Synopses & Reviews
Lattice Boltzmann Method introduces the lattice Boltzmann method (LBM) for solving transport phenomena - flow, heat and mass transfer - in a systematic way. Providing explanatory computer codes throughout the book, the author guides readers through many practical examples, such as: flow in isothermal and non-isothermal lid driven cavities;flow over obstacles;forced flow through a heated channel;conjugate forced convection; andnatural convection.Diffusion and advection-diffusion equations are discussed with applications and examples, and complete computer codes accompany the coverage of single and multi-relaxation-time methods. Although the codes are written in FORTRAN, they can be easily translated to other languages, such as C++. The codes can also be extended with little effort to multi-phase and multi-physics, if the reader knows the physics of the problem. Readers with some experience of advanced mathematics and physics will find Lattice Boltzmann Method a useful and easy-to-follow text. It has been written for those who are interested in learning and applying the LBM to engineering and industrial problems and it can also serve as a textbook for advanced undergraduate or graduate students who are studying computational transport phenomena.
Synopsis
Introducing the Lattice Boltzmann Method in a readable manner, this book provides detailed examples with complete computer codes. It avoids the most complicated mathematics and physics without scarifying the basic fundamentals of the method.
About the Author
A. A. Mohamad's main areas of research are modelling and computational fluid dynamics, heat and mass transfer and combustion. He also works on energy systems analysis and solar energy. Dr. Mohamad is author and co-author of about 200 journal and conference papers.
Table of Contents
1 Introduction and Kinetic of Particles.- 2. The Boltzmann Equation.- 3. The Diffusion Equation.- 4. Advection-Diffusion Problems.- 5. Isothermal Incompressible Fluid Flow.- 6. Non-isothermal Incompressible Fluid Flow.- 7. Multi-relaxation Schemes.- 8. Complex Flows.