Gradient term filtering for stable sound propagation
with linearized Euler equations
Gradient term filtering for stable sound propagation
with linearized Euler equations
A new, stable gradient term filtering (GTF) method is applied to time-domain linearised Euler equations (LEE) to compute sound propagation problems. The method employs a Laplace operator as a filter to obtain acoustic wave mponents. Through the filtering process, both the Kelvin-Helmholtz and the Rayleigh–Taylor instabilities can be removed from the solution process. Stability analysis onfirms the stable behaviour of the solution in the presence of a sheared background mean flow, as against the conditional stability of LEE and gradient term suppression (GTS) methods. In accounting for vortical wave propagation, a curl operator can be conventionally utilised to obtain two-dimensional vortical wave components. Several benchmark test cases are studied to validate the proposed methods.
Tests show that the proposed method can obtain stable solutions for acoustic wave propagation and is capable of modeling vortical interactions.
Zhang, Xin
3056a795-80f7-4bbd-9c75-ecbc93085421
Chen, Xiaoxian
1c7ce635-f117-4cb5-8f61-cb6a9b23d8a5
Gill, James
1e31eb24-f833-462e-b610-23b5b28e7285
Huang, Xun
57c88e52-954d-4e5a-94ca-3547a4cb9440
June 2014
Zhang, Xin
3056a795-80f7-4bbd-9c75-ecbc93085421
Chen, Xiaoxian
1c7ce635-f117-4cb5-8f61-cb6a9b23d8a5
Gill, James
1e31eb24-f833-462e-b610-23b5b28e7285
Huang, Xun
57c88e52-954d-4e5a-94ca-3547a4cb9440
Zhang, Xin, Chen, Xiaoxian, Gill, James and Huang, Xun
(2014)
Gradient term filtering for stable sound propagation
with linearized Euler equations.
20th AIAA/CEAS Aeroacoustics Conference, Atlanta, United States.
16 - 20 Jun 2014.
14 pp
.
(doi:10.2514/6.2014-3306).
Record type:
Conference or Workshop Item
(Paper)
Abstract
A new, stable gradient term filtering (GTF) method is applied to time-domain linearised Euler equations (LEE) to compute sound propagation problems. The method employs a Laplace operator as a filter to obtain acoustic wave mponents. Through the filtering process, both the Kelvin-Helmholtz and the Rayleigh–Taylor instabilities can be removed from the solution process. Stability analysis onfirms the stable behaviour of the solution in the presence of a sheared background mean flow, as against the conditional stability of LEE and gradient term suppression (GTS) methods. In accounting for vortical wave propagation, a curl operator can be conventionally utilised to obtain two-dimensional vortical wave components. Several benchmark test cases are studied to validate the proposed methods.
Tests show that the proposed method can obtain stable solutions for acoustic wave propagation and is capable of modeling vortical interactions.
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e-pub ahead of print date: 13 June 2014
Published date: June 2014
Venue - Dates:
20th AIAA/CEAS Aeroacoustics Conference, Atlanta, United States, 2014-06-16 - 2014-06-20
Organisations:
Aerodynamics & Flight Mechanics Group
Identifiers
Local EPrints ID: 369431
URI: http://eprints.soton.ac.uk/id/eprint/369431
PURE UUID: 2702a642-71ac-474f-8198-d1667955cb83
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Date deposited: 29 Sep 2014 15:31
Last modified: 14 Mar 2024 18:03
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Contributors
Author:
Xin Zhang
Author:
Xun Huang
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