The D8 is a promising transport aircraft concept currently under development by Aurora Flight Sciences, MIT and Pratt and Whitney. The design includes several novel design features which have the potential to offer substantial improvements in fuel efficiency over currently flying aircraft. One design feature that has yet to be investigated on this concept is that of active aeroelastic tailoring. Active aeroelastic tailoring is the technique of using aircraft control features to mitigate aeroelastic loading, both static and dynamic. The goal of this study is to quantify the benefits of active aeroelastic tailoring for the D8 aircraft in a higher-span-variant configuration. To this end, a series of fuel burn minimization problems are solved using a high-aspect-ratio distributed control surface variant of the D8 aircraft. The design variables include flight variables, wingbox structural thicknesses, and control surface deflections. The optimal results are compared between a design with active tailoring and a baseline design without and the trends assessed. Finally, the robustness of the active tailored design is assessed by reoptimizing the design with the inclusion of sizing for failed actuator conditions.
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机译:D8是Aurora Flight Sciences,MIT和Pratt and Whitney目前正在开发的一种有前途的运输机概念。该设计包括一些新颖的设计功能,与当前飞行的飞机相比,它们有可能在燃油效率方面提供实质性的改进。尚未对此概念进行研究的一种设计特征是主动气动弹性剪裁。主动气动弹性剪裁是一种使用飞机控制功能来减轻静态和动态气动弹性载荷的技术。这项研究的目的是量化在较大跨度配置下对D8飞机进行主动气动弹性剪裁的好处。为此,使用D8飞机的高纵横比分布式控制面变体解决了一系列减少燃油消耗的问题。设计变量包括飞行变量,机翼箱结构厚度和控制表面挠度。在具有主动剪裁的设计与没有基线的基线设计之间比较最佳结果,并评估趋势。最后,通过重新优化设计(包括针对失败的执行器条件的尺寸)来评估主动定制设计的鲁棒性。
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