Numerical investigation of blade shape in static mixing

## Abstract The mixing of fluids in a microchannel is numerically investigated using three‐dimensional Navier–Stokes equations. The microchannel has circular mixing chambers that are designed to create a self‐circulating flow that operates at low Reynolds numbers. The investigations have been perfo

## Abstract It is well known that blade geometry significantly affects the performance and efficiency of partially filled internal mixers. Intermesh type blades with very long tips are regarded as effective alternatives to almond‐shaped blades used in more traditional tangential rotor mixers. Howev

## Abstract Laminar flow and mixing of a Newtonian fluid are characterized in a four‐element Koch‐Glitsch SMX static mixer. The computational analysis on a fine, unstructured mesh containing more than 3.5 million tetrahedral elements led to high‐resolution numerical data for velocity and pressure.

## Turbulent Mixing in Baffled Stirred Tanks with Vertical-Blade Impellers Mixing time and power consumption have been measured in baffled, paddle-agitated cylindrical tanks with single-and double-impellers, and mixing efficiency has been defined by a reciprocal of the product of the mixing time a