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Lattice Boltzmann and particle methods in fluid dynamics and computational kinetic theory in population balance and nano-technology

Inhaltsbereich / Content

Lattice Boltzmann and particle methods in fluid dynamics and computational kinetic theory in population balance and nano-technology

Velocity field in fluid structure interaction
Rayleigh Taylor instability

Working group: A. Klar, S. Tiwari, V. Sharma, R. Wegener (ITWM), J. Kuhnert (ITWM)

Cooperations: S. Hardt (Darmstadt)

Funding: German Research Foundation (DFG), Center for Mathematical and Computational Modelling (CMCM)

Research concentrates on the development of mesh free Lagrangian particle methods of SPH-type for Euler- and Navier-Stokes equations and on particle methods for kinetic equations like the Boltzmann equation. Topics are, among others, domain decomposition procedures and the coupling to population balance models. These methods are applied in the simulation of nano-technology and fluid dynamics.