Selection of Stirrer Type The following will help in the selection of stirrer shafts. All stated values are data established by experimentation and practical testing. All stirring elements are made for clockwise rotation (viewed from the top of the stirring agitator). Propeller stirrer shafts Stirrer shaft with several, inclined, arched and partly twisted blades. Also with draft tube. Stirring effect is based on a mainly axial flow which moves away from the agitator; changes in the blade inclination or rotating direction result in a change of the flow direction. Disc stirrer shafts Stirrer shaft with a blade with several, plane or curved paddles. Stirring effect is based on a radial, outwards directed flow with axial suction from the bottom and the top. The dispersing liquid is exposed to a high shearing. Impeller stirrer shafts Stirrer shaft with three angular, arched paddles. The stirring effect is based on a radial flow which is diverted axially due to the ground level position of the stirrer.
Stirrer shafts with rigid paddle Stirrer with a narrow blade. The stirring effect is based on a radial and axial flow. The product is opposed to shear forces ranging from moderate to strong.
Stirrer shafts with rigid blade Solid, plane blade in user-defined form. Stirring effect due to different rotation speeds of the product displaced by stirring and the residual vessel content.
Stirrer Shafts with angular blades Stirrer shaft with several inclined, rectangular, straight blades. The stirring effect is based on an axially directed flow combined with an increased shear rate. Reversion of the flow can be obtained by changing the inclination of the blades or the rotation direction. U-shaped stirrer shafts Anchor stirrer blade adapted to the vessel’s wall, reaches from edge to edge. The stirring effect is based on a mainly tangential flow with poor axial forces.
Double impulse stirrer shafts Stirrer shaft with two contrarily aligned blades on a radial arm. The stirring effect is based on an axial flow with poor radial forces. Analogue to the conveying direction of the blades an axial flow arises near to the shaft. |