Archivio Istituzionale della RicercaMotivated by the potential benefit of Strut-Braced Wing (SBW) configurations in reducing fuel burn, this manuscript investigates the noise generated by the interaction between the propeller slipstream and the SBW. The flow field on a regional transport aircraft is computed in high-lift condition by means of a high-fidelity Lattice Boltzmann solver with very large eddy simulation approach. The acoustic far field is obtained using the Ffowcs-Williams and Hawkings acoustic analogy. The analysis shows that the main aeroacoustic effect due to the interaction between the SBW and the propeller slipstream is the emergency of a tonal noise scattering from the region bounded by the pressure side of the main wing and the suction side of the strut at twice the blade passing frequency.
Aerodynamic Noise Prediction of Strut-Braced Wing Aircraft / Sticchi, Emanuele; Ragni, Daniele; Casalino, Damiano; Avallone, Francesco. - (2024). ( 30th AIAA/CEAS Aeroacoustics Conference (2024) Rome (ITA) June 4-7, 2024) [10.2514/6.2024-3012].
Aerodynamic Noise Prediction of Strut-Braced Wing Aircraft
Casalino, Damiano;Avallone, Francesco
2024
Abstract
Motivated by the potential benefit of Strut-Braced Wing (SBW) configurations in reducing fuel burn, this manuscript investigates the noise generated by the interaction between the propeller slipstream and the SBW. The flow field on a regional transport aircraft is computed in high-lift condition by means of a high-fidelity Lattice Boltzmann solver with very large eddy simulation approach. The acoustic far field is obtained using the Ffowcs-Williams and Hawkings acoustic analogy. The analysis shows that the main aeroacoustic effect due to the interaction between the SBW and the propeller slipstream is the emergency of a tonal noise scattering from the region bounded by the pressure side of the main wing and the suction side of the strut at twice the blade passing frequency.
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https://hdl.handle.net/11583/2989259