Multiphase Reacting Flows: Modelling and Simulation [electronic resource] /edited by Daniele L. Marchisio, Rodney O. Fox.
by Marchisio, Daniele L [editor.]; Fox, Rodney O [editor.]; SpringerLink (Online service).
Material type:
BookSeries: CISM International Centre for Mechanical Sciences: 492Publisher: Vienna : Springer Vienna, 2007.Description: VII, 269 p. online resource.ISBN: 9783211724644.Subject(s): Engineering | Chemical engineering | Engineering mathematics | Mechanical engineering | Engineering | Mechanical Engineering | Appl.Mathematics/Computational Methods of Engineering | Industrial Chemistry/Chemical EngineeringDDC classification: 621 Online resources: Click here to access online | Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| MAIN LIBRARY | TJ1-1570 (Browse shelf) | Available |
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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.
The papers in this book describe the most widely applicable modeling approaches and are organized in six groups covering from fundamentals to relevant applications. In the first part, some fundamentals of multiphase turbulent reacting flows are covered. In particular the introduction focuses on basic notions of turbulence theory in single-phase and multi-phase systems as well as on the interaction between turbulence and chemistry. In the second part, models for the physical and chemical processes involved are discussed. Among other things, particular emphasis is given to turbulence modeling strategies for multiphase flows based on the kinetic theory for granular flows. Next, the different numerical methods based on Lagrangian and/or Eulerian schemes are presented. In particular the most popular numerical approaches of computational fluid dynamics codes are described (i.e., Direct Numerical Simulation, Large Eddy Simulation, and Reynolds-Averaged Navier-Stokes approach). The book will cover particle-based methods such as lattice-Boltzmann and dissipative particle dynamics and will also discuss Eulerian-Eulerian and Eulerian-Lagrangian techniques based on finite-volume schemes. Moreover, the possibility of modeling the poly-dispersity of the secondary phases in Eulerian-Eulerian schemes by solving the population balance equation will be also discussed.
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