Connecting transonic buffet with incompressible low-frequency oscillations on aerofoils
Connecting transonic buffet with incompressible low-frequency oscillations on aerofoils
Self-sustained, low-frequency, coherent flow unsteadiness over rigid, stationary aerofoils in the transonic regime is referred to as transonic buffet. This study examines the role of shock waves in sustaining this transonic phenomenon and its relation to low-frequency oscillations that occur in flow over aerofoils in the incompressible regime (Zaman et al., 1989, J. Fluid Mech., vol. 202, pp. 403–442). This is investigated by performing large-eddy simulations of the flow over a NACA0012 profile for a wide range of flow conditions under free-transition conditions. At low Reynolds numbers, zero incidence angle and sufficiently high freestream Mach numbers, 𝑀, transonic buffet occurs with shock waves present in the flow. However, when 𝑀 alone is lowered, self-sustained, periodic oscillations at a low frequency are observed even though shock waves are absent and the entire flow field remains subsonic at all times. At higher incidence angles, the oscillations are sustained at progressively lower 𝑀 and are present even at 𝑀 = 0.3, where compressibility effects are low. A spectral proper orthogonal decomposition (SPOD) shows that the spatial structure of these oscillations is consistent for all cases. The SPOD modes are topologically similar, suggesting a connection between transonic buffet and low-frequency oscillations in the incompressible regime. Comparisons with other studies examining transonic buffet on various aerofoils, under forced transition and fully-turbulent conditions support this hypothesis. Future studies using tools of global linear stability analysis, especially at high freestream Reynolds numbers are required to examine whether the underlying mechanisms of transonic buffet and incompressible low-frequency oscillations are the same.
Moise, Pradeep
477a368b-c418-46b3-a94a-4b53049b93ba
Zauner, Markus
297472d4-56c0-458a-a510-ae43ecd5bd51
Sandham, Neil D.
0024d8cd-c788-4811-a470-57934fbdcf97
Moise, Pradeep
477a368b-c418-46b3-a94a-4b53049b93ba
Zauner, Markus
297472d4-56c0-458a-a510-ae43ecd5bd51
Sandham, Neil D.
0024d8cd-c788-4811-a470-57934fbdcf97
Moise, Pradeep, Zauner, Markus and Sandham, Neil D.
(2023)
Connecting transonic buffet with incompressible low-frequency oscillations on aerofoils.
Journal of Fluid Mechanics.
(In Press)
Abstract
Self-sustained, low-frequency, coherent flow unsteadiness over rigid, stationary aerofoils in the transonic regime is referred to as transonic buffet. This study examines the role of shock waves in sustaining this transonic phenomenon and its relation to low-frequency oscillations that occur in flow over aerofoils in the incompressible regime (Zaman et al., 1989, J. Fluid Mech., vol. 202, pp. 403–442). This is investigated by performing large-eddy simulations of the flow over a NACA0012 profile for a wide range of flow conditions under free-transition conditions. At low Reynolds numbers, zero incidence angle and sufficiently high freestream Mach numbers, 𝑀, transonic buffet occurs with shock waves present in the flow. However, when 𝑀 alone is lowered, self-sustained, periodic oscillations at a low frequency are observed even though shock waves are absent and the entire flow field remains subsonic at all times. At higher incidence angles, the oscillations are sustained at progressively lower 𝑀 and are present even at 𝑀 = 0.3, where compressibility effects are low. A spectral proper orthogonal decomposition (SPOD) shows that the spatial structure of these oscillations is consistent for all cases. The SPOD modes are topologically similar, suggesting a connection between transonic buffet and low-frequency oscillations in the incompressible regime. Comparisons with other studies examining transonic buffet on various aerofoils, under forced transition and fully-turbulent conditions support this hypothesis. Future studies using tools of global linear stability analysis, especially at high freestream Reynolds numbers are required to examine whether the underlying mechanisms of transonic buffet and incompressible low-frequency oscillations are the same.
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Accepted version Connecting transonic buffet with incompressible low-frequency oscillations on aerofoils
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Accepted/In Press date: 9 December 2023
Identifiers
Local EPrints ID: 485561
URI: http://eprints.soton.ac.uk/id/eprint/485561
ISSN: 0022-1120
PURE UUID: bb5f3883-1471-485f-bbec-0b263409a510
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Date deposited: 11 Dec 2023 17:33
Last modified: 18 Mar 2024 03:57
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Author:
Pradeep Moise
Author:
Markus Zauner
Author:
Neil D. Sandham
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