Loading Analysis and Strength Calculation of Wind Turbine Blade Based on Blade Element Momentum Theory and Finite Element Method

机译：基于叶片单元动量理论和有限元方法的风力涡轮机叶片载荷分析与强度计算

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Blade is one of the key components in wind turbine, which is needed to be enough stiffness, strength and stability. Loading calculation is significant for the blade strength analysis. In this paper, a three-dimension model of wind turbine blade is set up by CATIA software and the blade shape parameters are obtained. Based on blade element momentum (BEM) theory, the load acted on the blade in normal operation is analyzed and calculated. Moreover, stress analysis of blade is carried out by finite element numerical analysis and stress distribution is obtained. At last, Strength checking for wind turbine blade is also achieved. The results of the analysis are reference for wind turbine blade loads research.

机译：叶片是风力涡轮机的关键部件之一，需要足够的刚度，强度和稳定性。载荷计算对于叶片强度分析非常重要。本文利用CATIA软件建立了风机叶片的三维模型，并获得了叶片形状参数。基于叶片单元动量（BEM）理论，分析并计算了叶片在正常运行状态下的载荷。此外，通过有限元数值分析对叶片进行了应力分析，得到了应力分布。最后，还完成了风力涡轮机叶片的强度检查。分析结果可为风机叶片载荷研究提供参考。

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《Power and Energy Engineering Conference (APPEEC), 2010》|2010年|p.1-4|共4页
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Wei Duan; Feng Zhao;
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入库时间 2022-08-26 14:43:18

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5. Performance evaluation of wind turbine blades using blade element momentum theory and flow simulation techniques. [D] . Raina, Amool A. 2011

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Loading Analysis and Strength Calculation of Wind Turbine Blade Based on Blade Element Momentum Theory and Finite Element Method

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