Lattice Boltzmann Method: Fundamentals and Engineering Applications with Computer Codes
Autor A. A. Mohamaden Limba Engleză Hardback – 16 mai 2019
•flow in isothermal and non-isothermal lid-driven cavities;
•flow over obstacles;
•forced flow through a heated channel;
•conjugate forced convection; and
•natural convection.
Diffusion and advection–diffusion equations are discussed, together with applications and examples, and complete computer codes accompany the sections on single and multi-relaxation-time methods. The codes are written in MatLab. However, the codes are written in a way that can be easily converted to other languages, such as FORTRANm Python, Julia, etc. The codes can also be extended with little effort to multi-phase and multi-physics, provided the physics of the respective problem are known.
The second edition of this book adds new chapters, and includes new theory and applications. It discusses a wealth of practical examples, and explains LBM in connection with various engineering topics, especially the transport of mass, momentum, energy and molecular species.
This book offers a useful and easy-to-follow guide for readers with some prior experience with advanced mathematics and physics, and will be of interest to all researchers and other readers who wish to learn how to apply LBM to engineering and industrial problems. It can also be used as a textbook for advanced undergraduate or graduate courses on computational transport phenomena
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Specificații
ISBN-13: 9781447174226
ISBN-10: 1447174224
Pagini: 265
Ilustrații: XVIII, 222 p. 77 illus., 16 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.52 kg
Ediția:2nd ed. 2019
Editura: SPRINGER LONDON
Colecția Springer
Locul publicării:London, United Kingdom
ISBN-10: 1447174224
Pagini: 265
Ilustrații: XVIII, 222 p. 77 illus., 16 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.52 kg
Ediția:2nd ed. 2019
Editura: SPRINGER LONDON
Colecția Springer
Locul publicării:London, United Kingdom
Cuprins
Introduction and Kinetic of Particles.- The Boltzmann Equation.- Similarities and Scaling.- Boundary Conditions.- The Diffusion Equation.- Laplace and Poisson and Biharmonic Equations.- Advection-Diffusion Problems.- Isothermal Incompressible Fluid Flow.- Non-isothermal Incompressible Fluid Flow.- Multi-relaxation Schemes.- References.- Appendix-Computer Codes.
Notă biografică
Professor Abdulmajeed Mohamad is a faculty member at the Schulich School of Engineering, University of Calgary, Canada. He graduated from Baghdad University with a B.Sc. (Hons) and M.Sc. in 1976 and 1978, respectively and subsequently worked as a lecturer at Mosul University until 1985. In 1992, he received his Ph.D. degree from Purdue University, where he was mentored by Professor Raymond Viskanta. Here, he learned the importance of freedom as a fundamental concept of curiosity, which eventually blossoms into new ideas. This lesson was, and still is, evident in his professional work.
In 1993, he became an Assistant Professor at Eastern Mediterranean University, North Cyprus. In September 1999 Professor Mohamad and his family immigrated to Canada, and in 2000 he joined the faculty of the University of Calgary and eventually became a tenured faculty member.
Throughout his career, Professor Mohamad has also participated extensively in professional activities, such as organizing national and international conferences. He is the founder of the International Conference on Computational Heat, Mass and Momentum Transfer, and of the International Conference on Applications of Porous Media. While on leave from the University of Calgary during the period 2010–2012, he served as the acting Dean of Engineering at Alfaisal University (AU), Kingdom of Saudi Arabia, and was instrumental in establishing the university’s Engineering School.
Professor Mohamad is a Fellow of the American Society of Mechanical Engineers (ASME) and an Executive Member of the Scientific Council for the International Centre for Heat and Mass Transfer (ICHMT).
His contributions on the fundamentals of heat transfer, computational methods of incompressible flow, transport and combustion in porous media are well recognized by his peers. Professor Mohamad has authored over 250 papers, mainly in peer-reviewed journals, as well as a popular textbook on the Lattice Boltzmann Method – Fundamentals and Engineering Applications with Computer Codes, which was published by Springer in 2011. He was honored with the Averroes Award (ICOME17 meeting, July 2017) for his contributions to the education of many students around the world.
In 1993, he became an Assistant Professor at Eastern Mediterranean University, North Cyprus. In September 1999 Professor Mohamad and his family immigrated to Canada, and in 2000 he joined the faculty of the University of Calgary and eventually became a tenured faculty member.
Throughout his career, Professor Mohamad has also participated extensively in professional activities, such as organizing national and international conferences. He is the founder of the International Conference on Computational Heat, Mass and Momentum Transfer, and of the International Conference on Applications of Porous Media. While on leave from the University of Calgary during the period 2010–2012, he served as the acting Dean of Engineering at Alfaisal University (AU), Kingdom of Saudi Arabia, and was instrumental in establishing the university’s Engineering School.
Professor Mohamad is a Fellow of the American Society of Mechanical Engineers (ASME) and an Executive Member of the Scientific Council for the International Centre for Heat and Mass Transfer (ICHMT).
His contributions on the fundamentals of heat transfer, computational methods of incompressible flow, transport and combustion in porous media are well recognized by his peers. Professor Mohamad has authored over 250 papers, mainly in peer-reviewed journals, as well as a popular textbook on the Lattice Boltzmann Method – Fundamentals and Engineering Applications with Computer Codes, which was published by Springer in 2011. He was honored with the Averroes Award (ICOME17 meeting, July 2017) for his contributions to the education of many students around the world.
Textul de pe ultima copertă
This book introduces readers to 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; and
•natural convection.
Diffusion and advection–diffusion equations are discussed, together with applications and examples, and complete computer codes accompany the sections on single and multi-relaxation-time methods. The codes are written in MatLab. However, the codes are written in a way that can be easily converted to other languages, such as FORTRANm Python, Julia, etc. The codes can also be extended with little effort to multi-phase and multi-physics, provided the physics of the respective problem are known.
The second edition of this book adds new chapters, and includes new theory and applications. It discusses a wealth of practical examples, and explains LBM in connection with various engineering topics, especially the transport of mass, momentum, energy and molecular species.
This book offers a useful and easy-to-follow guide for readers with some prior experience with advanced mathematics and physics, and will be of interest to all researchers and other readers who wish to learn how to apply LBM to engineering and industrial problems. It can also be used as a textbook for advanced undergraduate or graduate courses on computational transport phenomena.
•flow in isothermal and non-isothermal lid-driven cavities;
•flow over obstacles;
•forced flow through a heated channel;
•conjugate forced convection; and
•natural convection.
Diffusion and advection–diffusion equations are discussed, together with applications and examples, and complete computer codes accompany the sections on single and multi-relaxation-time methods. The codes are written in MatLab. However, the codes are written in a way that can be easily converted to other languages, such as FORTRANm Python, Julia, etc. The codes can also be extended with little effort to multi-phase and multi-physics, provided the physics of the respective problem are known.
The second edition of this book adds new chapters, and includes new theory and applications. It discusses a wealth of practical examples, and explains LBM in connection with various engineering topics, especially the transport of mass, momentum, energy and molecular species.
This book offers a useful and easy-to-follow guide for readers with some prior experience with advanced mathematics and physics, and will be of interest to all researchers and other readers who wish to learn how to apply LBM to engineering and industrial problems. It can also be used as a textbook for advanced undergraduate or graduate courses on computational transport phenomena.
Caracteristici
Has been updated and expanded for this new edition with new chapters on theory and applications Adds new sections on the transport of mass, momentum, energy, and molecular species Provides detailed examples with complete computer codes Avoids the most complicated mathematics and physics without neglecting the basic fundamentals of the method Introduces the Lattice Boltzmann Method in a readable manner
Recenzii
From the reviews:
“The lattice Boltzmann method (LBM) is a relatively new simulation technique for complex fluid systems and has attracted interest from the research community concerned with computational fluid dynamics (CFD). … The author provides a good account of the LBM which deals with fundamentals as well as engineering applications. … A good number of references are presented in the bibliography. The book also provides computer codes in FORTRAN for flow simulation. … The book is well written and will certainly be useful for beginners in CFD.” (K. N. Shukla, Zentralblatt MATH, Vol. 1247, 2012)
“The book introduces the basics of lattice Boltzmann methods, a numerical tool for the simulation of flows in the Navier-Stokes regime. It addresses engineers and scientists not familiar with the subject who are willing to use the tool for applications.” (Hans Babovsky, Mathematical Reviews, Issue 2012 h)
“The lattice Boltzmann method (LBM) is a relatively new simulation technique for complex fluid systems and has attracted interest from the research community concerned with computational fluid dynamics (CFD). … The author provides a good account of the LBM which deals with fundamentals as well as engineering applications. … A good number of references are presented in the bibliography. The book also provides computer codes in FORTRAN for flow simulation. … The book is well written and will certainly be useful for beginners in CFD.” (K. N. Shukla, Zentralblatt MATH, Vol. 1247, 2012)
“The book introduces the basics of lattice Boltzmann methods, a numerical tool for the simulation of flows in the Navier-Stokes regime. It addresses engineers and scientists not familiar with the subject who are willing to use the tool for applications.” (Hans Babovsky, Mathematical Reviews, Issue 2012 h)