Investigation Of Enclosure Burn-Through In Hv Gis Circuit-Breakers Due To Internal Arcing

[1] International Electrotechnical Commission (IEC): High-voltage switchgear and controlgear – Part 203: Gas-insulated metal-enclosed switchgear for rated voltages above 52 kV, IEC 62271-203, Nov. 2011 Search in Google Scholar

[2] F. Chu, G. Ford, C. K. Law: Estimation of Burn-Through Probability in SF₆ Insulated Substations, IEEE Transactions on Power Apparatus and Systems, Volume PAS-101, Issue 6, pp. 1391-1399, Jun. 198210.1109/TPAS.1982.317186 Search in Google Scholar

[3] F. Lutz, F. Chu: Burn-through of GIS Enclosure Due To Power Fault Arcs, IEEE Transactions on Power Apparatus and Systems, Volume PAS-102, Issue 9, pp. 3140-3147, Sept. 198310.1109/TPAS.1983.318121 Search in Google Scholar

[4] CIGRÉ Working Group A3.24: Tools for the simulation of the effects of the internal arc in transmission and distribution switchgear, Technical Brochure 602, Dec. 2014 Search in Google Scholar

[5] W.A. Boeck, K. Kruger: Arc motion and burn through in GIS, IEEE Transactions on Power Delivery, Volume 7, Issue 1, pp. 254-261, Jan. 199210.1109/61.108915 Search in Google Scholar

[6] G. Babusci, et. al: Assessment of the Behavior of gas-insulated Electrical Components in the Presence of Internal Arc, Paper 21/23/33-03, 37th International CIGRÉ Session, Paris, Dec. 1998 Search in Google Scholar

[7] G. Bernard: Electrical faults mastery in high voltage SF₆ insulated substations, Revue Générale de l’ Électricité (RGE) EDF, Volume 4, Issue 82, pp. 231-249, Apr. 1982 Search in Google Scholar

[8] N. G. Trinh: Risk of burn-through - A quantitative assessment of the capability of gas-insulated equipment to withstand internal arcs, IEEE Transactions on Power Delivery, Volume 7, Issue 1, pp. 225-236, Jan. 199210.1109/61.108912 Search in Google Scholar

[9] W. Kolbe: Durchschmelzen von ebenen Metallplattenelektroden durch Hochstromlichtbögen in SF6, ETZ-A, Bd. 96, pp. 569-572, Jun. 1975 Search in Google Scholar

[10] K. G. Pettersson, E. V. Granstrom: Design of Gas-Insulated Substations with Respect to Internal Arcs, IEEE Report, Publ. 157, pp. 66-70, Jan. 1977 Search in Google Scholar

[11] R. Münch: Untersuchungen zur Rotationsbewegung von Störlichtbögen in einpolig gekapselten, SF6-isolierten Anlagen, Aachen, Techn. Hochsch., Diss., Jun. 1990 Search in Google Scholar

[12] D. Bešlija, D. Gorenc, M. Muratović, M. Kapetanović: Enhanced Method for Pressure Rise Calculation in SF6 GIS Due to Fault Arcs, IEEE Transactions on Power Delivery, Volume 35, Issue 4, pp. 1619-1624, Aug. 202010.1109/TPWRD.2019.2947869 Search in Google Scholar

[13] P. Bojić: Neki rezultati istraživanja djelovanja unutrašnjeg luka u metalom oklopljenim postrojenjima sa SF6 izolacijom, Paper 13.07, XV CIGRÉ conference of Power Engineers of Yugoslavia, Belgrade, Apr. 1981 Search in Google Scholar