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3" Radial Flow Lab Impeller w/ 3/8" Bore
The Radial flow turbine creates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.Mixer Direct's Lab Radial Flow Turbine features a 3" blade, a 3/8 bore, and a hub with set screw attachment for easy blade installment.
1.5" Radial Flow Lab Impeller w/ 3/8" Bore
The Radial flow turbine creates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow of this stainless-steel radial blade impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.Mixer Direct's Lab Radial Flow Turbine features a 1.5" blade, a 3/8" bore, and a hub with set screw attachment for easy blade installment.
2" Radial Flow Lab Impeller w/ 3/8" Bore
The Radial flow turbine creates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow of this stainless-steel turbine impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers. Mixer Direct's Lab Radial Flow, Stainless-Steel Turbine features a 2" blade, a 3/8" bore, and a hub with set screw attachment for easy blade installment.
2.5" Radial Flow Lab Impeller w/ 3/8" Bore
The Radial flow turbine creates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.Mixer Direct's Lab Radial Flow Turbine features a 2.5" blade, a 3/8" bore, and a hub with set screw attachment for easy blade installment.
Radial Flow Turbine, 4" Diameter, 5/8" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 8" Diameter, 5/8" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 6" Diameter, 5/8" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 5" Diameter, 5/8" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 12" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 12" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 10" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 9" Diameter, 5/8" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 8" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 7" Diameter, 5/8" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 6" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 26" Diameter, 2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 20" Diameter, 1 1/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 16" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 14" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 11" Diameter, 5/8" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 11" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 10" Diameter, 1 1/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 9" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 9" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 8" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 7" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 7" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 6" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 5" Diameter, 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 5" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 40" Diameter, 2.5" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 40" Diameter, 2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 40" Diameter, 1 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 4" Diameter, 3/4" Bore
The radial flow impeller creates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial mixer turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers. Contact us for more information on these radial flow impellers.
Radial Flow Turbine, 4" Diameter, 1" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the radial blade impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers. Contact us for more information about our radial blade impellers.
Radial Flow Turbine, 38" Diameter, 2.5" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 38" Diameter, 2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 38" Diameter, 1 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 36" Diameter, 2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 36" Diameter, 1 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 36" Diameter, 1 1/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 36" Diameter, 1 1/2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 34" Diameter, 2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 34" Diameter, 1 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 34" Diameter, 1 1/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 34" Diameter, 1 1/2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 32" Diameter, 2" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.
Radial Flow Turbine, 32" Diameter, 1 3/4" Bore
The Radial flow turbine crates a radial flow pattern moving away from the impeller, towards the sides of the vessel. The flow impacts the side and moves in either an upward or downward direction to fill the top and bottom of the impeller and be ejected once more. Some applications benefit greatly from this type of action, namely gas dispersion. Radial flow turbines have a high horsepower draw relative to axial flow turbines and other axial flow impellers.