Clean Power

Ukrainian (UA)English (United Kingdom)

The National Academy of Sciences of Ukraine

The Institute of Electrodynamics

About Institute



M.I. Kotsur, D.S. Yarymbash, Yu.S. Bezverkhnia, A.A. Andrienko, D.S. Andrienko
Zaporizhzhya National Technical University,
Zhukovsky str., 64, 69063, Ukraine,
е-mail:  This e-mail address is being protected from spambots. You need JavaScript enabled to view it

The universal criteria, which allows for the effective and calculated values of the network power factor optimally choice the busbar configuration, also the parameters of reactive power compensation devices for reducing of power and voltage losses in three-phase systems of shop electric power supply was developed. The modified technique of preliminary estimation of the voltage losses in busbar trunk lines on the power factor of the network taking into account the higher harmonics content of the busbar current is developed. This will provide a qualified approach to the formation of requirements for the construction of current conductors and converters, which are sources of generation of the current harmonics. References 10, figures 2, table 1.
Key words: busbar, higher harmonics, compensation, voltage, power factor.

1. DSTU IEC 61000-3-12: 2014 Electromagnetic compatibility of technical means. Limit of harmonic current components created by technical means with a current consumption of more than 16 A, but not more than 75 A (in one phase), connected to low-voltage general-purpose power systems. Norms and methods of testing. (Rus)
2. Yarymbash D., Kotsur M., Subbotin S., Oliinyk A., A new simulation approach of the electromagnetic fields in electrical machines. IEEE: The International Conference on Information and Digital Technologies. Slovakia, 2017. Pp. 452–457. (Eng) DOI:
3. Kotsur M.I., Andrienko P.D., Kotsur I. M., Bliznyakov O.V., Converter for frequency-current slip-power recovery scheme. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2017. No 4. Pp. 49–54 (Eng).
4. Kotsur M., Yarymbash D., Yarymbash S., Kotsur I., A new approach of the induction motor parameters determination in short-circuit mode by 3D electromagnetic field simulation // IEEE: The International Young Scientists Forum on Applied Physics and Engineering. Lviv. Ukraine. 2017. Pp. 207–210 (Eng).
5. Reference book power engineering of industrial enterprises Т. 1. Power supply. Under the general ed. Fedorov A.A. Moscow: Gosenergoizdat, 1987. 592 p. (Rus).
6. Zhemerov, G.G. Domnin I.F., Ilina O.A., Tugay D.V., Energy efficiency of current phase correction and compensation of active and reactive power pulsations in the power supply system. Tekhnichna elektrodinamika. 2007. No 1. Pp. 52–57. (Rus)
7. Zhemerov G.G., Ilina O.A., Ilina N.A., Interrelation between the instantaneous reactive power module and the efficiency of the electric power supply system. Tekhnichna elektrodinamika. Problems of electric engineering. 2008. Vol. 4. Pp. 31–36. (Rus)
8. Yarymbash D.S. The research of electromagnetic and thermoelectric processes in the AC and DC graphitization furnaces. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2015. No. 3. Pp. 95–102. (Rus).
9. Vasetsky Yu. M., Dziuba, K. K., An analytical calculation method of quasi-stationary three-dimensional electromagnetic field created by the arbitrary current contour that located near conducting body. Tekhnichna elektrodinamika. 2017. No 5. Pp. 7–17. (Eng)
10. Yarymbash D.S., Oleinikov A.M. On specific features of modeling electromagnetic field in the connection area of side busbar packages to graphitization furnace current leads. Russian Electrical Engineering. 2015. Vol. 86. No. 2. Pp. 86–92. (Eng). DOI: