| 昆虫拍翼方式的非定常流动物理再探讨 |
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| 引用本文: | 余永亮,童秉纲,马晖扬.昆虫拍翼方式的非定常流动物理再探讨[J].力学学报,2005,37(3):257-265. |
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| 作者姓名: | 余永亮 童秉纲 马晖扬 |
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| 作者单位: | 北京,中科院研究生院物理系,100039 |
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| 基金项目: | 国家自然科学基金资助项目(10072066,90305009)
中国科学院创新项目资助(KJCX-SW·L04,KJCX2-SW-L2) |
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| 摘 要: | 基于提出的理论模化方法来探讨昆虫拍翼方式的非定常流动物理. 以悬停飞行为
例,通过对拍翼运动的分析,不仅解释了昆虫利用高频拍翼的方式为何能够克服低雷诺数带
来的气动局限性(St \gg 1/Re),而且还指出高升力产生和调节的3个流动
控制因素:(1) 由于拍翼的变速运动即时引起了流体动力响应,这种附加惯性效应
可产生瞬时的高升力; (2) 保持前缘涡不脱离翼面有助于减少升力的下降;
(3) 增大后缘涡的强度并加速其脱离后缘能够有效地提高升力.
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| 关 键 词: | 非定常流动 物理 高升力 低雷诺数 昆虫利用 动力响应 变速运动 控制因素 惯性效应 局限性 前缘涡 后缘 流体 |
| 文章编号: | 0459-1879(2005)03-0257-09 |
| 修稿时间: | 2004年4月8日 |
Unsteady flow mechanisms revisited in insect flapping flight |
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| Yu Yongliang,Tong Binggang,Ma Huiyang.Unsteady flow mechanisms revisited in insect flapping flight[J].chinese journal of theoretical and applied mechanics,2005,37(3):257-265. |
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| Authors: | Yu Yongliang Tong Binggang Ma Huiyang |
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| Abstract: | The unsteady flow mechanisms of insect flapping flight are revisited with the theoretical modeling approach proposed. According to analysis of the flapping motion in insect hovering flight, it is revealed that, limitations of the aerodynamic lift at low Reynolds numbers may be released by the highly unsteady condition in insect wing flapping, in which case the controlling parameter is the Strouhal number (St>>1/Re). Furthermore, in the present theoretical modeling study, three factors have been found in lift generation and regulation: (1) the remarkable instantaneous added inertial effect is excited by the high unsteadiness of wing flapping; (2) keeping the leading edge vortex on the upper wing surface can avoid lift decreasing; (3) enhancing the strength of the trailing edge vortex and accelerating its shedding can produce high lift. |
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| Keywords: | flapping wing unsteady flow mechanism theoretical modeling |
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