9780128163986-0128163984-Gas-Particle and Granular Flow Systems: Coupled Numerical Methods and Applications

Gas-Particle and Granular Flow Systems: Coupled Numerical Methods and Applications

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ISBN-13: 9780128163986
ISBN-10: 0128163984
Edition: 1
Author: Jiyuan Tu Ph.D. in Fluid Mechanics Royal Institute of Technology Stockholm Sweden, Shengyao Jiang, Xingtuan Yang, Nan Gui
Publication date: 2019
Publisher: Elsevier
Format: Paperback 386 pages
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Book details

ISBN-13: 9780128163986
ISBN-10: 0128163984
Edition: 1
Author: Jiyuan Tu Ph.D. in Fluid Mechanics Royal Institute of Technology Stockholm Sweden, Shengyao Jiang, Xingtuan Yang, Nan Gui
Publication date: 2019
Publisher: Elsevier
Format: Paperback 386 pages

Summary

Gas-Particle and Granular Flow Systems: Coupled Numerical Methods and Applications (ISBN-13: 9780128163986 and ISBN-10: 0128163984), written by authors Jiyuan Tu Ph.D. in Fluid Mechanics Royal Institute of Technology Stockholm Sweden, Shengyao Jiang, Xingtuan Yang, Nan Gui, was published by Elsevier in 2019. With an overall rating of 3.7 stars, it's a notable title among other books. You can easily purchase or rent Gas-Particle and Granular Flow Systems: Coupled Numerical Methods and Applications (Paperback) from BooksRun, along with many other new and used books and textbooks. And, if you're looking to sell your copy, our current buyback offer is $0.3.

Description

Gas-Particle and Granular Flow Systems: Coupled Numerical Methods and Applications breaks down complexities, details numerical methods (including basic theory, modeling and techniques in programming), and provides researchers with an introduction and starting point to each of the disciplines involved. 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 disciplines.

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