Numerical investigation of active flow control using steady blowing for landing gear noise reduction
Numerical investigation of active flow control using steady blowing for landing gear noise reduction
Active Flow Control in the form of steady blowing is used with the aim of reducing the noise generated by high Reynolds number flow over bluff bodies. A Computational Fluid Dynamics solver is used to compute the flow field and provide surface pressure samples to a Ffowcs Williams-Hawkings solver to obtain far-field acoustic pressure signals. Two geometries are considered, a circular cylinder and a main strut and drag-stay configuration with the upstream drag-stay inclined by 25◦ towards the upstream direction. The latter is representative of interaction flow occurring in a landing gear. The steady blowing is applied on the cylinder and drag-stay configurations from a slot located on both sides of the body at ±30◦, measured from the stagnation line. For the drag-stay configuration, blowing at 180◦ is also investigated. In the isolated cylinder configuration, the noise reduction obtained by blowing at ±30◦ is found to be related to a modification of the flow field directly downstream of the cylinder. An increase in the recirculation region length and a reduction of the velocity fluctuations are observed. However, applying the same flow
control on the drag-stay configuration results in an increase in the overall noise. Blowing at 180◦ on the drag-stay component results in a maximum reduction of 8.5 dB at the shedding peak frequency for an observer aligned with the lift dipole to the side of the drag-stay configuration. The self-noise of both components and the interaction noise are reduced.
American Institute of Aeronautics and Astronautics
Aubert, M.
b7c2e3fe-bdc4-4c66-9f43-816585c5e9d2
Stalnov, O.
6ca7508b-4d32-4e46-9158-ef8f03795ece
Angland, D.
b86880c6-31fa-452b-ada8-4bbd83cda47f
Zhang, X
e551b9e6-0e46-4266-afc0-f5c81ae6ccb6
2014
Aubert, M.
b7c2e3fe-bdc4-4c66-9f43-816585c5e9d2
Stalnov, O.
6ca7508b-4d32-4e46-9158-ef8f03795ece
Angland, D.
b86880c6-31fa-452b-ada8-4bbd83cda47f
Zhang, X
e551b9e6-0e46-4266-afc0-f5c81ae6ccb6
Aubert, M., Stalnov, O., Angland, D. and Zhang, X
(2014)
Numerical investigation of active flow control using steady blowing for landing gear noise reduction.
In 20th AIAA/CEAS Aeroacoustics Conference.
American Institute of Aeronautics and Astronautics..
(doi:10.2514/6.2014-2893).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Active Flow Control in the form of steady blowing is used with the aim of reducing the noise generated by high Reynolds number flow over bluff bodies. A Computational Fluid Dynamics solver is used to compute the flow field and provide surface pressure samples to a Ffowcs Williams-Hawkings solver to obtain far-field acoustic pressure signals. Two geometries are considered, a circular cylinder and a main strut and drag-stay configuration with the upstream drag-stay inclined by 25◦ towards the upstream direction. The latter is representative of interaction flow occurring in a landing gear. The steady blowing is applied on the cylinder and drag-stay configurations from a slot located on both sides of the body at ±30◦, measured from the stagnation line. For the drag-stay configuration, blowing at 180◦ is also investigated. In the isolated cylinder configuration, the noise reduction obtained by blowing at ±30◦ is found to be related to a modification of the flow field directly downstream of the cylinder. An increase in the recirculation region length and a reduction of the velocity fluctuations are observed. However, applying the same flow
control on the drag-stay configuration results in an increase in the overall noise. Blowing at 180◦ on the drag-stay component results in a maximum reduction of 8.5 dB at the shedding peak frequency for an observer aligned with the lift dipole to the side of the drag-stay configuration. The self-noise of both components and the interaction noise are reduced.
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Published date: 2014
Venue - Dates:
20th AIAA/CEAS Aeoracoustics Conference, Atlanta, United States, 2014-06-16 - 2014-06-20
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Local EPrints ID: 419507
URI: http://eprints.soton.ac.uk/id/eprint/419507
PURE UUID: 24b8e919-e95d-4611-a82f-b1004fd18ffb
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Date deposited: 13 Apr 2018 16:30
Last modified: 15 Mar 2024 19:17
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Author:
M. Aubert
Author:
O. Stalnov
Author:
X Zhang
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