Assessing the rotor blade deformation and tower–blade tip clearance of a 3.4 MW wind turbine with terrestrial laser scanning

IF 3.6 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Wind Energy Science Pub Date : 2023-03-27 DOI:10.5194/wes-8-421-2023
Paula Helming, A. Intemann, Klaus-Peter Webersinke, A. von Freyberg, M. Sorg, A. Fischer
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引用次数: 1

Abstract

Abstract. Wind turbines have grown in size in recent years, making efficient structural health monitoring of all of their structures even more important. Wind turbine blades deform elastically under the loads applied to them by wind and inertial forces acting on the rotating rotor blades. In order to properly analyze these deformations, an earthbound system is desirable that can measure the blade deformation, as well as the tower–blade tip clearance from a large measurement working distance of over 150 m and a single location. To achieve this, a terrestrial laser scanner (TLS) in line-scanning mode with vertical alignment is used to measure the distance to passing blades and the tower for different wind loads over time. In detail, the blade deformations for two different wind load categories are evaluated and compared. Additionally, the tower–blade tip clearance is calculated and analyzed with regard to the rotor speed. Using a Monte Carlo simulation, the measurement uncertainty is determined to be in the millimeter range for both the blade deformation analysis and the tower–blade tip clearance. The in-process applicable measurement methods are applied and validated on a 3.4 MW wind turbine with a hub height of 128 m. The deformation of the blade increases with higher wind speed in the wind direction, while the tower–blade tip clearance decreases with higher wind speed. Both relations are measured not only qualitatively but also quantitatively. Furthermore, no difference between the three rotor blades is observed, and each of the three blades is shown to be separately measurable. The tower–blade tip clearance is compared to a reference video measurement, which recorded the tower–blade tip clearance from the side, validating the novel measurement approach. Therefore, the proposed setup and methods are proven to be effective tools for the in-process structural health monitoring of wind turbine blades.
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评估转子叶片变形和3.4 带地面激光扫描的MW风力涡轮机
摘要近年来,风力涡轮机的规模越来越大,这使得对其所有结构进行有效的结构健康监测变得更加重要。风力涡轮机叶片在风力和惯性力作用于旋转转子叶片的载荷作用下弹性变形。为了正确地分析这些变形,需要一个地面系统,可以测量叶片变形,以及从150米以上的大测量工作距离和单个位置的塔-叶尖间隙。为了实现这一目标,地面激光扫描仪(TLS)采用垂直对齐的线扫描模式来测量随着时间的推移,不同风荷载与经过叶片和塔的距离。详细地,评估和比较了两种不同风荷载类别下的叶片变形。此外,计算和分析了塔叶顶间隙与转子转速的关系。通过蒙特卡罗模拟,确定了叶片变形分析和塔尖间隙的测量不确定度在毫米范围内。在一台轮毂高度为128 m的3.4 MW风力发电机组上进行了过程中适用的测量方法的应用和验证。叶片在风向上的变形随风速的增大而增大,塔叶间隙随风速的增大而减小。这两种关系不仅是定性的,而且是定量的。此外,没有不同的三个转子叶片被观察到,每一个叶片被显示是可单独测量的。将塔叶顶间隙与从侧面记录塔叶顶间隙的参考视频进行比较,验证了新测量方法。因此,所提出的设置和方法被证明是风电叶片在过程中结构健康监测的有效工具。
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来源期刊
Wind Energy Science
Wind Energy Science GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
6.90
自引率
27.50%
发文量
115
审稿时长
28 weeks
期刊最新文献
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