An introductory textbook to Lattice Boltzmann methods in computational fluid dynamics, aimed at a broad audience of scientists working with flowing matter. LB has known a burgeoning growth of applications, especially in connection with the simulation of complex flows, and also on the methodological side.
An introductory textbook to Lattice Boltzmann methods in computational fluid dynamics, aimed at a broad audience of scientists working with flowing matter. LB has known a burgeoning growth of applications, especially in connection with the simulation of complex flows, and also on the methodological side.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr Sauro Succi holds a degree in Nuclear Engineering from the University of Bologna and a PhD in Plasma Physics from the EPFL, Lausanne. Since 1995 he serves as a Director of Research at the Istituto Applicazioni Calcolo of the Italian National Research Council in Rome and also as Research Associate of the Physics Department of Harvard University and a Visiting Professor at the Institute of Applied Computational Science at the School of Engineering and Applied Sciences of Harvard University. He has published extensively on a broad range of topics in computational kinetic theory and non-equilibrium statistical physics, including thermonuclear plasmas, fluid turbulence, micro and nanofluidics, as well as quantum-relativistic flows.
Inhaltsangabe
Part I: Kinetic Theory of Fluids 1: Why a kinetic theory of fluids? 2: Kinetic theory and the Boltzmann equation 3: Approach to equilibrium, the H-theorem and irreversibility 4: Transport phenomena 5: From kinetic theory to Navier-Stokes hydrodynamics 6: Generalized hydrodynamics beyond Navier-Stokes 7: Kinetic theory of dense fluids 8: Model Boltzmann equations 9: Stochastic kinetic theory 10: Numerical methods for the kinetic theory of fluids Part II: Lattice Kinetic Theory 11: Lattice Gas Cellular Automata 12: Lattice Boltzmann models with underlying Boolean microdynamics 13: Lattice Boltzmann models without underlying Boolean mircodynamics 14: Lattice Relaxation Schemes 15: The Hermite-Gauss route to LBE 16: LBE in the framework of computational fluid dynamics Part III: Fluid Dynamics Applications 17: Boundary conditions 18: Flows at moderate Reynolds number 19: LBE flows in disordered media 20: Lattice Boltzmann for Turbulent Flows Part IV: Lattice Kinetic Theory: Advanced Topics 21: Entropic Lattice Boltzmann 22: Thermohydrodynamics LBE schemes 23: Out of Legoland: geoflexible Lattice Boltzmann equations 24: Lattice Boltzmann for Turbulence Modeling Part V: Beyond Fluid Dynamics: Complex States of Flowing Matter 25: LBE for generalized hydrodynamics 26: Reactive flows 27: Lattice Boltzmann for non-ideal fluids 28: Extensions of the psuedo-potential methods 29: Lattice Boltzmann models for microflows 30: The fluctuating Lattice Boltzmann 31: Lattice Boltzmann for flows with suspended objects: fluid-solid interactions Part VI: Beyond Newtonian Mechanics: Quantum and Relativistic Fluids 32: LBE for quantum mechanics 33: QLB for quantum many-body and quantum field theory 34: Relativistic Lattice Boltzmann 35: Relativistiv Lattice Boltzmann II: kinetic derivation 36: Coda 37: Notation Appendices
Part I: Kinetic Theory of Fluids 1: Why a kinetic theory of fluids? 2: Kinetic theory and the Boltzmann equation 3: Approach to equilibrium, the H-theorem and irreversibility 4: Transport phenomena 5: From kinetic theory to Navier-Stokes hydrodynamics 6: Generalized hydrodynamics beyond Navier-Stokes 7: Kinetic theory of dense fluids 8: Model Boltzmann equations 9: Stochastic kinetic theory 10: Numerical methods for the kinetic theory of fluids Part II: Lattice Kinetic Theory 11: Lattice Gas Cellular Automata 12: Lattice Boltzmann models with underlying Boolean microdynamics 13: Lattice Boltzmann models without underlying Boolean mircodynamics 14: Lattice Relaxation Schemes 15: The Hermite-Gauss route to LBE 16: LBE in the framework of computational fluid dynamics Part III: Fluid Dynamics Applications 17: Boundary conditions 18: Flows at moderate Reynolds number 19: LBE flows in disordered media 20: Lattice Boltzmann for Turbulent Flows Part IV: Lattice Kinetic Theory: Advanced Topics 21: Entropic Lattice Boltzmann 22: Thermohydrodynamics LBE schemes 23: Out of Legoland: geoflexible Lattice Boltzmann equations 24: Lattice Boltzmann for Turbulence Modeling Part V: Beyond Fluid Dynamics: Complex States of Flowing Matter 25: LBE for generalized hydrodynamics 26: Reactive flows 27: Lattice Boltzmann for non-ideal fluids 28: Extensions of the psuedo-potential methods 29: Lattice Boltzmann models for microflows 30: The fluctuating Lattice Boltzmann 31: Lattice Boltzmann for flows with suspended objects: fluid-solid interactions Part VI: Beyond Newtonian Mechanics: Quantum and Relativistic Fluids 32: LBE for quantum mechanics 33: QLB for quantum many-body and quantum field theory 34: Relativistic Lattice Boltzmann 35: Relativistiv Lattice Boltzmann II: kinetic derivation 36: Coda 37: Notation Appendices
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