Chair for System Simulation (Department of Computer Science 10)
Dominik Bartuschat
Research
Publications
Posters
Teaching
Offered Theses
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Dominik Bartuschat
Dominik Bartuschat
Office:
Cauerstraße 11
Room 00.121
E-mail:
dominik.bartuschat@fau.de
Phone:
+49 9131 85 67298
Fax:
+49 9131 85 28928
Address:
Universität Erlangen-Nürnberg
Lehrstuhl Informatik 10 (Systemsimulation)
Cauerstraße 11
D-91058 Erlangen
Research
Efficient algorithms for large-scale multi-physics simulations of particle-laden electrokinetic flows
Efficient geometric multigrid solvers
Simulation of charged particles in electrolyte solutions for applications in laboratory-on-a-chip systems
Publications
List of Publications
Master Thesis
Posters
ASIM Workshop 2008
NIC Symposium 2010
ASIM Workshop 2011
Teaching
Summer Term 2013
Simulation and Scientific Computing 2 (SiWiR2)
Winter Term 2012/13
Simulation and Scientific Computing 1 (SiWiR1)
Summer Term 2012
Simulation and Scientific Computing 2 (SiWiR2)
Winter Term 2011/12
Simulation and Scientific Computing 1 (SiWiR1)
Summer Term 2011
Simulation and Scientific Computing 2 (SiWiR2)
Winter Term 2010/11
Simulation and Scientific Computing 1 (SiWiR1)
Summer Term 2010
Simulation and Scientific Computing 2 (SiWiR2)
Winter Term 2009/10
Simulation and Scientific Computing 1 (SiWiR1)
Advanced numerical techniques with applications in image processing (KTHANTIP)
Summer Term 2009
Playstation 3 Programming (PlayProg)
Offered Scientific Theses
Available Theses
Simulation of Capillary Microcirculation for Computation of Interstitial Hydrostatic Pressure
Multigrid with Higher-order Prolongation and Restriction in waLBerla for elektrokinetic flow applications
Multigrid for jumping coefficients in waLBerla
Transient behavior of electrical double layers in electrokinetic flows by Poisson-Nernst-Planck equation
Further topics after consulting
Running Theses
Lubrication correction for simulating particle-fluid interaction with the lattice Boltzmann method
Numerical solution of the Poisson-Nernst-Planck equation system
Transient electro-osmotic flow simulation with a coupled lattice Boltzmann - link flux method
Finished Theses
Fluid-particle interaction with the immersed boundary - lattice Boltzmann method
Cell-Centered Multigrid with Higher-Order Transfer Operators in waLBerla
Contact
Last modified: 2013-04-25 07:34
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