Search Results for radial flow

9" Dia. 4-Blade Radial Flow Turbine - Mill Finish

SKU:RTI-9

9" Dia. 4-Blade Radial Flow Turbine - Mill Finish, Impeller 4 Blade Radial Turbine 9" Diameter, 316SS, 90 Degree Pitch Bore: Set screws: (2) 5/16" -18 Model # RTI-9

16" Dia. 4-Blade Radial Flow Turbine - Mill Finish

SKU:RTI-16

16" Dia. 4-Blade Radial Flow Turbine - Mill Finish, Impeller 4 Blade Radial Turbine 16" Diameter, 316SS, 90 Degree Pitch Bore: Set screws: (2) 1/2" -13 Model # RTI-16

10" Dia. 4-Blade Radial Flow Turbine - Mill Finish

SKU:RTI-10

10" Dia. 4-Blade Radial Flow Turbine - Mill Finish, Impeller 4 Blade Radial Turbine 10" Diameter, 316SS, 45 Degree Pitch Bore: Set Screws: (2) 5/16"- 18 Model # RTI-10

11" Dia. 4-Blade Radial Flow Turbine - Mill Finish

SKU:RTI-11

11" Dia. 4-Blade Radial Flow Turbine - Mill Finish, Impeller 4 Blade Radial Turbine 11" Diameter, 316SS, 90 Degree Pitch Bore: Set screws: (2) 5/16" -18 Model # RTI-11

20" Dia. 4-Blade Radial Flow Turbine - Mill Finish

SKU:RTI-20

20" Dia. 4-Blade Radial Flow Turbine - Mill Finish, Impeller 4 Blade Radial Turbine 20" Diameter, 316SS, 90 Degree Pitch Bore: Keyway: Set screws: (2) 1/2"- 13 Model # RTI-20

6" Dia. 4-Blade Radial Flow Turbine - Mill Finish

SKU:RTI-6

6" Dia. 4-Blade Radial Flow Turbine - Mill Finish, Impeller 4 Blade Radial Turbine 6" Diameter, 316SS, 90 Degree Pitch Bore: Set screws: (2) 1/4" -20 Model # RTI-6

19" Dia. 4-Blade Radial Flow Turbine - Mill Finish

SKU:RTI-19

19" Dia. 4-Blade Radial Flow Turbine - Mill Finish, Impeller 4 Blade Radial Turbine 19" Diameter, 316SS, 90 Degree Pitch Bore: Keyway: Set screws: (2) 1/2" -13 Model # RTI-19

Choosing Your Impeller

, including the desired flow pattern, viscosity of the fluid, and the impeller's geometry. The first factor to consider is the flow pattern which is where the fluid flows throughout the mixing tank. Different impellers produce different flow patterns, such as axial, or radial, each with their relevant, applications. Radial flow impellers produce a horizontal flow pattern essentially pushing fluids outwardly, Set Screws, Polishing, and Electropolishing. Radial Flow Turbines Standard

Difference between impellers and propellers in mixing

are axial flow impellers and radial flow impellers. Axial flow impellers produce fluid motion that runs parallell to the mixing shaft and, as one might expect, radial flow designs produce flow that moves primarily outward from the mixing shaft. Examples of each type are axial flow turbines and radial, the higher surface contact necessary for heavier mixtures. Another example of a radial flow impeller, axial and partly radial. This provides a balance between the flow characteristics of axial and radial

Mixing Impeller Selection: Which Design is Best?

blending and solids suspension. Good material flow is essential to successful execution of these processes. Hydrofoil impellers, marine style mixing propellers, axial flow turbines and radial flow turbines are all flow-producing impeller designs. Each impeller design has unique characteristics, discussed impellers, radial flow turbines produce a primary flow pattern 90-degrees from the shaft, profile creates nearly uniform flow with the minimum required horsepower. Hydrofoils are fabricated

The Difference Between High Shear and Low Shear Mixing

style mixing propellers, axial flow turbines and radial flow turbines are all flow-producing, and its rotational speed. Miscible materials that mix readily from flow and turbulence in the tank, nearly uniform flow with the minimum required horsepower input and is especially effective, miscible batch applications. Marine style propellers and axial flow turbine impellers are common as well. Axial flow turbines are fabricated similarly to hydrofoils but with large, flat blade surfaces

Mixing Impeller Selection

suspension. Good material flow is essential to successful execution of these processes. Hydrofoil impellers, marine style mixing propellers, axial flow turbines and radial flow turbines are all flow, to drive them. Unlike the previously discussed impellers, radial flow turbines produce a primary flow, a d e p rofile creates nearly uniform flow with the minimum required horsepower. H y d rofoils, pitch propellers are available where increased flow from a given impeller size is desired. Large

How to Calculate Tip Speed for a Dispersion Blade

-broken material is thoroughly mixed and particles are dissolved or dispersed by the laminar flow set up by the blade. This flow is separated at the vessel’s wall, ensuring complete circulation. To get, for some helpful hints. The optimum action of a disperser mixer is a combination of rotary and radial flow. A particle starting at the outer edge of the container should travel to the center

May 2013 Top Sellers are Mixing Propellers

propellers, hydrofoils, folding impellers, axial and radial flow turbines and dispersion blades

How Dispersion Works

of rotary and radial flow. A particle starting at the outer edge of the container should travel, ). 3. The flow then divides into upward and downward components at the vessel wall ensuring complete, and particles dissolved or dispersed by the horizontal laminar flow extending from the blade.

Choosing Your Sanitary Mixer

, axial flow impellers are commonly used for mixing low viscosity fluids, while radial flow impellers

Industrial Mixers in Metals Mining and Production

applications. Mixing impeller options include hydrofoil, axial flow turbine, Rushton, and radial designs, suspension and high flow with low shear are central to successful agglomeration, precipitation, equipped with hydrofoil impellers provide high flow with minimal shear and energy consumption

How Dispersion Works

m b i n a t i o n o f rotary and radial flow. A particle starting at the outer edge, is throughly mixed and particles are dissolved or dispersed by the laminar flow set up by the blade. The flow is separated at the vessel’s wall ensuring complete circulation. HOW TO GET THE MOST, the blade diameter to obtain a good flow, as long as the amount of material above the blade is greater

How Dispersion Works

m b i n a t i o n o f rotary and radial flow. A particle starting at the outer edge, is throughly mixed and particles are dissolved or dispersed by the laminar flow set up by the blade. The flow is separated at the vessel’s wall ensuring complete circulation. HOW TO GET THE MOST, the blade diameter to obtain a good flow, as long as the amount of material above the blade is greater

Frequently Asked Questions - Get Answers Here! | INDCO

and have a great efficiency. Propellers are used in low-volume, medium-viscosity liquids. Axial flow turbines are used in medium to heavy viscosities. Radial flow turbines are used in circumstances, for you today. Question: How do I determine my flow direction? Answer: See technical information, to shear than the hydrofoil. The axial flow turbine devotes an even higher ratio to shear