Abstract
With the development of machine learning in recent years, the application of machine learning to machine fault diagnosis has become increasingly popular. Applying traditional feature extraction methods for complex systems will weaken the characterization capacity of features, which are not conducive to subsequent classification work. A reciprocating compressor is a complex system. In order to improve the fault diagnosis accuracy of complex systems, this paper does not use traditional fault diagnosis methods and applies deep convolutional neural networks (CNNs) to process this nonlinear and non-stationary fault signal. The valve fault data is obtained from the reciprocating compressor test bench of the Daqing Natural Gas Company. Firstly, the single-channel vibration signal is collected on the reciprocating compressor and the one-dimensional CNN (1-D CNN) is used for fault diagnosis and compared with the traditional model to verify the effectiveness of the 1-D CNN. Next, the collected eight channels signals (three channels of vibration signals, four channels of pressure signals, one channel key phase signal) are applied by 1-D CNN and 2-D CNN for fault diagnosis to verify the CNN that it is still suitable for multi-channel signal processing. Finally, further study on the influence of the input of different channel signal combinations on the model diagnosis accuracy is carried out. Experiments show that the seven-channel signal (three-channel vibration signal, four-channel pressure signal) with the key phase signal removed has the highest diagnostic accuracy in the 2-D CNN. Therefore, proper deletion of useless channels can not only speed up network operations but also improve diagnosis accuracy.
Highlights
A reciprocating compressor is the most widely used compressor type in industry and key equipment in gas transmission pipelines, petrochemical industry, fertilizer industry, oil refinery, ethylene chemical industry, coal chemical industry, and other industries
A convolutional neural networks (CNNs)-based method was proposed for diagnosing the faults of reciprocating compressors based on single-measuring point vibration signal or multi-measuring points’ signal, including vibration, pressure, and key phase signal
The results demonstrate the effectiveness of the 1-D CNN model
Summary
A reciprocating compressor is the most widely used compressor type in industry and key equipment in gas transmission pipelines, petrochemical industry, fertilizer industry, oil refinery, ethylene chemical industry, coal chemical industry, and other industries. Proposed LSTM based on deep learning, which directly extracts the original vibration signal features of the reciprocating compressor and performs fault pattern recognition. He used Bayesian optimization to select the hyperparameters of the model and compared with it several machine learning methods. CNN is applied to extract features of the original signal and realize fault diagnosis of the reciprocating compressor gas valve. Eight-channel signals using multiple measuring points (four vibration sensors, four pressure sensors, one key phase sensor) are applied in a 1-D CNN model and a 2-D CNN model for reciprocating compressor valve fault diagnosis. This article studies the influence of different fusion measuring points signals
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