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High-order hybrid cell-centered method for computational aeroacoustics

High-order hybrid cell-centered method for computational aeroacoustics
High-order hybrid cell-centered method for computational aeroacoustics
High-order cell-vertex finite difference schemes applied to multi-block structured grids are used widely in computational aeroacoustics for their low-dispersion and low-dissipation properties. Structured grids for complex geometries may contain discontinuous grid metrics at multi-block interfaces. In this work it is demonstrated that the grid-induced errors from such interfaces can be reduced by applying finite difference schemes in the cell-centered space. Further reduction of these grid-induced errors can be achieved by applying an additional finite volume method, which serves as an interface condition. In this paper, the development of a hybrid cell-centered finite difference and finite volume method is demonstrated. An interpolation scheme is derived from a high-order finite difference scheme to apply the finite volume method at interfaces. The order of accuracy of this hybrid method is demonstrated and the method is used to simulate the flow around a single cylinder, tandem cylinders, and a complex isolated wheel. Comparisons with experimental measurements and numerical predictions show that the hybrid method can provide accurate results at block interfaces and can be applied to high-order simulations of complex geometries.
American Institute of Aeronautics and Astronautics
Wang, M.
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Fattah, Ryu J
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Angland, David
b86880c6-31fa-452b-ada8-4bbd83cda47f
Zhang, X
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Wang, M.
66a75e8c-a780-4fe8-8aa6-b37e80a6c134
Fattah, Ryu J
b7fbaf19-132f-4a04-828e-6656b4d83f24
Angland, David
b86880c6-31fa-452b-ada8-4bbd83cda47f
Zhang, X
e551b9e6-0e46-4266-afc0-f5c81ae6ccb6

Wang, M., Fattah, Ryu J, Angland, David and Zhang, X (2015) High-order hybrid cell-centered method for computational aeroacoustics. In 21st AIAA/CEAS Aeroacoustics Conference. American Institute of Aeronautics and Astronautics.. (doi:10.2514/6.2015-3279).

Record type: Conference or Workshop Item (Paper)

Abstract

High-order cell-vertex finite difference schemes applied to multi-block structured grids are used widely in computational aeroacoustics for their low-dispersion and low-dissipation properties. Structured grids for complex geometries may contain discontinuous grid metrics at multi-block interfaces. In this work it is demonstrated that the grid-induced errors from such interfaces can be reduced by applying finite difference schemes in the cell-centered space. Further reduction of these grid-induced errors can be achieved by applying an additional finite volume method, which serves as an interface condition. In this paper, the development of a hybrid cell-centered finite difference and finite volume method is demonstrated. An interpolation scheme is derived from a high-order finite difference scheme to apply the finite volume method at interfaces. The order of accuracy of this hybrid method is demonstrated and the method is used to simulate the flow around a single cylinder, tandem cylinders, and a complex isolated wheel. Comparisons with experimental measurements and numerical predictions show that the hybrid method can provide accurate results at block interfaces and can be applied to high-order simulations of complex geometries.

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Published date: 22 June 2015
Venue - Dates: 21st AIAA/CEAS Aeroacoustics Conference, Dallas, United States, 2015-06-22 - 2015-06-25

Identifiers

Local EPrints ID: 419505
URI: http://eprints.soton.ac.uk/id/eprint/419505
DOI: doi:10.2514/6.2015-3279
PURE UUID: ba40d066-7fd7-4a55-b2e0-97aa1fad4d44

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Date deposited: 13 Apr 2018 16:30
Last modified: 15 Mar 2024 19:17

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Contributors

Author: M. Wang
Author: Ryu J Fattah
Author: David Angland
Author: X Zhang

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