Difference between revisions of "Dipl.-Tech. Math. Philipp Neumann"

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P. Hoffmann. Ein Kopplungsansatz für hybride Lattice Boltzmann-Molekulardynamik-Simulationen mit MarDyn. Master's thesis. 2011. [[Coupling strategies for hybrid molecular dynamics-Lattice Boltzmann simulations|Description]].
 
P. Hoffmann. Ein Kopplungsansatz für hybride Lattice Boltzmann-Molekulardynamik-Simulationen mit MarDyn. Master's thesis. 2011. [[Coupling strategies for hybrid molecular dynamics-Lattice Boltzmann simulations|Description]].
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W. Wang. Benchmark computations for the Lattice Boltzmann component within the Peano framework. Work during employment as student assistent. 2011.
 
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T. Rohrmann. Lattice Boltzmann simulations in the finite Knudsen number range within the Peano framework. Bachelor's thesis. 2011. [[Lattice Boltzmann Simulations in the finite Knudsen number range|Description]].
 
T. Rohrmann. Lattice Boltzmann simulations in the finite Knudsen number range within the Peano framework. Bachelor's thesis. 2011. [[Lattice Boltzmann Simulations in the finite Knudsen number range|Description]].
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B. Gholami, D. Kleine-Albers, C. Kowitz, N. Melik-Barkhudarov, O. Perro, S. Selcuk and N. Shahriari. Simulating Free Surface Flows with the Lattice Boltzmann Method. BGCE Honours Project. 2010.
 
B. Gholami, D. Kleine-Albers, C. Kowitz, N. Melik-Barkhudarov, O. Perro, S. Selcuk and N. Shahriari. Simulating Free Surface Flows with the Lattice Boltzmann Method. BGCE Honours Project. 2010.
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T. Halici. Implementation of the two-relaxation-time model into the Lattice Boltzmann component of the Peano framework. Work during employment as student assistant. 2010.
 
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[[Category:Chair]]
 
[[Category:Chair]]

Revision as of 12:46, 2 July 2012

File:Image-neumanph.jpg Address:
TU München
Institut für Informatik
Boltzmannstr. 3
85748 Garching b. München
Office:
MI 02.05.061
Email:
Neumanphmail.png
Phone:
(089) 289 18 626
Fax:
(089) 289 18 607
Office Hours:
by arrangement
Teaching:
SS 09
Lab Course Computational Fluid Dynamics
Ferienakademie 2009 - Course 9: Simulation technology
Course material: Handouts and slides
SS 10
Lab Course Computational Fluid Dynamics
SS 11
Master Lab Course Computational Fluid Dynamics
Bachelor Lab Course Game Physics
SS 12
Master Lab Course Computational Fluid Dynamics
Homepage:
Welcome to Super-Epsi's world
Topics for diploma/ master's theses:

Hybrid molecular dynamics-Lattice Boltzmann simulations for complex liquids

A hybrid molecular dynamics-Lattice Boltzmann approach to multiscale fluid dynamics

Implementation of a multispeed Lattice Boltzmann solver

Coupling strategies for hybrid molecular dynamics-Lattice Boltzmann simulations

Dynamic adaptive refinement techniques for free surface flow simulations

Beside the listed topics for diploma and master's theses, individual topics and suggestions are also always welcome! Just drop by my office so that we can discuss your ideas!

Finished student projects:

M. Georgiev, D. Gudu, M. Hinterstocker, T. Kovacevic and A. Shahvarani. MRI goes FRAVE. BGCE Honours Project. 2012.

P. Hoffmann. Ein Kopplungsansatz für hybride Lattice Boltzmann-Molekulardynamik-Simulationen mit MarDyn. Master's thesis. 2011. Description.

W. Wang. Benchmark computations for the Lattice Boltzmann component within the Peano framework. Work during employment as student assistent. 2011.

T. Rohrmann. Lattice Boltzmann simulations in the finite Knudsen number range within the Peano framework. Bachelor's thesis. 2011. Description.

D. Jarema. Comparison and Coupling of a Lattice-Boltzmann Fluid-Structure Interaction Code with the Faxén Correction Approach. Master's thesis. 2011.

B. Gholami, D. Kleine-Albers, C. Kowitz, N. Melik-Barkhudarov, O. Perro, S. Selcuk and N. Shahriari. Simulating Free Surface Flows with the Lattice Boltzmann Method. BGCE Honours Project. 2010.

T. Halici. Implementation of the two-relaxation-time model into the Lattice Boltzmann component of the Peano framework. Work during employment as student assistant. 2010.