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Hysteresis effect on airfoil stall noise and flow field

Hysteresis effect on airfoil stall noise and flow field
Hysteresis effect on airfoil stall noise and flow field
The effect of hysteresis on the lift coefficient of an airfoil is well-known, i.e., the lift coefficient is higher during the upstroke than during the downstroke for the same angle of attack (AoA). In contrast, the effect of hysteresis on the noise emission has not been reported before. In order to investigate this effect, a NACA 0012 airfoil is investigated during upstroke and downstroke between zero and post-stall AoA at a constant Reynolds number of
⁠. A map of the noise emission vs AoA is presented revealing tonal noise emission at low AoA, and broadband noise beyond the linear range of lift coefficient. The trend of overall sound pressure level vs AoA shows two local peaks: one at 4.4° with high tonal noise and a second one at 12.6° where the maximum lift coefficient is observed. Flow measurements near the leading edge and trailing edge by particle image velocimetry show that the airfoil noise trend vs AoA is dominated by the trailing-edge flow features. The magnitude of noise emission during the upstroke is higher than that during the downstroke in the hysteresis loop, although the velocity fluctuation magnitude is smaller. This implies that the vortex coherence during upstroke is higher than downstroke, which is evidenced by a more coherent vortex during the upstroke.
1070-6631
Yang, Y.
041686bc-10eb-4547-9aeb-13b107544020
Li, C.
8f4f6c19-b82d-410f-b8be-98c5c288087a
Pröbsting, S.
6a38192b-2dbd-437b-9f49-357e2e77b93b
Liu, X.
0961c28d-a0a4-44ac-a545-8704549869c7
Liu, Y.
d3d206ce-76d5-436d-80b0-d2c0d2ae8168
Arcondoulis, E. J. G.
4e0c8bdf-1810-4d4e-b8e8-9ba9ccd6b746
Yang, Y.
041686bc-10eb-4547-9aeb-13b107544020
Li, C.
8f4f6c19-b82d-410f-b8be-98c5c288087a
Pröbsting, S.
6a38192b-2dbd-437b-9f49-357e2e77b93b
Liu, X.
0961c28d-a0a4-44ac-a545-8704549869c7
Liu, Y.
d3d206ce-76d5-436d-80b0-d2c0d2ae8168
Arcondoulis, E. J. G.
4e0c8bdf-1810-4d4e-b8e8-9ba9ccd6b746

Yang, Y., Li, C., Pröbsting, S., Liu, X., Liu, Y. and Arcondoulis, E. J. G. (2023) Hysteresis effect on airfoil stall noise and flow field. Physics of Fluids, 35 (9), [095101]. (doi:10.1063/5.0160288).

Record type: Article

Abstract

The effect of hysteresis on the lift coefficient of an airfoil is well-known, i.e., the lift coefficient is higher during the upstroke than during the downstroke for the same angle of attack (AoA). In contrast, the effect of hysteresis on the noise emission has not been reported before. In order to investigate this effect, a NACA 0012 airfoil is investigated during upstroke and downstroke between zero and post-stall AoA at a constant Reynolds number of
⁠. A map of the noise emission vs AoA is presented revealing tonal noise emission at low AoA, and broadband noise beyond the linear range of lift coefficient. The trend of overall sound pressure level vs AoA shows two local peaks: one at 4.4° with high tonal noise and a second one at 12.6° where the maximum lift coefficient is observed. Flow measurements near the leading edge and trailing edge by particle image velocimetry show that the airfoil noise trend vs AoA is dominated by the trailing-edge flow features. The magnitude of noise emission during the upstroke is higher than that during the downstroke in the hysteresis loop, although the velocity fluctuation magnitude is smaller. This implies that the vortex coherence during upstroke is higher than downstroke, which is evidenced by a more coherent vortex during the upstroke.

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More information

Published date: 1 September 2023

Identifiers

Local EPrints ID: 506126
URI: http://eprints.soton.ac.uk/id/eprint/506126
DOI: doi:10.1063/5.0160288
ISSN: 1070-6631
PURE UUID: b063db79-e7c7-4235-a4e8-40171d8061e8
ORCID for E. J. G. Arcondoulis: ORCID iD orcid.org/0000-0002-3791-395X

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Date deposited: 28 Oct 2025 18:34
Last modified: 29 Oct 2025 03:15

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Contributors

Author: Y. Yang
Author: C. Li
Author: S. Pröbsting
Author: X. Liu
Author: Y. Liu
Author: E. J. G. Arcondoulis ORCID iD

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