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An acoustic and psychoacoustic assessment on the noise control of propellers in distributed propulsion configuration using phase-synchronisation Session: Experimental Techniques

Zang, Bin; Turhan, Buda; Torija, Antonio J; Ramos-Romero, Carlos; Azarpeyvand, Mahdi

An acoustic and psychoacoustic assessment on the noise control of propellers in distributed propulsion configuration using phase-synchronisation Session: Experimental Techniques Thumbnail


Authors

Bin Zang

Buda Turhan

Mahdi Azarpeyvand



Abstract

Distributed electric propulsion is widely recoginised as a promising propulsion configuration for next-generation aerial vehicles, including short-to-medium-haul passenger aircraft and urban air mobility vehicles. The presence of multiple propulsors gives rise to additional aerodynamic noise sources and yet, opportunities to novel noise control strategies. The present work examines the application of phase syncrhonisation technique to a DEP configuration, represented by two side-by-side propellers mounted to the leading-edge of a wing. Both the aeroacoustic and psychoacoustic analyses are performed on the far-field acoustic information. The results clearly show that when a relative phase difference is introduced between the two propellers, significant reduction of the tonal component at blade passing frequency can be achieved, accompanied by minor modifications to the directivity pattern. Moreover, such reduction leads directly to the reduction of loudness, a key indicator for the psychoacoustic annoyance. However, interestingly, the impulsiveness and sharpness indicators yield greater levels when the relative phase angle is increased. The findings from the work suggests that there could exist optimal phase angle for which the DEP configuration produces the least noise and psychoacoustic annoyance.

Citation

Zang, B., Turhan, B., Torija, A. J., Ramos-Romero, C., & Azarpeyvand, M. (2024). An acoustic and psychoacoustic assessment on the noise control of propellers in distributed propulsion configuration using phase-synchronisation Session: Experimental Techniques. . https://doi.org/10.17866/rd.salford.27868674.v1

Conference Name Quietdrones 2024
Conference Location Salford, UK
Start Date Sep 8, 2024
End Date Sep 11, 2024
Acceptance Date Nov 22, 2024
Online Publication Date Nov 22, 2024
Publication Date Nov 22, 2024
Deposit Date Nov 22, 2024
Publicly Available Date Nov 22, 2024
DOI https://doi.org/10.17866/rd.salford.27868674.v1
Keywords Phase synchronisation; DEP psychoacoustics; Noise control

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