Aeroacoustic formulation for flow-acoustic feedback

Manfred Kaltenbacher; Stefan Schoder

doi:10.2514/6.2019-2672

Aeroacoustic formulation for flow-acoustic feedback

Manfred Kaltenbacher, Stefan Schoder

Institute of Fundamentals and Theory in Electrical Engineering (4370)

Research output: Contribution to conference › Paper › peer-review

Abstract

Using existing aeroacoustic wave equations, we propose a general hybrid aeroacoustic method, based on compressible ﬂow data. By applying the Helmholtz-Hodge decomposition on arbitrary domains, we extract the incompressible projection (non-radiating base ﬂow) of the compressible ﬂow velocity by solving the vector valued curl-curl equation with the vorticity as forcing term. The resulting vortical ﬂow part is used for computing the acoustic source term. Computations of the aeroacoustic benchmark case, cavity with a lip, which involve acoustic feedback, show promising results.

Original language	English
DOIs	https://doi.org/10.2514/6.2019-2672
Publication status	Published - 22 May 2019

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title = "Aeroacoustic formulation for flow-acoustic feedback",

abstract = "Using existing aeroacoustic wave equations, we propose a general hybrid aeroacoustic method, based on compressible ﬂow data. By applying the Helmholtz-Hodge decomposition on arbitrary domains, we extract the incompressible projection (non-radiating base ﬂow) of the compressible ﬂow velocity by solving the vector valued curl-curl equation with the vorticity as forcing term. The resulting vortical ﬂow part is used for computing the acoustic source term. Computations of the aeroacoustic benchmark case, cavity with a lip, which involve acoustic feedback, show promising results.",

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AB - Using existing aeroacoustic wave equations, we propose a general hybrid aeroacoustic method, based on compressible ﬂow data. By applying the Helmholtz-Hodge decomposition on arbitrary domains, we extract the incompressible projection (non-radiating base ﬂow) of the compressible ﬂow velocity by solving the vector valued curl-curl equation with the vorticity as forcing term. The resulting vortical ﬂow part is used for computing the acoustic source term. Computations of the aeroacoustic benchmark case, cavity with a lip, which involve acoustic feedback, show promising results.

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DO - 10.2514/6.2019-2672

M3 - Paper

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Aeroacoustic formulation for flow-acoustic feedback

Abstract

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