Numerical investigation on aerodynamic noise of flow past a cylinder with different spanwise lengths

Chen, Guanjiang; Zang, Bin; Azarpeyvand, Mahdi

doi:10.1063/5.0139731

Physics of Fluids

2023

DOI: 10.1063/5.0139731

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Numerical investigation on aerodynamic noise of flow past a cylinder with different spanwise lengths

Guanjiang Chen

Bin Zang

Mahdi Azarpeyvand

Abstract: A numerical investigation is conducted on aerodynamic noise of flow past a circular cylinder with different spanwise lengths (0.5πD, πD, 2πD, 4πD) at Re = 10, 000, where D is the diameter of the cylinder. The near-field pressure and velocity fields are predicted through Large Eddy Simulation (LES), then the acoustic analogy is used to obtain the far-field noise. The results show good agreements for both the near and far-field with the data from in-house experiments and the literature. Though the spanwise lengt… Show more

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Cited by 12 publications

References 55 publications

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Analysis of non-uniform laminar flow past a circular cylinder on the flow and sound field evolution using direct numerical simulation approach

Kumar,

Arumuru

et al. 2023

Acta Mech

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This paper analyses the effects of a non-uniform laminar flow past a circular cylinder using the direct numerical simulation (DN S) approach. Compared to the cylinder immersed in a uniform flow case, modifications caused by the nonuniform approaching flow on the evolution of the flow and sound fields are studied in detail in the present work. The prescribed non-uniform velocity profile at the inlet has a Gaussian distribution and imitates a jet or a wake flow velocity profile. The sound is generated due to periodic vortex shedding behind the circular cylinder. The frequency of vortex shedding and the strength of the shed vortices depend on the inflow velocity profile. Hence variation of the inflow velocity profile alters the shed vortices, changing the generated sound field. It is observed that the amount of gain or deficit present in the prescribed inflow velocity profile compared to the uniform inflow profile alters the sound field information. The jet kind of inflow profile creates a sound of higher frequency and intensity in contrast to the wake kind of inflow profile. The presence of shear in the inflow velocity profile is also expected to change the sound propagation direction. However, in present simulations, the distance over which sound propagation is considered is small compared to the wavelength of the sound waves, and sound beam drift effects are not observed much.

show abstract

Analysis of non-uniform laminar flow past a circular cylinder on the flow and sound field evolution using direct numerical simulation approach

Kumar,

Arumuru

et al. 2023

Acta Mech

View full text Add to dashboard Cite

show abstract

Numerical analysis of the correlation between fluid dynamic modes and hydrodynamic noise in flows around a three-dimensional circular cylinder

Qin,

Zou,

Zhuang

et al. 2024

J Hydrodyn

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Experimental investigation on aerodynamic noise and flow structures of a vibrissa-shaped cylinder

Chen,

Liu,

Zang

et al. 2025

Experimental Thermal and Fluid Science

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Numerical investigation on aerodynamic noise of flow past a cylinder with different spanwise lengths

Cited by 12 publications

References 55 publications

Analysis of non-uniform laminar flow past a circular cylinder on the flow and sound field evolution using direct numerical simulation approach

Analysis of non-uniform laminar flow past a circular cylinder on the flow and sound field evolution using direct numerical simulation approach

Numerical analysis of the correlation between fluid dynamic modes and hydrodynamic noise in flows around a three-dimensional circular cylinder

Experimental investigation on aerodynamic noise and flow structures of a vibrissa-shaped cylinder

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