Characterization of batch mixers using numerical flow simulations

A numencal procedure was developed to compute the streamhnes and the shear rate dlstrlbutron for the tlow of Newtoman and "power-law" hqmds between a mixer arm and the vessel wall The results show that the geometry of the mixer has an overrldmn Influence upon the extent and dtstrlbutlon of shear whd

## Abstract This paper uses the element‐free Galerkin (EFG) method to simulate 2D, viscous, incompressible flows. The control equations are discretized with the standard Galerkin method in space and a fractional step finite element scheme in time. Regular background cells are used for the quadratur

## Abstract In this paper, the flow/acoustics splitting method for predicting flow‐generated noise is further developed by introducing high‐order finite difference schemes. The splitting method consists of dividing the acoustic problem into a viscous incompressible flow part and an inviscid acousti

## 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.