IUTAM Symposium on Computational Approaches to Multiphase Flow
IUTAM Symposium on Computational Approaches to Multiphase Flow Proceedings of an IUTAM Symposium held at Argonne National Laboratory, October 4–7, 2004 / [electronic resource] :
edited by S. Balachandar, A. Prosperetti.
- X, 450 p. online resource.
- Fluid Mechanics and Its Applications, 81 0926-5112 ; .
- Fluid Mechanics and Its Applications, 81 .
Point Particle Approach -- An Updated Classification Map of Particle-Laden Turbulent Flows -- On Fluid-Particle and Particle-Particle Interactons in Gas-Solid Turbulent Channel Flow -- Simulation of Particle Diffusion, Segregation, and Intermittency in Turbulent Flows -- Use of a Stochastic Method to Describe Dispersion and Deposition in an Idealized Annular Flow -- On Momentum Coupling Methods for Calculation of Turbulence Attenuation in Dilute Particle-Laden Gas Flows -- Multifractal Concentrations of Heavy Particles in Random Flows -- Turbulence Modulation by Micro-Particles in Boundary Layers -- Stochastic Diffusion of Finite Inertia Particles in Non-Homogeneous Turbulence -- Accumulation of Heavy Particles in Bounded Vortex Flow -- Lattice-Boltzmann and Molecular Dynamic Simulations -- A Numerical Study of Planar Wave Instabilities in Liquid-Fluidized Beds -- Lattice Boltzmann Simulations to Determine Forces Acting on Non-Spherical Particles -- Molecular Dynamics Simulations of Drop Motion on Uniform and Non-Uniform Solid Surfaces -- Fluctuating Immersed Material (FIMAT) Dynamics for the Direct Simulation of the Brownian Motion of Particles -- A Novel Definition of the Local and Instantaneous Liquid-Vapor Interface -- Fully-Resolved Multi-Particle Simulations -- DNS of Collective Behavior of Solid Particles in a Homogeneous Field -- Proteus—A New Computational Scheme for Deformable Particles and Particle Interaction Problems -- An Explicit Finite-Difference Scheme for Simulation of Moving Particles -- Use of Variable-Density Flow Solvers for Fictitious-Domain Computations of Dispersed Solid Particles in Liquid Flow -- 3D Unsteady Simulation of Particle Sedimentation towards High Regimes -- Microstructural Effects in a Fully-Resolved Simulation of 1,024 Sedimenting Spheres -- A DNS Approach Dedicated to the Analysis of Fluidized Beds -- Performance of Various Fluid-Solid Coupling Methods for DNS of Particulate Flow -- Numerical Study of Particle Migration in Tube and Plane Poiseuille Flows -- New Advances in Force-Coupling Method: From Micro to Macro -- Treatment of Particle Collisions in Direct Numerical Simulations of High Speed Compressible Flows -- Free Surface Flows, Drops and Bubbles -- Struggling with Boundary Layers and Wakes of High-Reynolds-Number Bubbles -- Direct Numerical Simulations of Bubbly Flows -- Direct Numerical Simulation of Droplet Formation and Breakup -- A Sharp-Interface Cartesian Grid Method for Computations of Droplet Impact and Spreading on Surfaces of Arbitrary Shape -- A Finite-Volume/Front-TrackingMethod for Computations of Multiphase Flows in Complex Geometries -- The Effect of Surfactant on Rising Bubbles -- Numerical Simulation of Shock Propagation in Bubbly Liquids by the Front Tracking Method -- Large-Eddy Simulation of Steep Water Waves -- Adaptive Characteristics-Based Matching (aCBM): A Method for Interfacial Dynamics in Compressible Multiphase Flows -- Compressible Multi-Hydrodynamics (CMH): Breakup, Mixing, and Dispersal of Liquids/Solids in High Speed Flows -- Large Eddy Simulations, Applications and Other Physics -- On Stochastic Modeling of Heavy Particle Dispersion in Large-Eddy Simulation of Two-Phase Turbulent Flow -- Flow of Bubbly Liquids in a Vertical Pipe: Theory and Experiments -- Effect of Particle Inertia in Particulate Density Currents -- Modeling Finite-Size Effects in LES/DNS of Two-Phase Flows -- Lagrangian Aspects to Multiphase Flows -- Effect of Fluid Velocity Fluctuations on the Dynamics of a Sheared Gas-Particle Suspension -- Prediction of Particle Laden Turbulent Channel Flow Using One-Dimensional Turbulence.
9781402049774
10.1007/1-4020-4977-3 doi
Physics.
Computer simulation.
Computer mathematics.
Continuum physics.
Fluids.
Computational intelligence.
Fluid mechanics.
Physics.
Classical Continuum Physics.
Engineering Fluid Dynamics.
Simulation and Modeling.
Computational Science and Engineering.
Fluid- and Aerodynamics.
Computational Intelligence.
Electronic books.
QC6.4.C6
531
Point Particle Approach -- An Updated Classification Map of Particle-Laden Turbulent Flows -- On Fluid-Particle and Particle-Particle Interactons in Gas-Solid Turbulent Channel Flow -- Simulation of Particle Diffusion, Segregation, and Intermittency in Turbulent Flows -- Use of a Stochastic Method to Describe Dispersion and Deposition in an Idealized Annular Flow -- On Momentum Coupling Methods for Calculation of Turbulence Attenuation in Dilute Particle-Laden Gas Flows -- Multifractal Concentrations of Heavy Particles in Random Flows -- Turbulence Modulation by Micro-Particles in Boundary Layers -- Stochastic Diffusion of Finite Inertia Particles in Non-Homogeneous Turbulence -- Accumulation of Heavy Particles in Bounded Vortex Flow -- Lattice-Boltzmann and Molecular Dynamic Simulations -- A Numerical Study of Planar Wave Instabilities in Liquid-Fluidized Beds -- Lattice Boltzmann Simulations to Determine Forces Acting on Non-Spherical Particles -- Molecular Dynamics Simulations of Drop Motion on Uniform and Non-Uniform Solid Surfaces -- Fluctuating Immersed Material (FIMAT) Dynamics for the Direct Simulation of the Brownian Motion of Particles -- A Novel Definition of the Local and Instantaneous Liquid-Vapor Interface -- Fully-Resolved Multi-Particle Simulations -- DNS of Collective Behavior of Solid Particles in a Homogeneous Field -- Proteus—A New Computational Scheme for Deformable Particles and Particle Interaction Problems -- An Explicit Finite-Difference Scheme for Simulation of Moving Particles -- Use of Variable-Density Flow Solvers for Fictitious-Domain Computations of Dispersed Solid Particles in Liquid Flow -- 3D Unsteady Simulation of Particle Sedimentation towards High Regimes -- Microstructural Effects in a Fully-Resolved Simulation of 1,024 Sedimenting Spheres -- A DNS Approach Dedicated to the Analysis of Fluidized Beds -- Performance of Various Fluid-Solid Coupling Methods for DNS of Particulate Flow -- Numerical Study of Particle Migration in Tube and Plane Poiseuille Flows -- New Advances in Force-Coupling Method: From Micro to Macro -- Treatment of Particle Collisions in Direct Numerical Simulations of High Speed Compressible Flows -- Free Surface Flows, Drops and Bubbles -- Struggling with Boundary Layers and Wakes of High-Reynolds-Number Bubbles -- Direct Numerical Simulations of Bubbly Flows -- Direct Numerical Simulation of Droplet Formation and Breakup -- A Sharp-Interface Cartesian Grid Method for Computations of Droplet Impact and Spreading on Surfaces of Arbitrary Shape -- A Finite-Volume/Front-TrackingMethod for Computations of Multiphase Flows in Complex Geometries -- The Effect of Surfactant on Rising Bubbles -- Numerical Simulation of Shock Propagation in Bubbly Liquids by the Front Tracking Method -- Large-Eddy Simulation of Steep Water Waves -- Adaptive Characteristics-Based Matching (aCBM): A Method for Interfacial Dynamics in Compressible Multiphase Flows -- Compressible Multi-Hydrodynamics (CMH): Breakup, Mixing, and Dispersal of Liquids/Solids in High Speed Flows -- Large Eddy Simulations, Applications and Other Physics -- On Stochastic Modeling of Heavy Particle Dispersion in Large-Eddy Simulation of Two-Phase Turbulent Flow -- Flow of Bubbly Liquids in a Vertical Pipe: Theory and Experiments -- Effect of Particle Inertia in Particulate Density Currents -- Modeling Finite-Size Effects in LES/DNS of Two-Phase Flows -- Lagrangian Aspects to Multiphase Flows -- Effect of Fluid Velocity Fluctuations on the Dynamics of a Sheared Gas-Particle Suspension -- Prediction of Particle Laden Turbulent Channel Flow Using One-Dimensional Turbulence.
9781402049774
10.1007/1-4020-4977-3 doi
Physics.
Computer simulation.
Computer mathematics.
Continuum physics.
Fluids.
Computational intelligence.
Fluid mechanics.
Physics.
Classical Continuum Physics.
Engineering Fluid Dynamics.
Simulation and Modeling.
Computational Science and Engineering.
Fluid- and Aerodynamics.
Computational Intelligence.
Electronic books.
QC6.4.C6
531