Investigation of the Interactional Aerodynamics of the XV-15 Tiltrotor Aircraft

Proceedings of the Vertical Flight Society 76th Annual Forum Pub Date : 2020-10-05 DOI:10.4050/f-0076-2020-16464

S. Tran, Joon W. Lim

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引用次数: 4

Abstract

The high fidelity computational fluid dynamics (CFD) tool CREATE™-AV HELIOS is used to investigate the interactional aerodynamics of the XV-15 tiltrotor in this work. The full vehicle is studied in a quasi-static manner with various airspeeds, nacelle angles, and vehicle attitudes to simulate hover-to-forward flight transition. The rotor is trimmed using CFD/CSD coupling with CAMRADII. Significant wing-on-rotor interactions are observed where the thickness and loading effects of the wing create an impulsive doublet loading on the rotor as it passes over the wings. Furthermore, the wing is shown to alter the blade-vortex interactions of the rotor at high nacelle angles. The rotor in turn noticeably alters the lift and drag characteristics of the wing. At moderate to low nacelle angles, the rotor downwash enhances the dynamic pressure primarily on the upper surface of the wing, increasing the wing lift by up to 13%. The effect on the drag varies depending on the nacelle angle. At high nacelle angles, the rotor is shown to decrease the both lift and drag of the wing by 15%. Overall, this work serves to illuminate and quantify some of the complex aerodynamic interactions that occur during the conversion maneuver of tiltrotor aircraft.

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XV-15倾转旋翼机相互作用空气动力学研究

在这项工作中，使用高保真计算流体动力学(CFD)工具CREATE™-AV HELIOS来研究XV-15倾转旋翼的相互作用空气动力学。以准静态的方式对飞行器进行了研究，包括不同的空速、机舱角度和飞行器姿态，以模拟悬停到前飞的过渡。使用CFD/CSD耦合CAMRADII对转子进行修整。重要的翼对转子的相互作用被观察到，厚度和机翼的载荷效应，在转子上创造一个脉冲双重载荷，因为它通过翅膀。此外，在高机舱角时，机翼可以改变旋翼与叶片的相互作用。旋翼反过来明显地改变了机翼的升力和阻力特性。在中等到较低的短舱角度下，旋翼下洗主要增强了机翼上表面的动压力，使机翼升力提高了13%。对阻力的影响取决于机舱的角度。在高机舱角度下，旋翼可以将机翼的升力和阻力都降低15%。总的来说，这项工作有助于阐明和量化在倾转旋翼飞机转换机动期间发生的一些复杂的空气动力学相互作用。

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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Proceedings of the Vertical Flight Society 76th Annual Forum

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