Propeller control for takeoff of a heavily loaded coaxial compound helicopter

Y. Zhao, Y. Yuan, R. Chen, X. Yan
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引用次数: 1

Abstract

Although a coaxial compound helicopter can takeoff without propeller in the normal condition, the distance should be as short as possible for obstacle avoidance when the vehicle operates in a confined area with heavy loads. Therefore, a suitable propeller control is required to improve the takeoff performance while the total power consumption is no more than the available power. The path is predicted by applying trajectory optimisation. Several varying takeoff parameters, including attitude, liftoff speed and obstacle height, are considered for optimum global performance. Three path indicators are proposed. Apart from typical distance and pilot workload, path sensitivity is quantified based on deviation from takeoff parameter variation. Results indicated that low propeller thrust at hover and moderate allocation on the propeller through flight is recommended. The aircraft achieves significantly improved takeoff performance compared to flight with pure rotors while maintaining the maximum takeoff weight. The distance is shortened by 12.6%, and the longitudinal pilot workload is alleviated by 9.8% and 7.3% from mean and maximum power frequency aspects. Besides, the path is less sensitive to takeoff parameter variations, such as speed, altitude and height.
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重载同轴复合直升机起飞的螺旋桨控制
虽然同轴复合直升机在正常情况下可以不带螺旋桨起飞,但在承载重物的密闭区域内运行时,为避免障碍物,起飞距离应尽可能短。因此,在总功率消耗不超过可用功率的情况下,需要适当的螺旋桨控制来提高起飞性能。应用轨迹优化预测路径。考虑了几个不同的起飞参数,包括姿态、起飞速度和障碍物高度,以获得最佳的全局性能。提出了三个路径指标。除了典型的距离和飞行员的工作量外,路径灵敏度是基于起飞参数变化的偏差来量化的。结果表明,建议在悬停时减小螺旋桨推力,在飞行过程中适当分配螺旋桨推力。在保持最大起飞重量的同时,与纯旋翼飞行相比,飞机的起飞性能得到了显著改善。距离缩短了12.6%,平均功率频率和最大功率频率分别减轻了9.8%和7.3%的纵向飞行员工作量。此外,该路径对起飞参数(如速度、高度和高度)的变化不太敏感。
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