Active flutter suppression and gust load alleviation of wings incorporating floating wingtipsifasd2024 Tracking Number 125 Presentation: Session: Gust 1 Room: Room 1.4/1.5 Session start: 09:40 Wed 19 Jun 2024 William Mansey nd21650@bristol.ac.uk Affifliation: University of Bristol Fintan Healy fintan.healy@bristol.ac.uk Affifliation: University of Bristol Huaiyuan Gu huaiyuan.gu@bristol.ac.uk Affifliation: University of Bristol Djamel Rezgui djamel.rezgui@bristol.ac.uk Affifliation: University of Bristol Jonathan Cooper j.e.cooper@bristol.ac.uk Affifliation: University of Bristol Topics: - Aeroservoelasticity (Vehicle analysis/design using model-based and data driven models), - Active Control and Adaptive Structures (Vehicle analysis/design using model-based and data driven models) Abstract: In this paper, a two degree of freedom mathematical model was used to analyse active flutter suppression on wings featuring flared folding wingtips, via an additional control surface on the wingtip. The active control system took the wingtip fold angle as the input parameter. Using a proportional controller gain, the flutter onset speed could be increased by 25%, and a proportional controller can also be used to recreate the effect of a flare angle. Using a derivative controller, it was found that flutter could be prevented across all reasonable airspeeds. Both benefits could be realised without a significant change in the gust load alleviation provided by the flared folding wingtip. However, the control surface angular rates required to achieve flutter suppression were very high under certain conditions. If these control surface velocities are limited to realistic values, then the controller can no longer suppress the growth of instabilities for larger gust amplitudes. |