (7). Be sure that the spring engages in the retainer on the impeller. Tighten to approximately 160 ft/lb torque. 11. Back the through bolts (12B) out approximately 1/4”. Tighten the jam bolts (12B) until a clearance of 0.015” – 0.020” between the back of the impeller (2) and stuffing box (3) is obtained. Do not move the impeller (2) toward the stuffing box and then back out. This will cause improper compression of the seal bellows. If the impeller is moved out by mistake, the entire seal rotary unit must be removed and reinstalled on the sleeve. Alternately tighten the through bolts and jam bolts making sure that the clearance set above is maintained. Tighten the jam nuts and recheck the clearance. 12. Install casing gasket (1A). Hold it in place with grease if necessary. Apply a light coat of anti-seize compound on the 14⅛” diameter of the stuffing box cover. Install casing (1) on the frame using studs (1C) and nuts (1B). Put a small quantity of anti-seize lubricant on the threads on the nut end of the studs. Tighten nuts to 140 ft/lb torque using a crisscross tightening pattern. 13. Grease all three shaft packing rings (5). Insert all packing rings alternating the splits from top to bottom starting with the split on the first ring at the bottom. 14. Attach gland bolts (6) to pump with nuts (6A). Start the gland bolt nuts. With the packing gland (4) in position, swing the gland bolts into place. Tighten gland bolt nuts lightly against the packing. CAUTION: Tighten gland against packing finger tight only. Packing will be used only if the mechanical seal fails. 15. Flushing arrangement for seals are shipped with the pump. Instructions are also included.

Figure 9 2½” Mechanical Seal/Packing Figure 9 Arrangement for Magnum I Pumps in Severe Service Recommended Spare Parts Items 1, 4A, 4B, 4C, 5. See Dwg. 17538 for Subassembly Part Nos. and Stuffing Box Conversion Unit.

Causes Pump not primed Speed too low Excessive discharge head Insufficient NPSH available Impeller clogged Wrong direction of rotation Plugged suction or discharge line Foot valve or suction line not immersed deeply enough Impeller damaged Shaft packing or seal defective Impeller diameter too small Impeller diameter too large Excessive amount of air or gas in liquid Speed too high Total head lower than design Specific gravity or viscosity too high Bent shaft Improper electric motor wiring or voltage Rotating elements bind Leaky suction line or shaft seal Misalignment Bearings worn Impeller out of balance Suction or discharge piping not anchored Improper foundation Insufficient discharge head (excessive flow) Improper lubricant or level Impeller clearance too large

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