Mechanics of Flow Induced Sound and Vibration Volume 2 Complex Flow Structure Interactions 2nd Edition by William K Blake ISBN 0128092742 9780128092743
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Product details:
ISBN 10: 0128092742
ISBN 13: 9780128092743
Author: William K Blake
Mechanics of Flow-Induced Sound and Vibration, Volume 2: Complex Flow-Structure Interactions, Second Edition, enables readers to fully understand flow-induced vibration and sound, unifying the disciplines of fluid dynamics, structural dynamics, vibration, acoustics, and statistics in order to classify and examine each of the leading sources of vibration and sound induced by various types of fluid motion.
Starting from classical theories of aeroacoustics and hydroacoustics, a formalism of integral solutions valid for sources near boundaries is developed and then broadened to address different source types, including hydrodynamically induced cavitation and bubble noise, turbulent wall-pressure fluctuations, pipe and duct systems, lifting surface flow noise and vibration, and noise from rotating machinery. Each chapter is illustrated with comparisons of leading formulas and measured data.
Combined with its companion book, Mechanics of Flow-Induced Sound and Vibration, Volume 1: General Concepts and Elementary Sources, the book covers everything an engineer needs to understand flow-induced sound and vibration. This book will be a vital source of information for postgraduate students, engineers and researchers with an interest in aerospace, ships and submarines, offshore structures, construction, and ventilation.
- Presents every important topic in flow-induced sound and vibration
- Covers all aspects of the topics addressed, from fundamental theory, to the analytical formulas used in practice
- Provides the building blocks of computer modeling for flow-induced sound and vibration
Mechanics of Flow Induced Sound and Vibration Volume 2 Complex Flow Structure Interactions 2nd Table of contents:
Volume 2: Complex Flow Structure Interactions
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Introduction to Complex Flow-Structure Interactions
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1.1 Overview of Flow-Induced Sound and Vibration
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1.2 The Role of Complex Flow Interactions in Acoustic and Vibration Phenomena
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1.3 Fundamental Concepts of Flow-Structure Interaction
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1.4 Structure of the Book and Key Topics in Complex Interactions
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Theoretical Foundations of Flow-Induced Vibrations
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2.1 Governing Equations of Fluid-Structure Interaction
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2.2 Analytical Models for Flow-Induced Vibration
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2.3 Linear vs. Nonlinear Flow-Structure Interactions
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2.4 Stability and Bifurcations in Flow-Structure Systems
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2.5 Numerical Methods in Flow-Induced Sound and Vibration
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Nonlinear Phenomena in Flow-Structure Interactions
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3.1 Nonlinear Oscillations and Resonance Phenomena
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3.2 Subharmonic, Superharmonic, and Harmonic Responses
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3.3 Bifurcation Theory in Flow-Induced Vibration Systems
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3.4 Chaotic Behavior in Flow-Structure Interaction
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3.5 Mathematical and Computational Modeling of Nonlinear Interactions
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Flow-Induced Vibrations in Turbulent Flow Regimes
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4.1 Characteristics of Turbulent Flow and Its Impact on Vibration
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4.2 Turbulent Flow-Induced Acoustic Emission
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4.3 Modeling Turbulence in Flow-Structure Interaction Problems
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4.4 Vortex-Induced Vibrations in Turbulent Flows
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4.5 Experimental Investigations of Turbulent Flow-Induced Vibrations
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Coupled Fluid-Structure Interaction and Acoustic Emissions
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5.1 Mechanisms of Sound Generation from Flow-Structure Interaction
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5.2 Acoustic and Vibration Coupling: Theory and Models
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5.3 Flow-Structure-Interaction-Induced Sound in Pipe and Duct Systems
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5.4 Acoustic Radiation from Flexible Structures in Flow
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5.5 Advanced Computational Techniques for Acoustic-Vibration Coupling
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Vortex-Induced Vibrations and Sound in Complex Geometries
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6.1 Vortex Shedding and Its Role in Flow-Induced Vibrations
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6.2 Complex Geometries and Flow-Structure Interaction
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6.3 Wake Interactions in Flow-Induced Vibrations
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6.4 The Effect of Shape and Size on Vortex-Induced Sound
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6.5 Flow-Induced Sound and Vibration in Cylindrical and Bluff-Body Geometries
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Interaction of Flow with Flexible Structures
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7.1 The Dynamics of Flexible Structures in Flow
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7.2 Flow-Induced Instabilities in Flexible Structures
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7.3 The Role of Structure Damping in Vibration Reduction
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7.4 Nonlinear Response of Flexible Structures to Flow-Induced Forces
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7.5 Theoretical and Experimental Insights into Flow-Structure Interaction with Flexible Bodies
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Aeroacoustics and Flow-Induced Noise in Engineering Applications
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8.1 Principles of Aeroacoustics in Flow-Structure Interactions
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8.2 Flow-Induced Noise in Aircraft and Automotive Systems
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8.3 Noise from Fluid-Structure Interaction in Ventilation and HVAC Systems
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8.4 Acoustic Control and Mitigation in Flow-Induced Sound
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8.5 The Role of Computational Fluid Dynamics (CFD) in Aeroacoustics
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Flow-Structure Interactions in Marine and Offshore Structures
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9.1 Flow-Induced Vibration in Submarine and Offshore Platforms
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9.2 Vortex-Induced Vibration in Marine Risers and Pipes
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9.3 Wave-Structure Interactions and Their Acoustic Effects
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9.4 Hydrodynamic Forces on Floating Structures
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9.5 Methods for Monitoring and Mitigating Flow-Induced Vibration in Marine Environments
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Flow-Induced Vibrations in Energy Systems
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10.1 Flow-Induced Vibration in Turbomachinery and Heat Exchangers
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10.2 Vibration and Acoustic Issues in Power Generation Systems
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10.3 Wind and Hydropower Systems: Flow-Structure Interaction Challenges
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10.4 Noise Control in Energy Systems: An Acoustic Perspective
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10.5 Case Studies: Energy Systems Affected by Flow-Induced Vibrations
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Design Strategies for Mitigating Flow-Induced Vibrations
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11.1 Passive and Active Vibration Control Techniques
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11.2 Material Selection and Structural Reinforcement for Vibration Resistance
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11.3 Vibration Isolation and Damping in Fluid-Structure Systems
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11.4 Flow Modifiers and Flow Separation Control to Reduce Vibrations
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11.5 Design Guidelines for Minimizing Flow-Induced Sound and Vibration
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Experimental Techniques in Flow-Induced Sound and Vibration Studies
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12.1 Methods for Measuring Flow-Induced Vibration and Acoustics
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12.2 Modal Testing and Vibration Analysis of Fluid-Structure Systems
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12.3 Use of High-Fidelity Simulations in Flow-Structure Interaction Experiments
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12.4 Laboratory Setups for Flow-Induced Sound Studies
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12.5 In Situ Measurements and Field Studies of Flow-Structure Interactions
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Recent Advances and Future Directions in Flow-Induced Sound and Vibration
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13.1 Cutting-Edge Research in Nonlinear Flow-Induced Phenomena
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13.2 Future Trends in Computational Fluid-Structure Interaction Modeling
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13.3 Emerging Technologies in Vibration Control and Noise Reduction
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13.4 The Role of Machine Learning in Predicting Flow-Structure Interactions
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13.5 Future Challenges and Opportunities in the Field
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Tags: William K Blake, Mechanics, Vibration