Editor: Matthias Ehrhardt

Series Title: Progress in Computational Physics (PiCP)

Novel Trends in Lattice-Boltzmann Methods

Volume 3

eBook: US $79 Special Offer (PDF + Printed Copy): US $158
Printed Copy: US $119
Library License: US $316
ISSN: 2589-3017 (Print)
ISSN: 1879-4661 (Online)
ISBN: 978-1-60805-717-7 (Print)
ISBN: 978-1-60805-716-0 (Online)
Year of Publication: 2013
DOI: 10.2174/97816080571601130301


Progress in Computational Physics is an e-book series devoted to recent research trends in computational physics. It contains chapters contributed by outstanding experts of modeling of physical problems. The series focuses on interdisciplinary computational perspectives of current physical challenges, new numerical techniques for the solution of mathematical wave equations and describes certain real-world applications.

With the help of powerful computers and sophisticated methods of numerical mathematics it is possible to simulate many ultramodern devices, e.g. photonic crystals structures, semiconductor nanostructures or fuel cell stacks devices, thus preventing expensive and longstanding design and optimization in the laboratories.

In this book series, research manuscripts are shortened as single chapters and focus on one hot topic per volume.

Engineers, physicists, meteorologists, etc. and applied mathematicians can benefit from the series content. Readers will get a deep and active insight into state-of-the art modeling and simulation techniques of ultra-modern devices and problems.

The third volume - Novel Trends in Lattice Boltzmann Methods - Reactive Flow, Physicochemical Transport and Fluid-Structure Interaction - contains 09 chapters devoted to mathematical analysis of different issues related to the lattice Boltzmann methods, advanced numerical techniques for physico-chemical flows, fluid structure interaction and practical applications of these phenomena to real world problems.

Indexed in: EBSCO, Ulrich's Periodicals Directory.


- Pp. i-ii (2)
Hudong Chen
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- Pp. iii-v (3)
Matthias Ehrhardt
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- Pp. vi
Matthias Ehrhardt
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An Introduction to the Lattice Boltzmann Method for Coupled Problems

- Pp. 3-30 (28)
Daniel Heubes, Andreas Bartel, Matthias Ehrhardt
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Add-ons for Lattice Boltzmann Methods: Regularization, Filtering and Limiters

- Pp. 31-52 (22)
Robert A. Brownlee, Jeremy Levesley, David Packwood, Alexander N. Gorban
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Discrete-Velocity Models and Lattice Boltzmann Methods for Convection-Radiation Problems

- Pp. 53-90 (38)
Mapundi K. Banda, Mohammed Seaid
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Asymptotic Analysis of Lattice Boltzmann Methods for Flow-Rigid Body Interaction

- Pp. 91-126 (36)
Alfonso Caiazzo, Michael Junk
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Numerical Lifting for Lattice Boltzmann Models

- Pp. 127-154 (28)
Ynte Vanderhoydonc, Wim Vanroose, Christophe Vandekerckhove, Pieter Van Leemput, Dirk Roose
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A Multiscale Lattice Boltzmann Method for Reaction-Diffusion Processes in Chemically and Physically Heterogeneous Environments

- Pp. 155-183 (29)
Davide Alemani
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A Lattice Boltzmann Method for Coupled Fluid Flow, Solute Transport, and Chemical Reaction

- Pp. 184-198 (15)
Qinjun Kang, Peter C. Lichtner
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A Lattice Boltzmann Approach for Distributed Three-dimensional Fluid- Structure Interaction

- Pp. 199-216 (18)
Sebastian Geller, Christian Janssen, Manfred Krafczyk
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Lattice Boltzmann Method for MILD Oxy-fuel Combustion Research: A Potential Powerful Tool Responding to the Man-made GlobalWarming

- Pp. 217-267 (51)
Sheng Chen
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- Pp. 268-270 (3)
Matthias Ehrhardt
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