Author:
Modini Sara,Graziani Giorgio,Bernardini Giovanni,Gennaretti Massimo
Abstract
The present work focuses on the alleviation of Blade Vortex Interaction (BVI) noise annoyance through a control
methodology generating high-frequency aerodynamic BVI counter-actions. The low-power requirements make
the Micro-Trailing Edge Effectors (MiTEs) particularly suited for this kind of application. The controller layout
is set by observing the BVI scenario while the actuation law is efficiently synthesized through a process based on
an analytical unsteady sectional aerodynamic formulation. The validation of the proposed control methodology is
carried out through numerical investigations of a realistic helicopter main rotor in flight descent, obtained using
computational tools for potential-flow aerodynamic and aeroacoustic analyses based on boundary element method
solutions. In order to capture the aerodynamic influence of MiTEs through potential-flow simulations, the MiTEs
are replaced by trailing edge plain flaps which provide equivalent aerodynamic responses. Results concerning
the proposed controller capability to alleviate high-frequency blade loads and subsequent emitted noise from BVI
events are presented and discussed.
Publisher
International Institute of Acoustics and Vibration (IIAV)
Cited by
3 articles.
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