Trash Self Priming Pump


Self Priming Trash Pump
Self Priming Trash Pump

Self Priming Trash Pump

Designed for economical, trouble-free operation, the superior solids-handling capabilities of the TSP Series Self-priming pumps make them ideally suited for a variety of applications including solids-laden liquids and slurries. The large volute design allows automatic repriming in a completely open system without the need for suction or discharge check valves.

Available in discharge sizes of three, four, six, eight and twelve inches, this line of self-priming pumps boasts capacities to 5285 gallons per minute (333.3 liters per second) and heads to 131 feet (40 meters). Pumps four inches and larger are engineered to allow up to three-inch diameter spherical solids to pass through any critical area, including the recirculation port.

TSP Series Self-priming pumps are available in several configurations, including a B version for higher head applications, close-coupled or engine-driven models. All eu-flo‘s TSP Series pumps are backed by a five-year manufacturer’s warranty.

Remove Solids Management System

The remove system features an aggressive self-cleaning wear plate incorporating a number of notches and grooves, as well as a patent-pending lacerating tooth, that helps break up stringy materials and pass them through the pump without impacting performance or interrupting service. A special back cover includes a patented lightweight inspection cover that can easily be removed if it is necessary to inspect the impeller. The innovative design greatly reduces troublesome clogging and expensive downtime.

TSP Trash Pump, pedestal and frame mount. Self priming centrifugal solids handling pumps designed for Municipal and Industrial applications. Frame mounted pump, no base or motor. For economical, trouble-free operation in handling solids-laden liquids and slurries. Performance will vary with pump speed, see performance curves. Values given are for maximum at 1750RPM.

The combination of different sized pumps, impeller trims and speed variations ensure that the correct capacity pump will be matched to the exact requirements of your system, whether it’s a small sub-division or a large waste collection system. These pumps feature a large volute design that allows them to reprime automatically in a completely open system without the need for suction or discharge check valves – and they can do it with the pump casing only partially filled with liquid and a completely dry suction line.

Base plates, motors and coupling guards are all available as options. See performance chart for flow and head at various RPM and impeller diameters.

Trash Self Priming Pump Characteristics of eu-flo pump

The TSP series Trash self-priming sewage pump is a new generation product developed by the latest technology of Domestic and foreign. The pump is single-stage, single-suction, horizontal, application for gas-liquid mixture. The rear pull structure eliminates the need to remove the pump body and piping.

The TSP series of self-priming pumps are specifically designed to handle solids-containing liquids for economical and trouble-free operation. The pump features anti-blocking, No winding, and strong sewage pass through ability. The front sealing plate of the pump is designed with a removable and clear-up hole structure to ensure quick and timely removal of strong dirt.

Application range

Municipal sewage, environmental protection engineering, petroleum, chemical, pharmaceutical, printing and dyeing, electroplating, fire protection, domestic water supply, factories, mining, agriculture, flower gardens, water reservoir, food, brewing industry, etc.

Performance range

Discharge diameter: 300mm

Flow rate: 130~210~250~1200m3/h

Head: 29~27~23m

Speed: 1480r/min

Motor power: 200kW

Maximum suction height: ≤7m

Maximum solid particles: ≤85mm

Specific gravity: ≤1.0~1.3

Structural features

  1. One-time irrigation, lifetime use: just fill the pump cavity through the irrigation hole before the first run, no need to refill after starting.
  2. The semi-open non-blocking impeller with hydraulic optimization design can pass the larger size solids and has strong sewage capacity.
  3. The connection mode of the threaded pipe without bolts greatly reduces the installation time.
  4. self-priming ability: Nearly impossible sealing gap, to ensure that the self-priming height reaches nearly 8m, while running high speed, greatly shortening the self-priming time.
  5. easy external adjustment: even if the gap between the impeller and the front sealing plate is increased, it can be easily adjusted by the outside to ensure stable self-suction height and performance.
  6. Removable Cover plate and check valve
  7. Silicon Carbide Seals
  8. 4140 SS shaft
  9. Trailer installation available for municipal
  10. SAE and frame mount available
  11. material availble cast iron, stainless steel and CD4MCU
  12. Quick and easy maintenance: The routine maintenance service is fast and easy to effect, thus saving time and labor. It is specially designed for the specialized sewage maintenance , and can be easily adjusted without removing the pump cover and auxiliary pipeline to ensure the pump runs at Efficiently working conditions.pump manufacturers in china|eu-flo pumppump supplier in china|eu-flo pump

Inducer Impeller Pump


inducer impeller pump
inducer impeller pump


 Inducer Centrifugal Pump
Inducer Centrifugal Pump

Define of inducer propeller

An inducer is single-stage axial flow helix installed in the suction eye of an impeller to lower the NPSHR,the function of which is to raise the inlet head by an amount sufficient to prevent significant cavitation in the centrifugal pump stage.1st It is used in applications in which the inlet pressure of a pump is close to the vapor pressure of the pumped liquid. Inducers are frequently included in design of turbo pumps for liquid propellant rocket engines , although they are used in other applications which require high suction performance

Inducer Function

The front inducer, because the inducer has much higher cavitation resistance than the centrifugal impeller, so in some pumps with high cavitation performance requirements, the front inducer is widely used (ie, an inducer device is installed in front of the first stage impeller).

  Why does the inducer have much higher cavitation resistance than the centrifugal impeller? This is because in the centrifugal impeller, when the liquid enters the blade head, the direction should be sharply turned, the flow rate is increased, so the pressure is reduced, which is extremely It is prone to cavitation and separates the vapor from the liquid. After the initial cavitation is generated, the centrifugal impeller cannot limit its development because the flow direction of the liquid in the impeller is along the direction of the centrifugal force, and the liquid is under the action of centrifugal force. The high speed outwards, which accelerates the separation of the vapor and the liquid. However, in the inducer, this is not the case. First, the liquid does not go through the turn when entering the inducer, and the dynamic pressure drop is small, so that cavitation is less likely to occur; that is, cavitation occurs (mainly occurs at the outer edge of the inlet, because here The relative velocity is the largest), the bubble will be immediately attacked by two aspects: on the one hand, when the outer edge bubble flows to the high pressure region in the axial direction, the pressure is immediately condensed; on the other hand, under the action of the centrifugal force, the hub The liquid rushes toward the outer edge of the inducer, which also causes the bubble to condense under pressure.

  The inducer is actually an axial flow propeller, but it has the following characteristics compared with the general axial flow pump propeller:

The inducer pre-impeller is a stainless steel non-shrouded small axial flow impeller that mounts in front of a centrifugal pump drive impeller. These pre-impellers load the standard centrifugal pump mixed flow impeller for greater low end and mid range power without sacrificing top speed.

The inducer pre-impeller is available individually with easy to follow instructions or in kit form which includes a pre-cut impeller pump shaft along with the inducer. The inducer is a great add on for any power range or engine size application and fits of eu-flo’s condensation pumps.

  1. The ratio of the outer diameter of the propeller to the hub is small;
  2. The number of blades is small;
  3. The blade placement angle is small;
  4. The cascade density L/t is large.

  When the inducer works together with the centrifugal pump impeller, the lift generated by the inducer wheel pressurizes the centrifugal impeller.

Inducer Type

  The inducer blade type has two types of flat type and curved type. The flat blade type has the same angle of the blade at inlet and outlet, and is also called the Equal pitch inducer. The inducer with a curved blade has a small angle of the blade at inlet and a large angle at outlet, that is, β1<β2, which is called an increased pitch inducer. The first flate type of inducer is often seen in cylindrical inducer, and the second curved type is often seen in tapered inducer. Compared the cylindrical inducer with the tapered inducer, the cylindrical inducer is better, the tapered inducer with higher efficiency , better cavitation resistance (because of the large outlet angle, and has a tapered shape, which is conducive to re-condensation of the bubble), and the stable operation without noise.

   General inducer:

  Length to diameter ratio hi / dt = 0.3 ~ 0.4 (dt = (d + d1t) / 2);

  Number of blade Z = 2-3;

  Cascade density L/t≈1.5 (L is the cascade length, t is the cascade spacing);

  Blade inlet edge rounding R=0.32d;

  The hub and rim shape is cylindrical or 15° tapper.

  In the power plant, the inducer is mostly used in the newly buit condensate pump. due to adopt inducer, the pump can increase speed, so that can reduce impeller Diameter and stages of the pump under the same flow rate and head. to make The condensate pump structure is simplified and in smaller size.

Application for condensation:

Cavitation sounds serve as a sign detectable from outside the pump that internal pump damage may be occurring. These sounds are often described as similar to the sound made when shaking pebbles in a jar. Cavitation can result in damage to not only the pump itself, but also to piping and other associated equipment.

The rapid formation and implosion of vapor cavities that form via cavitation damage the inner surfaces of pumps and piping, causing the erosion and thinning of impellers and pump casing. Additionally, when not pumped effectively, condensate backs up, creating the ideal environment for corrosion to occur. Piping and equipment corrosion due to condensate back-up and erosion of the impeller and other pump components constitute two forms of damage that cannot always be observed from the exterior of the pump. Fortunately, measures can be taken to avoid such hidden issues.

as the inducer has much higher cavitation resistance than the centrifugal impeller, a inducer can be added with lower npsh in condensation pump application.

High Performance Balanced Pump

High Performance Balanced Pump
High Performance Balanced Pump

Higher Performanced Self-balancing horizontal multi-stage centrifugal pump impeller adopts a back-to-back arrangement to substantially eliminate the axial force, and the residual axial force is bear by a pair of back-to-back angular groove ball bearings. Because there is no balance device, that is, eight the disc friction loss no balance return loss, the pump efficiency is increased by 5-1% compared with the multi-stage pump of the same category, and the various failures of the pump caused by the failure of the balance device are completely solved. Greatly extend the life of the pump:

High-performance sealing, mark: traditional mining multi-stage pumps are filled with packing. The advantages of packing sealing can resist solid medium, but there are leakage problems in the use of engineering, mechanical seals are leak-free, but used in medium with solids. The service life is very short. our new developed mining multistage pump produced The seal used is a high-performance seal that combines the advantages of a packing seal and a mechanical seal in a medium with solids.

Long-term use without leakage, this seal is a new type of patented high-performance seal resistant to solid medium and developed by our company.

The bearing housing never enters the water. This technology is a newly developed patented technology by our company, which ensures that the pump is in use and in a static state without liquid entering the bearing housing. This further extends the bearing service life of and reduces the user’s Maintenance costs.

Coating Improving Efficiency&Performance

Ceramic Coating
Ceramic Coating Axially Split Casing Pump


Coating Improving Efficiency&Performance

Efficiency&Performance Improvement Program for New & Existing Pumps up to 3-5% on new pumps, and up to 8% on those already in service. Improve value addition by Repair & Protection thus Extending Service Life of Pumps.

The need to improve operational efficiency & performance of Pumps: The pumps are the heart of any system that handles fluids – the second most common piece of machinery used in general industry. Pumps use mechanical forces to move fluids namely gases, liquids, or slurries from one location to another what is referred to as a hydraulic passage. The hydraulic passage is the trajectory followed by the fluid inside a pump, and it depends on the design of each pump.

The transfer of fluids accounts for the largest single use of energy worldwide with millions of litres pumped from one location to another every second of everyday worldwide, it is therefore understandable that the rising cost of energy has lead to all energy intensive Industries such as Cement, Sugar, Steel, Textile, Fertilizer, Paper & Pulp, Refinery, Aluminium, Petrochemical etc., to look for solutions to improve operational efficiency of Pumps.

A major problem is increased turbulence caused by the detrimental effects of erosion & corrosion. This leads to rough and pitted surfaces which in turn, increase drag, therefore reducing the efficiency of the system. In fluid dynamics, water molecules on the pump surfaces are stationary. Discrete water molecules in the flow behave as separate entities creating vortices and cross-currents which result in energy losses in addition to those arising from skin friction, which still continues to be exerted next to the boundary layer, in a thin film known as the laminar sublayer.

The energy cost of a pump represents the largest portion of its lifetime costs – much more than the capital cost. In fact, operating costs can represent as much as 95% of the overall lifetime costs of the pump. Therefore, an improvement in energy efficiency will represent a significant reduction in lifetime costs. Deterioration in service can reduce efficiency, leading to as much as 10-15% extra energy consumption.

The Devcon’s 111760 Brushable Ceramic Solutions

DEVCON ‘s high performance BRUSHABLE CERAMIC 11770&11760

Reclamation Putties are used for the repair and maintenance of pumps in the form of rebuilding compounds with the ability to rebuild corroded components back to OEM’s original specifications and 11770&11760 in-situ coatings offers low friction surface that protect the substrate against damage from corrosion, abrasion, and chemical attack by producing renewable working surface, protecting the structural integrity of the original substrate at much lower costs compared to replacement. The coating’s hydrophobic nature makes the water simply roll off the surface and wear by abrasion is minimized by its encapsulated blend of lubricating agents and abrasion resistant fillers. Moreover, the pump is rebuilt and returned to service within a few days, saving the client from many weeks wait for a new replacement pump.

Devcon’s corrosion and erosion resistant material – it is possible to not only restore flow rates, but also increase the efficiency level to beyond that when it was newly installed due to low surface tension. The material allows an ultra smooth surface that reduces turbulent flow, thereby increasing efficiency. The smoothness on the surface of this type of coating (Gap Fill 0.0625″-0.0725″) is 20 times greater than polished stainless steel (Ra 1.19um). Also, being a solventfree coating, health and safety risks are reduced during application and is recommended for contact with potable water.

The resultant reductions in power consumption result in typical returns on investment from 3 months to 6 months depending on the size of the pumps. Even the refurbishment of pump components that once would have been considered ‘scrap’ can be realized. It will increase the efficiency of a pump over its “as new” condition giving a rapid payback in reduced energy costs. When applied to fluid flow equipment, this type of coating has been proven to improve hydrodynamic performance by increasing overall efficiency through reducing power consumption, increasing fluid flow rate or pressure.

We make the research and testing a smaller split case pump HSC150-460, the pump Efficiency improving 3% with same impeller diameter:

As Apendex 1 and Apendex 2

Testing Performance Curve2
HSC Testing Performance Curve 2
HSC Testing Performance Curve1
HSC Testing Performance Curve1

Product Advantage

Restore worn surfaces on old parts

Extend part life on new products

Protect against abrasion, erosion and corrosion

Resist chemical attack

Increase component efficiency

Save replacement costs

Reduce spare part inventory

Proven results to Energy Management Consultants, Energy Audit Firms, Energy Managers



General Water Treatment

Water Distribution System

Mill Plant







Rudders & Pintle Housings

Water Tanks

Water Boxes

Sea water &brine Application

Biaxial Split Case Pump

Biaxial Split Case Pump
Biaxial Split Case pump

Biaxial Split Case Pump

The Biaxial High Performance Split Case Pump

UES (Horizontal) or UESV (Vertical) Split casing pump is designed by our company for the demand of Energy Efficiency, which combined the advantage of the word well-know manufacture.

Designed and Focused on the application of the current advanced ternary flow theory, CFD,CAE..the pump Efficiency over the world leading level, has the advantage of excellent structure, smooth operation, low noise, easy maintenance and many other advantages, have the ultra efficiency and energy saving advantage. it is upgrading of split case pump. Which is widely used in the power industry, water conservancy industry, steel industry, petrochemical industry, water project, municipal , waste water treatment, shipbuilding industry, mineral exploration, aviation industry and other industry.


  • Double volute design for pumps with single head over 160m, completely balance the radial force and ensure reliable service and save your maintenance costs.
  • Horizontal and vertical construction allow your flexible installation request.
  • Foot support and centerline support is optional for your flexible application.
  • The Pump are biaxial Structure for both rotation clockwise (CW) and anti-clockwise (CCW).
  • Optional shaft sealing for single seal mechanical seal, double mechanical seal, cartridge mechanical seal and soft packing.
  • Optional stuffing box cooled by third coolant, bearing bracket with cooling jacket or finned shape to allow the pump to transfer your very hot liquid.
  • Normally the suction and discharge Flange is horizontal at the same centerline. EU-Flo Pump can also supply suction nozzle is down or vertical, discharge nozzle vertical to fit your pipeline arrangement.
  • Bearing lubrication is optional for grease or oil. Sleeve bearing is also possible.
  • Optional bearing temperature and vibration sensors allow you to know the working of the pump.
  • IEC-Ex Standard is as option.
  • Energy Certification
  • Enery Certification
  • Suction and Discharge Pipeline in one line