Integer lattice gases, Molecular Dynamics Lattice Gas and an alternative derivation of the lattice Boltzmann method
ORAL
Abstract
We report on recent progress in two related areas:
1) that lattice Boltzmann methods can be derived rigorously from Molecular Dynamics simulations through a coarse graining approach (MDLG) that maps Molecular Dynamics onto an integer lattice gas. This gives insights into the surprisingly large correct fluctuations for non-ideal gases and fluids as well as the physical meaning of over-relaxation in lattice Boltzmann.
2) the efficient implementation of integer lattice gases that can be considerably more efficient than the equivalent lattice Boltzmann implementation.
1) that lattice Boltzmann methods can be derived rigorously from Molecular Dynamics simulations through a coarse graining approach (MDLG) that maps Molecular Dynamics onto an integer lattice gas. This gives insights into the surprisingly large correct fluctuations for non-ideal gases and fluids as well as the physical meaning of over-relaxation in lattice Boltzmann.
2) the efficient implementation of integer lattice gases that can be considerably more efficient than the equivalent lattice Boltzmann implementation.
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Presenters
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Alexander Wagner
North Dakota State Univ
Authors
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Alexander Wagner
North Dakota State Univ
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Noah Seekins
North Dakota State Univ
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Reza Parsa
North Dakota State Univ
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Aleksandra Pachalieva
North Dakota State Univ