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Aerodynamic noise from wall-bounded flows - hardcover

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VKI LS 2009-03, Aerodynamic noise from wall-bounded flows, hardcover, 1 volume, ISBN 978-2-930389-91-5

Aerodynamic noise from wall-bounded flows

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Aerodynamic noise from wall-bounded flows
Edited by J. Anthoine, J. Christophe
VKI LS 2009-03, hardcover, 1 volume, ISBN 978-2-930389-91-5

Abstract

An accurate understanding of the mechanisms of aerodynamic noise from wall-bounded flows is required to predict that noise and subsequently reduce its environmental impact.

The aim of this Lecture Series proceedings are to present the state-of-the-art review of  on-going activities in noise prediction and to indicate current research directions, in a way accessible to attendees coming from both academic and industrial areas. The course notes appeal not only to experts already working in the domain, but also to newcomers to the field.

Introductory lectures on the fundamentals of aeroacoustics are followed by up-to-date reviews on the different numerical / theoretical approaches: DNS, LES and other hybrid RANS-LES, SAS and aeroacoustical analogies. Applications to the aerodynamic noise from boundary layers, airfoils, airframe devices, cavities, automotive components and internal flows illustrate the capabilities of the different approaches, allowing an evaluation of their performances and a quick application in various fields of research.

Table of content

ROGER, M. - Ecole Centrale de Lyon, France
Aeroacoustics of wall-bounded flows - Fundamentals of aeroacoustics

WANG, M. - University of Notre Dame, USA
Aeroacoustics of wall-bounded flows: overview of computational methods

SANDBERG, R. - University of Southampton, United Kingdom
Numerical Methods: DNS

TERRACOL, M. - ONERA, France
Numerical methods: LES and hybrid RANS/LES

MENTER, F.R. & EGOROV, Y. - ANSYS Germany GmbH, Germany
The scale-adaptive simulation method for unsteady flow predictions

ROGER, M. - Ecole Centrale de Lyon, France
Noise from lifting surfaces - analytical modelling

WANG, M.; Ji, M.; Yang, Q. - University of Notre Dame, USA
Boundary-layer noise due to surface irregularities

MOREAU, S.1 & CHRISTOPHE, J.2 - 1Valeo Thermal Systems, France & 2von Karman Institute for Fluid Dynamics, Belgium
Airfoil noise

CHRISTOPHE, J. - von Karman Institute for Fluid Dynamics, Belgium
Airfoil noise: Hybrid approaches

SANDBERG, R. - University of Southampton, United Kingdom
Airfoil noise: direct simulation approaches

GUO, Y. - The Boeing Company, USA
Airframe noise modeling by acoustic analogy

GLOERFELT, X. - Arts et Métiers ParisTech, France
Cavity noise
Noise from automotive components

SCHRAM, C. - LMS International, Belgium
Prediction of broadband noise in internal flows

HIRSCHBERG, H. - Technische Universiteit Eindhoven & Universiteit Twente, The Netherlands
Introduction to aero-acoustics of internal flows







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Manufacturer von Karman Institute for Fluid Dynamics

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