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The molecular dynamics technique was developed in the 1960s as the outgrowth of attempts to model complicated systems by using either a) direct physical simulation or (following the great success of Monte Carlo methods) by b) using computer techniques. Computer simulation soon won out over clumsy physical simulation, and the ever-increasing speed and sophistication of computers has naturally made molecular dynamics simulation into a more and more successful technique. One of its most popular applications is the study of diffusion, and some experts now even claim that molecular dynamics simulat
Molecular dynamics. --- Diffusion. --- Gases --- Liquids --- Physics --- Separation (Technology) --- Solution (Chemistry) --- Solutions, Solid --- Matter --- Packed towers --- Semiconductor doping --- Dynamics, Molecular --- Dynamics --- Diffusion --- Properties
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Heat transfer in porous media has continuously received great attention in recent years due to its wide applications in engineering. There are various forms of porous media, such as carbonate rock, percolation cluster, packed particles, metal foams, etc., which are either widely distributed in the natural environment or carefully designed for industrial functions. This book covers a broad state-of-the-art knowledge of thermal transport in porous media, and it will be interesting and useful for both academic and industrial communities.
Porous materials. --- Diffusion. --- Transport theory. --- Boltzmann transport equation --- Transport phenomena --- Mathematical physics --- Particles (Nuclear physics) --- Radiation --- Statistical mechanics --- Gases --- Liquids --- Physics --- Separation (Technology) --- Solution (Chemistry) --- Solutions, Solid --- Matter --- Packed towers --- Semiconductor doping --- Porous media --- Materials --- Porosity --- Diffusion --- Properties
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The present topical volume captures a representative cross-section of some of the recent advances in the area of mass transport. Reflecting the enormous breadth of the area, the range of topics covered is accordingly very large. Topics include diffusion in oxides, metals and alloys, membranes, microstructural changes and evolution, self, solute and interdiffusion, and diffusion in grain boundaries. Physicists, mathematicians, and other scientists report on recentdevelopments in the study and understanding of mass transport in thefabrication and in-service degradation of engineering materials a
Diffusion. --- Mass transfer. --- Materials. --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Mass transport (Physics) --- Thermodynamics --- Transport theory --- Gases --- Liquids --- Physics --- Separation (Technology) --- Solution (Chemistry) --- Solutions, Solid --- Matter --- Packed towers --- Semiconductor doping --- Materials --- Diffusion --- Properties
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