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- Title
Aerodynamic Analysis of a Logistics UAV with Foldable Bi-wing Configuration.
- Authors
Wang, Xiaolu; Lu, Wenlong; Liu, Weiwei; Chen, Changning; Zhao, Liangyu
- Abstract
Herein, a twin-boom, inverted V-tailed unmanned aerial vehicle (UAV) featuring a foldable bi-wing configuration is proposed for logistics and transportation applications. We employed the Navier–Stokes solver to numerically simulate steady, incompressible flow conditions. By examining the effects of key design parameters on aerodynamic characteristics and bypass flow fields in a two-dimensional state, we were able to suggest a more optimized foldable wing design. Building on the two-dimensional analysis, we performed aerodynamic assessments of the three-dimensional aircraft geometry. Our results indicated that appropriate wing and gap parameters can significantly enhance lift characteristics, maintaining high lift even during large-angle flights. Specifically, when compared to a mono-wing, the lift coefficient of the bi-wing increased by 27.1% at a 14° angle of attack, demonstrating the effectiveness of our wing-and-gap design. Optimal aerodynamic performance was achieved when the gap distance equalled the chord length in both flow and vertical directions. Further, the right combination of airfoil configuration, wing axes angle, and wingspan can improve flow field aerodynamic characteristics, while also enhancing the wing's stall capacity. The lift coefficient reached its maximum value at an angle of attack of 15°, which has the potential to reduce takeoff and landing distances, thereby enhancing the UAV's overall safety.
- Subjects
AEROFOILS; DRONE aircraft; INCOMPRESSIBLE flow
- Publication
International Journal of Aerospace Engineering, 2023, p1
- ISSN
1687-5966
- Publication type
Article
- DOI
10.1155/2023/3304048