Computational Methods in Multiphase Flow

New advanced numerical methods and computer architectures have greatly improved our ability to solve complex multiphase flow problems. Presenting state-of-the-art advances and applications, this book contains the papers presented at the First International Conference on Computational Methods in Multiphase Flow. It provides information for scientists and engineers working throughout industry, research organizations, government and academic institutions on the development and implementation of computational techniques for the solution and understanding of such problems. The contributions included reflect the diversity of numerical approaches used and cover the following topics: multiphase flow systems; drop dynamics; heat transfer; cavitation, emulsions and suspensions; injector and nozzle flow; and stratified fluids and particle flows.

• Section 1: Multiphase Flow System Multi-dimensional mathematical modeling of five phases in the blast furnace
• Boundary element numerical simulation of gas-liquid two-phase flow in multiphase pump impeller
• BDIM for two-phase two-component flows
• Modeling multiphase flows using a novel 3D adaptive remeshing algorithm
• Application of the relaxation method to model hydraulic jumps
• Application of coupled solver technology to CFD modeling of multiphase flows with CFX
• Simulation of urea reactor of industrial process
• Simulation of two-phase flow past a square in a 3D channel
• Experimental and numerical studies of particle-turbulence interaction and jet penetration in gas-particle flow. Section 2: Drop Dynamics Creeping flows in and around a compound multiphase droplet
• Enhancement of single liquid drop mass transfer coefficients in a perforated plate column
• Low Reynolds number deformation of a viscous drop containing a solid particle. Section 3: Heat Transfer Numerical modeling of dispersed liquid-vapor two-phase flow using an arbitrary Lagrangian-Eulerian technique
• Transient heat and mass transfer in humid porous material heated by microsecond rectangular pulsed energy source of very high power density
• Modelling of the hydrodynamics and heat transfer between drop and gas flowing past a tandem of circular cylinders
• Numerical analysis of slit laminar cooling of hot moving slab
• Frequency analysis of the Vapotron Effect in forced convection: a challenge for numerical descriptions of multiphase flow. Section 4: Cavitation, Emulsions and Suspensions Simulations of turbulent, cavitating flows in an injector slot/orifice
• Hydraulic resistance at sudden pipe expansion - the influence of cavitation
• Dynamics of dispersions with multiple breakage and volume scattering
• Mixing and emulsification processes in micromixers
• The effect of wall slip on the migration rate of concentrated suspensions in a Couette device
• An upwind interpolation scheme for cavitating flows on nonuniform meshes. Section 5: Injector and Nozzle Flow Simulating two-phase flows inside high-speed injectors
• Development of a fully coupled injection/atomization code
• Internal shock waves in gas particle flows. Section 6: Stratified Fluids and Particle Flows Mixed-layer modelling at ocean weathership station Bravo
• Modelling of saline intrusion in a long sea outfall with two risers
• Three-dimensional homogeneous two-phase flow modelling of drifting sand around an open gate
• Numerical modeling of sedimentation utilizing a Euler/Euler approach.