This paper presents the results of a blade optimization to reduce propeller tonal noise, using the Blade Element Momentum Theory for aerodynamics and a spherical harmonics expansion for acoustic field prediction. For each blade pass frequency, accurate far-field results can be obtained by keeping only a few terms in the expansion. The optimization is performed by finding the spanwise chord distribution that minimizes the objective function, which is a weighted sum of mechanical and loading noise power, for a fixed value of thrust. Results are presented for different angular speeds and weights of the objective function.
Propeller Optimization for Tonal Noise Reduction Using Spherical Harmonics Expansion and Blade Element Theory
Fruncillo, Felice;Luchini, Paolo;Giannetti, Flavio;
2024
Abstract
This paper presents the results of a blade optimization to reduce propeller tonal noise, using the Blade Element Momentum Theory for aerodynamics and a spherical harmonics expansion for acoustic field prediction. For each blade pass frequency, accurate far-field results can be obtained by keeping only a few terms in the expansion. The optimization is performed by finding the spanwise chord distribution that minimizes the objective function, which is a weighted sum of mechanical and loading noise power, for a fixed value of thrust. Results are presented for different angular speeds and weights of the objective function.File in questo prodotto:
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