Abstract
Pipeline transportation is the main method for long-distance gas transportation; however, ponding in the pipeline can affect transportation efficiency and even cause corrosion to the pipeline in some cases. A non-destructive method to detect pipeline ponding using percussion acoustic signals and a convolution neural network (CNN) is proposed in this paper. During the process of detection, a constant energy spring impact hammer is used to apply an impact on the pipeline, and the percussive acoustic signals are collected. A Mel spectrogram is used to extract the acoustic feature of the percussive acoustic signal with different ponding volumes in the pipeline. The Mel spectrogram is transferred to the input layer of the CNN and the convolutional kernel matrix of the CNN realizes the recognition of pipeline ponding volume. The recognition results show that the CNN can identify the amount of pipeline ponding with the percussive acoustic signals, which use the Mel spectrogram as the acoustic feature. Compared with the support vector machine (SVM) model and the decision tree model, the CNN model has better recognition performance. Therefore, the percussion-based pipeline ponding detection using the convolutional neural network method proposed in this paper has high application potential.
Highlights
As a main method of oil and gas transportation, pipelines play an important role in transporting supplies [1,2]
This paper proposes a non-destructive detection method for pipeline ponding by referring to a pipeline structure characteristic detection method which combines the percussive detection method and a convolution neural network (CNN)
The filtered signals were converted into a Mel spectrogram and the parameters [39,40]
Summary
As a main method of oil and gas transportation, pipelines play an important role in transporting supplies [1,2]. Several common methods for pipeline structure characteristic detection have been introduced, including the CCTV (closed-circuit television) inspection method [4], the ultrasonic testing method [5] and the radiography method [6]. Its detection accuracy decreases when it is employed for vertical angle defect detection [17], and the rays are harmful to human health [18]. This method’s practical application is very limited
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