We are an international group of researchers with backgrounds in chemical and mechanical engineering, as well as chemistry. We aim on simulation projects in the field of complex fluid flow (mainly polymer melts, and granular materials), multiphase flow (e.g., bubbly flows, gas-particle suspensions, 3-phase flows), as well as reactive flows. Our simulation philosophy is based on a bottom-up strategy, i.e., we aim on a systematic understanding of small-scale phenomena to obtain scientifically-sound closures for larger scales. For this purpose, we use simulations at various scales, but only a limited set of experiments, to advance science in our field. Our ultimate goal is to establish simulation platforms (together with our partners) that connect researchers and industrial end users world-wide to study complex fluid and particle flow phenomena. We are embedded into a international network of researcher, and frequently interact with national and international companies. We are eager to tackle new challenges and start new collaborations! Feel free to contact us!
Libraries for spatial filtering, closure development for "coarse grained" models, development of tools
Simulation of transport properties (especially diffusion coefficient) of materials (e.g. polymers) using the Molecular Dynamics code "LAMMPS".
Granular flow (using the Discrete Element Method), Smoothed Particle Hydrodynamics (granular and semisolid systems)
Suspensions (gas-solid, liquid-solid), separation and fractionation processes, Smoothed Particle Hydrodynamics, bubble columns, 3-phase flows (flotation, wet fluidized beds)
Flows featuring homogeneous and/or heterogeneous chemical reactions, as well as heat and mass exchange
CFD simulations of flows in clean environments (i.e., flows in clean rooms, locks, isolators, decontamination devices) enable an optimal design and can help to solve problems in the operation of these processes. Our group has many years of experience with these simulations and is happy to support industrial customers with their questions.
Alumni (PhDs only)
Google Scholar Profile
Design of Multiphase Flow Processes Course 2020
Link to all other courses of Stefan Radl
List of Group Members