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Effect of wingtip bending morphing on gust-induced aerodynamics based on fluid-structure interaction method

Yang Zheng, Yuting Dai, Chao Yang, Yongchang Li, Yating Hu

2023Physics of Fluids14 citationsDOI

Abstract

This paper investigates the effect of wingtip bending morphing on gust-induced aerodynamics based on the fluid–structure interaction (FSI) method at Re = 40 000. First, an explicit spatiotemporal numerical model for a wingtip bending morphing on a wing with a semi-aspect ratio of 4 is deduced, considering geometrical nonlinearity under large morphing amplitude. A modal-based FSI framework is developed to consider the elastic deformation, active wingtip morphing, and gust. The shear-stress transport-γ model is introduced. The above FSI method is validated by gust response experimental results. The mitigation effects of active bending morphing on gust-induced aerodynamics at different phase offset, gust ratios (GR), and flare angles are investigated. Under GR = 0.2 and flare angle = 0, wingtip bending morphing achieves the best mitigation effect when the phase offset is π/2. As GR increases to 0.4, the optimum phase offset shifts to π/3 and the alleviation rate decreases. The mitigation rate increases with the flare angle. Under GR = 0.4 and flare angle = 30°, the optimum phase offset is π/6, in which case the lift response is reduced by 37%, and wing root bending moment response is reduced by 73% relative to the baseline case. The flow field and vortex evolution result infers that the wingtip bending morphing decreases the spanwise width of the leading-edge vortex and reduces the area of low-pressure zones on the suction side, thereby mitigating gust-induced aerodynamics. The results indicate that active wingtip bending morphing has great potential for gust load alleviation for future aircraft.

Topics & Concepts

MorphingStructural engineeringBending momentAerodynamicsWingMechanicsVortexOffset (computer science)Wing twistAngle of attackAerospace engineeringEngineeringPhysicsComputer scienceComputer visionProgramming languageFluid Dynamics and Turbulent FlowsFluid Dynamics and Vibration AnalysisAerodynamics and Fluid Dynamics Research
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