垂直轴风力机副气动相互作用的风洞试验

Hao Su, Haoran Meng, Jia Guo, T. Qu, Li-ping Lei
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引用次数: 0

摘要

风能作为一种无污染、分布广泛的可再生能源,受到了世界各国的广泛关注。通过优化风力机布局来提高功率密度是近年来的研究热点。本文通过风洞试验,系统地研究了阵列构型对垂直轴风力机的影响。首先,对孤立式垂直轴风力机在不同叶尖速比下的功率性能进行了测试,作为对比基准。然后对双机配置的多种情况进行了测试,并与孤立风力机进行了比较。当转子直径为2.4时,在同一方向旋转时,涡轮副的功率系数提高了34%。在反向旋转的共背风情况下,当转子直径为2.1 ~ 2.4转子直径时,涡轮对相互之间会产生积极的影响。为避免转子间的湍流干扰,对转共向涡轮副的横向间距应大于1.5转子直径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wind Tunnel Experiment on the Aerodynamic Interaction Between Vertical Axis Wind Turbine Pair
Wind energy has attracted worldwide attention as a pollution-free and widely distributed renewable energy source. Increasing the power density by optimizing the arrangement of wind turbines has been a popular field of research in recent years. In the present work, a systematic study on the influence of array configuration on vertical axis wind turbines is made through wind tunnel experiments. Firstly, the power performance of an isolated vertical axis wind turbine at different tip speed ratios is tested as a benchmark of comparison. Multiple situations of two-turbine configurations are then tested and the results are compared with the isolated wind turbine. The power coefficient of the turbine pair increases by 34% when the turbines are 2.4 rotor diameters apart and rotate in the same direction. In the counter-rotating co-leeward case, it is demonstrated that the turbine pairs will have a positive effect on each other when they are separated by 2.1 rotor diameters to 2.4 rotor diameters. The lateral spacing between the counter-rotating co-windward turbine pair should be greater than 1.5 rotor diameters to avoid turbulence interference between the rotors.
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