固度对垂直轴风力发电机性能的影响

IF 2.8 Q2 MECHANICS
M. Miller, S. Duvvuri, M. Hultmark
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引用次数: 14

摘要

图形摘要摘要垂直轴风力涡轮机(VAWT)的各种配置使得即使是基本性能参数的通用比例关系的开发也变得困难。转子几何形状的变化可以使用坚固性的概念来表征,坚固性定义为实心转子面积与扫掠面积的比率。然而,由于在传统风洞中匹配无量纲转速(或叶尖速比)和尺度(或雷诺数)的挑战,很少有研究探讨该参数在全尺寸条件下的影响。在这项研究中,使用专门的压缩空气风洞在VAWT模型上进行了实验,其中密度可以增加到大气的200倍以上。改变了模型上的叶片数量,以探索坚固性如何影响性能,同时保持其他几何参数不变,如叶弦与转子半径之比。这些数据是在与现场规模VAWT相关的条件下收集的,但是在实验室的受控环境中收集的。对于三个固体度最高的转子(使用最多的叶片),尽管旋转效应发生了变化,但发现性能同样取决于雷诺数。这一结果对高固体场规模VAWT的建模和设计具有直接意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Solidity effects on the performance of vertical-axis wind turbines
Graphical Abstract Abstract The variety of configurations for vertical-axis wind turbines (VAWTs) make the development of universal scaling relationships for even basic performance parameters difficult. Rotor geometry changes can be characterized using the concept of solidity, defined as the ratio of solid rotor area to the swept area. However, few studies have explored the effect of this parameter at full-scale conditions due to the challenge of matching both the non-dimensional rotational rate (or tip speed ratio) and scale (or Reynolds number) in conventional wind tunnels. In this study, experiments were conducted on a VAWT model using a specialized compressed-air wind tunnel where the density can be increased to over 200 times atmospheric air. The number of blades on the model was altered to explore how solidity affects performance while keeping other geometric parameters, such as the ratio of blade chord to rotor radius, the same. These data were collected at conditions relevant to the field-scale VAWT but in the controlled environment of the lab. For the three highest solidity rotors (using the most blades), performance was found to depend similarly on the Reynolds number, despite changes in rotational effects. This result has direct implications for the modelling and design of high-solidity field-scale VAWTs.
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来源期刊
CiteScore
2.40
自引率
0.00%
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