Wind turbine gearbox vibration signal signature and fault development through time

2017 25th European Signal Processing Conference (EUSIPCO) Pub Date : 2017-10-23 DOI:10.23919/EUSIPCO.2017.8081435

S. Koukoura, J. Carroll, Stepha Weiss, A. McDonald

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引用次数: 2

Abstract

This paper aims to present a methodology for health monitoring wind turbine gearboxes using vibration data. Monitoring of wind turbines is a crucial aspect of maintenance optimisation that is required for wind farms to remain sustainable and profitable. The proposed methodology performs spectral line analysis and extracts health features from harmonic vibration spectra, at various time instants prior to a gear tooth failure. For this, the tachometer signal of the shaft is used to reconstruct the signal in the angular domain. The diagnosis approach is applied to detect gear faults affecting the intermediate stage of the gearbox. The health features extracted show the gradient deterioration of the gear at progressive time instants before the catastrophic failure. A classification model is trained for fault recognition and prognosis of time before failure. The effectiveness of the proposed fault diagnostic and prognostic approach has been tested with industrial data. The above will lay the groundwork of a robust framework for the early automatic detection of emerging gearbox faults. This will lead to minimisation of wind turbine downtime and increased revenue through operational enhancement.

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风电齿轮箱振动信号特征及故障随时间的发展

本文旨在提出一种利用振动数据对风力发电机齿轮箱进行健康监测的方法。风力涡轮机的监测是维护优化的一个关键方面，这是风力发电场保持可持续和盈利所必需的。提出的方法执行谱线分析，并从谐波振动频谱中提取健康特征，在齿轮齿失效之前的不同时刻。为此，利用轴的转速表信号在角域重构信号。将该诊断方法应用于检测影响齿轮箱中间阶段的齿轮故障。提取的健康特征显示了齿轮在灾难性失效前的渐进时间瞬间的梯度退化。训练了用于故障识别和故障前预测的分类模型。所提出的故障诊断和预测方法的有效性已经用工业数据进行了测试。以上将为早期自动检测新出现的变速箱故障奠定一个强大的框架基础。这将导致风力涡轮机停机时间最小化，并通过运营增强增加收入。

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

2017 25th European Signal Processing Conference (EUSIPCO)

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