Mechanics of flow-induced vibration : physical modeling and control strategies / Rajeev Jaiman, Guojun Li, Amir Chizfahm.
2023
TA357.5.U57
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Title
Mechanics of flow-induced vibration : physical modeling and control strategies / Rajeev Jaiman, Guojun Li, Amir Chizfahm.
Author
ISBN
9789811985782 (electronic bk.)
9811985782 (electronic bk.)
9811985774
9789811985775
9811985782 (electronic bk.)
9811985774
9789811985775
Published
Singapore : Springer, [2023]
Copyright
©2023
Language
English
Description
1 online resource (xx, 1021 pages) : illustrations (some color)
Item Number
10.1007/978-981-19-8578-2 doi
Call Number
TA357.5.U57
Dewey Decimal Classification
620.1/064
Summary
This book discusses various passive and active techniques for controlling unsteady flow dynamics and associated coupled mechanics of fluid-structure interaction. Coupled multiphysics and multidomain simulations are emerging and challenging research areas, which have received significant attention during the past decade. One of the most common multiphysics and multidomain problems is fluid-structure interaction (FSI), i.e., the study of coupled physical systems involving fluid and a structure that have a mechanical influence on each other. Regardless of the application area, the investigation toward modeling of fluid-structure interaction and the underlying mechanisms in dealing with coupled fluid-structure instability with real-world applications remains a challenge to scientists and engineers. This book is designed for students and researchers who seek knowledge of computational modeling and control strategies for fluid-structure interaction. Specifically, this book provides a comprehensive review of the underlying unsteady physics and coupled mechanical aspects of the fluid-structure interaction of freely vibrating bluff bodies, the self-induced flapping of thin flexible structures, and aeroelasticity of shell structures. Understanding flow-induced loads and vibrations can lead to safer and cost-effective structures, especially for light and high-aspect ratio structures with increased flexibility and harsh environmental conditions. Using the body-fitted and moving mesh formulations, the physical insights associated with structure-to-fluid mass ratios, Reynolds number, nonlinear structural deformation, proximity interference, near-wall contacts, free-surface, and other interacting physical fields are covered in this book. In conjunction with the control techniques, data-driven model reduction approaches based on subspace projection and deep neural calculus are covered for low-dimensional modeling of unsteady fluid-structure interaction.
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Includes bibliographical references.
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Table of Contents
Introduction
Part 1: Generalized variational formulation
1. Mathematical Framework
2. Body-fitted Eulerian-Lagrangian methods
3. Non-body-fitted embedded methods
4. Applications and Examples
Part 2: Model reduction and FSI control
1. Model reduction techniques
2. Passive and active control for FSI
Blowing-suction for VIV.
Part 1: Generalized variational formulation
1. Mathematical Framework
2. Body-fitted Eulerian-Lagrangian methods
3. Non-body-fitted embedded methods
4. Applications and Examples
Part 2: Model reduction and FSI control
1. Model reduction techniques
2. Passive and active control for FSI
Blowing-suction for VIV.