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Degradation Processes in Shield-Centring Elements of Surge Arresters

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Języki publikacji
EN
Abstrakty
EN
This paper presents the results of testing samples of shield-centering elements from medium-voltage surge arresters. The elements were made of TSE glass textolite. The elements have been dismantled from different operated surge arresters, which were subjected to discharge currents (short-circuit currents) of different intensity and duration. The discharge currents led to degradation of the tested elements with various degrees of advancement. The degradation was investigated using microscopic methods and energy-dispersive X-ray spectroscopy (EDS). Changes in the content of elements of the surface of textolite materials - as the degradation progresses - were documented. It was found that high discharge current flows resulted in melting of the organic binder, epoxy resin, especially its surface layer. Partial charring and even burning of the resin was noticeable. Furthermore, it was found that with increasing degradation on the surface of the TSE laminate, the carbon and oxygen content, which are part of the organic resin, decreases. Simultaneously the amount of silicon, calcium and aluminium, which are present in the glass fibres, increases. The charring effect of the resin and the formation of conductive paths result in a decrease in the performance of surge arresters and their subsequent failure.
Twórcy
  • Institute of Power Engineering - Research Institute, 8 Mory Str., 01-330 Warsaw, Poland
  • Institute of Power Engineering - Research Institute, 8 Mory Str., 01-330 Warsaw, Poland
  • Institute of Fundamental Technological Research PAS, 5b Pawińskiego Str., 02-106 Warsaw, Poland
  • Institute of Fundamental Technological Research PAS, 5b Pawińskiego Str., 02-106 Warsaw, Poland
autor
  • Wrocław University of Science And Technology, Faculty of Electrical Engineering, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland
  • Institute of Materials and Machine Mechanics Slovak Academy of Sciences, Dúbravská Cesta 9/6319, 845 13 Bratislava, Slovakia
Bibliografia
  • [1] Working Group Report, Calculating the lightning performance of distribution lines, IEEE Trans. on Power Delivery 5, 1408-1417 (July 1990). DOI: https://doi.org/10.1109/61.57983
  • [2] E. Anderson, Internal overvoltages in the medium voltage networks and their limitation. Selected issues related to the method of neutral point earthing of 6 kV industrial networks and power plants networks, (in Polish), Series: Postępy techniki wysokich napięć 22, 1997 Institute of Power Engineering, Warsaw
  • [3] A.R. Hileman, Insulation Coordination for Power Systems, 2018 CRC Press. DOI: https://doi.org/10.1201/9781420052015
  • [4] Z. Woynarowski, Zinc oxide varstor, (in Polish), Wiadomości Elektroenergetyczne 4, 1982.
  • [5] K.L. Chrzan, High-voltage surge arresters. (in Polish), 2003 Dolnośląskie Wydawnictwo Edukacyjne, Wrocław.
  • [6] High-voltage surge arresters, the buyer’s guide. ABB 2019. https://library.e.abb.com/public/ba61a5f190bf46fe8676554e0a2e9e4a/Buyer%27s%20Guide%20Surge%20Arresters%202019-10-17.pdf
  • [7] P. Papliński, P. Ranachowski, Investigation of surfaces of internal elements of surge arresters, (in Polish), Przegląd Elektrotechniczny 88 (5a), 73-76 (2012). ISSN 0033-2097
  • [8] I. Plesa, P.V. Notingher, S. Schlögl, Ch. Sumereder, M. Muhr, Properties of Polymer Composites Used in High-Voltage Applications, Polymers 8 (5), 173 (2016). DOI: https://doi.org/10.3390/polym8050173
  • [9] Standard PN-EN ISO2078:2011, Glass textiles - Threads - Markings.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b3f1a47c-3487-4820-975a-212f49808998
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