Fluid structure interactions slender structures and axial flow

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fluid structure interactions slender structures and axial flow

Fluid-Structure Interactions: Slender Structures and Axial Flow by Michael P. Paidoussis

Fluid-structure interaction (FSI) is the interaction of some movable or deformable structure with an internal or surrounding fluid flow. Fluid-structure interactions are a crucial consideration in the design of many engineering systems, for example aircraft, pipe networks and bridges. Failing to consider the effects of oscillatory interactions can be catastrophic, especially in structures comprising materials susceptible to fatigue.

Rapid developments in the fields of computational fluid dynamics and computational structural dynamics since the first edition of this highly-regarded reference mean that a new edition is now needed to bring the set up to date with current methods and approaches.

The first of two volumes concentrating on the dynamics of slender bodies within or containing axial flow, Volume 1 covers the fundamentals and mechanisms giving rise to flow-induced vibration, with a particular focus on the challenges associated with pipes conveying fluid.
. Provides an in-depth introduction to and review of an extensive range of fluid-structure interaction topics, with detailed real-world examples in every chapter, appendices containing equations relevant to specific problems and numerous references for additional detail

Unique in its analysis of slender structures no other reference focuses on this topic with such completeness and authority

Written to be accessible to anyone with an undergraduate education in mechanics, providing a valuable resource on this critical yet complex topic for non-specialists across all engineering disciplines

Content is organized by structure and problem type, allowing readers to dip into the sections that are relevant to the particular problem they are facing

Supports development of long-term solutions by focusing on the fundamentals and mechanisms avoiding situations where system failure due to fluid-structure interaction is solved without sufficient understanding of the cause of the original problem or operating conditions under which the solution might not prove effective

Addition of new references, numerical methods and recent applications bring this monumental work up to date with research and developments since the first editions published

Two volumes of the set are complementary but have distinct content and can be used practically as independent information sources
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Published 07.12.2018

Fluid Structure Interactions Slender Structures and Axial Flow

Fluid-Structure Interactions: Volume 2

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. Michael P. The text is richly illustrated, lightly written and more wide-ranging than Volume 1. A comprehensive treatment of fluid-structure interactions involving axial flow and slender structures, such as piping, human veins, aircraft, nuclear reactor fuel and submarine skins. The emphasis is on fundamentals, particularly on the physical understanding and underlying mechanisms, as well as on applications.

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The first of two books concentrating on the dynamics of slender bodies within or containing axial flow, Fluid-Structure Interaction, Volume 1 covers the fundamentals and mechanisms giving rise to flow-induced vibration, with a particular focus on the challenges associated with pipes conveying fluid. 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. In this edition, Chapter 7 from Volume 2 has also been moved to Volume 1, meaning that Volume 1 now mainly treats the dynamics of systems subjected to internal flow, whereas in Volume 2 the axial flow is in most cases external to the flow or annular. 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. Michael P. 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.

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. Michael P.
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1st Edition

Fluid Structure Interactions Cross Flow Induced Instabilities

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. 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. We are always looking for ways to improve customer experience on Elsevier. We would like to ask you for a moment of your time to fill in a short questionnaire, at the end of your visit. If you decide to participate, a new browser tab will open so you can complete the survey after you have completed your visit to this website.

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