DOI: https://doi.org/10.32515/2414-3820.2021.51.88-94
Оценка влияния несимметричных режимов на показатели надежности распределительных систем
Ф.М. Ерхан, професор, доктор хабілітований технічних наук, Государственный аграрный университет Молдовы , г. Кишинев, Молдова, e-mail: terhan@mail.ru
Д.А. Войнеско, викладач, Государственный аграрный университет Молдовы , г. Кишинев, Молдова
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Пристатейна бібліографія
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- Frind G., Rich J. Recovery speed of axial flow gas blast interrupter dependence on pressure and di/dt in SF – IEEE Trans. Power Appar. and Syst., 1974, vol. 93, № 5, p. 1675-1682.
- Browne T. Practical modelling of the circuit breaker arc as a schort line fault interrupter. IEEE Trans. Power Appar. and Syst., 1978, vol. 97, №3, p. 838-845.
- Hermann W., Ragaller K. Theoretical description of the current interruption in HV gas blast breakers – IEEE Trans. Power Appar. and Syst., 1977, vol. 96, №5, p. 1546-1552.
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- M. Seeger, R. Smeets, J. Yan, H. Ito, M. Claessens, E. Dullni, L. Falkingham, C. Franck, F. Gentils, W. Hartmann, Y. Kieffel, S. Jia, G. Jones, J. Mantilla, S. Pawar, M. Rabie, P. Robin-Jouan, H. Schellekens, J. Spencer, T. Uchii, X. Li, and S. Yanabu. Recent trends in development of high voltage circuit breakers with SF6 alternative gas. Plasma Physics and Technology, 4(1):8–12, 2017. doi:10.14311/ppt.2017.1.8.
- R. Thomas. Controlled switching of high voltage SF6 circuit breakers for fault interruption, 2004. Thesis for the degree of licentiate of engineering. URL: http://webfiles.portal.chalmers.se/et/Lic /ThomasRichardLic.pdf. [4] International standard IEC 62271-100. High-voltage switchgear and controlgear. Part 100. Alternating current circuit-breakers, 2012.
- T. Morita, M. Iwashita, and Y. Nitta. A theoretical analysis of dynamic arcs and test results of model synchronous air blast circuit breakers. IEEE Transactions on Power Apparatus and Systems, PAS-97(3):940–949, May 1978. doi:10.1109/TPAS.1978.354567.
- A. Budin, M. Pinchuk, V. Kuznetsov, V. Leontev, and N. Kurakina. An experimental setup for investigation of arc and erosion processes in high-voltage high-current breakers. Instruments and Experimental Techniques, 60(6):837–842, Nov 2017. doi:10.1134/S0020441217060033.