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Our Products

VisiMix Ltd. developed the first PC software for technical calculations, analysis, improvement, scale-up, and development of mixing processes and equipment based on mathematical simulation. VisiMix products enable chemical engineers, process engineers, and R&D personnel to visualize mixing processes and to calculate the most important process parameters for single- and two-phase systems. These parameters include power consumption, circulation rates, local concentrations of solutes and suspended particles, drop size, concentrations of reactants in chemical reactors, and more. VisiMix products provide efficient solutions at all critical points of the process: troubleshooting/improvement, equipment design, process R&D, equipment purchase, production, etc.

The products provide data about the dynamic characteristics of mixing equipment, and a wide range of data required for mathematical modeling of different unit operations such as local flow velocities, turbulence intensities, micro-mixing, etc.,.

VisiMix inputs consist of easily accessible data on the mixing equipment and the properties of the media.

If the mixing is not well understood, wrong choices could be adopted in the process development. It is estimated that losses by poor mixing per year are $1 TO $10 Billion in the US Chemical industry alone.”

Handbook of Industrial Mixing, E.L. Paul, V.A. Atiemo-Obeng, and S.M. Kresta (Eds.),  Wiley-Interscience, New York, 2004

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VisiMix Video

The Influence of Mixing in the Process
New methodology using VisiMix software for the purpose of checking the influence of mixing in the processes.

VisiMix Demo Operation
Learning how to input data into the VisiMix software and get results the will help us understand the influence of mixing in our processes.

Lab Experiments
Learning how to set up the relevant experiments at the lab scale, to develop the processes from an engineering point of view.

VisiMix
User friendly, universal and reliable Computational Process Engineering software for analysis of processes facilitated by mixing.