Difference between revisions of "Georg Rempfer"
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{{Download|BSc_thesis_rempfer.pdf|"Lattice-Boltzmann Simulations in Complex Geometries"}}, 2010, Institute for Computational Physics, Stuttgart | {{Download|BSc_thesis_rempfer.pdf|"Lattice-Boltzmann Simulations in Complex Geometries"}}, 2010, Institute for Computational Physics, Stuttgart | ||
− | The focus of this thesis lies on the simulation of processes in molecular dynamics that are governed by electrostatic and hydrodynamic interactions in volumes with boundaries. The first objective was | + | The focus of this thesis lies on the simulation of processes in molecular dynamics that are governed by electrostatic and hydrodynamic interactions in volumes with boundaries. The first objective was to change the existing implementation of the Lattice-Boltzmann-Method in {{ES}} so that it can handle systems with |
arbitrarily complex boundary geometries. | arbitrarily complex boundary geometries. | ||
[[File:bsc_rempfer_poiseuille_flow.png|600px|center|Poiseuille flow in tilted channels]] | [[File:bsc_rempfer_poiseuille_flow.png|600px|center|Poiseuille flow in tilted channels]] | ||
− | Additionally, a scenario involving the fluid-boundary interaction and the fluid-particle interaction was supposed to be developed for which analytical results can be obtained so that the correctness of the implementation could be verified. | + | Additionally, a scenario involving the fluid-boundary interaction and the fluid-particle interaction was supposed to be developed for which analytical results can be obtained, so that the correctness of the implementation could be verified. |
This system consists of an electro-osmotic flow in an infinite slit pore. The analytical treatment was conducted by means of the electrokinetic equations. | This system consists of an electro-osmotic flow in an infinite slit pore. The analytical treatment was conducted by means of the electrokinetic equations. | ||
Revision as of 16:04, 11 March 2013
PhD student
Office: | 1.035 |
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Phone: | +49 711 685-67702 |
Fax: | +49 711 685-63658 |
Email: | georg _at_ icp.uni-stuttgart.de |
Address: | Georg Rempfer Institute for Computational Physics Universität Stuttgart Allmandring 3 70569 Stuttgart Germany |
Master Thesis
In Progress: "Charge Discretization Effects in DNA translocation processes"
Bachelor Thesis
"Lattice-Boltzmann Simulations in Complex Geometries" (1.36 MB), 2010, Institute for Computational Physics, Stuttgart
The focus of this thesis lies on the simulation of processes in molecular dynamics that are governed by electrostatic and hydrodynamic interactions in volumes with boundaries. The first objective was to change the existing implementation of the Lattice-Boltzmann-Method in ESPResSo so that it can handle systems with arbitrarily complex boundary geometries.
Additionally, a scenario involving the fluid-boundary interaction and the fluid-particle interaction was supposed to be developed for which analytical results can be obtained, so that the correctness of the implementation could be verified. This system consists of an electro-osmotic flow in an infinite slit pore. The analytical treatment was conducted by means of the electrokinetic equations.
Teaching
- Mathematische Methoden der Physik (WS 11/12)
- Höhere Mathematik 3 für Ingenieure (WS 10/11)