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This volume gathers the latest advances and innovations in the
field of flow-induced vibration and noise, as presented by leading
international researchers at the 3rd International Symposium on
Flow Induced Noise and Vibration Issues and Aspects (FLINOVIA),
which was held in Lyon, France, in September 2019. It explores
topics such as turbulent boundary layer-induced vibration and
noise, tonal noise, noise due to ingested turbulence,
fluid-structure interaction problems, and noise control techniques.
The authors' backgrounds represent a mix of academia, government,
and industry, and several papers include applications to important
problems for underwater vehicles, aerospace structures and
commercial transportation. The book offers a valuable reference
guide for all those interested in measurement, modelling,
simulation and reproduction of the flow excitation and flow induced
structural response.
This volume gathers the latest advances and innovations in the
field of flow-induced vibration and noise, as presented by leading
international researchers at the 3rd International Symposium on
Flow Induced Noise and Vibration Issues and Aspects (FLINOVIA),
which was held in Lyon, France, in September 2019. It explores
topics such as turbulent boundary layer-induced vibration and
noise, tonal noise, noise due to ingested turbulence,
fluid-structure interaction problems, and noise control techniques.
The authors' backgrounds represent a mix of academia, government,
and industry, and several papers include applications to important
problems for underwater vehicles, aerospace structures and
commercial transportation. The book offers a valuable reference
guide for all those interested in measurement, modelling,
simulation and reproduction of the flow excitation and flow induced
structural response.
Flow induced vibration and noise (FIVN) remains a critical research
topic. Even after over 50 years of intensive research, accurate and
cost-effective FIVN simulation and measurement techniques remain
elusive. This book gathers the latest research from some of the
most prominent experts in the field. It describes methods for
characterizing wall pressure fluctuations, including subsonic and
supersonic turbulent boundary layer flows over smooth and rough
surfaces using computational methods like Large Eddy Simulation;
for inferring wall pressure fluctuations using inverse techniques
based on panel vibrations or holographic pressure sensor arrays;
for calculating the resulting structural vibrations and radiated
sound using traditional finite element methods, as well as advanced
methods like Energy Finite Elements; for using scaling approaches
to universally collapse flow-excited vibration and noise spectra;
and for computing time histories of structural response, including
alternating stresses. This book presents the proceedings of the
First International Workshop on Flow Induced Noise and Vibration
(FLINOVIA), which was held in Rome, Italy, in November 2013. The
authors' backgrounds represent a mix of academia, government, and
industry, and several papers include applications to important
problems for underwater vehicles, aerospace structures and
commercial transportation. The book offers a valuable reference
guide for all those working in the area of flow-induced vibration
and noise.
The book describes analytical methods (based primarily on classical
modal synthesis), the Finite Element Method (FEM), Boundary Element
Method (BEM), Statistical Energy Analysis (SEA), Energy Finite
Element Analysis (EFEA), Hybrid Methods (FEM-SEA and Transfer Path
Analysis), and Wave-Based Methods. The book also includes
procedures for designing noise and vibration control treatments,
optimizing structures for reduced vibration and noise, and
estimating the uncertainties in analysis results. Written by
several well-known authors, each chapter includes theoretical
formulations, along with practical applications to actual
structural-acoustic systems. Readers will learn how to use
vibroacoustic analysis methods in product design and development;
how to perform transient, frequency (deterministic and random), and
statistical vibroacoustic analyses; and how to choose appropriate
structural and acoustic computational methods for their
applications. The book can be used as a general reference for
practicing engineers, or as a text for a technical short course or
graduate course.
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