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Fluid-Structure Interactions: Volume 2
Slender Structures and Axial Flow
2nd Edition - January 8, 2016
Author: Michael P. Paidoussis
Hardback ISBN:9780123973337
9 7 8 - 0 - 1 2 - 3 9 7 3 3 3 - 7
eBook ISBN:9780123973344
9 7 8 - 0 - 1 2 - 3 9 7 3 3 4 - 4
The second of two volumes concentrating on the dynamics of slender bodies within or containing axial flow, Volume 2 covers fluid-structure interactions relating to shells,… Read more
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The second of two volumes concentrating on the dynamics of slender bodies within or containing axial flow, Volume 2 covers fluid-structure interactions relating to shells, cylinders and plates containing or immersed in axial flow, as well as slender structures subjected to annular and leakage flows.
This volume has been thoroughly updated to reference the latest developments in the field, with a continued emphasis on the understanding of dynamical behaviour and analytical methods needed to provide long-term solutions and validate the latest computational methods and codes, with increased coverage of computational techniques and numerical methods, particularly for the solution of non-linear three-dimensional problems.
Provides an in-depth review of an extensive range of fluid-structure interaction topics, with detailed real-world examples and thorough referencing throughout for additional detail
Organized by structure and problem type, allowing you to dip into the sections that are relevant to the particular problem you are facing, with numerous appendices containing the equations relevant to specific problems
Supports development of long-term solutions by focusing on the fundamentals and mechanisms needed to understand underlying causes and operating conditions under which apparent solutions might not prove effective
Engineers, researchers and graduate students across industries including mechanical, civil, aerospace, material, marine and offshore engineering involved in the analysis, maintenance and design of flexible structures that interact with internal and/or external fluid flow; Specialists in the fields of fluid-structure interaction, flow-induced vibration, dynamics and vibration.
Preface to the First Edition
Preface to the Second Edition
Chapter 1: Cylindrical Shells Containing or Immersed in Flow: Advanced Topics and Applications
Abstract
1.1 Introductory Comments
1.2 Coaxial Shells
1.3 Swirling Flow and Rotofluidelasticity
1.4 Turbulence-Induced Vibration
1.5 Collapsible Tubes/Pliable Shells
1.6 Other Applications
Chapter 2: Cylinders in Axial Flow I
Abstract
2.1 Introduction
2.2 Linear Equations of Motion
2.3 Linear Dynamics
2.4 Small-Amplitude Flow-Induced Vibration
2.5 Tapered Cylinders in Axial Flow
2.6 Concurrent Internal and External Flow
2.7 Parametric Resonances
2.8 Complex Support Conditions
Chapter 3: Cylinders in Axial Flow II
Abstract
3.1 Introductory Comments
3.2 Nonlinear Equations of Motion
3.3 Nonlinear Dynamics
3.4 Articulated and Pendular Systems
3.5 Practical Applications
Chapter 4: Towed and Self-Propelled Cylinders
Abstract
4.1 General Introduction
4.2 Dynamics of Towed Systems
4.3 Self-Propelled/Articulated Cylinders
4.4 Locomotion of Slender Fish
4.5 Undulatory Propulsion and Self-Excited Oscillations
4.6 Concluding Remarks
Chapter 5: Clustered Cylinders in Axial Flow
Abstract
5.1 Introduction
5.2 Hydrodynamic Coupling
5.3 Dynamics of Clustered Cylinders in Flow
5.4 Flow-Induced Vibrations
5.5 Strings of Clusters
5.6 Summary and Conclusion
Chapter 6: Plates in Axial Flow
Abstract
6.1 Introduction
6.2 Infinite Plate in Incompressible Fluid Flow
6.3 Plates of Finite Length in Incompressible Flow
6.4 The Effect of Dissipation on Stability
6.5 Absolute and Convective Instabilities
6.6 Plate Channels Conveying Fluid
6.7 Parallel-Plate Assemblies
6.8 Cantilevered Plates in Flow I
6.9 Nonlinear Dynamics
6.10 Cantilevered Plates in Flow II
6.11 Coupled Plates and Flags in Axial Flow
6.12 Travelling Web, Sheets, and Tapes
6.13 Energy Harvesting
6.14 Flapping Plate/Foil Propulsion
6.15 Concluding Remarks
Chapter 7: Annular- and Leakage-Flow-Induced Instabilities
A.2 Numerical Evaluation of the Generalized Inviscid Forces
A.3 The Mean Annular Viscous Pressure Field
A.4 Model for Cantilevered Shell With Annular Flow
A.5 Velocity Profile and Viscosity in Annular Flow
A.6 Solution of Navier–Stokes Equations
Appendix B: Effect of Viscosity in Rotofluid Elasticity
Appendix C: Flutter of Collapsible Tubes Conveying Fluid
C.1 Bibliography
C.2 Analytical Models
Appendix D: Viscous Force Coefficients for Cylinders in Axial Flow
D.1 The Longitudinal Viscous Coefficient cT
D.2 The Normal Viscous Coefficient cN
D.3 The Zero-Flow Normal Coefficient c
D.4 The Base Drag Coefficient cb
Appendix E: Response to Arbitrary Force Field of a Cylinder in Axial Flow
Appendix F: The Nonlinear Equations of Motion of a Cylinder in Axial Flow
Appendix G: The Equations of Motion of Articulated Cylinders in Axial Flow
G.1 Self-Propelled System
G.2 Towed Neutrally Buoyant System
G.3 System with a Gripped Nose
G.4 Train System
Appendix H: Added Mass Matrix by FEM
Appendix I: The Viscous Coupling Matrix
Appendix J: Flexibly Interconnected Cylinders in Axial Flow
J.1 Flexibly Interconnected Cylinders in Vacuum
J.2 Flexibly Interconnected Cylinders in Flow
J.3 Concluding Remarks
Appendix K: Flow-Induced Vibration of Clusters: Turbulence Excitation and Cylinder Response
K.1 The Excitation Field and Cylinder Vibration
K.2 More Elaborate Models and Practical Considerations
Appendix L: Some Details for 1-D Leakage Flow Analyses
References†§
Index
No. of pages: 942
Language: English
Published: January 8, 2016
Imprint: Academic Press
Hardback ISBN: 9780123973337
eBook ISBN: 9780123973344
MP
Michael P. Paidoussis
Michael Païdoussis is the Thomas Workman Emeritus Professor of Mechanical Engineering at McGill University and a Fellow of the Canadian Society for Mechanical Engineering (CSME), the Institution of Mechanical Engineers (IMechE), the American Society of Mechanical Engineers (ASME), the Royal Society of Canada, the Canadian Academy of Engineering and the American Academy of Mechanics (AAM). He is the Founding Editor of the Journal of Fluids and Structures, as of 1986. He has won the ASME Fluids Engineering Award in 1999 and the CANCAM prize in 1995. His principal research interests are in fluid-structure interactions, flow-induced vibrations, aero- and hydroelasticity, dynamics, nonlinear dynamics and chaos, all areas in which he is recognized as a leading expert.
Affiliations and expertise
Professor Emeritus of Mechanical Engineering, McGill University, Canada, Fellow of the Canadian Society for Mechanical Engineering (CSME), the Institution of Mechanical Engineers (IMechE), the American Society of Mechanical Engineers (ASME) and the American Academy of Mechanics (AAM)