| 种子叶片自旋下落过程涡系的PIV实验研究 |
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| 引用本文: | 董林,温国安,雷紫薇,李鹿辉.种子叶片自旋下落过程涡系的PIV实验研究[J].实验流体力学,2021,35(5):54-60. |
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| 作者姓名: | 董林 温国安 雷紫薇 李鹿辉 |
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| 作者单位: | 1.上海工程技术大学 机械与汽车工程学院,上海 201620 |
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| 基金项目: | 国家自然科学基金(11721202,11772035) |
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| 摘 要: | 本文利用粒子图像测速技术研究种子叶片自由旋转下落过程中不同涡系的相互作用机理。以典型枫树种子叶片为研究对象,通过对比不同叶片长度、叶面厚度、叶面宽度、下落锥角、自旋角速度、下落速度和下落初始角度等参数对过渡期和稳定期的影响,分析了诱发叶片自旋的外形特征和空间特性。结合特征参数分析,对叶片自旋稳定期开展了PIV流场测量实验,解析了无干扰下种子叶片下落过程中涡系的产生和演化机理。实验结果表明:稳定期气流在叶尖正面位置产生前缘涡(沿展向呈圆锥状结构),后缘位置产生反方向的后缘涡;两个涡发生相互耦合运动,前缘涡的强度大于后缘涡,从而导致叶面产生锥角。在前缘和叶尖前方观测到较高的速度向上的区域,而在后缘和叶根附近则出现较高的速度向下的区域,从而对种子产生向上的升力,使叶片实现自旋稳定下落。通过枫叶种子自由下落的无干扰PIV测量,初步获得了贴近叶片表面前缘涡的运动性状,验证了后缘涡的存在,结论对单翼型旋转叶片的设计有一定指导意义。
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| 关 键 词: | 枫树种子 自旋下落 漩涡 前缘涡 PIV |
| 收稿时间: | 2020-01-03 |
PIV experimental study on vortex structures induced by free autorotation fall of a samaras |
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| Affiliation: | 1.Mechanical and Automotive Engineering School, Shanghai University of Engineering Science, Shanghai 201620, China2.School of Aeronautic Science and Engineering, Beihang University, Beijing 100191, China |
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| Abstract: | Taking the typical maple samara blade as the research object, the flow field of the free rotation and falling process is measured by the particle image velocimetry, to study the evolution and the law of the spin flow structure, which has certain guiding significance for the design of the single-wing aircraft. By comparing the effects of different blade lengths, thicknesses, widths, falling angles, spin angular velocities, falling velocities, and different falling attitudes on the transition period and stability period, the shape and spatial characteristics of the induced blade spin are obtained. Combined with the results of characteristic parameter analysis, PIV flow field measurement experiments are carried out for the period of blade spin stability, and the rules of vortex generation and evolution in the process of falling are obtained. The experimental results show that the leading-edge vortices (conical structure along the spanwise direction) are generated at the front tip during the stable period, the trailing edge vortices in the reverse direction are generated at the back-edge, and the two vortices are coupled with each other. The strength of the leading-edge vortex is greater than that of the trailing-edge vortex, which leads to the angle of attack. In front of the leading edge and the tip of the leaf, a higher upward velocity region was observed, and a higher downward velocity region was observed near the rear edge and the root of the leaf, which resulted in an upward lifting force on the seed and a stable falling of the blade.ade. |
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