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This book presents the basic theory and experimental techniques of transport phenomena in materials processing operations. Such fundamental knowledge is highly useful for researchers and engineers in the field to improve the efficiency of conventional processes or develop novel technology. Divided into four parts, the book comprises 11 chapters describing the principles of momentum transfer, heat transfer, and mass transfer in single phase and multiphase systems. Each chapter includes examples with solutions and exercises to facilitate students’ learning. Diagnostic problems are also provided at the end of each part to assess students’ comprehension of the material.  The book is aimed primarily at students in materials science and engineering. However, it can also serve as a useful reference text in chemical engineering as well as an introductory transport phenomena text in mechanical engineering. In addition, researchers and engineers engaged in materials processing operations will find the material useful for the design of experiments and mathematical models in transport phenomena.  This volume contains unique features not usually found in traditional transport phenomena texts. It integrates experimental techniques and theory, both of which are required to adequately solve the inherently complex problems in materials processing operations. It takes a holistic approach by considering both single and multiphase systems, augmented with specific practical examples. There is a discussion of flow and heat transfer in microscale systems, which is relevant to the design of modern processes such as fuel cells and compact heat exchangers. Also described are auxiliary relationships including turbulence modeling, interfacial phenomena, rheology, and particulate systems, which are critical to many materials processing operations.

Materials. --- Transport theory. --- Boltzmann transport equation --- Transport phenomena --- Engineering --- Engineering materials --- Industrial materials --- Materials --- Engineering. --- Computer mathematics. --- Thermodynamics. --- Heat engineering. --- Heat transfer. --- Mass transfer. --- Fluid mechanics. --- Industrial engineering. --- Engineering Fluid Dynamics. --- Engineering Thermodynamics, Heat and Mass Transfer. --- Computational Mathematics and Numerical Analysis. --- Operating Procedures, Materials Treatment. --- Mathematical physics --- Particles (Nuclear physics) --- Radiation --- Statistical mechanics --- Engineering design --- Manufacturing processes --- Hydraulic engineering. --- Computer science --- Manufactures. --- Manufacturing, Machines, Tools, Processes. --- Mathematics. --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries --- Computer mathematics --- Discrete mathematics --- Electronic data processing --- Construction --- Industrial arts --- Technology --- Engineering, Hydraulic --- Fluid mechanics --- Hydraulics --- Shore protection --- Mathematics --- Mass transport (Physics) --- Thermodynamics --- Transport theory --- Heat transfer --- Thermal transfer --- Transmission of heat --- Energy transfer --- Heat --- Mechanical engineering --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Physics --- Heat-engines --- Quantum theory --- Hydromechanics --- Continuum mechanics

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Thermodynamics --- Mechanical properties of solids --- Solid state physics --- Engineering sciences. Technology --- thermodynamica --- ingenieurswetenschappen --- fysica --- warmteoverdracht

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This book presents a comprehensive review of particle image velocimetry (PIV) and particle tracking velocimetry (PTV) as tools for experimental fluid dynamics (EFD). It shares practical techniques for high-speed photography to accurately analyze multi-phase flows; in particular, it addresses the practical know-how involved in high-speed photography, including e.g. the proper setup for lights and illumination; optical systems to remove perspective distortion; and the density of tracer particles and their fluorescence in the context of PIV and PTV. In this regard, using the correct photographic technique plays a key role in the accurate analysis of the respective flow. Practical applications include bubble and liquid flow dynamics in materials processes agitated by gas injection at high temperatures, mixing phenomena due to jet-induced rotary sloshing, and wettability effects on the efficiency of the processes.  .

Engineering. --- Fluids. --- Fluid mechanics. --- Nanotechnology. --- Industrial engineering. --- Materials --- Thin films. --- Engineering Fluid Dynamics. --- Operating Procedures, Materials Treatment. --- Surfaces and Interfaces, Thin Films. --- Nanotechnology and Microengineering. --- Fluid- and Aerodynamics. --- Surfaces. --- Liquid metals --- Mathematical models. --- Molten metals --- Liquids --- Metals --- Hydraulic engineering. --- Manufactures. --- Surfaces (Physics). --- Manufacturing, Machines, Tools, Processes. --- Construction --- Industrial arts --- Technology --- Physics --- Surface chemistry --- Surfaces (Technology) --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries --- Engineering, Hydraulic --- Engineering --- Fluid mechanics --- Hydraulics --- Shore protection --- Materials—Surfaces. --- Mechanics --- Hydrostatics --- Permeability --- Molecular technology --- Nanoscale technology --- High technology --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Coatings --- Thick films --- Hydromechanics --- Continuum mechanics

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This book presents a comprehensive review of particle image velocimetry (PIV) and particle tracking velocimetry (PTV) as tools for experimental fluid dynamics (EFD). It shares practical techniques for high-speed photography to accurately analyze multi-phase flows; in particular, it addresses the practical know-how involved in high-speed photography, including e.g. the proper setup for lights and illumination; optical systems to remove perspective distortion; and the density of tracer particles and their fluorescence in the context of PIV and PTV. In this regard, using the correct photographic technique plays a key role in the accurate analysis of the respective flow. Practical applications include bubble and liquid flow dynamics in materials processes agitated by gas injection at high temperatures, mixing phenomena due to jet-induced rotary sloshing, and wettability effects on the efficiency of the processes.  .

Fluid mechanics --- Solid state physics --- Physics --- Surface chemistry --- Chemical structure --- Hydraulic energy --- Applied physical engineering --- Plant and equipment --- Production management --- Biotechnology --- vloeistofstroming --- fabrieken --- aerodynamica --- oppervlakte-onderzoek --- nanotechniek --- biotechnologie --- productie --- machines --- ingenieurswetenschappen --- fysica --- hydraulica --- vloeistoffen