2021
DOI: 10.1063/5.0056589
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Broadband suppression of aerodynamic pressure on the high-speed bluff body surface with periodic square-cavity acoustic metasurface

Abstract: In this paper, a Multiphysics coupling simulation model of flow and acoustics is proposed using COMSOL software, and its results are verified by comparing with experimental results of others. Then, the aerodynamic pressure above the bluff body surface at a speed of 350 km/h is simulated. Moreover, a near-zero-impedance acoustic metasurface composed of periodic square cavities is theoretically studied with respect to the lowest acoustic pressure, which is consistent with simulation results. The wake vortices ar… Show more

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Cited by 5 publications
(1 citation statement)
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“…The Reynolds number based on the length of the Ahmed body and the inlet flow velocity is equal to 8.93 × 10 5 . The flowcharacteristics is first analyzed by establishing a k-ε turbulence computational model and the wall function is used to describe the characteristics of the near-wall region [30,31]. The lower surface of the computational domain and Ahmed surface are set as non-slip boundaries, and the symmetric surface of the computational domain is set as symmetric boundary and the remaining surfaces are set as slip boundaries.…”
Section: Flow-acoustic Coupling Simulationmentioning
confidence: 99%
“…The Reynolds number based on the length of the Ahmed body and the inlet flow velocity is equal to 8.93 × 10 5 . The flowcharacteristics is first analyzed by establishing a k-ε turbulence computational model and the wall function is used to describe the characteristics of the near-wall region [30,31]. The lower surface of the computational domain and Ahmed surface are set as non-slip boundaries, and the symmetric surface of the computational domain is set as symmetric boundary and the remaining surfaces are set as slip boundaries.…”
Section: Flow-acoustic Coupling Simulationmentioning
confidence: 99%