A three-dimensional numerical study of the Magnus wind turbine with different blade shapes

Although the Magnus type wind turbine has many benefits over conventional blade-type wind turbines, it normally has low wind energy utilization efficiency. Therefore, it is important to seek effective ways of improving the Magnus wind turbine power performance in order to promote its application. As...

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Veröffentlicht in:	Journal of renewable and sustainable energy 2012-11, Vol.4 (6)
Hauptverfasser:	Sun, Xiaojing, Zhuang, Yueqing, Cao, Yang, Huang, Diangui, Wu, Guoqing
Format:	Artikel
Sprache:	eng
Schlagworte:	Energy efficiency
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container_title	Journal of renewable and sustainable energy
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creator	Sun, Xiaojing Zhuang, Yueqing Cao, Yang Huang, Diangui Wu, Guoqing
description	Although the Magnus type wind turbine has many benefits over conventional blade-type wind turbines, it normally has low wind energy utilization efficiency. Therefore, it is important to seek effective ways of improving the Magnus wind turbine power performance in order to promote its application. As blade aspect ratio is a critical parameter influencing the Magnus wind turbine performance, a 3D numerical study of a Magnus type wind turbine which is equipped with cylindrical blades with different aspect ratios has been conducted in this paper. In addition, various cylinder shapes, including truncated cone and wavy cylinder, have also been used and their effects on the performance of the Magnus wind turbine are analyzed. Performance characteristics such as power, torque, and thrust coefficients of the Magnus turbine with different blade shapes are compared and discussed with the aim of identifying the desirable blade characteristics for this type of turbine.
doi_str_mv	10.1063/1.4771885
format	Article
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subjects	Energy efficiency
title	A three-dimensional numerical study of the Magnus wind turbine with different blade shapes
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