Evaluating one engine inoperative conditions in subscale electric vertical take-off and landing aircraft: An in-depth tethered hover test analysis

Youngshin Kang, Am Cho, Seongwook Choi, Yushin Kim, Jongmin Bae, Junho Cho, Donghyeon Ko, Haneul Yun
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Abstract

The direction of propeller rotation in a distributed electric-powered vertical take-off and landing (eVTOL) aircraft significantly influences control forces and induced drag during both helicopter and fixed-wing modes. This study proposes a strategy to determine the most effective rotational direction for each propeller. This approach effectively mitigates one-engine-inoperative (OEI) conditions during helicopter mode for a subscale eVTOL referred to as the optionally piloted personal air vehicle (OPPAV). Moreover, the study developed an optimal control law using the linear programming method, which minimizes the maximum power required for individual motors under OEI conditions. The lowest maximum power was achieved under OEI conditions when both the front and rear propellers in each pod rotated in the same direction. Furthermore, to validate this proposed control law, a tethered hover test was performed using the subscale OPPAV under OEI conditions. Our findings demonstrate that determining the rotational direction of propellers using the newly proposed reconfiguration control method significantly enhances the safety of eVTOL aircraft operating under OEI conditions.
评估亚尺度电动垂直起降飞机的单引擎失效情况:深入的系留悬停测试分析
分布式电力驱动垂直起降(eVTOL)飞机的螺旋桨旋转方向会对直升机和固定翼模式下的控制力和诱导阻力产生重大影响。本研究提出了一种确定每个螺旋桨最有效旋转方向的策略。这种方法可有效缓解直升机模式下的单发不工作(OEI)状况,这种飞机被称为 "可选择驾驶的个人飞行器(OPPAV)"。此外,该研究还利用线性编程方法开发了一种最优控制法则,可最大限度地降低 OEI 条件下单个电机所需的最大功率。在 OEI 条件下,当每个吊舱的前后螺旋桨朝同一方向旋转时,最大功率最小。此外,为了验证所提出的控制法则,我们还在 OEI 条件下使用子尺度 OPPAV 进行了系留悬停测试。我们的研究结果表明,使用新提出的重新配置控制方法来确定螺旋桨的旋转方向,可显著提高在 OEI 条件下运行的 eVTOL 飞机的安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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