KOLIUSHKO D.G., RUDENKO S.S.
ABSTRACT
The mathematical model of nonequipotential grounding connection of optional configuration for the computation of rated parameters with allowance for underlayer effect was suggested.
KEYWORDS
mathematical model, grounding connection, underlayment, three-layer structure of the soil.
REFERENCES
1. Burgsdorf, V.V. and Yakobs, A.I. (1987), Zazemlyayushchie ustroystva elektroustanovok [Electrical grounding devices], Energoatomizdat, Moscow, Russia.
2. Link, I.Yu., Koliushko, D.G. and Koliushko, G.M. (2003 ), “Mathematical model of nonequipotential grounding device substation housed in a two-layer soil”, Elektronnoe modelirovanie, Vol. 25, no. 2, pp. 99-111.
3. Nesterov, S.V. (2002), “Mathematical model of the grounding device”, Sbornik dokladov “Pervaya Rossiyskaya konferentsiya po zazemlyayushchim ustroystvam” [Proceedings of the 'First Russian Conference on grounding devices’], pp. 45-50.
4. Nesterov, S.V. (2005), “The method of calculation of grounding systems of any configuration in heterogeneous soils”, Cand. Sci. (Tech.) dissertation, Novosibirsk, Russia.
5. Zubov, K.N. (2011), “Improvement of calculation methods for lightning protection and grounding devices in heterogeneous soils”, Cand. Sci. (Tech.) dissertation, Vologda, Russia.
6. Koliushko, D.G. and Rudenko, S.S. (2011), “Electrical field of the point current source in the ground with a three-layer structure”, Elektronnoe modelirovanie, Vol. 33, no. 6, pp. 101-111.
7. Koliushko, D.G. and Rudenko, S.S. (2011), “Approximation of functions which characterizes the three-layer soil model, the least squares method”,Visnyk Natsionalnogo tekhnichnogo universytetu “Kharkivskyy politekhnichnyy instytut”. “Tekhnika ta elektrofizyka vysokykh napruh”[Technique and electro physics of high tensions], no. 16, pp. 126-132.
8. Kostruba, S.I. (1983), Izmerenie elektricheskikh parametrov zemli i zazemlyayushchikh ustroystv [Measurement of the electrical parameters of the earth and grounding devices], Energoatomizdat, Moscow, Russia.