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Aerodynamic evaluation of wing shape and wing orientation in four butterfly species using numerical simulations and a low-speed wind tunnel and its implications for the design of flying micro-robots

机译：利用数值模拟和低速风洞对四种蝶类的翼形和翼向进行空气动力学评估及其对飞行微型机器人设计的启示

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摘要

Many insects are well adapted to long-distance migration despite the larger energetic costs of flight for small body sizes. To optimize wing design for next-generation flying micro-robots, we analyse butterfly wing shapes and wing orientations at full scale using numerical simulations and in a low-speed wind tunnel at 2, 3.5 and 5 m s⁻¹. The results indicate that wing orientations which maximize wing span lead to the highest glide performance, with lift to drag ratios up to 6.28, while spreading the fore-wings forward can increase the maximum lift produced and thus improve versatility. We discuss the implications for flying micro-robots and how the results assist in understanding the behaviour of the butterfly species tested.

机译：尽管小体型的飞行精力成本较高，但许多昆虫都非常适合长距离迁移。为了优化下一代飞行微型机器人的机翼设计，我们使用数值模拟和在2、3.5和5 ms ^{-1 。结果表明，最大化机翼跨度的机翼方向可实现最高的滑行性能，升力/阻力比高达6.28，同时向前展开前翼可以增加最大升力，从而提高多功能性。我们讨论了飞行微型机器人的含义以及结果如何帮助理解所测试的蝴蝶物种的行为。}

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期刊名称 Interface Focus
作者
Alejandro Ortega Ancel; Rodney Eastwood; Daniel Vogt; Carter Ithier; Michael Smith; Rob Wood; Mirko Kovač;
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作者单位

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年(卷),期 2017(7),1
年度 2017
页码 20160087
总页数 13
原文格式 PDF
正文语种
中图分类生物物理学;
关键词
micro-robots butterfly wings wind tunnel computational fluid dynamics gliding;

机译：微型机器人;蝴蝶翼;风洞;计算流体动力学;滑行;
入库时间 2022-08-17 12:02:16

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1. Numerical simulation and wind tunnel tests investigation and validation of a morphing wing-tip demonstrator aerodynamic performance [J] . Gabor Oliviu Sugar, Koreanschi Andreea, Botez Ruxandra Mihaela, Aerospace science and technology . 2016,第Juna期

机译：变形翼尖演示器气动性能的数值模拟和风洞试验研究与验证
2. Fuzzy Logic-Based Control for a Morphing Wing Tip Actuation System: Design, Numerical Simulation, and Wind Tunnel Experimental Testing [J] . Shehryar Khan, Teodor Lucian Grigorie, Ruxandra Mihaela Botez, Biomimetics . 2019,第4期

机译：用于变形翼尖致动系统的模糊逻辑控制：设计，数值模拟和风洞实验测试
3. Aerodynamic shape optimisation, wind tunnel measurements and CFD analysis of a MAV wing [J] . M. R. A. Nabawy, M. M. EINomrossy, M. M. Abdelrahman, The Aeronautical Journal . 2012,第1181期

机译：MAV机翼的空气动力学形状优化，风洞测量和CFD分析
4. EXPERIENCE IN AERODYNAMICAL TESTS AND CFD SIMULATIONS OF OVERSIZED WING DEMONSTRATOR IN LARGE LOW-SPEED WIND TUNNEL [C] . Carossa G.M., Anisimov K., Chevagin A., Congress of the International Council of the Aeronautical Sciences . 2014

机译：大型低速风隧道中超大型翼展的空气动力学测试经验和CFD模拟
5. Stability-Constrained Aerodynamic Shape Optimization with Applications to Flying Wings. [D] . Mader, Charles Alexander. 2012

机译：稳定约束的气动形状优化及其在飞行机翼中的应用。
6. Fuzzy Logic-Based Control for a Morphing Wing Tip Actuation System: Design Numerical Simulation and Wind Tunnel Experimental Testing [O] . Shehryar Khan, Teodor Lucian Grigorie, Ruxandra Mihaela Botez, 2019

机译：变形翼尖驱动系统的基于模糊逻辑的控制：设计数值模拟和风洞实验测试
7. Aerodynamic evaluation of wing shape and wing orientation in four butterfly species using numerical simulations and a low-speed wind tunnel, and its implications for the design of flying micro-robots [O] . Alejandro Ortega Ancel, Rodney Eastwood, Daniel Vogt, 2017

机译：使用数值模拟和低速风洞的四种蝶形物种翼形和翼定向的空气动力学评估，以及对飞行微机器人设计的影响

Aerodynamic evaluation of wing shape and wing orientation in four butterfly species using numerical simulations and a low-speed wind tunnel and its implications for the design of flying micro-robots

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