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Key Questions to Ask When Ordering Slurry Pumps exporters

Author: Geym

Jul. 29, 2024

Tobee® Frequently Asked Questions for Your Slurry Pumps

Tobee® What can you recommend to increase safe operation of my slurry pump?

For more information, please visit SGB.

Apart from the usual guarding of rotating components, it is important to get advice from the manufacturer or their dealer. This is especially true if buying a Slurry Pump secondhand &#; just because the manual says it was designed to pump 2,000 gpm, it may not pump anywhere close to that if the duty isn&#;t the same as the original. Each duty is very specific. Let&#;s say you installed the Slurry Pump and had the wrong size pipe, you could have a critical issue with material settling out, which may even cause the Pump to explode.

This phenomenon has been reported by the Mine Safety and Health Administration ( bulletin) as a major concern. If a condition occurs that blocks the inlet pipe and outlet pipe of the Slurry Pump, it is estimated that 40% of the energy from the motor will go to heating the contents of the wet end of the Slurry Pump. The heat rise can be rapid and steam pressure will build, and an explosion can occur. Confirming the correct flow rate to keep materials in suspension and maintaining the design percent solids and particle size can reduce this risk. Installing power and pressure monitoring sensors that are interlocked and/or alarmed are also advised. Tobee&#;s recently developed thermocouple device is another safety feature when fitted and alarmed.

Good process design, proper mechanical design of sumps and piping, and use of safety related add-ons are factors determining the safe operation of a Slurry Pump. The manufacturer is always the best place to start.

When I reduced the length of pipe line, why did the slurry pump trip out on overload?

Because the Slurry Pump is running at fixed speed and hasn&#;t been told that you removed a section of pipe, it will keep spinning away but now finds it is easier to slurry pump. If you look at your slurry pump curve, you will see that if you lower the head (resistance) that the Slurry Pump is pumping against, the new duty point will move to the right and the speed curve and head will intersect at a higher flowrate. The higher flowrate means more work is being done and thus power demand is greater. It would be the same if you reduced the height you are pumping to. The opposite occurs if you increase the head by adding pipe or vertical height to the discharge point. The danger with increasing the head without changing the speed is the lower flowrate that results, which may be below the critical setting velocity. Contact the slurry pump manufacturer if you are contemplating changes to any part of your slurry pumping system.

Can I use oil in my slurry pump bearings?

Tobee&#;s slurry pump bearing assemblies are designed around the use of grease lubrication - this means that the seals being used are not suitable for oil. It is more complicated to design for oil and any leakage is far more troublesome for both lack of lubrication and the spillage. Grease lubrication simplifies maintenance and is appropriate for the rpms typically seen in this type of equipment

I have an old slurry pump sump that my grandfather used in our old plant, can I use that for my new plant?

Rather than just say no, which would be the first reaction from any Slurry Pump manufacturer, let&#;s examine why you probably don&#;t want to consider this. From our perspective, 90% of problems are on the suction side of a Slurry Pump. Of those problems, 90% of those are associated with poor sump design, such as wrong wall angles (buildup in valley angles and corners), too shallow (vortexing), too big (settling and sloughing), too small (air entrainment, vortexing) and incorrect suction line (entrainment and NPSH issues). The science of sump design doesn&#;t start or finish with a cube or an old truck-mounted water tank &#; a correctly designed sump can save you many thousands of dollars in maintenance on your Slurry Pump, or even save a life.

My slurry pump bearings are running hot, what should I do?

How hot are they? Tobee&#;s slurry pump bearings are designed to run at a relatively high temperature &#; we set a maximum of 120 &#; (248 &#;). Possible reasons for bearings running hot logically include slurry pump bearing failure; however, typically there will be other symptoms, such as unusual noise. Bearing failure can occur soon after gland failure if slurry has entered the seal at the wet end of the Slurry Pump.

It may simply be a faulty bearing. Were original equipment manufacturer bearings used during the last repair? It wouldn&#;t be the first time that price over value resulted in low-quality bearings being substituted.

Failure, or symptoms of failure, can also occur due to high belt tension (drive end) or air entrainment or cavitation (wet end), which will ultimately damage the bearings. Confirm the temperature rise (rises over time or almost immediate) and ultimate temperature. Look for other symptoms, such as noise. Ensuring personal safety, use a listening stick against the housing for signs that the bearings are not running smoothly. Consult the factory with the range of symptoms. 

Fortunately, Tobee&#;s slurry pump bearing assemblies are simple to repair &#; purchase a bearing repair kit and follow the instructions. Be prepared with an oven for heating, but the assembly requires no preload settings &#; just locate the bearings in place, lubricate and put the end caps on, finish lubrication and you are done. 

HEBEI TOBEE PUMP CO.,LIMITED

:

| Skype: Tobee.Pump | Mob: +86-

 www.tobeepump.com  www.slurrypumpsupply.com

www.tobee.cc  www.hydroman.cn  www.tobee.store

Five Things to Know Before Buying a Pump

As a pump supplier with over 45 years of industry experience, we understand that customers often have questions and uncertainties when it comes to purchasing a pump. In order t o help you make an informed decision, we've broken down the key information you need to know into five categories: fluid, flow, discharge, suction, and options. Our blog will provide you with a set of questions to consider, as well as helpful links to expand your knowledge on these topics.

Fluid

 

- What you are pumping (water, oil, slurry, etc.)
  • What is the 

    specific gravity

     

    and

     

    viscosity

     

    of your fluid?

  • Are chemicals present? What are the names and concentrations?
  • Are there solids? What is the particle size, percentage of fluid that are solids, & are they smooth or sharp?
  • What is its temperature? (Ambient is 20°C)

Flow - The rate you want to transfer the fluid at.

  • Are you decanting, dosing or transferring?
  • Are chemicals present? What are the names and concentrations?
Discharge &#; The line from pump to discharge point.
  • What will the vertical and horizontal lengths be?
  • Have you taken 

    friction loss

     

    into account? (Pipe type,

     

    For more information, please visit Slurry Pumps exporters.

    viscosity

    , etc. affect this)

  • Are you dosing or transferring into a pressured pipe, if so what is the pressure? Or is it 

    open free flow

    ?

Suction &#; The line from source to pump.

  • What&#;s the length of the suction line?

  • ?

    Will you need a self-priming pump

  • Are you pumping from a dam/well or is it flooded suction

Options &#; Preferences and accessories.

  • Identify your preferred power source and check stability (240v, 415v, 50/60 Hz, mining/industrial, diesel, petrol, air, etc.)

  • Check to see if you&#;ll require

     

    base plates

    , trollies for transportation,

     

    variable speed

    , etc.


 



Definitions (For more pump terms see our Glossary of Pump Terms)

Base plate: The plate on which the pump and motor are mounted.

Decanting: Gradually pumping from one container into another.

Dosing: A controlled method of pumping in order to discharge exact amount of fluids.

Flooded suction: If the pump is below the liquid source, and the suction is fed by gravity. This is a preferred method for centrifugal pumps.

Fluid: A state of material that continually deforms under an applied shear stress. Gas, liquid and plasma are examples.

Friction loss (pump): Friction between the pump and the process fluid results in loss of pressure. Different parts of the pump are more susceptible to this force than others.

Friction loss (pipe): The force produced as the process fluid flows through the pipes of a system. Caused by movement of the fluid internally as one fluid layer moves against another. Also caused by movement of the fluid against the pipe wall. Rougher pipes will lead to higher friction.

Open free flow: When the discharge pipe or hose is fully open at the end with no restrictions.

Self-priming pump: A pump that contains a reserve amount of process fluid that helps to create an initial vacuum and lift fluid from the source.

Specific Gravity (SG): The ratio of the density of a substance compared to the density of a reference (usually water at 4°C).

Suction line: The suction line of a pump system is piping which transports fluid material from its source to the pump itself.

Transferring: To move a substance, usually a liquid, from one place to another.

Variable speed motor: Can be used to control flow in the system by varying the impeller speed.

Viscosity: Resistance to gradual deformation of a fluid by shear or tensile stress.

Are you interested in learning more about Desulphurization Pump suppliers? Contact us today to secure an expert consultation!

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