2021
DOI: 10.1063/5.0048582
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Control of the self-sustained shear layer oscillations over rectangular cavities using high-frequency vortex generators

Abstract: The excitation of acoustic resonance by flow over a rectangular cavity can generate acute noise, cause damage to equipment, and interrupt operation. In this work, a passive control technique to suppress the excitation of acoustic resonance by the flow over rectangular cavities is experimentally investigated. A span-wise rod that generates high-frequency vortices is mounted upstream of the cavity leading edge to prevent the flapping of the shear layer. The effect of the rod parameters on the mechanism of acoust… Show more

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Cited by 18 publications
(5 citation statements)
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“…This may lead to strong interaction between the over-tip shock waves, shear layers and other flow structures. Lock-in effects or coupling effects, such as cavity resonance 13 and vortex induced vibrations, 14 are common in flow interactions. Some kind of lock-in effect is expected in wall-bounded TLFs under the critical state.…”
Section: Accepted To Phys Fluids 101063/50147216mentioning
confidence: 99%
“…This may lead to strong interaction between the over-tip shock waves, shear layers and other flow structures. Lock-in effects or coupling effects, such as cavity resonance 13 and vortex induced vibrations, 14 are common in flow interactions. Some kind of lock-in effect is expected in wall-bounded TLFs under the critical state.…”
Section: Accepted To Phys Fluids 101063/50147216mentioning
confidence: 99%
“…Regarding the generation mechanism of notch or cavity overflow noise, studies conducted by scholars at home and abroad using experimental and numerical simulation methods [6][7][8] show that cavity noise is generated due to the interaction between the shear flow outside the cavity and the fluid inside the cavity within a certain range of geometrical parameters, which causes pulsation of pressure, density and velocity near the cavity and radiation of noise. This physical phenomenon is also known as self-excited oscillations of the cavity [9].…”
Section: Introductionmentioning
confidence: 99%
“…Over the years, various passive and active methods for modifying the flow pattern at the cavity leading or trailing edges have been attempted to suppress the Rossiter modes for eventual cavity noise reduction (Lee, 2010;Liu & Gómez, 2019;Li et al, 2020;Abdelmwgoud & Mohany, 2021;Mourão Bento et al, 2022). Sun et al (2019) used a series of flow jets at the This is the author's peer reviewed, accepted manuscript.…”
Section: Introductionmentioning
confidence: 99%