sludge mud pump free sample

Sludge Sucker uses a high pressure water stream (1000-4000 PSI) to suck the sludge off the bottom of pits or tanks and eject it through a 1-1/2" (15 FT. long) hose to a disposal tank.

The Sludge Pump is a great tool for cleaning up water and slurries. Simply attach the pressure line from a portable power washer or car wash bay. The water flowing through the high pressure nozzle creates a powerful venturi suction that vacuums up slurry solutions. Debris as large as 3/4" will pass through the casting and out the discharge hose.

This awesome pump turns your pressure washer into a high volume sludge pump that can pump rocks and debris up to 3/4" in diameter! This pump quickly attaches to your existing pressure hose. During use it will provide a 11 to 1 or higher vacuum (4GPM produces 44GPM vacuum). The sludge pump is great for removing water from low areas, getting started with waste water reclaim, pool emptying, and flood and disaster clean up.

Attaches to any pressure washer and turns it into a high volume output pump. Great for flood cleanup, car wash pits, draining pools or chemical spills.

Sludge, slurry and sewage—three topics that aren’t a subject of everyday “pleasant” conversations. Any of these words conjures images of yucky goo, germs, and debris. But dealing with these fluids is a fact of life, and you need the right kind ofsubmersible pumpto handle the heavier load.

Having the right pump helps considerably with handling sludge and slurry safely. But with many brands and types of pump on the market, what kind of heavy-duty pump do you need to handle the workload?

Sludge pumps and slurry pumps are often considered interchangeable, but they do have slightly different functions. Both sludge and slurry are fluids with a high percentage of solids, but sludge is softer and thicker. Slurry is thinner and flows through the pipes more easily.

This article explains everything you need to know about sludge and slurry pumps, including the difference between a sludge pump and a slurry pump, and when you might need one.

Sludge is a thick, viscous liquid that’s made up of organic and inorganic materials. It’s typically produced during the wastewater treatment process, ranging from sewage treatment to industrial byproducts.

Sludge has a thick texture that may be very viscous or sticky, making it difficult to pump. However, with a higher percentage of solids, it is more compact and can facilitate the disposal of waste products.

Slurry is a water-based mixture that contains solids in suspension. It’s commonly generated in industrial, mining and agricultural settings. Slurry is thin and sloppy, and flows more easily than sludge.

Being easier to pump, slurry is the preferred output where waste needs to be transported in liquid form. Being distributed in a liquid suspension, slurries can make it easier to relocate and dispose of waste products in the mining and construction industries.

Both sludge and slurry are mixtures of liquid and pulverised solid waste, but they are not the same. Sludge has a heavier consistency, like thick mud, while slurry is thinner and less viscous.

The main difference between sludge and slurry is the texture, rather than the composition of the fluid. Both slurry and sludge contain solids such as sand, mud, metals, sediments, and other particles within the liquid. They may be organic (like sewage) or non-organic.

Sludge is a thick and viscous fluid, and may be sticky, while slurry is thinner and flows more easily. This means that pumping requirements can vary significantly between these two fluids, and is also influenced by the type of particles found in the material.

Both sludge and slurry are often industrial byproducts, meaning that liquid might also contain certain acids, alcohols, oils, or other solvents. Therefore, both sludge and slurry need to be correctly and responsibly disposed of, considering the environmental impact and local regulations.

The purpose of the sludge pump is to move sludge through sewer lines or other systems. Sludge can be heavy and often abrasive and corrosive; therefore, these pumps need to be high-powered. The heavier the sludge, the more horsepower that is required.

Centrifugal pumpsare commonly used thanks to their ability to pump effluent reliably. A centrifugal pump consists of a rotating impeller that converts electrical energy from the motor into kinetic energy. The kinetic energy is then converted to pressure, which creates the flow of the sludge through the pump.

These pumps can handle particles up to the size of sand, and flow rates can go as high as thousands of litres per second. However, these pumps cannot generate pressures higher than 1000 psi.

Positive displacement pumps work differently. While centrifugal pumps use continuous energy to increase the sludge flow, positive displacement pumps work by intermittently adding energy to increase pressure. They can generate more pressure than centrifugal pumps, but their flow rate can only go up to nine hundred and fifty litres per second.

There are two designs for the positive displacement pumps: either reciprocating (such as the plunger and piston design) or rotary (progressing-cavity pumps and rotary vane vacuum pumps being examples).

Slurry pumps are the type of pumps that are appropriate for pumping slurry. Choosing the suitable pump will depend on the size and types of solids in the slurry liquid and how corrosive the slurry mixture is. The larger and more corrosive the slurry is, the more heavy-duty the pumps would need to be.

Centrifugal pumpsare mainly used for slurry at concentrations less than seventy percent solid by weight; and come in various appearances, such as horizontal, submersible, and vertical.

Positive displacement slurry pumps are more limited when it comes to capacity, but they are better for pumping slurry with higher concentrations of solid material.

Centrifugal pumps, such asBianco Vulcan centrifugal pumpare above ground pumps that can be added to existing pump lines to add more power and suction force to the set up. In comparison,submersible drainage pumpssuch as theNova submersible pumpare powerful pumps ideal for removing water from an area, either on a daily basis or in case of emergencies.

Positive displacement slurry pumps are more limited when it comes to capacity, but they are better for pumping slurry with higher concentrations of solid material.

Water pumps differ from slurry or sludge pumps. The viscosity and composition of these fluids mean they need much higher pressure and hydraulic capacity than water pumps. Finally, water pumps cannot withstand potential chemical corrosion and particle abrasion.

Sludge and slurry both contain solid particles, including (but not limited to) sand, gravel, and metals; the difference lies in their consistency. Furthermore, while the liquid in sludge and slurry can indeed be water, it can also contain other types of liquid such as petroleum and various acids.Due to the difference in viscosity and composition of slurry and sludge, installing and using the correct type of pump is imperative.For pumping slurries, a centrifugal pump or heavy-duty drainage pump is used.For pumping sludges, positive displacement pumps such as diaphragm pumps, lobe pumps, and Moyno pumps are best.

A sludge or slurry pump can be used to pump out sewage from sewage lines. The most common type of pumps used for sewage are centrifugal pumps. These pumps can effectively push sewage and can be installed in pits and sumps.

Due to their higher starting costs and complex maintenance, reciprocating pumps are less common than centrifugal pumps. Reciprocating pumps are used in specialised cases when a larger-than-normal quantity of sewage needs to be pumped.

If you are dealing with a small amount of sewage that doesn’t justify the need to construct a pumping station, you can use air pressure pumps or pneumatic ejectors. Unlike other pumps with spinning impellers or pistons, these pumps use compressed air to move sewage. These small-capacity pumps are quieter, have fewer moving parts, and develop blockages less frequently. However, they are the least efficient among the pumping options available.

Because there are several conditions where a slurry pump or a sludge pump is called for, there are three types of installations to consider: dry installation, semi-dry installation or wet installation, which involves fully submerging the pump.

First is a dry installation where the bearings and the pump drive are kept out of the sludge or slurry. The wet end—which may include the impeller, suction liner, shaft sleeve, and shell—is free-standing and out of the way of any liquid. Horizontal slurry pumps are mostly dry installations.

The second method is semi-dry installation. The operator floods the wet end and the bearings but keeps the drive dry. This installation is often used for dredging with horizontal pumps.

The final method is wet installation. Using this method, the slurry pump and drive are fully submerged. Wet installation is often reserved for underwater operations, cement plants, dyeing and printing plants, and similar industries. The pumps used are oftenvertical centrifugal pumpswith semi-open impellers.

A pump is cavitating when the liquid in the pump turns to vapour at low pressure. Cavitation happens when voids (or bubbles) form within the slurry because the pressure rapidly decreases below the vapour pressure.

Sewage ejector pumps can pump high volumes of sewage to a maximum of about230 metres. Septic grinder pumps are better for low volumes but can pump sewage a much longer distance.

The type of pump needed depends on the type of wastewater that needs to be pumped. Centrifugal pumps are good for sludge wastewater with less particulates or solids. Rotary lobe pumps are great for thicker or more viscous fluids. Progressive cavity pumps and the air-operated diaphragm pumps are also suitable for sludge.

While it is possible to pump mud, it’s difficult and complex, so it requires specialised equipment. A reciprocating piston-driven or plunger-driven pump specially made to pump mud is needed for the task, and these can be expensive.

It’s best to have a pump professionally installed by a licensed specialist. Slurry pumps are intricate systems that won’t work correctly if not installed properly. To avoid issues with your slurry pump system, we always recommend getting it professionally installed.

Vogelsang has been a reliable and innovative partner for wastewater technology for decades. We offer our customers efficient components such as wastewater pumps, slurry pumps, grindersand disintegration systems for the economically efficient operation of sewage networks and sewage treatment plants. Every single one of our products is designed for economical, reliable operation. Coupling together several machines and optimal coordination of individual components using intelligent control technology enables us to provide efficient system solutions for individual problems.

Pumps and grinders suitable for sewage treatment plants are the basis for economical wastewater treatment and wastewater purification. This means long-lasting technology with low operating costs and energy requirements that can be serviced and repaired quickly if required. All important parts can =be replaced by your own personnel – on site without removing the pump or shredder from the pipes. As an alternative to this, a reliable and economical range of services is becoming increasingly important for many sewage works operators. Depending on individual requirements, this may range from simple shipment of spare parts to a full-service contract. It is precisely this diversity that we are able to offer for our Vogelsang rotary lobe pumps and grinders. From consultation and concept planning to after-sales service, we can accompany you at all times as a competent partner.

In particular in small sewage treatment plants, a universal pump which can be deployed in several procedures and process steps is often required. The benefit here with the Vogelsang rotary lobe pump is the simple changeover of direction of flow while the pump capacity remains the same. In this way, using a single pump, wastewater and sludge can be simply recirculated between tanks and sump or fecal matter removed from disposal vehicles or tankers filled with sewage sludge. Since delivery rate is proportional to speed, the pump capacity can simply be variably adjusted via the variable frequency drive while the delivery rate remains the same. By taking into account dry matter content and the viscosity of a medium, pipe diameter and pipe length, the delivery rate of wastewater pumps and sludge pumps can therefore be adapted individually. In practice this means feeding of digestion towers, thickening and drainage is regulated and efficient, yet at the same time delivery with high pressure or over large distances is also possible. In particular when it comes to circulation in digesters, a high pump capacity makes a positive difference where space requirements are at a premium since little room is often available here for installation of a pump.

Wet grinders, regardless of whether they are twin-shaft grinders shredder or macerators, are the efficient solution for reducing the size of foreign matter and separating heavy materials in sewage treatment plants. Unlike integrated grinding units, with separate twin-shaft grinders or macerators, the design can be optimally adjusted to the application avoiding a compromise having to be made for speed between pump operation and the shredder function. In this way foreign matter in wastewater or sludge is shredded economically and pumps and other units are reliably protected from foreign matter.

Entangled materials from digesters clog up sludge pumps and block mixers unless they are protected by a shredder. The XRipper wastewater grinder shreds and reduces entanglements and foreign matter like wood or plastic parts to an easy-to-handle size. This protects pumps from damage and clogging and ensures pipelines remain free. At the same time, twin-shaft grinders based on the contactless principle of operation are low-wearing and will win over customers due to their long service lives.

Hairs and fibers from textiles or cotton swabs cause the formation of entangled materials and floating layers in digesters. Even small amounts of entangled material will render sludge inhomogeneous, increase the required drive power and have a negative effect on drainage and mechanical thickening. Contact-based macerators like the RotaCut are self-sharpening grinders, which even cut fibers and hairs, thereby macerating them. This prevents the formation of entangled materials and prepares sludge homogeneously. It also leads to more uniform operation of decanters and centrifuges and improved draining or thickening.

Two essential and increasingly important cost factors can be positively influenced using appropriate technology: (external) energy requirements and disposal costs for the incident sewage sludge. Since the requirements of the Sewage Sludge Ordinance often no longer permit recycling in agriculture, the only option is cost-intensive sewage sludge incineration or time-consuming, area-intensive humification of sewage sludge. Countless attempts have been made at reducing the quantity of sewage sludge incurred from the outset.

Modern disintegration procedures are a good option here. The electrokinetic disintegration procedure BioCrack by Vogelsang dissipates aggregates and colloids in the sludge, reduces EPS and ensures simpler access of bacteria to the nutrients, which significantly increases decomposition. This also manifests itself as a second, positive effect since the gas and electric yield of digesters is increased. Due to heightened own-energy production, the sewage treatment plant saves energy, which would otherwise have to be procured. In addition, sewage sludge can be drained better on many plants. This is accompanied by reduced costs since less coagulation agents are required and less sewage sludge need to be disposed.

Reliable, trouble-free pumping of sewage and wastewater in the sewage system is essential. For this the sewers and pipes need to be sufficiently sized for heavy rain events, and minimal water quantities should not lead to deposits in dry periods. At the same time, installation space is often at a premium. For this reason users will often ask which lifting stations have low space requirements. Do wastewater pumps need to have a dry setup or is this recommended - for instance to prevent an ATEX design in wet applications? If so, this usually means that the wastewater pump can prime and needs to be resistant to dry running. Vogelsang rotary lobe pumps from the VX series and IQ series are outstanding as wastewater pumps. They are compact, can be installed in the smallest of spaces and require extremely little room due to what is known as their hitched design. At the same time, they can be serviced or repaired quickly and simply on site. They also cater to the growing requirement for higher delivery heights or pressures, enabling increasingly longer distances from large central sewage works to be handled. Furthermore, they can prime wastewater from deep sumps as they are highly resistant to dry running.

The XRipper wastewater grinders reduces foreign matter contained in wastewater like wet wipes and textiles to unproblematic sizes. These solids are then so small they no longer cause clogging or blockages in downstream wastewater pumps and fittings but are large enough for them to be filtered reliably from the wastewater by a screen. The contactless principle of operation is important for low-wearing operation here while the range of installation options also plays an important role. Wastewater grinders can be installed in three four ways:In the classic, highly easy-to-maintain design with geared motor for installation in pipeline networks

Another essential function that is often found in sewage systems is the separation of heavy material like stones and metal parts as well as the macerating of foreign matter like waste and wood. In older open sluices for instance, an adequate screen and/or foreign matter separator is often lacking in front of the wastewater pump. Due to upgrades, partial upgrades, and the considerable variations in regional developments, each application is often very different from the other so that individual solutions are required for the relevant volume flow, available space or the maximum electrical power available. The RotaCut macerator by Vogelsang comes in an extensive range of models with numerous features and options, and reliably separates heavy material, macerates floatable disruptive matter and even shreds stubborn foreign matter like coarse pieces of wood using the AutoReverse function. Thanks to the sophisticated control technology, the wastewater macerator can be connected to remote maintenance and operating parameters are displayed online.

Whether used for rare pumping tasks, construction measures at sewage works, or in emergencies like floods, there are lots of different applications for mobile pumps. For this reason mobile pump unitsneed to be able to handle the widest range of media such as:Municipal sewage

When it comes to mobile pumps, if the mobile unit is to be operated self-sufficiently and independently, we recommend a drive with combustion motors. Where the relevant vehicles are available however, a mechanical drive using a cardan shaft is a low-cost option.

Yet if the mobile pump only needs to be moved within a small area, assembly on a hand trolley or simple trailer will suffice. And for rare usage locations that are far away, assembly on a rigid frame is a good variation, as this way the mobile unit can be loaded via forklift truck or crane. Maximum mobility is offered by assembly on a vehicle trailer, which enables relatively fast and simple transport of the unit.

Vogelsang VX series and IQ series rotary lobe pumps are ideal for mobile use due to their wide range of features such as they are self-priming and resistant to dry running, have a large free passage, and can also pump highly abrasive media or media with high dry matter content. If a variable delivery rate is required, the pump is operated using a variable frequency drive. Alternatively, a drive using a combustion motor is also possible. The Vogelsang rotary lobe pump is also ideal where long distances need to be covered.

Our rotary lobe pumps are typically used to pump sludge to and from thickeners, separators (such as belt presses, centrifuges, and rotary presses), digesters, and clarifiers. They are in fact suitable for pumping any wastewater sludge which has had the hard solids over 1/8” and most grit removed for flows up to 2000 GPM and pressures up to 150 PSI. We can specify an in-line grinder, filter or knock-out tank should hard solids larger than 1/8″ be present. Send us the details of your application to see if a LobePro pump can help you – email us or use one of our Online Application Forms – Municipal Application Form or Industrial Application Form.

For starters, sludge is a unique mixture of fluid, usually water, along with some type of pulverized solid. This material is commonly associated with many industries, including steel processing, mining, power generation, and so on. Because sludge behaves much the same as thick and viscous fluids, a powerful pump is mandatory.

When it comes to sludge, experts divide it into two distinct categories, settling, and non-settling. For settling sludge, coarse particles form, leading to an unstable mixture. Because of the flow and power required with pumping, it is essential to select the appropriate pump. As for non-settling sludge, this consists of fine particles with low-wearing properties. However, it is just as important to choose the right pump for this category as well.

For this type of pump, it is critical that you work with one of the top-rated pump manufacturers in Ontario. In addition to receiving expert assistance as part of the selection process, you will have complete confidence in the pump’s capabilities. When meeting with a manufacturer, a company representative will gather pertinent information and then discuss various factors with you like pump components, including the impeller design and size, construction material, discharge configuration, and more.

The ultimate goal is for you to choose a pump capable of moving a particular type of sludge. Obviously, the heavier the sludge, the more horsepower a pump requires. Of the different types of pumps for this purpose, the best pump manufacturers in Ontario recommend a centrifugal design. Using centrifugal force that a rotating impeller generates to produce kinetic energy offers superior performance and efficiency.

At Premier Fluid Systems (PFS), we can help you identify the right type of sludge pump for your specific needs. We have an incredible engineering design team that comes up with concepts and develops excellent products.

Our Non Clog Sludge Pumpcontains motor with squirrel cage motor, bearing with a corrosion resisting additive. The cable connected to the machine is highly flexible and tested to be water and oil proof cable. This product is manufactured with the highly durable raw material which helps to construct a sturdy structure Non-Clog Sludge Pump. Our product is checked to withstand any rough situation or extreme weather condition and the aluminum case is coated with the Epoxy to offer a chemical, heat and water resistance.

If you need a sludge pump that can handle heavy-duty applications, look no further than our assortment of high-quality Jack Scaffolding pumps. All of our pumps are self-priming, which means that once the pump casing has been initially filled, the pumps will restart themselves automatically. These pumps are simple to set up and require only a little amount of maintenance on a yearly basis.

Judge the market for heavy-duty pumps around the world can be broken down into distinct submarkets based on the sludge pump type, product type, end-user industry, and geographic location. The market can be broken down into the centrifugal pump market and the positive displacement pump market based on the different types of pumps available. During the time period under research, it is anticipated that the segment comprised of centrifugal pumps will hold the largest share of the global market. The market can be broken down into segments such as crude oil, fuel oil, bitumen, and others on the basis of the product type. During the course of the research period, it is anticipated that the crude oil industry would lead the market for heavy-duty pumps worldwide. The oil and gas sector, the power industry, the processing industry, and other end-user industries make up the different segments of the market. The most significant portion of the market is held by the processing industrial sector. A centrifugal type pump and a positive displacement type pump together make up this sort of pump. Because of its extended service life and low maintenance cost, the centrifugal segment is anticipated to develop at a considerable growth rate over the projected period. This growth is predicted to contribute significantly to the overall market size. In addition, population growth, rapid urbanization and industrialization, and increased oil, gas, and electricity production are expected to drive the growth of the service centrifugal pumps market. These factors all drive water and wastewater management, which in turn drives the growth of the market for service centrifugal pumps. hefty. Heavy-duty centrifugal pumps are used in a variety of industries because of their high efficiency, high resistance to wear, and high flow capacity. Some examples of these types of businesses are power generation, the food and beverage industry, and others.

The application known as Quizlet contains a great number of flashcards pertaining to the sludge pump heavy-duty model. Quizlet is a web-based program for learning languages, and its website allows users to manage their accounts and review previously learned vocabulary. A user account can be created in this program by anyone, anywhere in the globe, and flashcards can be created on any subject under the sun. The sludge pump is a type of industrial pump that is typically used in municipal wastewater treatment applications as well as in mining, construction, agriculture, or industrial applications where heavy waste fluids are processed. Other common applications include mining, construction, and industrial applications. To begin, sludge is a distinct mixture that is typically made up of water as the liquid component and a variety of crushed solids as the solid component. This material is frequently used in a wide variety of industries, including the production of steel, mining, and power generation, amongst others. A strong sludge pump is an absolute necessity due to the fact that sludge acts similarly to a thick and viscous fluid. The experts classify sludge into two distinct groups: those that settle and those that do not settle. When the sludge is allowed to settle, coarse particles are produced. This leads to the creation of an unstable mixture, which in turn necessitates the use of a greater amount of pumping power. In the case of sludge that does not settle, the sludge in question is made up of particles that are relatively small and have low abrasion properties. However, selecting the appropriate pump for this category is also of critical significance.

Whether you handle oily mixes, bio waste, sewage, sludge, or lime slurry, one thing is certain: you"ll need a heavy-duty, high-pressure slurry pump. These sludge pumps are designed to provide a clog-free means of transporting sewage and are capable of handling viscous fluids containing solids. These pumps are used for high-pressure suction and contain a separate motor and inter-bearing impellers that allow for high heads to be achieved. Vertical sludge pumps and floating sludge pumps are the two categories of sludge pumps that can be distinguished by their installation orientations, respectively.

The Amazon website features products from a significant number of heavy-duty pump manufacturers from all around the world. Each of these factories is in the business of producing sludge pumps and selling them in significant quantities. Suctioning sludge, industrial effluent, or sewage using a self-priming sludge pump, which is also known as a sewage pump or thickening pump, is a common application for this type of pump. These pumps are classified as centrifugal pumps and are utilized for pumping fluids that contain solid particles. Their category describes their primary purpose. There is a movable diaphragm present in self-priming pumps; this diaphragm is responsible for the release of air, which is why these pumps are referred to as self-priming pumps. The decanter, which performs the same function as a centrifuge tube, is sometimes referred to as a solid screw centrifuge because it features a horizontal screw that revolves at a slow pace in relation to the bowl. Throughout the course of this procedure, solids are continually extracted and disposed of. As a consequence, this leads to great separation performance in a relatively compact space. Sludge decanters from GEA offer a solution that is both energy- and cost-efficient for industrial and hydraulic engineering. Decanters are devices that can be used to clean and treat sludge in addition to wastewater production procedures with costs that are minimized while achieving the highest possible levels of availability, quality, and efficiency. The cantilever in design, horizontal in orientation, and either lined with natural rubber or hard metal, the heavy-duty slurry pumps in the WA series are centrifugal. It is meant to be used in industries such as metallurgy, mining, coal, electricity, construction materials, and others that deal with high-density abrasive mud.

Made of aluminum and cast iron, this lightweight and efficient submersible sludge pump is durable enough for heavy-duty industrial strength and high performance and harbor freight, yet remains extremely portable with its slim design, ideal for a sewage pump that mixes sludge and water with solids and can run in any vertical, horizontal or upside-down position. The robust design provides a robust pump coupling ideal for harsh conditions while protecting the engine and being ready for use when delivered to the field. Whether you work in mining, tunneling, or construction, this pump is your best insurance against water-related breakdowns. From purchase to service, you can turn to DanPumps for dewatering solutions that work in the real world. Mud Pump Features

The frame plates of the WA series pumps have interchangeable solid metal or pressed rubber bushings. Impellers are made of solid metal or pressure-molded rubber bushings

Under harsh conditions such as sand, mud, stone, and mud, ordinary slurry pumps are prone to blockage, corrosion, and frequent failures. But heavy-duty slurry pumps are highly abrasion and corrosion resistant, meaning the pump will last better than pumps from other manufacturers.

Xtreme Pumps supplies a large number of pumps to the mining industry and heavy duties, both domestically and worldwide, which helps to cut down on consumption and maintenance costs. The impeller of the centrifugal sludge pump is one of the essential components of this type of pump. The selection of the mud pump impeller is extremely important to the performance of the mud pump, and this choice is dependent on the application. Due to the abrasive nature of mud pump impellers, mud applications present an extremely difficult set of challenges. It is imperative that the correct impeller be selected for a mud pump in order for the device to function effectively and endure the test of time.

There are three distinct kinds of impellers that can be found in mud pumps: open, closed, and semi-open. The specific use determines both the benefits and the drawbacks associated with each option. Some are more adept at managing solids, while others are more adept at operating at high efficiencies.

To ensure that the impeller of the slurry pump is resistant to wear, its size must be considered. For less abrasive fluids, slurry pump impellers are typically larger than mud pump impellers. The more "meat" in the impeller, the more effectively it can pump abrasive mud mixtures. Consider the impeller of the mud pump to be the offensive line of a football team. Typically, these players are older and slower. They were repeatedly beaten throughout the entire game, but they deserved it. This mode does not require a small player, just as a mud pump does not require a small pusher.

The Liberty Process F036G1L Progressive Cavity Pump is designed with the easy movement for high viscosity liquids and heavy waste solids such as heavy crude oils, oil sludge transfer and thickened waste oils in refineries and tanker operations and as a standard crude olil sludge pump. The F036G1L"s low shear and gentle pumping action make it an ideal pump for oil sludge pumping and transfer. Solids handling capability of up to 50% by weight allows even the toughest sludge application to be pumped.

The F036G1L"s flow rate of 36 gallons/100 revolutions @ 100 to 162 GPM coupled to its high temperature resistance of up to 350° degrees Fahrenheit makes it an ideal solution for your industrial heavy-duty pumping needs.

All parts for the F036G1L series such as rotors, stators and internal wetted parts such as seals and connecting rods dimensionally interchange as aftermarket replacement with other popular manufacturers pump models like the *Moyno® 2000 Series, the *Tarby® Century V Series, and the *Continental® CK Series of Progressive Cavity Pumps saving you thousands of dollars in replacement part costs as in-stock aftermarket replacements and lost downtime waiting for OEM replacements.

The F036G1L is a standard ANSI flanged pump design manufactured with high strength cast Iron or 316 Stainless Steel pump casings and designed in 1, 2 and up to 4 stages for 85, 170, and 350 psi discharge pressures making it an ideal low-cost, maintenance free drop-in replacement pump. Standard suction and discharge flange size for the F036G1L is 6".

The Millennium"s modular design comes with a positively sealed, hardened gear joint assemblies, hardened tool steel rotors or stainless steel rotors both with hard chrome plating for long-life pumping and a wide selection of stators in Buna Nitrile, Viton®, EPDM and Natural Rubber.

Contact a Liberty Process Equipment Representative today for more information about the Millennium F036G1L Progressive Cavity Pumps for crude oil sludge and sludge transfer in refineries and tankers.