Thermographic inspection of a wind turbine rotor blade segment utilizing natural conditions as excitation source, Part I: Solar excitation for detecting deep structures in GFRP

Worzewski Tamara; Krankenhagen Rainer; Doroshtnasir Manoucher; Roellig Mathias; Maierhofer Christiane; Steinfurth Henrik

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Thermographic inspection of a wind turbine rotor blade segment utilizing natural conditions as excitation source, Part I: Solar excitation for detecting deep structures in GFRP

机译：利用自然条件作为激发源的风轮机转子叶片段的热成像检查，第I部分：用于检测GFRP中深层结构的太阳激发

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This study evaluates whether subsurface features in rotor blades, mainly made of Glass Fibre Reinforced Plastics (GFRP), can generally be detected with "solar thermography". First, the suitability of the sun is tested for acting as a heat source for applying active thermography on a 30 mm thick GFRP test specimen. Second, a defective rotor blade segment is inspected outdoors under ideal natural conditions using the sun as excitation source. Additionally, numerical FEM-simulations are performed and the comparability between experiment and simulation is evaluated for outdoor measurements. (C) 2016 Elsevier B.V. All rights reserved.

机译：这项研究评估了通常可以通过“太阳能热成像”检测到主要由玻璃纤维增强塑料（GFRP）制成的转子叶片的表面特征。首先，对太阳的适应性进行了测试，以作为热源，对30毫米厚的GFRP测试样品进行主动热成像。其次，在理想的自然条件下，使用太阳作为激发源，在户外检查有故障的转子叶片部分。此外，进行了数值有限元模拟，并针对室外测量评估了实验与模拟之间的可比性。（C）2016 Elsevier B.V.保留所有权利。

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来源
《Infrared physics and technology》 |2016年第null期|共11页
作者
Worzewski Tamara; Krankenhagen Rainer; Doroshtnasir Manoucher; Roellig Mathias; Maierhofer Christiane; Steinfurth Henrik;
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正文语种 eng
中图分类红外线;红外技术及仪器;
关键词
NDT; GFRP; Numerical simulation; Solar excitation; On-site inspection; Structural health monitoring;

机译：无损检测GFRP数值模拟太阳能激发现场检查结构健康监测;

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1. Thermographic inspection of a wind turbine rotor blade segment utilizing natural conditions as excitation source, Part I: Solar excitation for detecting deep structures in GFRP [J] . Worzewski Tamara, Krankenhagen Rainer, Doroshtnasir Manoucher, Infrared physics and technology . 2016,第Null期

机译：利用自然条件作为激发源的风轮机转子叶片段的热成像检查，第I部分：用于检测GFRP中深层结构的太阳激发
2. In-plane self-excitation of two-bladed horizontal axis wind turbine rotors due to blade elasticity and gravity [J] . Shigeo Yoshida Wind Engineering . 2016,第4期

机译：由于叶片的弹性和重力，两叶片水平轴风力涡轮机转子的面内自激
3. Dynamic analysis of an offshore wind turbine under random wind and wave excitation with soil-structure interaction and blade tower coupling [J] . Banerjee Arundhuti, Chakraborty Tanusree, Matsagar Vasant, Soil Dynamics and Earthquake Engineering . 2019,第Octa期

机译：土与结构相互作用及叶片塔耦合的随机风浪激励下的海上风力发电机组动力分析
4. Thermographic rotor blade inspection from larger distances - a promising tool for the maintenance of wind turbines [C] . Rainer KRANKENHAGEN, Mathias ROLLIG, Tamara WORZEWSKI, World Conference on Nondestructive Testing . 2016

机译：来自较大距离的热成像转子刀片检查 - 这是一种维护风力涡轮机的有希望的工具
5. Mechanical design of a base excitation test system for fatigue testing wind turbine blades. [D] . Powell, Vincent Douglas. 2010

机译：用于疲劳测试风力涡轮机叶片的基础励磁测试系统的机械设计。
6. Photobleaching Response of Different Sources of Chromophoric Dissolved Organic Matter Exposed to Natural Solar Radiation Using Absorption and Excitation–Emission Matrix Spectra [O] . Yunlin Zhang, Xiaohan Liu, Christopher L. Osburn, -1

机译：利用吸收和激发-发射矩阵光谱暴露于自然太阳辐射下的发色团溶解的有机物质的不同来源的光漂白响应
7. A Novel Multi-Point Excitation Fatigue Testing Method for Wind Turbine Rotor Blades [O] . Zujin Pan, Jianzhong Wu 2017

机译：风力涡轮机转子叶片的一种新型多点激励疲劳试验方法
8. Model of Rotor Blade First Natural Flapping Response for Up to Three/Rev Excitations [R] . Wilkerson, J. B. 1983

机译：转子叶片模型第一次自然拍动响应最多三/ Rev激励

Thermographic inspection of a wind turbine rotor blade segment utilizing natural conditions as excitation source, Part I: Solar excitation for detecting deep structures in GFRP

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