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Active control of airfoil turbulent boundary layer noise with trailing-edge blowing

Active control of airfoil turbulent boundary layer noise with trailing-edge blowing
Active control of airfoil turbulent boundary layer noise with trailing-edge blowing
Large Eddy Simulation (LES) and Ffowcs Williams-Hawkings acoustic analogy are performed to study the effect of trailing-edge blowing on airfoil self-noise. Simulations were conducted using a National Advisory Committee for Aeronautics 0012 airfoil at zero angle of attack and a chord-based Reynolds number of 4 × 10 5. The aerodynamic and aeroacoustic characteristics of the baseline airfoil were thoroughly verified by comparison with previous numerical and experimental data. The noise reduction effects of continuous and local blowing with different blowing ratios and blowing momentum coefficients were compared. A maximum noise reduction of 20 dB was achieved via trailing-edge blowing and the noise reduction mechanisms of the two blowing methods were discussed. The LES results show a pair of recirculation bubbles in the airfoil wake which are suppressed by trailing-edge blowing. As the blowing vortices convect into the wake, they stretch and stabilize the shear flows from airfoil surfaces. Instantaneous vorticity and root mean square velocity fluctuations are also weakened. There is a decrease in the spanwise coherence and an increase in the phase difference, which contribute to noise reduction. It is concluded that the suppression of turbulence fluctuations in the near wake is the main mechanism of noise reduction for airfoil trailing-edge blowing.
0001-4966
Yang, Chenghao
a36f506a-4901-48c1-b58f-d720101a5840
Arcondoulis, Elias J. G.
4e0c8bdf-1810-4d4e-b8e8-9ba9ccd6b746
Yang, Yannian
9bd0e33e-ec1e-44d4-a290-03fa83e50e5e
Guo, Jing
869cd9f3-c520-43a0-99ba-f3679bb89d5b
Maryami, Reza
8f2c75d9-665a-415c-835c-bed8d698a20b
Bi, Chuanxing
5b777bb7-fa61-425c-a06b-10cdb5696baf
Liu, Yu
beb4d653-c11a-4c6d-bb60-efb63513e19a
Yang, Chenghao
a36f506a-4901-48c1-b58f-d720101a5840
Arcondoulis, Elias J. G.
4e0c8bdf-1810-4d4e-b8e8-9ba9ccd6b746
Yang, Yannian
9bd0e33e-ec1e-44d4-a290-03fa83e50e5e
Guo, Jing
869cd9f3-c520-43a0-99ba-f3679bb89d5b
Maryami, Reza
8f2c75d9-665a-415c-835c-bed8d698a20b
Bi, Chuanxing
5b777bb7-fa61-425c-a06b-10cdb5696baf
Liu, Yu
beb4d653-c11a-4c6d-bb60-efb63513e19a

Yang, Chenghao, Arcondoulis, Elias J. G., Yang, Yannian, Guo, Jing, Maryami, Reza, Bi, Chuanxing and Liu, Yu (2023) Active control of airfoil turbulent boundary layer noise with trailing-edge blowing. The Journal of The Acoustical Society of America, 153 (4). (doi:10.1121/10.0017787).

Record type: Article

Abstract

Large Eddy Simulation (LES) and Ffowcs Williams-Hawkings acoustic analogy are performed to study the effect of trailing-edge blowing on airfoil self-noise. Simulations were conducted using a National Advisory Committee for Aeronautics 0012 airfoil at zero angle of attack and a chord-based Reynolds number of 4 × 10 5. The aerodynamic and aeroacoustic characteristics of the baseline airfoil were thoroughly verified by comparison with previous numerical and experimental data. The noise reduction effects of continuous and local blowing with different blowing ratios and blowing momentum coefficients were compared. A maximum noise reduction of 20 dB was achieved via trailing-edge blowing and the noise reduction mechanisms of the two blowing methods were discussed. The LES results show a pair of recirculation bubbles in the airfoil wake which are suppressed by trailing-edge blowing. As the blowing vortices convect into the wake, they stretch and stabilize the shear flows from airfoil surfaces. Instantaneous vorticity and root mean square velocity fluctuations are also weakened. There is a decrease in the spanwise coherence and an increase in the phase difference, which contribute to noise reduction. It is concluded that the suppression of turbulence fluctuations in the near wake is the main mechanism of noise reduction for airfoil trailing-edge blowing.

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More information

Published date: 1 April 2023

Identifiers

Local EPrints ID: 505919
URI: http://eprints.soton.ac.uk/id/eprint/505919
DOI: doi:10.1121/10.0017787
ISSN: 0001-4966
PURE UUID: 83f00104-feb3-407d-a592-21b1e94164e9
ORCID for Elias J. G. Arcondoulis: ORCID iD orcid.org/0000-0002-3791-395X

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Date deposited: 23 Oct 2025 16:56
Last modified: 24 Oct 2025 02:15

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Contributors

Author: Chenghao Yang
Author: Elias J. G. Arcondoulis ORCID iD
Author: Yannian Yang
Author: Jing Guo
Author: Reza Maryami
Author: Chuanxing Bi
Author: Yu Liu

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