Paid Diploma / Master's Thesis
Parameter scaling in discrete element method simulations
Ref. No. DA193
To dedicated students of electrical/chemical/process/information engineering, mathematics, physics or related disciplines, we offer an opportunity to write a paid Diploma/Master's Thesis.
OBJECTIVE
Accurate prediction of powder behavior in numerical simulations strongly depends on properly calibrated contact parameters. In practice, however, particle sizes often differ between simulations due to scaling, computational constraints, or application-specific requirements. Parameters calibrated for one particle size cannot be directly applied to another without affecting the macroscopic response. This creates significant challenges in application-oriented projects.
Although a theoretical foundation for contact parameter scaling with respect to particle size already exists and calibration units have been tested, a systematic and practical scaling framework is still required. In particular, it must be clarified how contact parameters of different models can be consistently scaled when particle size changes, while preserving the relevant macroscopic behavior.
The goal of this Master's thesis is to develop and validate an application-oriented scaling methodology for contact parameters with respect to particle size. The outcome should provide clear guidelines for adapting calibrated parameter sets to different particle sizes, ensuring reliable and computationally efficient simulations in upcoming industrial projects.
WITHIN THE FRAMEWORK OF THIS DIPLOMA / MASTER'S THESIS WE OFFER THE FOLLOWING:
* Extensive participation in a top-level and industrially relevant research project in an international environment
* Supervised training in the task
* Assistance of experienced staff with the implementation of innovative ideas
* Access to highly modern infrastructure on campus of Graz University of Technology
* Assistance with the publication of results
FINANCING
* Compensation on the basis of a service contract
If you are interested in writing your thesis at the interface between university research and industry/ business and to contribute to the optimization of product and process development in the pharmaceutical industry, please apply directly via our website.