what is the difference between tyrash mud pump manufacturer

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It’s distressing enough when you need to remove clear, standing water from an area such as a basement. But when debris is added into the mix, the job of clearing the space so that it can be lived in again becomes even more complicated.

Case in point: We know of a home where the basement was flooded through back yard window wells that were located in close proximity to planting beds at the top of a berm. When a rainstorm caused the ditch behind the berm to fill, the water ran down the other side of the slope, carrying yards and yards of mulch with it. The mucky mess eventually gathered in the very large window wells, placing pressure on the panes of glass until they gave way, flooding the entire basement in a mixture of water, dirt and garden products.

At that point, pumping out the basement became a job for a machine known as atrash pump. Choosing the right trash pump for the situation involves considering a number of issues:

Semi-Trash Pumps, as the name implies, can handle small debris, but nothing much bigger than that, as the pump housing isn’t big enough to take on larger items. This makes semi-trash pumps more useful for pumping out water with sand and some mud.

Trash Pumps can pass solids and debris such as pebbles, leaves and twigs. This is because these machines have larger impeller veins and pump housings. Unlike other processing items such as a wood chipper, however, trash pumps do not grind up the debris. They simply pass it through as is. Should the machine get clogged, it can be opened for a relatively easy clean out. Note: As with any machine, make sure the power is off and consult your owner’s manual before attempting to open any part of it for maintenance.

Diaphragm Pumpsuse a different system than other trash pumps. Rather than relying on centrifugal force to remove water and debris, the machine uses a diaphragm that moves up and down, which creates a vacuum. These are usually used to pump out abrasive liquids as well as sludge. One possible use for a diaphragm pump: Draining a pond, since the machine could handle the muck on the pond’s bottom as well as weeds, water or leaves.

Many pumps are available in the marketplace today for many different applications, including: sewer bypass, wellpoint dewatering, dewatering excavations, and many others. Determining the best pump to use on a particular application can be a challenging enterprise. Choosing the right pump can mean a profitable job, while on the other hand, choosing the wrong pump can spell trouble and result in costly downtime. Listed below are the some of the features to look for in a quality trash pump.

Priming and Repriming Capability – Many factors can contribute in causing a pump to lose its prime. One factor is the water level dropping in, causing the suction hose and strainer to be exposed and allow air to enter the hose. This causes many pumps to lose prime and stop pumping. Holes, tears, or improper installation of the suction hose can also contribute to the loss of prime. If the pump is not able to regain prime, the project can become unsafe, resulting in damage to equipment and personnel. Choosing the right pump depends upon overall application requirements and customer preference.

pump casing, which when filled with water before operation, will prime and reprime automatically without the aid of an auxiliary priming device. Wet prime pumps are capable of handling about 29-cfm of air. Some manufacturers use wet-priming pumps and install a priming device, such as a vacuum pump or a compressor pump to add additional air handling capability for quicker priming and repriming times.

Straight, end-suction centrifugal pumps are reliant on the use of an auxiliary priming device, such as a vacuum pump, compressor pump, or hand device to achieve and maintain prime because they are not capable of handling air on their own. If the priming system should fail, pumping cannot continue until the priming system is repaired.

Dry-priming pumps employ a wet prime, self-priming centrifugal trash pump, or an end-suction centrifugal pump. Dry-priming means that these pumps do not require the pump casing to be filled with water, as do wet-priming pumps, and rely on the air

handling capability of their automatic priming systems to remove the air from the suction line, creating a vacuum, and drawing the fluid into the pump casing. This is beneficial especially during freezing temperatures when freezing water in the volute could cause the volute to break, or having your pump far from the nearest water source, where buckets of water would have to be brought to the pump casing just to achieve prime. They are fitted with automatic priming systems such as vacuum pumps or compressor pumps, keeping the pump primed continuously. These add-on accessories are able to provide large air handling capability (especially when installed on wet-priming pumps), quicker priming times, the ability to reprime if priming water is lost, and added versatility that can truly make a difference on the job.

A vacuum-assisted priming system consists of a vacuum pump that is powered by the diesel engine; a set of wire-reinforced supply and return line hoses to provide lubricating oil to the vacuum pump; a discharge check valve to prevent air and pumping effluent from entering the pump during downtimes and; an air separator chamber with a float system to regulate the air as it enters the pump. Some vacuum pumps can provide an extra 78-cfm of air handling capability, and are an excellent addition to a wet-priming pump that has air handling capability on its own.

A compressor-assisted priming system consists of a compressor that is also powered by the diesel engine; an air separator chamber with a float system to regulate the air as it enters the pump; a discharge check valve to prevent air and pumping effluent from entering the pump during downtimes and; an air eductor, or venturi system, connected to the compressor and the air separator by a series of hoses and used to force the air to create the vacuum in the suction line. The venturi is manufactured to precise specifications and is made to only handle air.

If pumping effluent infiltrates the priming system and escapes out of the venturi, it can cause the venturi to fail and not be able to prime the pump until repaired or replaced. To replace the venturi is a major expense – so it is important to associate with a pump manufacturer who has success in keeping the pumping effluent away from the venturi, such as Thompson’s ENVIROPRIME® Priming System. Some compressor pumps can provide an extra 14-cfm of air handling capability, and are an excellent addition to a wet- priming pump that has air handling capability on its own.

Submersible pumps are submersed directly into the pumping effluent and reprime automatically when the water level covers the strainer. Sometimes, submersible pumps are attached to floatation devices, which keeps the strainer of the pump submersed, and therefore, keeps its prime.

Broad Operating Range – The flow rate into an excavation can vary from several hundreds of gallons per minute of water at the beginning stages of the job to a few gallons per minute at the later stages of the job. The right pump must be capable of handling the maximum pumping capacity to lower the groundwater table as well as operating satisfactorily at reduced flow rates to maintain the groundwater table at the desired sub-grade.

Dry Running Mechanical Seal – When the pumping effluent levels reduce, the pumping capacity will typically diminish. During these periods, the pump’s capacity can far exceed the seepage rate into the excavation causing the pump to run completely dry. Pumps are available with special seal materials such as tungsten carbide and automatic lubricating systems (grease or oil) to allow the pump to operate during long periods of dry running, operating without pumping effluent entering the pump casing, without damage.

High Suction Lift Capability – As a site is excavated below the natural groundwater table, there is the potential for a larger quantity of water to enter the excavation. Moreover, the deeper the excavation, the greater the reduction on the pump’s capacity. The right pump must be capable of pumping the required capacity at the given suction lift.

Trash Handling Capability – The water entering an excavation is often mixed with sand, rocks, sticks, etc. The right pump must be capable of passing large debris without binding or damaging the pump.

Heavy-Duty Cast Iron Construction – To ensure satisfactory life and reliability when handling trash-laden water, the pump should be constructed of heavy-duty cast iron components.

Inspection Port – Trash handling pumps are fitted with lightweight removable covers allowing easy access to the pumps interior for removal of trash, without disturbing the suction or discharge hoses.

Replaceable Wear Plate – The most expensive component of the pump by far is the pump casing. A quality trash pump incorporates a replaceable wear plate to protect the pump casing from wear and to prolong the life of the pump casing. Some wear plates are even equipped with a rubber lining to further protect the casing against abrasion.

Front Pull-Out Feature – Certain trash pumps are available with a front pull-out design. This design includes a lightweight front cover that allows access to the pump interior for removal of blockage and replacement of the internal pump components in the field without disturbing the suction or discharge hoses.

24-Hour On-Board Fuel Tank – Trash handling pumps for dewatering are required to operate continuously to keep water out of the excavation. This includes at night when the work crews have gone home. For this reason, trash-handling pumps are available with on-board fuel tanks permitting the pump to operate up to 24-house before refueling. This gives the contractor the luxury of not having to send personnel out during the night to refuel the pump.

Sound Attenuation – Sound attenuated pumps are becoming one of the strict demands of municipalities nationwide. When pumping in a highly populated area, especially when it’s required to pump into the night, sound attenuated pumps are necessary. Thompson Pump has spent years perfecting providing pumps with options that help users do their jobs easier. Thompson Pump is the only pump company with a completely removable, modular sound attenuated canopy. This allows the freedom of having the right pump for the job at hand.

Versatility & Dependability – A quality trash pump must not only have quality components, but they also must be able to be versatile enough to be used on many different applications, and dependable enough to ensure that it will perform well on those applications. Many companies depend on multi-purpose products to be able to keep costs down while being able to use that product in different applications, and increasing their revenue. The same is true with a quality trash pump. Some pump manufacturer’s trash pumps perform well on some applications, but do not perform as well on others. For example: a dry-prime trash pump with a self-priming centrifugal pump end and a high air handling capability may be used on a small wellpoint job, and also on a trash or solids application; where as an end suction centrifugal trash pump with a low air handling capability may perform well in a in a trash or solids application, but may not perform well, or at all, in a small wellpoint application.

Waste Treatment: Sewer bypasses; pumping polluted hot or corrosive wastewater containing sand, mud or solids in suspension; dosing neutralizing liquids; pumping out settled sludge

Mud Pumps come in both electric and gas / diesel engine drive along with air motors. Most of these pumps for mud, trash and sludge or other high solids content liquid dewatering, honey wagon and pumper trucks. Slurry and mud pumps are often diaphragm type pumps but also include centrifugal trash and submersible non-clog styles.

WARNING: Do not use in explosive atmosphere or for pumping volatile flammable liquids. Do not throttle or restrict the discharge. Recommend short lengths of discharge hose since a diaphragm mud pump is a positive displacement type and they are not built with relief valves.

features 2-stage, 44 to 1 gear reduction with a large diameter output gear and heavy duty ball bearing construction. Often referred to as Mud pumps or Sludge pumps, diaphragm pumps are designed to pump mud, slurry, sewage, and thick liquids that have the ability to flow. Koshin Diaphragm pump Honda GX120 OHV gasoline engines. Built-in molded polyurethane flapper/check valve assures self-priming to 20 feet after initial prime. Each unit includes a 3" NPT steel suction strainer, two 3" NPT nipples, and wheel kit with 10" semi-pneumatic transport wheels for portability. Pumps are designed for use with non-flammable liquids which are compatible with pump component materials. Suction and discharge port size cannot be reduced.

Suction and discharge port size cannot be reduced. Due to positive pumping action of diaphragm pumps, by all mfr"s, the discharge is recommended to only be 25FT long unless oversized. Discharge can not be restricted. There is no relief valve.

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MTI is a full-service company providing equipment, parts, and service to the oilfield, HDD (Horizontal Directional Drilling), geothermal, mining and water well drilling industries.

We manufacture a complete line of solids control equipment including; mud reclaimers & mud recyclers, shale shakers, de-silters, de-sanders, and pump packages, all for sale or for rent, allowing us to achieve a higher standard of excellence.

A large inventory of parts and accessories , and knowledgeable staff makes Mud Technology the smart choice for operators needing fast-turnaround times and competitive pricing.

Our staff is available to assist you with complete line of parts, including pump parts, shaker screens and drilling mud all available at competitive prices. As we are just a phone call away, we are available to answer questions and assist you with troubleshooting while you are in the field.

Trash pumps can be an integral part of a solids control system. These pumps are designed to pump large amounts of water that contain solids such as mud, leaves, sticks, sand and sludge. A trash pump is commonly a heavy-duty, portable centrifugal pump that features deeper impeller vanes and a larger discharge opening than other styles of pumps. Trash pumps are capable of moving hundreds or thousands of gallons per minute, all while processing materials with suspended particulates that would typically clog other styles of pumps.Mud Technology International, Inc. builds a line of trash pumps to accommodate projects of varying sizes and challenges.

Each pump is compatible with all of Mud Technology International"s Recycler Systems and can be adapted to work in conjunction with most other brands of solids control equipment.

The various models of Mud Technology International trash pumps can move from 500+ gpm to 800+ gpm and have a 4" fitting to transfer slurry to the recycling system. Each model has a completely submersible head and flooded suction (unit does not have to be primed.) All units run on 480V, 3-phase power, with a 100" weatherproof cord.

ST Machinery Trading Sdn Bhd is a company that supplies a wide variety of hardware and construction machinery equipment. The company specializes in supplying and repairing all hardware, machinery, equipment and power tool.

Honda Power Equipment offers pumps to meet a wide variety of applications. Use the chart and information below to select the right pump for your specific needs or

For general de-watering needs, Honda"s popular WB series pumps offer the best features at a value price. These models offer commercial grade components like silicon carbide seals, anti-vibration mounts, and a fixed-mount cast iron

The WH series are perfect for applications needing high pressure, such as sprinklers or nozzles. These pumps are lightweight and compact, making them highly portable. Possible applications include irrigation and fire suppression,

Honda Trash Pumps are the ultimate choice for contractors and rental applications. The WT series can handle solids up to 1 1/16” in diameter. These pumps are designed to move water, and lots of it – up to 433 gallons

Pumping water from excavations, crawl spaces, underground passageways, grain elevators, farm stock tanks, construction sites, cooling towers and parking lot sumps.

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Designed to handle solids in water up to 25mm in size, the pump comes in a robust steel roll-over frame for protection on any worksite. The pump"s quick-release feature means that any debris can be quickly and easily removed from a blocked impeller, making for easy maintenance and ensuring sustained performance for years to come. It has rapid self-priming capability

It’s distressing enough when you need to remove clear, standing water from an area such as a basement. But when debris is added into the mix, the job of clearing the space so that it can be lived in again becomes even more complicated.

Case in point: We know of a home where the basement was flooded through back yard window wells that were located in close proximity to planting beds at the top of a berm. When a rainstorm caused the ditch behind the berm to fill, the water ran down the other side of the slope, carrying yards and yards of mulch with it. The mucky mess eventually gathered in the very large window wells, placing pressure on the panes of glass until they gave way, flooding the entire basement in a mixture of water, dirt and garden products.

At that point, pumping out the basement became a job for a machine known as atrash pump. Choosing the right trash pump for the situation involves considering a number of issues:

Semi-Trash Pumps, as the name implies, can handle small debris, but nothing much bigger than that, as the pump housing isn’t big enough to take on larger items. This makes semi-trash pumps more useful for pumping out water with sand and some mud.

Trash Pumps can pass solids and debris such as pebbles, leaves and twigs. This is because these machines have larger impeller veins and pump housings. Unlike other processing items such as a wood chipper, however, trash pumps do not grind up the debris. They simply pass it through as is. Should the machine get clogged, it can be opened for a relatively easy clean out. Note: As with any machine, make sure the power is off and consult your owner’s manual before attempting to open any part of it for maintenance.

Diaphragm Pumpsuse a different system than other trash pumps. Rather than relying on centrifugal force to remove water and debris, the machine uses a diaphragm that moves up and down, which creates a vacuum. These are usually used to pump out abrasive liquids as well as sludge. One possible use for a diaphragm pump: Draining a pond, since the machine could handle the muck on the pond’s bottom as well as weeds, water or leaves.

The drilling industry has roots dating back to the Han Dynasty in China. Improvements in rig power and equipment design have allowed for many advances in the way crude oil and natural gas are extracted from the ground. Diesel/electric oil drilling rigs can now drill wells more than 4 miles in depth. Drilling fluid, also called drilling mud, is used to help transfer the dirt or drill cuttings from the action of the drilling bit back to the surface for disposal. Drill cuttings can vary in shape and size depending on the formation or design of the drill bit used in the process.

Watch the video below to see how the EDDY Pump outperforms traditional pumps when it comes to high solids and high viscosity materials commonly found on oil rigs.

Solids control equipment including shakers, hydro-cyclones, and centrifuges are utilized to clean the drill cuttings from the drilling fluid, which then allows it to be reused and recirculated. The circuit includes the mixing of the drilling fluid in the rig tanks.

The drilling fluid is prepared to control fluid loss to the formation by the addition of chemicals or mineral agents. Commercial barite or other weighting agents are added to control the hydrostatic pressure exuded on the bottom of the well which controls formation pressures preventing fluid or gas intrusion into the wellbore.

The fluid is charged into high-pressure mud pumps which pump the drilling mud down the drill string and out through the bit nozzles cleaning the hole and lubricating the drill bit so the bit can cut efficiently through the formation. The bit is cooled by the fluid and moves up the space between the pipe and the hole which is called the annulus. The fluid imparts a thin, tough layer on the inside of the hole to protect against fluid loss which can cause differential sticking.

The fluid rises through the blowout preventers and down the flowline to the shale shakers. Shale shakers are equipped with fine screens that separate drill cutting particles as fine as 50-74 microns. Table salt is around 100 microns, so these are fine cuttings that are deposited into the half-round or cuttings catch tank. The drilling fluid is further cleaned with the hydro-cyclones and centrifuges and is pumped back to the mixing area of the mud tanks where the process repeats.

The drill cuttings contain a layer of drilling fluid on the surface of the cuttings. As the size of the drill cuttings gets smaller the surface area expands exponentially which can cause rheological property problems with the fluid. The fluid will dehydrate and may become too thick or viscous to pump so solids control and dilution are important to the entire drilling process.

One of the most expensive and troubling issues with drilling operations is the handling, processing, and circulation of drilling mud along with disposing of the unwanted drill cuttings. The drilling cuttings deposited in the half round tank and are typically removed with an excavator that must move the contents of the waste bin or roll-off box. The excavators are usually rented for this duty and the equipment charges can range from $200-300/day. Add in the cost for the day and night manpower and the real cost for a single excavator can be as much as $1800/day.

Using the excavator method explained above, the unloading of 50 barrels of drill cuttings from the half round can take as long as two hours. This task is mostly performed by the solids control technicians. The prime duty for the solids control technicians is to maintain the solids control equipment in good working order. This involves maintenance for the equipment, screen monitoring and changing, centrifuge adjustments, and retort testing to prepare a daily operational summary of the solids control program.

Operating the excavator takes the technician away from these tasks and can lead to poorly performing equipment. Additionally, the excavator has the potential for abuse as some solids control technicians use the climate-controlled cab as a break area or refuge from the elements. Many times, these guys are found asleep on the job.

One solids control company reported the idle time for the excavator can be more than 8 hours for a 24-hour period with 8 hours of operation and 8 hours of shut down time. Fuel and time lost can cause an economic drag on rig operations. And lastly, there have been several accidents on each rig causing a potential for injury, loss of production, and lost revenue as the excavator must be repaired.

Offshore drilling rigs follow a similar process in which the mud is loaded into empty drums and held on the oil platform. When a certain number of filled drums is met, the drums are then loaded onto barges or vessels which take the drilling mud to the shore to unload and dispose of.

Oil field drilling operations produce a tremendous volume of drill cuttings that need both removal and management. In most cases, the site managers also need to separate the cuttings from the drilling fluids so they can reuse the fluids. Storing the cuttings provides a free source of stable fill material for finished wells, while other companies choose to send them off to specialty landfills. Regardless of the final destination or use for the cuttings, drilling and dredging operations must have the right high solids slurry pumps to move them for transport, storage, or on-site processing. Exploring the differences in the various drilling fluids, cutting complications, and processing options will reveal why the EDDY Pump is the best fit for the job.

The Eddy Pump is designed to move slurry with solid content as high as 70-80 % depending on the material. This is an ideal application for pumping drill cuttings. Drill cuttings from the primary shakers are typically 50% solids and 50% liquids. The Eddy Pump moves these fluids efficiently and because of the large volute chamber and the design of the geometric rotor, there is very little wear on the pump, ensuring long life and greatly reduced maintenance cost for the lifetime of the pump.

plumbed to sweep the bottom of the collection tank and the pump is recessed into a sump allowing for a relatively clean tank when the solids are removed. The Eddy Pump is sized to load a roll-off box in 10-12 minutes. The benefit is cuttings handling is quicker, easier, safer, and allows for pre-planning loading where the labor of the solids control technician is not monopolized by loading cuttings. Here, in the below image, we’re loading 4 waste roll-off bins which will allow the safe removal of cuttings without fear of the half-round catch tank running over.

Mud cleaning systems such as mud shaker pumps and bentonite slurry pumps move the material over screens and through dryers and centrifuges to retrieve even the finest bits of stone and silt. However, the pump operators must still get the raw slurry to the drill cuttings treatment area with a power main pump. Slurry pumps designed around the power of an Eddy current offer the best performance for transferring cuttings throughout a treatment system.

Options vary depending on whether the company plans to handle drill cuttings treatment on-site or transport the materials to a remote landfill or processing facility. If the plan is to deposit the cuttings in a landfill or a long-term storage container, it’s best to invest in a pump capable of depositing the material directly into transport vehicles. Most dredging operations rely on multiple expensive vacuum trucks, secondary pumps, and extra pieces of equipment.

Using an EDDY Pump will allow a project to eliminate the need for excavators/operators to load drill cuttings, substantially lowering both labor and heavy equipment costs. The EDDY Pump also allows a company to eliminate vacuum trucks once used for cleaning the mud system for displacing fluids. Since the pump transfers muds of all types at constant pressure and velocity throughout a system of practically any size, there’s little need for extra equipment for manual transfer or clean up on the dredge site.

The EDDY Pump can fill up a truck in only 10 minutes (compared to an hour) by using a mechanical means such as an excavator. For this reason, most companies can afford one piece of equipment that can replace half a dozen other units.

This application for the Eddy Pump has the potential to revolutionize the drilling industry. Moving the excavator out of the “back yard” (the area behind the rig from the living quarters) will make cuttings handling a breeze. Trucking can be easier scheduled during daylight hours saving on overtime and incidences of fatigued driving. Rig-site forklifts can move the roll-off boxes out of the staging area and into the pump loading area. The operator can save money on excavators rental, damages, and keep the technician operating the solids control equipment.

The EDDY Pump is ideal for drilling mud pump applications and can be connected directly onto the drilling rigs to pump the drilling mud at distances over a mile for disposal. This eliminates the need for costly vacuum trucks and also the manpower needed to mechanically move the drilling mud. The reasons why the EDDY Pump is capable of moving the drilling mud is due to the hydrodynamic principle that the pump creates, which is similar to the EDDY current of a tornado. This tornado motion allows for the higher viscosity and specific gravity pumping ability. This along with the large tolerance between the volute and the rotor allows for large objects like rock cuttings to pass through the pump without obstruction. The large tolerance of the EDDY Pump also enables the pump to last many times longer than centrifugal pumps without the need for extended downtime or replacement parts. The EDDY Pump is the lowest total life cycle pump on the market.