Assessment on gas‐polyethylene terephthalate solid interface partial discharge properties of C4F7N/CO2 gas mixture for eco‐friendly gas insulating transformer-Reference-Cited by-同舟云学术

Assessment on gas‐polyethylene terephthalate solid interface partial discharge properties of C₄F₇N/CO₂ gas mixture for eco‐friendly gas insulating transformer

Published:2024-01-28 Issue:1 Volume:9 Page:35-45
ISSN:2397-7264
Container-title:High Voltage
language:en
Short-container-title:High Voltage

Author:

Xiao Song¹^ORCID,Wang Yifan¹^ORCID,Ren Chenhua²,Xia Haoran¹^ORCID,Zhao Yue³,Qin Jingzi⁴,Zhang Xiaoxing⁴^ORCID,Luo Yi²,Li Yi¹^ORCID

Affiliation:

1. State Key Laboratory of Power Grid Environmental Protection School of Electrical Engineering and Automation Wuhan University Wuhan Hubei China

2. Beijing International S&T Cooperation Base for Plasma Science and Energy Conversion Institute of Electrical Engineering Chinese Academy of Sciences Beijing China

3. State Grid Anhui Electric Power Company Anhui Electric Power Research Institute Hefei Anhui China

4. Hubei Engineering Research Center for Safety Monitoring of New Energy and Power Grid Equipment School of Electrical and Electronic Engineering Hubei University of Technology Wuhan Hubei China

Abstract

AbstractThe eco‐friendly insulating gas perfluoroisobutyronitrile (C4F7N) is potentially used in gas‐insulated transformers (GIT) to replace sulphur hexafluoride (SF6). However, evaluation of the long‐term insulation reliability and gas–solid interface discharge decomposition characteristics of the gas–solid film insulation structure in GIT is indispensable. The authors simulated the gas–solid film insulation structure in GIT and explored the interface partial discharge (PD) characteristics of C4F7N/CO2 gas mixture with polyethylene terephthalate (PET). The effect of gas pressure, mixing ratio on gas–solid interface gas decomposition, PET degradation was investigated, and the interaction mechanism was analysed. It is found that the interface PD generated three degradation regions on a PET film. The gas–solid interface reaction in the electrode contact region and the discharge development trace was significantly higher than that of halation region. The content of gas decomposition products decreases with the increase of gas pressure and the PD intensity of SF6‐PET is inferior to that of C4F7N/CO2 under the same condition. Relevant results provide reference for the development and application of C4F7N/CO2 based GIT.

Funder

National Natural Science Foundation of China

Publisher

Institution of Engineering and Technology (IET)

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