A Numerical Analysis of the Effects of Wing Kinematics on Flapping Wing Aeroacoustics
Source
UAH PRC Research Database
Document Type
Article
Publication Title
Journal of Sound and Vibration
Abstract
Despite the recent interest in flapping wing aerodynamics, the aerodynamic sound generation mechanism of a flapping wing is inadequately understood. In this paper, the interplay between the wing motion, resulting unsteady aerodynamics, and aeroacoustics of a flapping wing flyer is investigated. The wing motion is varied in terms of the flapping amplitude, pitching amplitude, and the phase difference between flap and pitch. The unsteady flow around the flapping wing is numerically calculated using a well-validated Navier-Stokes equation solver. Acoustic pressures are computed using the Ffowcs-Williams-Hawkings equation in a three-dimensional space at varying distances from the wing. Two main sound generation mechanisms are found. The flapping motion induces the highest sound pressure level (SPL) in the stroke plane. Furthermore, the SPL peaks under the wing due to the wake induced by lift generation. Effective motions, generating the highest lift and lowest SPL, are found when the flap and pitch amplitudes are high and when the pitch rotation is delayed with respect to flap. These results suggest that the delayed rotations observed for small hovering insects may aim to minimize sound production rather than maximize lift generation.
First Page
366
Last Page
383
DOI
383
Publication Date
3-3-2019
Recommended Citation
Nedunchezian, Kabilan; Kang, Chang-Kwon; and Aono, Hikaru, "A Numerical Analysis of the Effects of Wing Kinematics on Flapping Wing Aeroacoustics" (2019). PRC-Affiliated Research. 98.
https://louis.uah.edu/prc-research/98