Topology optimization theory for laminar flow : applications in inverse design of microfluidics / Yongbo Deng, Yihui Wu, Zhenyu Liu.
2018
TJ853.4.M53
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Title
Topology optimization theory for laminar flow : applications in inverse design of microfluidics / Yongbo Deng, Yihui Wu, Zhenyu Liu.
Author
Deng, Yongbo, author.
ISBN
9789811046872 (electronic book)
9811046875 (electronic book)
9789811046865
9811046875 (electronic book)
9789811046865
Published
Singapore : Springer, [2018].
Language
English
Description
1 online resource.
Item Number
10.1007/978-981-10-4687-2 doi
Call Number
TJ853.4.M53
Dewey Decimal Classification
532/.0525
Summary
This book presents the topology optimization theory for laminar flows with low and moderate Reynolds numbers, based on the density method and level-set method, respectively. The density-method-based theory offers efficient convergence, while the level-set-method-based theory can provide anaccurate mathematical expression of the structural boundary. Unsteady, body-force-driven and two-phase properties are basic characteristics of the laminar flows. The book discusses these properties, which are typical of microfluidics and one of the research hotspots in the area of Micro-Electro-Mechanical Systems (MEMS), providing an efficient inverse design approach for microfluidic structures. To demonstrate the applications of this topology optimization theory in the context ofmicrofluidics, it also investigates inverse design for the micromixer, microvalve and micropump, which are key elements in lab-on-chip devices.
Bibliography, etc. Note
Includes bibliographical references.
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Access limited to authorized users.
Digital File Characteristics
text file PDF
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed October 6, 2017).
Added Author
Wu, Yihui, author.
Liu, Zhenyu, author.
Liu, Zhenyu, author.
Available in Other Form
Print version: 9789811046865
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Table of Contents
Introduction
Topology optimization for unsteady flows
Topology optimization for fluid flows with body forces
Topology optimization for two-phase flows
Combination of topology optimization and optimal control method
Inverse design of microfluidics using topology optimization.
Topology optimization for unsteady flows
Topology optimization for fluid flows with body forces
Topology optimization for two-phase flows
Combination of topology optimization and optimal control method
Inverse design of microfluidics using topology optimization.