Numerical Methods for the Simulation of Multi-Phase and Complex Flow
Numerical Methods for the Simulation of Multi-Phase and Complex Flow Proceedings of a Workshop Held at Koninklijke/Shell-Laboratorium, Amsterdam Amsterdam, The Netherlands, 30 May – 1 June 1990. [electronic resource] :
- VI, 153 p. online resource.
- Lecture Notes in Physics, 398 0075-8450 ; .
- Lecture Notes in Physics, 398 .
Green-kubo formulas for staggered transport coefficients in CA-fluids -- Heat conductivity in a thermal LGCA -- Effects of sound modes on the VACF in cellular automation fluids -- Hydrodynamic behaviour of the Lattice Boltzmann Equation -- Modified lattice gas method for high Reynolds number incompressible flows -- Obtaining numerical results from the 3D FCHC-lattice gas -- Time dependent anomalous diffusion for flow in multi-fractal porous media -- Porous media flow on locally refined grids -- Flow and diffusion in random porous media from lattice gas simulations -- Lattice Gas Automata simulations of viscous fingering in a porous medium. -- Darcy flow in porous media: Cellular automata simulations -- Cellular-automata-based computer simulations of polymer fluids.
The nine review articles contained here introduce the techniques required touse lattice gas methods for numerical simulations of complex flows. Furthermore, lattice Boltzmann models are studied together with classical numerical techniques. The editors have written an extensive introductionto this exciting new approach to solving practical problems in modelling andsimulating flows. The book addresses numerical analysts and engineers in fluid mechanics, but also graduate students.
9783540470076
10.1007/BFb0022301 doi
Mathematical physics.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Fluid- and Aerodynamics.
QC5.53
530.15
Green-kubo formulas for staggered transport coefficients in CA-fluids -- Heat conductivity in a thermal LGCA -- Effects of sound modes on the VACF in cellular automation fluids -- Hydrodynamic behaviour of the Lattice Boltzmann Equation -- Modified lattice gas method for high Reynolds number incompressible flows -- Obtaining numerical results from the 3D FCHC-lattice gas -- Time dependent anomalous diffusion for flow in multi-fractal porous media -- Porous media flow on locally refined grids -- Flow and diffusion in random porous media from lattice gas simulations -- Lattice Gas Automata simulations of viscous fingering in a porous medium. -- Darcy flow in porous media: Cellular automata simulations -- Cellular-automata-based computer simulations of polymer fluids.
The nine review articles contained here introduce the techniques required touse lattice gas methods for numerical simulations of complex flows. Furthermore, lattice Boltzmann models are studied together with classical numerical techniques. The editors have written an extensive introductionto this exciting new approach to solving practical problems in modelling andsimulating flows. The book addresses numerical analysts and engineers in fluid mechanics, but also graduate students.
9783540470076
10.1007/BFb0022301 doi
Mathematical physics.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Fluid- and Aerodynamics.
QC5.53
530.15