Imbalance Detection in Low Power Turbine Through Vibration Signals and Convolutional Neural Networks

Angel H. Rangel-Rodriguez, Jesús A. Estrada-Salazar, J. Amezquita-Sanchez, D. Granados-Lieberman, M. Valtierra-Rodríguez
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引用次数: 1

Abstract

The condition monitoring and the fault detection in wind turbines reduce the cost of repairment and maintenance tasks. An early detection of faults allows repairing before the damage is aggravated. In this article, a methodology based on convolutional neural networks and the time-frequency plane of vibration signals for the detection of three different levels of imbalance damage (low, medium, and high) is presented. In general, the methodology consists of the acquisition of vibration signals from three levels of imbalance and the condition with no damage. Then, the spectrogram function is applied to get an image from the time-frequency plane of the vibration signals. This image is segmented and analyzed by the convolutional neural network to detect the level of imbalance damage. Results show the proposal effectiveness as 100 % of accuracy is obtained.
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基于振动信号和卷积神经网络的小功率汽轮机不平衡检测
风力发电机组的状态监测和故障检测降低了维修和维护任务的成本。及早发现故障可以在损坏加重之前进行修复。本文提出了一种基于卷积神经网络和振动信号时频平面的方法,用于检测三种不同程度的不平衡损伤(低、中、高)。一般来说,该方法包括从三个不平衡水平和无损伤条件下获取振动信号。然后,利用谱图函数从振动信号的时频面得到图像。该图像被卷积神经网络分割和分析,以检测不平衡损伤的程度。结果表明,该方法的准确率达到100%。
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