"The Athena visual software is a powerful tool that allows our group estimate parameters for many different adsorption isotherm models and model the separation process of gas mixtures. With the user-friendly interface it is convenient to build models."
De-Li Chen (陈德利) - Associate Professor
Institute of Physical Chemistry
Zhejiang Normal University
“Athena Visual Studio combines strong and efficient numerical solvers with straightforward syntax coding and GUI. This allows also non-experts to solve complex chemical engineering problems. I am a happy user of the package for both consultancy and teaching since almost 20 years.”
Rob Berger - Consultant in Catalysis & Reactor Engineering and Reaction Kinetics
“Athena Visual Studio is a powerful and versatile program that I am using for modeling dynamic reactor performance and to fit complex kinetic models to experimental data sets. It allows you to build a working model quickly, without the need for programming expertise, but is also sufficiently flexible to permit you to insert custom Fortran code when needed. I have used the program for over 15 years and have yet to encounter a comparable program that meets my needs just as well.”
Alexander Nijhuis - Chief Scientist
Geleen Technology Center
SABIC
"More than a decade ago, Dow selected Athena Visual Studio to replace our internally developed modeling and parameter estimation tool. Based on our assessment, Athena was and is the best tool for chemical reaction engineers developing models of reaction kinetics with parameters fit to experimental data."
Dan Hickman, Ph.D. - Fellow
Engineering & Process Science, Core R&D
The Dow Chemical Company
Eighteen years ago, I started to use Athena for developing a sophisticated methodology of multi-parameter estimation for the characterization of the pore structure of catalyst carriers. Since then, Athena has been a valuable tool for our research concerning, among others, the migration of pollutants in subsurface and study of advanced methods of soil and groundwater remediation. It’s worth mentioning the extensive use of Athena for the multi-scale numerical simulation of multiphase transport and reactive processes in porous media, and inverse modeling of datasets from relevant laboratory experiments.
