Research on Fault Diagnosis Technology for Ion Tube Based on Neural Network

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS
Mengmei Zhang;Kun Shen;Haoxiang Chen;Mengyao Wu
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Abstract

Ion tube is a type of dielectric barrier discharge (DBD) device widely applied in the field of air pollution treatment. The operational state of ion tube is a crucial factor that affects the efficiency of air pollution treatment. Manual inspection is the primary method for monitoring the state of ion tube. This approach suffers from issues such as time-consuming, labor-intensive, and heavily reliant on personal experience. To achieve automation and intelligence of fault diagnosis for ion tube, this article uses a neural network to design an online measurement scheme of ion tube’s Lissajous figure, the nonlinear relationship of signals from the low-voltage side to high-voltage side of the ion tube transformer is fit by neural network. And based on the measured low-voltage side signals, the ion tube’s Lissajous figure is calculated by the designed neural network. Moreover, the convolutional neural network (CNN) is used to construct the fault diagnosis scheme for ion tube and the ion tube’s Lissajous figure is classified by a two-level classification scheme. The primary classification CNN distinguishes between punctured and nonpunctured ion tube, and then the secondary classification CNN categorizes nonpunctured ion tube into brand-new, semi-new, and damaged ion tube. The experimental results indicate that the designed online measurement technology of ion tube’s Lissajous figure has the same measurement accuracy as traditional methods and does not require oscilloscopes, high-voltage probes, and external measurement capacitors. And the designed fault diagnosis technology for ion tube effectively distinguishes four fault states of ion tube with high accuracy.
基于神经网络的离子管故障诊断技术研究
离子管是一种介质阻挡放电(DBD)装置,广泛应用于空气污染处理领域。离子管的运行状态是影响空气污染处理效率的关键因素。人工检测是监测离子管状态的主要方法。这种方法存在费时、费力、严重依赖个人经验等问题。为了实现离子管故障诊断的自动化和智能化,本文利用神经网络设计了离子管利萨如图在线测量方案,通过神经网络拟合离子管变压器低压侧到高压侧信号的非线性关系。根据测量到的低压侧信号,通过设计的神经网络计算出离子管的利萨如图。此外,利用卷积神经网络(CNN)构建离子管故障诊断方案,并通过两级分类方案对离子管的利萨如图进行分类。一级分类 CNN 区分穿刺和非穿刺离子管,然后二级分类 CNN 将非穿刺离子管分为全新、半新和损坏离子管。实验结果表明,所设计的离子管利萨如图在线测量技术与传统方法具有相同的测量精度,并且不需要示波器、高压探头和外部测量电容器。所设计的离子管故障诊断技术能有效区分离子管的四种故障状态,且准确度高。
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
IEEE Transactions on Plasma Science
IEEE Transactions on Plasma Science 物理-物理:流体与等离子体
CiteScore
3.00
自引率
20.00%
发文量
538
审稿时长
3.8 months
期刊介绍: The scope covers all aspects of the theory and application of plasma science. It includes the following areas: magnetohydrodynamics; thermionics and plasma diodes; basic plasma phenomena; gaseous electronics; microwave/plasma interaction; electron, ion, and plasma sources; space plasmas; intense electron and ion beams; laser-plasma interactions; plasma diagnostics; plasma chemistry and processing; solid-state plasmas; plasma heating; plasma for controlled fusion research; high energy density plasmas; industrial/commercial applications of plasma physics; plasma waves and instabilities; and high power microwave and submillimeter wave generation.
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