"For us Athena for is an essential tool for propriety model development and distribution. In our applications Athena proved to be very robust in large parameter estimation tasks. We benefitted from the easy way of adding own Fortran code. Distribution of the developed models by means of Excel DLL's pushed the use of models throughout R&D and Sales departments. Fast and to the point support of Michael himself was very helpful".
Hans Boelens, Ph.D. - HPC R&D
Albemarle Catalysts Company B.V. Amsterdam
"Athena provides a quite integrated and powerful environment to carry our modelling, parameter estimation and optimisation of chemical engineering processes. Especially in the field of reaction engineering there are a multitude of tools and examples available to allow research students to become productive quite quickly. The interface is very user friendly and simplifies the programming tasks, e.g. in relation to the discretisation of partial differential equations, considerably. More experienced programmers can further utilise the underlying FORTRAN to implement more complex models or interface with existing codes they might have developed in the past."
Dr Panagiotis Kechagiopoulos - Lecturer in Chemical Engineering, University of Aberdeen
Athena Visual Studio satisfies basic needs of Chemical Engineers in R&D environments. Regularly facing new engineering problems AVS provides a powerful numerical platform to solve the associated mathematical relations. It stays close to these relations, eliminates precious programming time and allows quick exploration of parameter space. Great for lecturers and researchers.
Freek Kapteijn, Ph.D. - Professor, Delft University of Technology
"My Athena experience applies to testing and prediction of catalyst & sorbent performance. Linking Athena to Excel creates easily accessible models for commercial people in the organization. In that way modeling generates a daily business impact beyond research and innovation."
Johan J. Heiszwolf - R&D Director
Lhoist
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.
