Modal analysis of cracked wind turbines using the finite element method

International Multi-Conference on Systems, Sygnals & Devices Pub Date : 2012-03-20 DOI:10.1109/SSD.2012.6198132

B. Aydi, M. Hassena, S. Choura

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引用次数: 6

Abstract

In this paper, we develop a Finite Element Model (FEM) of a large-scale Horizontal Axis Wind Turbine (HAWT) with flexible tower and blades using ABAQUS. This research has been initiated for the need to validate a mathematical model of the HAWT that was recently published in the literature. In addition, the developed FEM serves for better understanding of the effects of cracks with different shapes and orientations on the dynamic behaviors of the wind turbine. We perform a modal analysis to determine the first two sets of four natural frequencies and corresponding mode shapes. The influence of crack position, size, shape and number on the eigenstructure of the wind turbine is thoroughly investigated using the FEM. The current study will enable the authors to conduct a future investigation on the influence of structural damage on the dynamic response of the HAWT. In particular, future research will focus on determining a set of parameters and/or dynamic variables that are sensitive to crack development. This research is highly valuable for damage detection and health monitoring processes.

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用有限元法对裂纹风力发电机进行模态分析

本文利用ABAQUS软件建立了大型柔性塔架和柔性叶片水平轴风力机的有限元模型。这项研究是为了验证最近在文献中发表的HAWT的数学模型而开始的。此外，所建立的有限元方法有助于更好地理解不同形状和方向的裂纹对风力机动力性能的影响。我们执行模态分析，以确定前两组的四个固有频率和相应的模态振型。采用有限元方法研究了裂纹的位置、尺寸、形状和数量对风力机特征结构的影响。目前的研究将使作者能够对结构损伤对HAWT动力响应的影响进行进一步研究。特别是，未来的研究将集中于确定一组对裂缝发展敏感的参数和/或动态变量。该研究对损伤检测和健康监测过程具有重要价值。

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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International Multi-Conference on Systems, Sygnals & Devices

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