垂直轴和水平轴风力发电机的性能比较，以获得最优的功率输出

2017 15th International Conference on Quality in Research (QiR) : International Symposium on Electrical and Computer Engineering Pub Date : 2017-07-24 DOI:10.1109/QIR.2017.8168524

Jazuli Fadil, Soedibyo, M. Ashari

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引用次数: 24

摘要

本文介绍了垂直轴风力机和水平轴风力机(VAWT和HAWT)捕获功率的比较。根据Betz的说法，最大系数功率(CP)的极限为0.59。在这种情况下，CP是决定我们制造的风力涡轮机提取功率的重要参数。本文研究了风速变化对风力机提取功率的影响。对于VAWT，我们使用H-darrieus型，其扫描面积为3.14 m2, HAWT也是如此。每种类型的风力涡轮机有3个叶片。两个风力涡轮机的空气翼是NACA 4412。对风力机模型进行了风速对性能影响的试验。我们发现，HAWT的CP为0.54，捕获的最大功率为1363.6瓦特;VAWT的CP为0.34，捕获的最大功率为505.69瓦特。从两种风力机的功率提取情况来看，HAWT功率比VAWT功率要好得多。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Performance comparison of vertical axis and horizontal axis wind turbines to get optimum power output

This paper presents the comparison of power captured by vertical and horizontal axis wind turbine (VAWT and HAWT). According to Betz, the limit of maximum coefficient power (CP) is 0.59. In this case CP is important parameter that determines the power extracted by a wind turbine we made. This paper investigates the impact of wind speed variation of wind turbine to extract the power. For VAWT we used H-darrieus type whose swept area is 3.14 m2 and so is HAWT. The wind turbines have 3 blades for each type. The air foil of both wind turbines are NACA 4412. We tested the model of wind turbine with various wind velocity which affects the performance. We have found that CP of HAWT is 0.54 with captured maximum power is 1363.6 Watt while the CP of VAWT is 0.34 with captured maximum power is 505.69 Watt. The power extracted of both wind turbines seems that HAWT power is much better than VAWT power.

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2017 15th International Conference on Quality in Research (QiR) : International Symposium on Electrical and Computer Engineering

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