TitleAnalysis of the harmonic composition of current in the zero-working wire at the input of the load node with the prevailing non-linear power consumers
Journal titleArchives of Electrical Engineering
AffiliationYudaev, Igor V. : Azov-Black Sea Engineering Institute of Don State Agrarian University, Russia ; Rud, Evgeny V. : ICPE Energy Institute for Advanced Studies of the PJSC “Kubanenergo”, Russia ; Yundin, Mikhail A. : Azov-Black Sea Engineering Institute of Don State Agrarian University, Russia ; Ponomarenko, Tamara Z. : ICPE Energy Institute for Advanced Studies of the PJSC “Kubanenergo”, Russia ; Isupova, Aleksandra M. : Azov-Black Sea Engineering Institute of Don State Agrarian University, Russia
Keywordsharmonic currents ; non-linear power receiver ; non-symmetry ; three-phase fourwire network ; zero working wire of the network
Divisions of PASNauki Techniczne
PublisherPolish Academy of Sciences
Bibliography Golub I., Boloev E., Methods of linear and nonlinear state estimation of distribution network, Proceedings of E3S Web of Conferences, Irkutsk, Russian Federation (2018).
 Grigoriev O.A., Petukhov V.S., Sokolov V.A., Krasilov I.A., On the impact of electronic equipment on power networks, Computer Press 1, http://www.compress.ru/article.aspx?id=9553&iid=404 (2003).
 Om P.M., Abdul G.S., Neeraj G., Acritical review of detection and classification of power quality events, Renewable and Sustainable Energy Reviews, no. 41, pp. 495–505 (2015).
 Daus Y.V., Yudaev I.V., Taranov M.A., Voronin S.M., Gazalov V.S., Reducing the costs for consumed electricity through the solar energy utilization, International Journal of Energy Economics and Policy, vol. 9, no. 2, pp. 19–23 (2019).
 Ded A.V., To the problem of the current state of the levels of indices of asymmetry of voltages and currents in networks of 0.4 kV, Omsk Scientific Herald, vol. 2, no. 152, pp. 63–65 (2017).
 Kosoukhov F.D., Vasiliev N.V., Kuznetsova E.S., New scientific directions in energy saving in threephase transformers and four-wire lines with asymmetric, non-linear and reactive loads, News of St. Petersburg State Agrarian University, vol. 2, no. 47, pp. 300–309 (2017).
 Belitsky A.A., Shklyarsky Y.E., Estimation of additional power losses in networks with non-linear and asymmetric load, Bulletin of Tula State University, Technical Science, no. 7, pp. 86–93 (2018).
 Deokar S.A., Waghmare L.M., Analysis of distribution transformer performance un-der non-linear balanced load conditions and it’s remedial, International Journal of Technology and Advanced Engineering, vol. 1, no. 2, pp. 152–161 (2011).
 Corasaniti V.F., Barbieri M.B., Arnera P.L., Valla M.I., Characteristics of the loads in medium voltage networks from the point of view using active filters, in IEEE PES Transmission and Distribution Conference and Exposition, pp. 1–7 (2006).
 Ge J., Shuai Z., Zhao H., Shen Z.J., Generalized power and current control for three-phase fourwire converter under unbalanced grid conditions, Procceding of the IECON, Lisbon, Portugal, pp. 3900–3905 (2019).
 Szulborski M., Kolimas Ł., Łapczynski S., Szczęśniak P., Single phase UPS systems loaded with nonlinear circuits: Analysis of topology in the context of electric power quality, Archives of Electrical Engineering, vol. 68, no. 4, pp. 787–802 (2019).
 Barutskov I.B., Vdovenko S.A., Tsygankov E.V., Harmonic distortion during operation of frequency converters, Chief Power Engineer, no. 6, pp. 5–13 (2011).
 Om P.M., Abdul G.S., Topological aspects of power quality improvement techniques: A comprehensive overview, Renewable and Sustainable Energy Reviews, no. 58, pp. 1129–1142 (2016).
 Bodart M., Denejer A., Keppens A., Rikart U.R., Rojzin B., Characteristics of compact fluorescent lamps with integrated ballasts and their comparison with incandescent lamps, Lighting Engineering, no. 2, pp. 18–24 (2010).
 Suslov K.V., Stepanov V.S., Solonina N.N., Effect of high harmonics on electricity consumers in distribution networks, in 2013 International Symposium on Electromagnetic Compatibility (EMC Europe 2013), pp. 841–845 (2013).
 Fursanov M.I., Zalotoy A.A., Makarevich V.V., Calculation of technological consumption (loss) of electricity in modern 0.38-10 kV electrical distribution networks, Energetika, Proceedings of CIS Higher Education Institutions and Power Engineering Associations, vol. 61, no. 5, pp. 408–422 (2018).
 Florkowski M., Florkowska B., Zydron P., High voltage harmonics induced modifications of PD phase-resolved patterns, Archives of Electrical Engineering, vol. 67, no. 2, pp. 231–246 (2018).
 European Standard EN 62040-3, https://files.stroyinf.ru/Data/704/70439.pdf (2018).
 Zeng X.J., Zhai H.F., Wang M.X., Yang M., Wang M.Q., A system optimization method for mitigating three-phase imbalance in distribution network, International Journal of Electrical Power and Energy Systems, no. 113, pp. 618–633 (2019).