Evolution of modal parameters of composite wind turbine blades under short- and long-term forced vibration tests

IF 3.6 2区工程技术 Q1 ENGINEERING, CIVIL

Journal of Civil Structural Health Monitoring Pub Date : 2024-02-29 DOI:10.1007/s13349-024-00773-1

José M. Gutiérrez, Rodrigo Astroza, Francisco Jaramillo, Marcos Orchard, Marcelo Guarini

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Abstract

Modal properties of dynamically tested wind turbine blades (WTBs) of a utility-scale wind turbine are identified. A comprehensive experimental program including free vibration and short- and long-term forced vibrations representing resonance and simplified fatigue conditions was carried out to investigate vibration-based features for damage diagnosis and prognosis. A set of 12 undamaged WTBs were tested to study the variability of the identified modal parameters. Results indicate that the variability of the natural frequencies was rather low, while the obtained damping ratios exhibited significant differences. Forced vibration tests were then conducted. To reach the failure of the blades, approximately 1.9 × 10⁴ and 4.2 × 10⁷ cycles were induced in the short- and long-term tests, respectively. Modal properties identified during testing protocols suggest that natural frequencies correlate well with damage. A linear finite element model was also developed, and its modal properties are compared to the identified modal parameters of the undamaged blades.

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复合材料风力涡轮机叶片在短期和长期强迫振动试验下的模态参数演变

确定了公用事业级风力涡轮机动态测试风力涡轮机叶片（WTB）的模态特性。为了研究用于损伤诊断和预报的基于振动的特征，进行了一项综合实验计划，包括自由振动和代表共振和简化疲劳条件的短期和长期强迫振动。对一组 12 个未损坏的风电机组进行了测试，以研究已识别模态参数的可变性。结果表明，固有频率的可变性相当低，而获得的阻尼比则表现出显著差异。随后进行了强制振动测试。为了使叶片失效，在短期和长期试验中分别诱导了约 1.9 × 104 和 4.2 × 107 个周期。在测试过程中确定的模态特性表明，自然频率与损伤有很好的相关性。此外，还开发了线性有限元模型，并将其模态特性与未损坏叶片的已识别模态参数进行了比较。

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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来源期刊

Journal of Civil Structural Health Monitoring Engineering-Safety, Risk, Reliability and Quality

CiteScore

8.10

自引率

11.40%

发文量

105

期刊介绍： The Journal of Civil Structural Health Monitoring (JCSHM) publishes articles to advance the understanding and the application of health monitoring methods for the condition assessment and management of civil infrastructure systems. JCSHM serves as a focal point for sharing knowledge and experience in technologies impacting the discipline of Civionics and Civil Structural Health Monitoring, especially in terms of load capacity ratings and service life estimation.