Model Fluid Flow in Mixers, Stirred Reactors, and Rotating Machinery with the Mixer Module
Mixing is performed in this turbulent mixer through a three-bladed impeller and the placement of two rods to disturb flow. The model also considers the shape of the free surface.
Meet Product Requirements via Simulation-Supported Design and Optimization
As an add-on to the CFD Module, the Mixer Module allows you to analyze fluid mixers and stirred reactors. Aided by dedicated functionality for simulating fluid flow subjected to rotating machinery, the Mixer Module also provides material data for modeling different fluids and free surfaces.
Mixers with rotating parts are used in many industrial processes, such as the production of consumer products, pharmaceuticals, food, and fine chemicals. Often, a mixer may be used in batch processes for many different purposes, even on a day-to-day basis, where products are produced at low volumes and sold at high prices.
One thing all mixing processes have in common is that quality, reproducibility, and uniformity of the products is of utmost importance. One way of making sure that these product requirements are met is to perform simulations in order to design and optimize the operation of the mixing process and the mixer itself. Models and simulations are particularly useful when they can be validated by a pilot process, and then be used for scale-up computations. Once validated, such models may be used to avoid the costs involved in building and running pilot scale processes, and instead go directly from the lab scale to full-scale production.