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Gas-Particle Flows Presented at the 1995 Asme/Jsme Fluids Engineering and Laser Anemometry Conference and Exhibition, August 13-18, 1995, (Fed) by D. E. Stock

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Published by American Society of Mechanical Engineers .
Written in English

Subjects:

  • Flow, turbulence, rheology,
  • Engineering - Electrical & Electronic,
  • Technology & Industrial Arts

Book details:

The Physical Object
FormatHardcover
Number of Pages452
ID Numbers
Open LibraryOL7804561M
ISBN 100791814831
ISBN 109780791814833

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The book focuses on relaxation processes, including the viscous drag of single particles, drag in gas-particles flow, gas-particle heat transfer, equilibrium, and frozen flow. It also discusses the dynamics of single particles, such as particles in an arbitrary flow, in a rotating gas, in a Prandtl-Meyer expansion, and in an oscillating by: As the modeling of gas-particle and granular flow systems is an emerging interdisciplinary field of study involving mathematics, numerical methods, computational science, and mechanical, chemical and nuclear engineering, this book provides an ideal resource for new researchers who are often intimidated by the complexities of fluid-particle, particle-particle, and particle-wall interactions in many . Fundamentals of Gas Particle Flow V2 Paperback – Novem by G. Rudinger (Author) See all 5 formats and editions Hide other formats and editions. Price Author: G. Rudinger.   The book focuses on relaxation processes, including the viscous drag of single particles, drag in gas-particles flow, gas-particle heat transfer, equilibrium, and frozen flow. It also discusses the dynamics of single particles, such as particles in an arbitrary flow, in a rotating gas, in a Prandtl-Meyer expansion, and in an oscillating Edition: 1.

The book focuses on relaxation processes, including the viscous drag of single particles, drag in gas-particles flow, gas-particle heat transfer, equilibrium, and frozen flow. It also discusses the dynamics of single particles, such as particles in an arbitrary flow, in a rotating gas, in a Prandtl-Meyer expansion, and in an oscillating flow. Book Description Multiphase flow technology, especially in the area of gas-droplet and gas-particle flows, is increasingly important in the energy and manufacturing industries. Pollution control, pneumatic transport, food processing, combustion, and development of new materials as well as many other engineering applications will benefit from. Book • Authors: Guan Heng Yeoh and Jiyuan Tu. Browse book content. In comparison to gas-particle flows, the liq­uid and solid phases are mainly driven by and respond largely as one to pressure gradients since the density ratio between phases is normally low and the drag between phases is significantly high in such flows. Fundamentals of Gas-Particle Flow is an edited, updated, and expanded version of a number of lectures presented on the "e;Gas-Solid Suspensions course organized by the von Karman Institute for Fluid Dynamics. Materials presented in this book are mostly analytical in nature, but some experimental techniques are included. The book focuses on relaxation processes, including the viscous drag.

Suitable for a first-year graduate (5 th year) course as well as a reference for engineers and scientists, the book is clearly written and provides an essential presentation of key topics in the study of gas-particle and gas-droplet flows. COVID Resources. Reliable information about the coronavirus (COVID) is available from the World Health Organization (current situation, international travel).Numerous and frequently-updated resource results are available from this ’s WebJunction has pulled together information and resources to assist library staff as they consider how to handle coronavirus. He is the author of following two books: “Theory and Numerical Modeling of Turbulent Gas-Particle Flows and Combustion (in English) in , and “Dynamics of Multiphase Turbulent Reacting Fluid Flows (in Chinese) in Brand: Butterworth-Heinemann. Guan Heng Yeoh, Jiyuan Tu, in Computational Techniques for Multiphase Flows, Classification of Gas–Particle Flows. Gas– particle flows can be sub-divided into two sub-classes of flows, namely gas–solid and gas–droplet flows. The main difference between these two flows is that mass transfer does not occur in the former but occurs in the latter.