Assessment of immersed boundary method as a tool for direct numerical simulation of aeroacoustic sound Article Swipe

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Nishikawa Kosei , Konno Kodai , Yuji Hattori ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.1299/jfst.2020jfst0004

An immersed boundary method of discrete type is tested as a tool for direct numerical simulation of aeroacoustic sound. The numerical method consists of the WENO scheme, the immersed boundary method by Chaudhuri et al. (J. Comp. Phys. Vol. 230, 1731–1748 (2011)), and the perfectly matched layer together with the dyadic mesh refinement and the Runge-Kutta method. The accuracy of the method is shown to be sufficient for four basic problems: propagation of acoustic waves, aeroacoustic sound generation in a flow past a fixed circular cylinder, in a flow past an oscillating square cylinder, and from a vortex pair passing through a circular cylinder. The results confirm that the developed method can deal with moving bodies and it is accurate not only for viscous flows but also for inviscid flows.

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Mathematical Analysis

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Inviscid flow Cylinder Acoustics Vortex Physics Immersed boundary method Vortex shedding Flow (mathematics) Aeroacoustics Boundary (topology) Mechanics Boundary layer Mathematical analysis Geometry Mathematics Sound pressure Reynolds number Turbulence

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Type: article
Language: en
Landing Page: https://doi.org/10.1299/jfst.2020jfst0004
PDF: https://www.jstage.jst.go.jp/article/jfst/15/1/15_2020jfst0004/_pdf
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Cited By: 4
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DOI: https://doi.org/10.1299/jfst.2020jfst0004

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Title: Assessment of immersed boundary method as a tool for direct numerical simulation of aeroacoustic sound

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Language: en

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Publication year: 2020

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Authors: Nishikawa Kosei, Konno Kodai, Yuji Hattori

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Landing page: https://doi.org/10.1299/jfst.2020jfst0004

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Concepts: Inviscid flow, Cylinder, Acoustics, Vortex, Physics, Immersed boundary method, Vortex shedding, Flow (mathematics), Aeroacoustics, Boundary (topology), Mechanics, Boundary layer, Mathematical analysis, Geometry, Mathematics, Sound pressure, Reynolds number, Turbulence

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Cited by: 4

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