A numerical study of the effects of design parameters on the acoustics noise of a high efficiency propeller


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Abstract

A numerical study of a high efficiency propeller in the aerodynamic noise generation is carried out. Based on RANS, three-dimensional numerical simulation is performed to obtain the aerodynamic performance of the propeller. The result of the aerodynamic analysis is given as input of the acoustic calculation. The sound is calculated using the Farassat 1A, which is derived from Ffowcs Williams–Hawkings equation, and compared with the data of wind tunnel. The propeller is modified for noise reduction by changing its geometrical parameters such as diameter, chord width and pitch angle. The trend of variation between aerodynamic analysis data and acoustic calculation result are compared and discussed for different modification tasks. Meaningful conclusions are drawn on the noise reduction of propeller.

About the authors

Liu Yang

Shanghai Aircraft Design and Research Institute; bSchool of Aeronautic Science and Engineering

Email: yimingxu88@163.com
China, Shanghai, 201210; Beijing, 100191

Jun Huang

bSchool of Aeronautic Science and Engineering

Email: yimingxu88@163.com
China, Beijing, 100191

Mingxu Yi

bSchool of Aeronautic Science and Engineering

Author for correspondence.
Email: yimingxu88@163.com
China, Beijing, 100191

Chaopu Zhang

bSchool of Aeronautic Science and Engineering

Email: yimingxu88@163.com
China, Beijing, 100191

Qian Xiao

bSchool of Aeronautic Science and Engineering

Email: yimingxu88@163.com
China, Beijing, 100191

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