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Microfluid Mechanics: Principles and Modeling / Edition 1

Microfluid Mechanics: Principles and Modeling / Edition 1

Microfluid Mechanics: Principles and Modeling / Edition 1
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ISBN-10:
0071443223
ISBN-13:
9780071443227
Pub. Date:
06/30/2005
Publisher:
McGraw Hill LLC
ISBN-10:
0071443223
ISBN-13:
9780071443227
Pub. Date:
06/30/2005
Publisher:
McGraw Hill LLC
Microfluid Mechanics: Principles and Modeling / Edition 1

Microfluid Mechanics: Principles and Modeling / Edition 1

Overview

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.




The rapid progress in fabricating and utilizing microelectromechanical (MEMS) systems during the last decade is not matched by corresponding understanding of the unconventional fluid flow involved in the operation and manufacture of these small devices. Providing such understanding is crucial to designing, optimizing, fabricating and operating improved MEMS devices. Microfluid Mechanics: Principles and Modeling is a rigorous reference that begins with the fundamental principles governing microfluid mechanics and progresses to more complex mathematical models, which will allow research engineers to better measure and predict reactions of gaseous and liquids in microenvironments.

Product Details

ISBN-13: 9780071443227
Publisher: McGraw Hill LLC
Publication date: 06/30/2005
Series: Nanoscience and Technology
Pages: 350
Product dimensions: 5.80(w) x 9.10(h) x 1.15(d)

About the Author

McGraw-Hill authors represent the leading experts in their fields and are dedicated to improving the lives, careers, and interests of readers worldwide

Dr. William W. Liou received his Ph.D. degree from Penn State University in 1990. His doctoral research focuses on the theoretical modeling and computational simulations of turbulent fluid flows. He has worked as a Research Associate at the Institute for Computational Method in Propulsion at NASA Glenn Research Center for six years. His research activities at NASA involve studying the laminar and turbulent flow physics for propulsion. Since 1997, Dr. Liou has been working as an Assistant and an Associate Professor at Western Michigan University.

Dr. Fang is a research fellow of Mechanical and Aeronautical Engineering at Western Michigan University. He received his M.S. degree from the University of Science and Technology of China, P. R. China, in 1998, and Ph.D. degree in mechanical engineering from the Western Michigan University in 2003. Since 1998, he started his research work in microfluid dynamics, which include theoretical and computational modeling by using both molecular- and continuum-methods.

Table of Contents

Chapter 1: Introduction

Chapter 2: Basic Kinetic Theory

Chapter 3: Microfluid Properties

Chapter 4: Moment Method: Navier-Stokes and Burnett Equations

Chapter 5: Statistical Method: Direct Simulations Monte Carlo Method and Information Preservation Method

Chapter 6: Parallel Computing of DSMC

Chapter 7: Fluid/Solid Interface Mechanisms

Chapter 8: Development of Hybrid Continuum/Particle Method

Chapter 9: Low-Speed Microflows

Chapter 10: High-Speed Microflows

Chapter 11: Perturbation in Microflows
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Related Subjects

Science & Technology
Engineering
Mechanical Engineering & Dynamics
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Mechanical Physics
Hydrodynamics
Mechanical Engineering - General & Miscellaneous
Mechanical Physics - Fluid
Science & Technology
Engineering
Mechanical Engineering & Dynamics
Physics
Mechanical Physics
Hydrodynamics
Mechanical Engineering - General & Miscellaneous
Mechanical Physics - Fluid

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