Affiliation:
1. Key Laboratory of the Ministry of Education on Smart Power Grids, School of Electrical and Information Engineering, Tianjin University, Tianjin 300072, China
2. State Grid Fujian Electric Power Research Institute, Fuzhou 350007, China
Abstract
This paper proposes an online monitoring and defect identification method for XLPE power cables using harmonic visualization of grounding currents. Four typical defects, including thermal aging, water ingress and dampness, insulation scratch, and excessive bending, were experimentally conducted. The AC grounding currents of the cable specimens with different defects were measured during operation. By using the chaotic synchronization system, the harmonic distortion was transformed into a 2D scatter diagram with distinctive characteristics. The relationship between the defect type and the diagram features was obtained. A YOLOv5 (you only look once v5) target recognition model was then established based on the dynamic harmonics scatter diagrams for cable defect classification and identification. The results indicated that the overall shape, distribution range, density degree, and typical lines formed by scatter aggregation can reflect the defect type effectively. The proposed method greatly reduces the difficulty of data analysis and enables rapid defect identification of XLPE power cables, which is useful for improving the reliability of the power system.
Funder
Science and Technology Project of State Grid Corporation of China
Reference37 articles.
1. Review of the design, production and tests of compact AC HTS power cables;Fetisov;Prog. Supercond. Cryog.,2021
2. Monitoring of Partial Discharges in HVDC Power Cables;Winkelmann;IEEE Electr. Insul. Mag.,2022
3. Decision Tree Rules for Insulation Condition Assessment of Pre-molded Power Cable Joints with Artificial Defects;Chang;IEEE Trans. Dielectr. Electr. Insul.,2019
4. Analysis of Seasonality and Causes of Equipment and Facility Failures in Electric Power Distribution Networks;Chojnacki;Prz. Elektrotechniczny,2023
5. Effect of radical scavenger on electrical tree in cross-linked polyethylene with large harmonic superimposed DC voltage;Zhu;High Volt.,2023
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