Mixing Impeller

Over the past few years, the demands for Mixing systems in industrial uses have consistently risen. Thus, Verito offers diverse range of mixing impellers designed with distinct performance attributes to fulfill a variety of application needs. The design of the Impeller blades, the choice of an appropriate mixing setup, and the arrangement of the agitator parts have a significantly impact both the process-related and mechanical characteristics. Each of our impellers are manufactured with 316 Stainless Steel material as the standard option. However, we also have alternatives such as 304 Stainless Steel, Mild Steel/Carbon Steel, Hastelloy, Titanium, and other premium alloy versions for most impeller designs as per the application. We also offer various surface treatments like polishing, coatings, and pickling and passivation processing.

Pitch Blade Turbine

The Pitch Blade Turbine impeller holds a prominent position as one of the most extensively employed impeller types and one of the earliest established designs in the field of mixing.

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Flat Blade Turbine

The Flat Blade Turbine presents a radial flow design that finds widespread application in situations characterized by low liquid levels or the need for high shear forces, requiring more power consumption compared to axial flow impellers.

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Propeller

The three-bladed propeller is a common choice for facilitating axial pumping in situations involving fluids with low viscosity. This adaptable impeller is well-suited for tasks such as mixing, homogenization, and suspension.

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Hydrofoil Impeller

The Hydrofoil Impeller delivers exceptional pumping efficiency characterized by a robust axial flow. Although suitable for a wide array of applications, this design particularly shines

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WideFoil Impeller (Wide Hydrofoil)

The wide blade foil is commonly a high performance impeller for higher viscosity applications in transitional fluid regimes

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Folding Impellers (Folding blade Turbine)

Folding impellers find their primary application in mixing scenarios where accessing the vessel is restricted, commonly observed with 1000 Liter or 2000 Liter IBC totes.

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Rushton Turbine (Radial Disc Impeller)

The Rushton impeller, named after its inventor, is among the earliest documented designs for mixing impellers. It comprises flat, vertically oriented blades symmetrically arranged around a flat disc that lies horizontally.

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Concave Disc Turbine (Smith Impeller)

The Concave Disc Turbine was created to address the limitations of flat blade disc turbines in situations involving gas, resulting in improved efficiency.

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High Shear Disc (Cowles Disc Impeller)

The impeller's Saw tooth blade configuration contributes to mixing by producing high shear forces. This design is particularly effective for activities like thoroughly blending

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Anchor Impeller

The shape of the impeller resembles that of the anchor, which generally consists of two blades arranged parallel to the shaft. The anchor impeller generally produces the tangential

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Helix Impeller

One of the widely favored designs for effectively homogenizing with minimal shear and blending high-viscosity materials is the impeller featuring a band-shaped helix fixed to the shaft through cross-bars.

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Parabolic Impeller

The Parabolic Impeller is a versatile and adaptable tool, suitable for a wide range of uses. It works exceptionally well with highly viscous materials or in media with a critical rheology

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