1kW风力发电机叶片的设计与制造

IF 0.3 Q4 MULTIDISCIPLINARY SCIENCES
Fana Filli, A. M. Mahmud, M. Bayray, Meseret Tesfay, P. Gebray
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引用次数: 1

摘要

为了实现可持续发展目标和解决气候变化问题,预计世界能源需求的大部分将来自清洁的替代能源。小型风力涡轮机已被证明适用于离网电气化。本研究的目的是介绍特定条件下1 kW风力涡轮机叶片的设计和制造细节。叶片几何设计采用了叶片单元力矩理论。因此,对NACA 64A410翼型的空气动力学分析得出,叶片半径为1.95m,总扭转角为31°,叶根处的弦长逐渐变细,为0.062m,叶尖处为0.247m。然后,风力涡轮机叶片由玻璃纤维(mat350g)、树脂、催化剂和凝胶涂层制成。实验结果表明,风力涡轮机叶片在3m/s的切入风速下开始发电。在轮毂风速为9m/s的情况下,测试过程中获得的最大功率为900W。由于风力涡轮机叶片的制造工艺不完善,这低于预期的1000W理论功率输出。这项研究将有助于建设当地制造设施,并通过离网技术加强农村电气化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Manufacture of 1kW Wind Turbine Blades
To meet sustainable development goals and address concerns on climate change, much of the world's energy demand is expected to be delivered from clean alternative energy sources. Small-scale wind turbines have proven to be applicable for off-grid electrification. The objective of this study is to present the details on the design and manufacture of a 1 kW wind turbine blade for specified conditions. Blade element moment theory is adopted in the design of the geometry of the blade. Accordingly, the aerodynamic analysis on NACA 64A410 airfoil resulted in a blade radius of 1.95m, an overall twist angle of 31°, and a gradually tapering chord length of 0.062m at the root and 0.247m at the tip of the blade. Then, the wind turbine blades are manufactured from fiberglass (mat350g), resin, catalyst, and gelcoat.  Experimental results reveal the wind turbine blades started producing power at a cut-in wind speed of 3m/s. The maximum power achieved during the testing process was 900W at a hub wind velocity of 9m/s. This is lower than the expected 1000W theoretical power output due to not perfect workmanship in the manufacture of the wind turbine blades. This study will help in building local manufacturing facilities and enhance rural electrification through off-grid technologies.
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来源期刊
Momona Ethiopian Journal of Science
Momona Ethiopian Journal of Science MULTIDISCIPLINARY SCIENCES-
自引率
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发文量
13
审稿时长
12 weeks
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