Slipstream Deformation of a Propeller-Wing Combination Applied for Convertible UAVs in Hover Condition

Yuchen Leng, M. Bronz, T. Jardin, J. Moschetta
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Abstract

Convertible unmanned aerial vehicle (UAV) combines advantages of convenient autonomous launch/recovery and efficient long range cruise performance. Successful design of this new type of aircraft relies heavily on good understanding of powered lift generated through propeller-wing interactions, where the velocity distribution within propeller slipstream is critical to estimate aerodynamic forces during hover condition. The present research studied a propeller-wing combination with a plain flap. A 5-hole probe measurement system was built to construct three-dimensional (3D) velocity field at a survey plane after wing trailing edge. The study has found that significant deformation of propeller slipstream was present in the form of opposite transverse displacement on extrados and intrados. The deformation could be enhanced by flap deflections. Velocity differences caused by the slipstream deformation could imply local variation of lift distribution compared to predictions from conventional assumptions of cylindrical slipstream. An analytical method was developed to reasonably estimate the position of deformed slipstream centreline. The research underlined that the mutual aspect of propeller-wing interaction could be critical for low-speed aerodynamic design.
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螺旋桨-机翼组合在可转换无人机悬停状态下的滑流变形
可转换无人机(UAV)结合了方便的自主发射/回收和高效的远程巡航性能的优点。这种新型飞机的成功设计在很大程度上依赖于对螺旋桨-机翼相互作用产生的动力升力的充分理解,其中螺旋桨滑流内的速度分布对于估算悬停状态下的气动力至关重要。本研究研究了一种带平面襟翼的螺旋桨翼组合。建立了一种五孔探头测量系统,用于在机翼后缘测量平面上建立三维速度场。研究发现,螺旋桨滑流的显著变形在外侧翼和内侧翼上以相反的横向位移形式存在。襟翼偏转可以增强变形。与传统的圆柱形滑流假设相比,滑流变形引起的速度差可能意味着升力分布的局部变化。提出了一种合理估计变形滑流中心线位置的解析方法。该研究强调了螺旋桨与机翼相互作用对低速气动设计至关重要。
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