Keywords
filter-compensating devices
reactive power
urban distribution networks
control
mode вольтододавальний трансформатор
фільтрокомпенсуючий пристрій
реактивна потужність
міська електромережа
керування
режим
How to Cite
Abstract
Settlement and experimental studies of the use of filter-compensating devices for use in lighting electrical networks and phase-switched booster transformers for controlling the flows of active and reactive powers are presented. The analysis of component capacities in the conditions of non-linearity of the characteristics of their consumers and low correlation of voltage and reactive power in urban distribution networks is carried out. References 9, Figures 5.
References
Hovorov F.P., Hovorov V.F., Teroshyn O.V., Chetverykova Y.M. A comprehensive solution to voltage regulation and reactive power compensation in lighting electrical networks. Tekhnichna elektrodynamika. Tematycnyi vypusk “Sylova elektronika ta energoefektyvnist”. 2009. No1. Pp. 47-50. (Rus).
Kroherys A.F., Rashevyts K.K., Treimanys E P., Shynka Ya.K. AC power. Ryha: Fyziko-energeticheskii institute Latviiskoi akademii nauk, 1993. 294 p. (Rus).
Artemenko M.Iu., Batrak L.M., Polishchuk S.I. Active current and apparent power of three-phase power systems. Tekhnichna elektrodynamika. 2018. No 6. Pp. 69-72. (Ukr). DOI: https://doi.org/10.15407/techned2018.06.069
Govorov P.P., Govorov V.P., Korol O.V. Reactive power compensation in electrical circuits whit discharge lamps. Proceeding International Scientific Conference (UNITECH-14). Gabrovo, 21-22 November, 2014. Vol. 1. Pp. 59-65.
Shydlovskyi A.K., Novskyi V.O., Zharkin A.F. Stabilization of electrical parameters in three-phase systems by semiconductor corrective devices. Kyiv: Nash format, 2013. 378 p. (Ukr).
Lypkivskyi K.O., Mozharovskyi A.H. Features of realization of function of transformation of the transformer-key executive structure of the regulator-stabilizer of alternating current. Tekhnichna elektrodynamika. 2017. No 2. Pp. 35-39. (Ukr). DOI: https://doi.org/10.15407/techned2017.02.035
Tirshu M., Kalinin L., Zaitsev D., Golub I., Spivak V., The model and characteristics of circular phase convertor. 10thInternational Conference and Exhibition on Electromechanical and Power Systems. Culegere de articole (SIELMEN-2015). 6-8 octombrie. 2015. Pp.180-184.
Kalinin L., Zaitsev D., Tirshu M., Golub I. Modeling a cyclo-converter based on a phase shifter with circular conversion. ІV International Conference Intelligent Energy Systems ESS’15. Kyiv, 9-12 June, 2015. Pp. 317-321. (Rus).
Kalinin L., Zaitsev D., Tirshu M., Golub I. Capabilities for improving the control strategy of direct frequency conversion by using the phase-shifting transformer with power electronic switching equipment. Іnternational conference Energy of Moldova – 2016. Regional aspects of development. Chisinau, Republic of Moldova, 29 September – 01 October, 2016. Pp.214-221.
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Copyright (c) 2020 Tekhnichna Elektrodynamika