Fluid-structure interactions : slender structures and axial flow. Volume 1 / Michael P. Paidoussis, Department of Mechanical Engineering, McGill University, Montreal, Quebec, Canada.

Format:

Book

Author/Creator:

Paidoussis, M. P.

Series:

Gale eBooks

Language:

English

Subjects (All):

Fluid-structure interaction.

Physical Description:

1 online resource (xv, 867 pages) : illustrations (some color)

Edition:

2nd ed.

Place of Publication:

Oxford : Academic Press, 2014.

Language Note:

English

Summary:

Fluid-Structure Interactions, Volume 1 is the first of two volumes concentrating on the dynamics of slender bodies within or containing axial flow. This volume covers the fundamentals and mechanisms giving rise to flow-induced vibration, with a particular focus on the challenges associated with pipes conveying fluid. Fluid-structure interaction (FSI) is the interaction of some movable or deformable structure with an internal or surrounding fluid flow. FSIs are a crucial consideration in the design of many engineering systems, including aircraft, pipe networks, and bridges. </

Contents:

Half Title; Title Page; Copyright; Contents; Preface to the Second Edition; Preface to the First Edition; Acknowledgements; 1 Introduction; 1.1 General overview; 1.2 Classification of flow-induced vibrations; 1.3 Scope and contents of this book; 2 Concepts, Definitions and Methods in Fluid-Structure Interactions; 2.1 Discrete and Distributed Parameter Systems; 2.1.1 The equations of motion; 2.1.2 Brief review of discrete systems; 2.1.3 The Galerkin method via a simple example; 2.1.4 Galerkin's method for a nonconservative system; 2.1.5 Self-adjoint and positive definite continuous systems

2.1.6 Diagonalization, and forced vibrations of continuous systems2.1.7 Direct Lagrangian discretization; 2.2 The Fluid Mechanics of Fluid-Structure Interactions; 2.2.1 General character and equations of fluid flow; 2.2.2 Loading on coaxial shells coupled with quiescent inviscid fluid; 2.2.3 The virtual fluid or `added' mass; 2.2.4 Loading on coaxial shells coupled with quiescent viscous fluid; 2.2.5 Computational fluid dynamics (CFD); 2.3 Linear and Nonlinear Dynamics; 3 Pipes Conveying Fluid: Linear Dynamics I; 3.1 Introduction; 3.2 The Fundamentals; 3.2.1 Pipes with supported ends

3.2.2 Cantilevered pipes3.2.3 On the various bifurcations; 3.3 The Equations of Motion; 3.3.1 Preamble; 3.3.2 Newtonian derivation; 3.3.3 Hamiltonian derivation; 3.3.4 The `concealed' effects of fluid viscosity; 3.3.5 The effect of a nonuniform flow profile; 3.3.6 Nondimensional equation of motion; 3.3.7 Methods of solution; 3.4 Pipes with Supported Ends; 3.4.1 Main theoretical results; 3.4.2 Pressurization, tensioning and gravity effects; 3.4.3 Pipes on an elastic foundation; 3.4.4 Experiments; 3.4.5 Other studies on pipes with supported ends; 3.5 Cantilevered Pipes

3.5.1 Main theoretical results3.5.2 The effect of gravity; 3.5.3 The effect of dissipation; 3.5.4 The S-shaped discontinuities; 3.5.5 On destabilization by damping; 3.5.6 Experiments; 3.5.7 Dynamics with radial discharge; 3.5.8 The effect of a nonuniform flow profile; 3.5.9 The effects of clamping flexibility and externally applied tension; 3.5.10 The effect of the egressing jet; 3.5.11 The effect of an elastic foundation; 3.5.12 Long hanging pipes; 3.5.13 Cantilevers conveying two-phase flow; 3.6 Systems with Added Springs, Supports, Masses and Other Modifications

3.6.1 Pipes supported at ξ=1/L<13.6.2 Cantilevered pipes with additional spring supports; 3.6.3 Pipes with additional point masses; 3.6.4 Pipes with additional dashpots; 3.6.5 Fluid follower forces; 3.6.6 Pipes with attached plates; 3.6.7 Twin pipes with different flows; 3.6.8 `Periodic' pipes; 3.6.9 Concluding remarks; 3.7 Wave Propagation in Long Pipes; 3.7.1 Wave propagation; 3.7.2 Infinitely long pipe on elastic foundation; 3.7.3 Periodically supported pipes; 3.7.4 Absolute and convective, local and global instabilities; 3.8 Articulated Pipes; 3.8.1 The basic dynamics

3.8.2 N-degree-of-freedom pipes

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on online resource; title from PDF title page (ebrary, viewed January 11, 2014).

ISBN:

9780123973139

0123973139

OCLC:

875700057