A manual operated and eco-friendly plasma-assisted polymerization method for enhancing surface weather resistance of insulation

Xi Zhu, Luyi Dai, Xiuhan Guan, Zhangliang Shen, Zexuan Wu, Hongtu Cheng, Jiajie Fan, Xinglei Cui, Zhi Fang

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

With the increasing demand for high-voltage long-distance power transmission, insulation as the first protection of power system, faces serious challenges from material degradation caused by moisture invading, surface contamination and pollution flashover. Addressing the issue requires significant effort and may cause harmful by-product emission from large-scale wet type material processing. In this work, a novel eco-friendly dry treatment method based on manual operated Air/Alkoxysilane(PMDMS)/plasma is developed to enhance weather resistance and electrical performances of contaminated insulation. Tiny amounts of harmless reaction medium are transmitted to plasma through controllable air bubbling, and it implements precise dry type processing on material surface. Plasma pulverizes pre-existing contamination and synchronously activates hydrolysis-polymerization of PMDMS to deposit Si-containing protection layer (Si-O2, Si-CH3) on surface. It is demonstrated that the plasma treatment inhibits dirt pollution and electrical erosion of on-site 110 kV silicone rubber (SIR), and the electrical and hydrophobicity properties are both promoted. Flashover voltage increases from 4.65 to 8.71 kV, and water contact angle increases from 138.27° to 146.41°. Overall, this newly-developed dry portable plasma treatment strategy for insulation enhancement avoids environment pollution and economic losses, and provides a scalable avenue for on-site insulation recovery and service life prolonging.

Original languageEnglish
Article number160970
JournalApplied Surface Science
Volume675
DOIs
StatePublished - 30 Nov 2024

Keywords

  • Eco-friendly plasma
  • Electrical performance
  • Insulation
  • Manual operated treatment
  • Weather resistance

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