Aerodynamics evaluation and flight test of a vertical take-off and landing fixed-wing UAV with joined-wing configuration in transition flight state

IF 5 1区 工程技术 Q1 ENGINEERING, AEROSPACE Aerospace Science and Technology Pub Date : 2024-11-19 DOI:10.1016/j.ast.2024.109759
Mi Baigang
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Abstract

The transition states between the cruising flight and the taking-off/landing process of a vertical take-off and landing (VTOL) fixed-wing UAV of joined-wing configuration are subject to significant unsteady aerodynamic interference. In this paper, the aerodynamic characteristics of this VTOL UAV during transition flights are evaluated by CFD with and without crosswind interference, in order to reveal the underlying mechanisms of the transition process. Based on these CFD-derived parameters, a flight test with a specifically-designed joined-wing VTOL UAV is proposed. The obtained results demonstrate that the forward flight speed is a crucial parameter during the takeoff transition phase. In the time interval of 5–15 s, significant disturbances are observed in the forces and moments due to the rotor deceleration and forward propeller acceleration, which result in slipstream and downwash flow effects. When crosswind disturbance is added, significant roll and yaw moments arise due to the vast vertical stabilizer area, which requires coordinated attitude adjustments between the rotor and the fixed-wing rudder surface. The descent transition phase is set a duration of 10 s. Four seconds later, as the rotor downwash flow intensifies, the lift force of the fixed wing is transferred to the rotor. When the combined lift becomes insufficient, the flight altitude decreases. When introducing crosswind disturbance, the entire aircraft undergoes significant additional pitch, yaw, and roll moments, with a maximum wave momentum greater than 200 %. Flight tests are then conducted using simulated parameters. The obtained results show that the take-off and landing transition responses without crosswinds are consistent with the predicted outcomes, which demonstrates the high effectiveness of the CFD simulations in predicting these transitions.
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垂直起降固定翼无人机在过渡飞行状态下的联合翼型空气动力学评估和飞行测试
联翼结构的垂直起降(VTOL)固定翼无人机在巡航飞行和起飞/着陆过程之间的过渡状态会受到严重的不稳定气动干扰。本文通过 CFD 评估了该 VTOL 无人机在有横风干扰和无横风干扰情况下的过渡飞行气动特性,以揭示过渡过程的内在机理。根据 CFD 得出的参数,提出了使用专门设计的接合翼 VTOL 无人机进行飞行测试的建议。结果表明,前飞速度是起飞过渡阶段的关键参数。在 5-15 秒的时间间隔内,由于旋翼减速和螺旋桨向前加速,导致滑流和下洗流效应,在力和力矩方面观察到了显著的干扰。当加入横风干扰时,由于垂直稳定器面积巨大,会产生巨大的滚转和偏航力矩,这就需要在旋翼和固定翼舵面之间进行协调的姿态调整。下降过渡阶段的持续时间设定为 10 秒。4 秒钟后,随着旋翼下冲气流的增强,固定翼的升力被转移到旋翼上。当综合升力不足时,飞行高度下降。当引入横风干扰时,整个飞机会承受显著的额外俯仰、偏航和滚转力矩,最大波浪动量超过 200%。然后使用模拟参数进行了飞行测试。结果表明,无侧风时的起飞和着陆过渡响应与预测结果一致,这表明 CFD 模拟在预测这些过渡时非常有效。
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来源期刊
Aerospace Science and Technology
Aerospace Science and Technology 工程技术-工程:宇航
CiteScore
10.30
自引率
28.60%
发文量
654
审稿时长
54 days
期刊介绍: Aerospace Science and Technology publishes articles of outstanding scientific quality. Each article is reviewed by two referees. The journal welcomes papers from a wide range of countries. This journal publishes original papers, review articles and short communications related to all fields of aerospace research, fundamental and applied, potential applications of which are clearly related to: • The design and the manufacture of aircraft, helicopters, missiles, launchers and satellites • The control of their environment • The study of various systems they are involved in, as supports or as targets. Authors are invited to submit papers on new advances in the following topics to aerospace applications: • Fluid dynamics • Energetics and propulsion • Materials and structures • Flight mechanics • Navigation, guidance and control • Acoustics • Optics • Electromagnetism and radar • Signal and image processing • Information processing • Data fusion • Decision aid • Human behaviour • Robotics and intelligent systems • Complex system engineering. Etc.
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