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通过结合改进的鲸鱼优化算法(IWSO)优化的卷积神经网络-长短期记忆神经网络(CNN-LSTM)对水轮机进行磨损故障诊断

Wear fault diagnosis in hydro-turbine via the incorporation of the IWSO algorithm optimized CNN-LSTM neural network.

作者信息

Dao Fang, Zeng Yun, Zou Yidong, Qian Jing

机构信息

Faculty of Metallurgical and Energy Engineering, Kunming University of Science and Technology, Kunming, 650093, Yunnan, China.

School of Power and Mechanical Engineering, Wuhan University, Wuhan, 430072, Yunnan, China.

出版信息

Sci Rep. 2024 Oct 25;14(1):25278. doi: 10.1038/s41598-024-77251-7.

Abstract

When a hydropower unit operates in a sediment-laden river, the sediment accelerates hydro-turbine wear, leading to efficiency loss or even shutdown. Therefore, wear fault diagnosis is crucial for its safe and stable operation. A hydro-turbine wear fault diagnosis method based on improved WT (wavelet threshold algorithm) preprocessing combined with IWSO (improved white shark optimizer) optimized CNN-LSTM (convolutional neural network-long-short term memory) is proposed. The improved WT algorithm is utilized to denoise the preprocessing of the original signals. Chaotic mapping, bird flock search, and cosine elite variation strategies are introduced to enhance the WSO algorithm's robust performance, and the CNN-LSTM model's hyperparameters are optimized using the IWSO algorithm to improve the diagnostic performance. The experimental results show that the accuracy of the proposed method reaches 96.2%, which is 8.9% higher than that of the IWSO-CNN-LSTM model without denoising. The study also found that the diagnostic accuracy of hydro-turbine wear faults increased with increasing sediment concentration in the water. This study can supplement the existing hydro-turbine condition monitoring and fault diagnosis system. Meanwhile, diagnosing wear faults in hydro-turbines can improve power generation efficiency and quality and minimize resource consumption.

摘要

当水电机组在含沙河流中运行时,泥沙会加速水轮机磨损,导致效率损失甚至停机。因此,磨损故障诊断对其安全稳定运行至关重要。提出了一种基于改进小波阈值算法(WT)预处理并结合改进白鲨优化器(IWSO)优化的卷积神经网络-长短期记忆网络(CNN-LSTM)的水轮机磨损故障诊断方法。利用改进的WT算法对原始信号进行预处理去噪。引入混沌映射、鸟群搜索和余弦精英变异策略来增强白鲨优化算法的鲁棒性能,并使用IWSO算法优化CNN-LSTM模型的超参数以提高诊断性能。实验结果表明,该方法的准确率达到96.2%,比未去噪的IWSO-CNN-LSTM模型高出8.9%。研究还发现,水轮机磨损故障的诊断准确率随水中泥沙浓度的增加而提高。本研究可以补充现有的水轮机状态监测与故障诊断系统。同时,诊断水轮机磨损故障可以提高发电效率和质量,并使资源消耗最小化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd1e/11511977/c2647c407c3b/41598_2024_77251_Fig1_HTML.jpg

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