Development of "Aria," a Compact, Ultra-Quiet Personal Electric Helicopter

David A. Coleman, Vishaal Subramanian, Eric Greenwood, V. Lakshminarayan, Moble Benedict, H. Denton, Atanu Halder, Bochan Lee, Carl Runco, Farid Saemi
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引用次数: 3

Abstract

This paper describes the development and flight testing of a personal air vehicle by team Harmony for the Boeing GoFly X-prize challenge. For the $1mil grand prize, aircraft were scored by compact size, speed, low noise, and endurance. The team chose a coaxial electric helicopter configuration to maximize rotor area and reduce disk loading for efficiency and acoustic benefits. The rotors were designed through an extensive parametric study using an in-house performance code. Air loads were modeled in HPCMP CREATE™-AV Helios for validation, then used in an inhouse acoustics solver to estimate sound pressure levels. A quiet electric power train was developed, as well as a custom 11kWh, 200lb (90.7kg) battery pack. The flight dynamics of the configuration were modeled and the stability analyzed. Structural analysis was utilized in designing key load-bearing parts. Flight control was implemented with dual, independent, electronically coupled swashplates. First, a 1/3rd scale prototype aircraft was developed to validate the design and acoustic predictions. Then a full-scale, 520lb (235.4kg) prototype with an 8.5ft (2.59m) rotor diameter was developed and accumulated 19.5hrs of testing time. During hovering, the sound pressure levels at 50ft (15.24m) were 73dBA, remarkably low for a rotorcraft. The results of this study underscored the endurance limitation of electric flight due to poor battery performance, as well as the need for reliable, lightweight hardware for such applications.
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“咏叹调”的发展,一个紧凑的,超安静的个人电动直升机
本文描述了Harmony团队为波音GoFly X-prize挑战赛开发的个人飞行器和飞行测试。为了获得100万美元的大奖,飞机的尺寸紧凑、速度快、噪音低、耐用性好。该团队选择了同轴电动直升机配置,以最大化旋翼面积,减少磁盘负载,提高效率和声学效益。转子是通过使用内部性能代码进行广泛的参数研究设计的。空气载荷在HPCMP CREATE™-AV Helios中建模进行验证,然后用于内部声学求解器来估计声压级。一款安静的电动动力系统被开发出来,以及一个定制的11kWh, 200lb (90.7kg)电池组。建立了该构型的飞行动力学模型并对其稳定性进行了分析。采用结构分析方法对关键承重部件进行设计。飞行控制采用双、独立、电子耦合斜盘。首先,开发了1/3比例的原型飞机来验证设计和声学预测。然后开发了一个全尺寸,520磅(235.4公斤)的原型机,转子直径8.5英尺(2.59米),累积了19.5小时的测试时间。在悬停时,50英尺(15.24米)的声压级为73dBA,对于旋翼机来说非常低。这项研究的结果强调了由于电池性能不佳而导致的电动飞行的续航能力限制,以及对可靠、轻量级硬件的需求。
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