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DRP schemes for Computational Aeroacoustics

Autor Roberto Della Ratta Rinaldi
en Limba Engleză Paperback – 28 mar 2012
The study of flow-induced noise, known as aeroacoustics, is concerned with the sound generated by turbulent and/or unsteady vortical flows including the effects of any solid boundaries in the flow. Flow-induced noise is a serious problem in many engineering applications. The most notorious one is the jet noise. In this work a shock-capturing adaptive filter is designed. It is indispensable with non linear propagation of acoustic waves or in cases when discontinuities are presents. With the combination of Dispersion Relation Schemes, Runge-Kutta optimized algorithm, selective and nonlinear filter it is possible to calculate directly acoustic and aerodynamic field in a single computation, by solving the compressible unsteady Navier-Stokes equations. Actually, traditional theories using acoustic analogy are appropriate for predicting noise when a sufficiently accurate solution of turbulent flow is available. On the contrary, the approach proposed here can be applied to cases when aerodynamic sources are influenced by acoustic motion such as flames, jet or wake instabilities. This work has been done in collaboration with Dr. Christophe Bogey of École Centrale de Lyon, France.
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Specificații

ISBN-13: 9783848448197
ISBN-10: 384844819X
Pagini: 144
Dimensiuni: 152 x 229 x 9 mm
Greutate: 0.22 kg
Editura: LAP LAMBERT ACADEMIC PUBLISHING AG & CO KG
Colecția LAP Lambert Academic Publishing

Notă biografică

Roberto Della Ratta Rinaldi is an aerospace engineer with a PhD in Fluid Mechanics and Aeroacoustics taken at Politecnico di Torino, Italy. His research activity is focused on computational method for aeroacoustic propagation of sound waves with non uniform mean flow and complex geometries typical of industrial needs.