This volume fills the need for a textbook presenting basic governing and constitutive equations, followed by several engineering problems on multiphase flow and transport that are not provided in current advanced texts, monographs, or handbooks. The unique emphasis of this book is on the sound formulation of the basic equations describing multiphase transport and how they can be used to design processes in selected industrially important fields. The clear underlying mathematical and physical bases of the interdisciplinary description of multiphase flow and transport are the main themes, along with advances in the kinetic theory for particle flow systems. The book may be used as an upper-level undergraduate or graduate textbook, as a reference by professionals in the design of processes that deal with a variety of multiphase systems, and by practitioners and experts in multiphase science in the area of computational fluid dynamics (CFD) at U.S. national laboratories, international universities, research laboratories and institutions, and in the chemical, pharmaceutical, and petroleum industries. Distinct from other books on multiphase flow, this volume shows clearly how the basic multiphase equations can be used in the design and scale-up of multiphase processes. The authors represent a combination of nearly two centuries of experience and innovative application of multiphase transport representing hundreds of publications and several books. This book serves to encapsulate the essence of their wisdom and insight, and:
Introduction to Multiphase Flow Basic Equations.- Multiphase Flow
Constitutive Equations and Boundary Conditions.- Phenomena Associated with
Multiphase Flow (Gas-Solids and Gas-Liquid Systems).- CO2 Capture.- Synthetic
Gas Conversion to Liquid Fuel Using Slurry Bubble-Column Reactors.-
Fluidized-Bed Reactor for Polymerization.- Fluidized-Bed Reactors for
Solar-Grade Silicon and Silane Production.- Hemodynamics Simulation (Blood
Flow).- Multiphase Flow Modeling of Volcanic Eruptions.- Pharmaceutical
Processes.- Multiphase Flow Modeling of Wind Turbines at Rainy Condition.
Dr. Hamid Arastoopour is Henry R. Linden Professor of Engineering and Director of the Wanger Institute for Sustainable Energy Research (WISER) at Illinois Institute of Technology, Chicago, IL; Dr. Dimitri Gidaspow is Distinguished University Professor in the Department of Chemical and Biological Engineering at Illinois Institute of Technology, Chicago, IL; Dr. Robert W. Lyczkowski is a Chemical Engineer in Darien, IL. Margaret M. Murphy is Assistant Director of the Wanger Institute for Sustainable Energy Research (WISER) at Illinois Institute of Technology, Chicago, IL.
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