Multiphase Flow Handbook: 2nd Edition (Hardback) book cover

Multiphase Flow Handbook

2nd Edition

Edited by Efstathios Michaelides, Clayton T. Crowe, John D. Schwarzkopf

CRC Press

1,394 pages | 742 B/W Illus.

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Hardback: 9781498701006
pub: 2016-09-01
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Description

The Multiphase Flow Handbook, Second Edition is a thoroughly updated and reorganized revision of the late Clayton Crowe’s work, and provides a detailed look at the basic concepts and the wide range of applications in this important area of thermal/fluids engineering. Revised by the new editors, Efstathios E. (Stathis) Michaelides and John D. Schwarzkopf, the new Second Edition begins with two chapters covering fundamental concepts and methods that pertain to all the types and applications of multiphase flow. The remaining chapters cover the applications and engineering systems that are relevant to all the types of multiphase flow and heat transfer. The twenty-one chapters and several sections of the book include the basic science as well as the contemporary engineering and technological applications of multiphase flow in a comprehensive way that is easy to follow and be understood. The editors created a common set of nomenclature that is used throughout the book, allowing readers to easily compare fundamental theory with currently developing concepts and applications. With contributed chapters from sixty-two leading experts around the world, the Multiphase Flow Handbook, Second Edition is an essential reference for all researchers, academics and engineers working with complex thermal and fluid systems.

Reviews

"The second edition of the Multiphase Flow Handbook represents a comprehensive and thorough treatment of the field of multiphase fluid mechanics – from fundamentals to applications – written by top experts in the field. It is an indispensable resource for student and researcher alike."

— Michael L. Calvisi, University of Colorado Colorado Springs, USA

Table of Contents

Fundamentals of Multiphase Flow

E. E. Michaelides and Z.-G. Feng

Computational Methods

Overview of Numerical Approaches

E. Loth

Direct Numerical Simulations

G. Tryggvason

The Lattice Boltzmann Method

C. Aidun, T. Rosen, F. Lundell

The Immersed Boundary Method

E.E. Michaelides, Z.-G. Feng

PDF Models

M. Reeks, O. Simonin, P. Fede

Euler/Lagrange methods

M. Sommerfeld, S. Lain

The Two-Fluid Model in MFIX

M. Syamlal, J. Musser, J.-F. Dietiker

Uncertainty Quantification

M. Syamlal, J. Musser, J.-F. Dietiker

Gas-Liquid Flow in Ducts

A. Ghajar, S. M. Bhagwat

Fluid-Solid Flow in Ducts

Slurry Flows

S. Hu, S. Dhodapkar, K. Jacobs

Compressible Multiphase Flow

J. Schwarzkopf S. Balachandar, W. Buttler

Combustion with Particles and Drops

F. Mashayer, F.A.Jaberi

Microgravity Two-Phase Flow

K. S. Gabriel

Boiling

Satish G.Kandlikar

Condensation

J. Chung, Chen, T.

Powder and Granular Flow

F. Yang, G.L. Lee

Multiphase Flow in Porous Media

J. Fanchi, John P. Seidle

Turbulence Interactions

J. Eaton, E. Longmire

Bubble Dynamics and Cavitation

Bubble Dynamics

Y. Matsumoto, K. Sugiyama

Cavitation

S. Ceccio

Aggregation, Collisions and Break-up

Particle Interactions and Collisions

Y. Tsuji

Droplet Break-up, Coalescence and Wall Impact

C. Tropea, I. Roisman

Particle Separation Methods and Systems

C. Kanaoka, H. Yoshida, H. Makino, N. Noda, K. Fukui

Biological Systems and Bio-mimetics

Air Flow and Particle Deposition in the Upper Respiratory Airways

G. Ahmadi, O. Abouali

Blood Flow

S. Takagi

Biomimetics and Bio-inspiration

Y. Hagiwara

Fluidized Bed Reactors

Hydrodynamics of Fluidization

J. Grace

Heat and Mass Transfer

B. Leckner

Applications of Fluidized Bed Reactors

Y. Cheng, J. Zhu

Nanofluids

E.E. Michaelides, Y. Ding

Sprays

U. Fritching, X.-G. Li

Sprays

U. Fritsching, X.-G. Li

Aerosols

Y. Drossinos, C. Housiadas

Dispersed Flow in Non-Newtonian Fluids

R. Chhabra

About the Editors

Efstathios E. (Stathis) Michaelides, PhD, is currently the Tex Moncrief Chair of Engineering at Texas Christian University (TCU). Prior to this he held professorial and several administrative positions in four Universities. He is recognized as a leading scholar in the areas of multiphase flows and energy conversion, where he also authored four monographs. He has published more than 140 journal papers and has contributed more than 230 scientific papers in national and international conferences. Among his achievements is the extension of the Immersed Boundary numerical method for particulate flows and heat transfer (with Professor Z.G. Feng). He chaired the 4th International Conference on Multiphase Flows (New Orleans May 27 to June 1, 2001). He was awarded an honorary M.A. degree from Oxford University (1983); the ASEE Centennial Award for Exceptional Contributions to the Profession of Engineering (1993). The Lee H. Johnson award for Teaching Excellence (1995); the Senior Fulbright Fellowship (1997); the ASME Freeman Scholar award (2002); the Outstanding Researcher award at Tulane University (2003); the ASME Outstanding Service award (2007); the ASME Fluids Engineering award (2014); and the ASME-FED 90th Anniversary Medal.

Clayton T. Crowe was a professor of mechanical and materials engineering at Washington State University in Pullman, Washington. He is recognized as a leading scholar and author in fluid mechanics, and in particular, the area of multiphase flows. Among his achievements was the development of the particle-source-in-cell (PSI-Cell) method for the numerical simulation of multiphase flow that has been used extensively in industry, and in commercial simulation software. He was the author of numerous technical articles, and of Engineering Fluid Mechanics, a widely-used college textbook now in its eleventh edition. His other publications include Multiphase Flows with Droplets and Particles, Second Edition (CRC Press, 2012), and Multiphase Flow Handbook, First Edition (CRC Press, 2005). He received many honors for his work, including ASME Fellow, the ASME Fluids Engineering Award, and the Senior International Prize for Multiphase Flows. Dr. Crowe passed away in 2012.

John D. Schwarzkopf is a staff scientist within the Theoretical Design division at Los Alamos National Laboratory. He has had over 10 years of experience in applications of multiphase flows and computational code development. His work contributed to two patents and several technical articles on the topic of multiphase and multicomponent flow applied to electronics cooling, atomization and turbulence modeling. He is also a co-author of the book Multiphase Flows with Droplets and Particles, Second Edition (CRC Press, 2012).

About the Series

Mechanical and Aerospace Engineering Series

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Subject Categories

BISAC Subject Codes/Headings:
SCI013060
SCIENCE / Chemistry / Industrial & Technical
SCI065000
SCIENCE / Mechanics / Dynamics / Thermodynamics
TEC009070
TECHNOLOGY & ENGINEERING / Mechanical