双旋翼可转翼飞机纵向飞行中纵倾条件识别的空气动力学与推进建模

Francisco Javier., S. Roncero, M. Reyes
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摘要

最近越来越多的人关注eVTOL(电动垂直起降)车辆的不同应用,如搜索和救援。像倾斜旋翼这样的可转换飞机似乎是最有前途的概念之一。这些飞行器的动力学建模和仿真是非常具有挑战性的,因为它们的飞行包线很宽(从悬停到水平飞行),而且可用数据量减少。本文提出了一种双旋翼可转换飞机的动力学模型——ProVANT-EMERGENTIa,并给出了作用在其上的力和力矩的一般公式。利用风洞识别的气动和推进模型,对方程进行简化以确定纵向飞行配平条件。考虑到飞机状态变量(飞行路径角、空速和攻角)和纵向控制输入(控制面偏转、螺旋桨方向和油门杆位置),成功计算了可裁剪的飞行包线图。飞行包线被发现是有限的或由饱和的控制面偏转当俯仰力矩太大,或由油门杆当螺旋桨空气入射角过低。包线的大小和形状受到飞行路径角度的影响:爬升条件下,由于所需的推力过大和所涉及的较大俯仰力矩,包线的限制更大;由于相反的原因,下降的限制更少。
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Aerodynamics and Propulsive Modeling of a Bi-Rotor Convertible Aircraft for the Identification of Trim Conditions in Longitudinal Flight
Increasing attention is being paid recently to eVTOL (electric Vertical Take-Off and Landing) vehicles for different applications, such as Search and Rescue. Convertible aircraft such as tilt-rotors seem to be one of the most promising concepts. The dynamics modeling and simulation of these vehicles is very challenging due to their wide flight envelope (from hovering to horizontal flight) and to the reduced amount of available data. This paper presents a model for the dynamics of a Bi-Rotor Convertible Aircraft, the ProVANT-EMERGENTIa, with a general formulation of the forces and moments acting over it. The equations are simplified to determine longitudinal flight trim conditions using wind tunnel identified aerodynamic and propulsive models. Trimmable flight envelope maps were successfully calculated considering the aircraft state variables (flight path angle, airspeed, and angle of attack) and the longitudinal control inputs (control surfaces deflection, propeller orientation, and throttle lever position). The flight envelope was found to be limited either by the saturation of the control surfaces deflection when the pitch moments were too large, or by the throttle lever when the propeller air incidence angle was too low. The size and shape of the envelope was impacted by the flight path angle: more limited for climb conditions due to the excess of Thrust demanded and of the greater pitch moments involved; less restricted for descents because of the opposite reasons.
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