Projects

At the Chair of Applied Mathematics 3, we work (or have worked) on the following projects (in time-reversed order):

• Modern approaches to solving the Full-Stokes problem in the context of ice sheet modeling
• Convective heat transport in nanofluids
• Besov regularity of parabolic partial differential equations on Lipschitz domains
• Cooling of a battery module
• A discontinuous Galerkin method for the subjective surfaces problem
• Interactive high-performance computing
• Non-newtonian two-phase flow
• Temporal Multiscale Methods for an Artherosclerosis Model
• A priori and a posteriori error estimates for time-dependent problems
• Optimization of Airlay Processes
• Marangoni convection
• Solid-liquid phase transitions with a free melt surface
• Higher order time discretization for free surface flows
• Fluids in rocket tanks
• Particulate flows in industrial applications