Multiphase Reacting Flows: Modelling and Simulation [electronic resource] / edited by Daniele L. Marchisio, Rodney O. Fox.

By: Marchisio, Daniele L [editor.]Contributor(s): Fox, Rodney O [editor.] | SpringerLink (Online service)Material type: TextTextLanguage: English Series: CISM International Centre for Mechanical Sciences: 492Publisher: Vienna : Springer Vienna, 2007Description: VII, 269 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783211724644Subject(s): Engineering | Chemical engineering | Engineering mathematics | Mechanical engineering | Engineering | Mechanical Engineering | Appl.Mathematics/Computational Methods of Engineering | Industrial Chemistry/Chemical EngineeringAdditional physical formats: Printed edition:: No titleDDC classification: 621 LOC classification: TJ1-1570Online resources: Click here to access online
Contents:
and Fundamentals of Modeling Approaches for Polydisperse Multiphase Flows -- Quadrature Method of Moments for Poly-Disperse Flows -- Eulerian Multi-Fluid Models for Polydisperse Evaporating Sprays -- Multi-fluid CFD Analysis of Chemical Reactors -- The Lattice-Boltzmann Method for Multiphase Fluid Flow Simulations and Euler-Lagrange Large-Eddy Simulations -- Direct Numerical Simulation of Sprays: Turbulent Dispersion, Evaporation and Combustion.
In: Springer eBooksSummary: This book entitled ''Multiphase reacting flows: modelling and simulation'' contains the lecture notes of the CISM (International Centre for Mechanical Sciences) course held in Udine, Italy, on July 3-7, 2006, and it describes various modelling approaches for dealing with polydisperse multiphase reacting flows. A multiphase reacting system is characterized by the presence of multiple phases and in this book we focus on disperse multiphase systems, where one phase can be considered as a continuum, whereas the additional phases are dispersed in the continuous one. In other words, in this book we deal with multiphase systems constituted by particles, droplets or bubbles (i.e., solid particles suspended in a continuous liquid phase, liquid droplets in a gaseous phase, or gas bubbles in liquid.) The other important characteristic elements of the systems discussed in this book are the presence of one or more chemical reactions and the turbulent nature of the flow. The chemical reactions usually involve all the phases present in the system and might be responsible for the formation or disappearance of the disperse and/or continuous phases. The evolution of the different phases is not only governed by chemical reactions, but also by other fluid-dynamical interactions between the continuous and the disperse phases, and by interactions among elements of the disperse phases, such as coalescence, aggregation, agglomeration and break-up.
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and Fundamentals of Modeling Approaches for Polydisperse Multiphase Flows -- Quadrature Method of Moments for Poly-Disperse Flows -- Eulerian Multi-Fluid Models for Polydisperse Evaporating Sprays -- Multi-fluid CFD Analysis of Chemical Reactors -- The Lattice-Boltzmann Method for Multiphase Fluid Flow Simulations and Euler-Lagrange Large-Eddy Simulations -- Direct Numerical Simulation of Sprays: Turbulent Dispersion, Evaporation and Combustion.

This book entitled ''Multiphase reacting flows: modelling and simulation'' contains the lecture notes of the CISM (International Centre for Mechanical Sciences) course held in Udine, Italy, on July 3-7, 2006, and it describes various modelling approaches for dealing with polydisperse multiphase reacting flows. A multiphase reacting system is characterized by the presence of multiple phases and in this book we focus on disperse multiphase systems, where one phase can be considered as a continuum, whereas the additional phases are dispersed in the continuous one. In other words, in this book we deal with multiphase systems constituted by particles, droplets or bubbles (i.e., solid particles suspended in a continuous liquid phase, liquid droplets in a gaseous phase, or gas bubbles in liquid.) The other important characteristic elements of the systems discussed in this book are the presence of one or more chemical reactions and the turbulent nature of the flow. The chemical reactions usually involve all the phases present in the system and might be responsible for the formation or disappearance of the disperse and/or continuous phases. The evolution of the different phases is not only governed by chemical reactions, but also by other fluid-dynamical interactions between the continuous and the disperse phases, and by interactions among elements of the disperse phases, such as coalescence, aggregation, agglomeration and break-up.

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