Mixer Literature



  • Image SB Side Entry Agitators
    SB Side Entry Agitators offer the same ruggedness, dependability, and simplicity of design found in our other high-quality turbine agitators and mixers. The SB agitator is a belt-driven unit with features engineered for side entry agitator service.
  • Image Model 20 HT / GT
    The Model 20 HT/GT agitators feature a high-efficiency gearbox designed specifically for agitator service. Models are available in right angle and parallel shaft configurations. These agitators feature a modular design package with a wide range of speeds for improved process control and greater application versatility. The Model 20 HT/GT agitators are designed to meet AGMA, OSHA, ANSI, IEC, DIN, EU and ATEX standards and requirements.
  • Image HT Agitators
    HT Turbine Agitators have earned a worldwide reputation for long life, flexibility and ruggedness. As a result, they are the preferred agitators of many industries for harsh, demanding environments where peak performance is integral. HT Turbine Agitators are robust, simple and designed for ease of maintenance. The Chemineer HTM mixer is an available option for high torque applications and provides many of the same design benefits as the HT gearbox.
  • Image QED Agitators
    The Chemineer QED Plus Mixer combines Quality, Economy and Durability for unbeatable mixing value. QED Plus Mixers are well-suited for agitator service in chemical processing, petrochemical, pharmaceutical and general industrial applications.
  • Image DT Mixers
    Direct-drive and gear-reduced designs for both open and closed tank applications are available. Each unit features Chemineer's renowned reputation for quality that has grown over the past 50 years.
  • Image Biopharm Mixers
    Chemineer's sanitary mixers offer a variety of design configurations, materials and options needed to meet critical sanitary mixing applications and ensure the highest level of sanitary mixing. Chemineer also offers a wide variety of precision-engineered, high-performance impeller options.
  • Image HS Agitators
    HS Side-Entering Agitators offer the same ruggedness, dependability and simplicity of design found in our other high-quality turbine agitators and mixers. At the heart of the HS Agitator is a right-angle drive exclusively engineered for side-entering agitator service. Chemineer® HS Side-Entering Turbine Agitators work efficiently when a tank is too large for convenient installation of a top-entering agitator, or where headroom is severely limited.
  • Image MR Mixers
    Chemineer has demonstrated that it is possible to provide a mixer designed for agitator service at an economical cost, backed by over fifty years of design expertise and applications experience. Chemineer’s MID RANGE Mixers combine quality, durability and economy to supply unbeatable value in mixing equipment for the chemical, water and general processing industries. The MR agitators are designed to be mounted vertically over open or closed top tanks.
  • Image XPress Mixers
    USA - Europe 72-hour delivery 30-day "No Risk Trial" Total support for your mixing need 50+ years experience in mixer technology Industry standard IEC, off-theshelf motors from 0.18 to 1.5kw Features and Benefits Motors: Direct drive.
  • Image IBC Mixers
    Chemineer's unique new range of industrial agitators are designed for use with plastic transportable (IBC) containers. We supply a range of models suitable for a variety of applications including - blending light viscous liquid as well as re-suspension of settled solids and dissolution of powders.


  • Image RL-3
    The Chemineer RL-3 impeller is designed for applications where a ragless agitator is desired to prevent fibrous material build-up on the rotating impeller. Typical in Waste Treatment applications the RL-3 is a rag shedding impeller which prevents build-up of fibrous materials on the impeller, while providing a strong axial flow for efficient blending and solids suspension. Click here for additional information.
  • Image XE-3
    The highest efficiency turbulent flow impeller available in the marketplace. Ideal for blending, heat transfer, and solids suspension applications. Developed to maximize strength at lower weights as compared to other axial flow impellers, allowing for longer shafts without internal support, smaller shaft diameters, and smaller seal sizes if applicable.
  • Image HE-3
    An extremely efficient turbulent flow impeller for blending, heat transfer and solids suspension. Most effective for Reynolds numbers over 50. Developed to minimize the creation of trailing vortices and incorporating the otherwise wasted energy into macro-flow.
  • Image SC-3
    The Chemineer® SC-3 Impeller features an advanced design engineered for deep tanks. It produces flow characteristics of much larger impellers, without the added weight, or the resulting loss in pumping efficiency. The highly efficient SC-3 Impeller's reduced weight allows for the use of longer shaft extensions for deeper tanks, and resolves associated critical speed limitations. The use of an SC-3 impeller can produce an overall agitator cost savings as much as 33%.
  • Image P-4
    A reasonably cost effective impeller in both turbulent and laminar flow. Good impeller for applications where the viscosity changes over a wide range causing the flow regime to vary between turbulent and laminar flow. A reasonably cost effective impeller for solids suspension.
  • Image S-4
    A cost effective impeller for operation very near the floor of a tank for agitating the heel in solids suspension applications. Also an effective impeller in laminar flow applications, especially when impeller Reynolds numbers drop below 50.
  • Image BT-6
    Highest gas dispersing capability available. Can disperse nearly six times the gas handling capability of the D-6 or Rushton impeller. Unloads less than the CD-6. In fact, the unloading is nearly all due to the change in effective density of the gassed liquid. The mass transfer capability is on the order of 10% better than the CD-6. Unlike many other gas dispersing impellers, the BT-6 is relatively insensitive to viscosity.
  • Image CD-6
    The CD-6 impeller is a second generation gas and immiscible liquid dispersion impeller. The CD-6 can handle about 2.4 times the maximum gas capacity of the D-6 impeller. The CD-6 is similar to the Smith impeller, but there are substantial power and dispersion capability differences. This impeller has been used at aeration numbers as high as 2.1.
  • Image D-6 or Rushton Impeller
    Good cost effective impeller for low concentrations of immiscible liquid or gas. Two very strong trailing vortices are shed from each blade. These areas of high shear are responsible for breaking the larger droplets to smaller droplets. Maximum aeration numbers should be limited to 0.1.
  • Image Maxflo W Impeller
    The Maxflo W impeller, with about 10% more effectiveness in pumping efficiency, is an improved version and full replacement impeller for the Maxflo T. Excellent in abrasive solids suspension, solids suspension in the presence of small amounts of gas introduced or generated in situ, and in boiling or near boiling applications.
  • Image Maxflo WSE
    A high efficiency, advanced side-entering hydrofoil impeller that produces maximum pumping action. It has more cavitation resistance than other designs through effective hydrodynamic design.
  • Image Maxflo Mark II & III Impellers
    High efficiency, high solidity impellers for use in turbulent side entering applications. They are especially effective for fluids possessing a yield value, such as paper stock. The high solidity permits operation nearer the boiling point without cavitation.
  • Image JP-3
    A high efficiency turbulent flow impeller used on our smallest turbine agitators at direct drive motor speeds on our DT, BTNS and RBTNS agitator lines. The high solidity permits operation nearer the boiling point without cavitation.
  • Image Smoothline
    Chemineer simplifies double impeller configurations for sanitary mixing processes with its patent-pending Smoothline impeller design. It is available for the HE-3, P-4, S-4 and Maxflo W impellers. Smoothline-style impellers disassemble to pass through manways on process vessels. Their FDA-approved Teflon gaskets between every joint prevent entrapment of process material. As an added benefit, they are easily compatible with single piece shafts thus ensuring optimum straightness, efficient energy transmission and superior mixing performance.
  • Image ChemShear
    ChemShear Impellers are made in 4 different styles. Style 1 has the widest blades and style 4 the narrowest blades. Various processes require different ratios of shear and pumping. The wider blades pump more, and the narrower blades have the higher level of shear. They work well in applications which require moderately high shear but also some level of pumping. Many high shear devices are very low in pumping capability and require an auxiliary impeller to provide turnover. ChemShear impellers often overcome the need for an auxiliary pumping impeller. ChemShear impellers have been used in microencapsulation processes producing particles in the 2 micron range.
  • Image Double Helical Ribbon Impeller
    Generally recognized as the best all around high viscosity, laminar flow impeller. It is the most efficient blender of all existing close clearance agitators. The double flight helical ribbon impeller is also good for heat transfer and blending of liquids and solids from the surface. Generally used for applications where viscosities are ordinarily greater than 30,000 MPa.
  • Image Single Flight Helical Ribbon with Screw
    A reasonably efficient high viscosity, laminar flow impeller. Blend times are about the same to somewhat longer than the double flight helical ribbon impeller. The central screw can effectively pull down solids and liquids from the surface when the helical ribbon is pumping up. Generally used for applications where viscosities are ordinarily greater than 30,000 MPa. Heat transfer coefficients are only slightly less than the double helical ribbon impeller.
  • Image Anchor Impeller
    The anchor impeller is the most economical laminar flow impeller. It is most effective in squatty batches where vertical pumping is not as important as in tall batches. Blend times are somewhat longer than helical ribbon type impellers. It is the easiest high viscosity impeller onto which scrapers can be mounted for very difficult heat transfer applications.
  • Image Screw (Auger) Impeller
    A screw impeller produces effective high viscosity blending of shear sensitive polymers. This impeller provides good top-to-bottom turnover. Although blending is generally good, heat transfer is not as good as the close clearance high viscosity impellers. The screw impeller is suitable for fluids which are not too pseudoplastic with power law indexes less than 0.5.
  • Image JT-2
    The JT-2 Impeller has been developed for superior blending in transitional flow. Higher viscosity and non-Newtonian fluids make blending much more challenging. This impeller is used after conventional turbines have lost efficiency due to viscous effects and before the need for close clearance impellers.


  • Image ChemSeal
    ChemSeal™ is a true Chemineer mixer seal designed for demanding top entry agitator applications where shaft movements are larger, speeds are slower and conditions more variable than those encountered by pump seals.



  • Image Prochem MD Series Mixers
    The MD Mixer's modular design, featuring innovative shaft bearing cartridges, allows longer operating runs between maintenance periods. Routine maintenance and overhauls can be performed without draining the tank or removing the mixer.
  • Image Prochem PB Series Mixers
    Prochem® PB Series Mixers combine the proven features of the MD Series with the advantages of a pillow block bearing design. You get truly efficient fluid processing plus maximum simplicity of maintenance.
  • Image Prochem VM Series Mixers
    Prochem VM Turbine agitators offer versatility and performance for optimum results regardless of the fluid being processed. The VM Series agitators are ideal for applications requiring high output speeds at medium torques.
  • Image Maxflo WSE
    A high efficiency, advanced side-entering hydrofoil impeller that produces maximum pumping action. It has more cavitation resistance than other designs through effective hydrodynamic design.
  • Image Maxflo Mark II & III Impellers
    High efficiency, high solidity impellers for use in turbulent side entering applications. They are especially effective for fluids possessing a yield value, such as paper stock. The high solidity permits operation nearer the boiling point without cavitation.


  • Image KM Mixers
    In all Kenics® KM Series Static Mixers, a patented helical mixing element directs the flow of material radially toward the pipe walls and back to the center. Additional velocity reversal and flow division results from combining alternating right- and left-hand elements, thus increasing mixing efficiency. All material is continuously and completely mixed, eliminating radial gradients in temperature, velocity and material composition.
  • Image KMX-V Mixers
    For demanding mixing applications, such as those involving fluids with widely disparate viscosities or volume ratios, the common limiting factor in static mixer design is the allowable mixer length. The KMX was patented in 2002 and enhanced in 2012 to handle difficult laminar flow mixing applications. Specifically the mixer is intended for extreme viscosity and volumetric ratios.
  • Image HEV Mixers
    The patented tab geometry of the Kenics® HEV Static Mixer maximizes the conversion of turbulent energy into efficient mixing for a variety of line shapes and sizes. The mixing elements take advantage of the naturally occurring vortices induced by the element edges to produce complete stream uniformity.
  • Image UltraTab
    UltraTab mixers provide rapid mixing in short distances common in water treatment, desalinization plants, and chemical processing applications. A low pressure drop through the mixer provides energy savings to the process.
  • Image WVM Mixers
    The WVM mixers consist of a simple wall additive injection point, a pre-distribution tab immediately downstream of the injection point and banks of trapezoidal shaped mixing elements. The number of banks of mixing elements varies depending on the mixture quality required for the process. The dimensions, angle of attack and spacing of the trapezoidal mixing elements varies between the WVM models A, B and C. The pre-distribution tab and the injection point design are the same for all WVM models.
  • Image Heat Exchangers
    Kenics® Static Mixer technology, available exclusively in Kenics® Heat Exchangers, offers the highest available coefficients for fast, uniform heat transfer. Capable of reliable operation in a wide range of process applications, including those in the polymer, plastic, and food and beverage industries, Kenics Heat Exchangers require less space, less energy and less residence time than standard designs.


  • Image Pipeline Mixers
    Greerco® Pipeline Mixers are designed for in-line continuous high-speed, high-shear homogenizing, mixing, emulsifying and rapid dispersing. The Pipeline Mixer offers several mixing heads, each having the ability to handle a range of mixing applications.
  • Image Homogenizer
    Greerco® Homogenizers from Chemineer are high-speed, high-shear batch mixers ideal for fast blending and homogenizing of materials through a wide range of viscosities.
  • Image Colloid Mill
    Greerco® Colloid Mills are highly efficient, in-line, processing units specifically designed to disperse solids and/or liquids into a carrying vehicle rapidly and uniformly. Any emulsion or suspension - liquids in liquids or solids in liquids - can be reproduced repeatedly with unvarying particle-size accuracy and distribution. Greerco Colloid Mills produce stable emulsions to the submicron range.

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