Wiley Series in Computational Mechanics

The heavily revised and extended second edition offers a complete text and reference book to this well-established approach to the numerical solution of heat transfer and fluid flow problems This 2nd edition is much extended, and is much improved as both a reference and textbook for research and training. It includes a total of 8 new chapters on the topics of radiation heat transfer, heat exchangers, mass transfer, solidification and melting, turbulent heat transfer, adaptive finite element methods, new applications such as fuel cell modelling and special topics of particular interest to heat transfer engineers such as micro-heat transfer equipments and micro-channel flows. These new topics, along with examples of their applications, serve to further illustrate the capabilities and versatility of the finite element method and educate the reader as to the state-of-the-art of the science and technologies involved. All chapters feature new examples and exercises.
* Appropriate for teaching and research at both fundamental and advanced levels * Presents several examples of applications of the finite element method that will be of interest to both students and practitioners * Includes a large number of examples and exercises on heat transfer problems

The Finite Element Method For Heat And Mass Transfer in Porous Media: Fundamentals to Applications introduces the mathematical concepts used for describing heat, mass and fluid flow through porous media. It covers the governing equations, the fundamentals of the numerical discretization of the equations employing the finite element method, and some basic benchmarks. It also considers practical applications solved by employing the porous medium model and numerical codes.

The Finite Element Method For Heat And Mass Transfer in Porous Media: Fundamentals to Applications includes the latest research in this area by the authors, and promotes the use of the methodologies developed to solve real world applications, particularly with regards to energy conversion systems. Codes are also available from a companion website.