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Vol 236
Pages:
229-238
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Article

Application of an active rectifier used to mitigate currents distortion in 6-10 kV distribution grids

Authors:
S. V. Solovev1
S. B. Kryltcov2
J. M. Munoz-Guijosa3
About authors
  • 1 — Ph.D. Professor Saint-Petersburg Mining University
  • 2 — Assistant lecturer Saint-Petersburg Mining University
  • 3 — Ph.D. Assistant lecturer Polytechnic University of Madrid
Date submitted:
2018-10-27
Date accepted:
2019-01-04
Date published:
2019-04-23

Abstract

The paper addresses issues of using the active rectifier in partially loaded variable frequency drive as active filter in the conditions of non-sinusoidal current and voltage disturbances caused by the presence of high-power non-linear load in the grid. The topology of transformless three-level converter for 6-10 kV suitable for proposed solution has been presented and its mathematical model has been de-rived. Based on the model, the direct power control algorithm with ability to compensate non-linear currents has been designed. The investigation of active rectifier efficiency was performed depending on the relation between linear and non-linear load currents of the grid node, as well as on active power load of the active rectifier. Efficiency analysis was based on the developed computer model of the grid node with connected non-linear load simultaneously with the variable frequency drive with active rectifier.

Область исследования:
(Archived) Electromechanics and mechanical engineering
Keywords:
active rectifier active filtering harmonic disturbance direct power control
10.31897/pmi.2019.2.229
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Cited
Scopus:
16
Crossref:
8
Cited By
1. Enriched I-Q Active Filter Based Harmonics Mitigation in Rectifier-Inverter Fed Induction Motor Drive. Tehnicki Glasnik. 2025, Vol. 19, P. 181-191. DOI: 10.31803/tg-20230822132129 [Scopus] (cited: 1)
2. Impedance analysis of squirrel-cage induction motor at high harmonics condition. Indonesian Journal of Electrical Engineering and Computer Science. January 2024, Vol. 33, P. 31-41. DOI: 10.11591/ijeecs.v33.i1.pp31-41 [Scopus] (cited: 8)
3. Evaluation of three consumers' contribution to the current and voltage distortions at the point of common coupling. Bulletin of Electrical Engineering and Informatics. December 2023, Vol. 12, P. 3271-3278. DOI: 10.11591/eei.v12i6.6150 [Scopus] (cited: 1)
4. Increasing the energy efficiency of an autonomous power supply system of a drilling rig in case of voltage dips. Journal of Mining Institute. 19 July 2023, Vol. 261, P. 470-478. [Scopus] (cited: 2)
5. Determination of the grid impedance in power consumption modes with harmonics. Journal of Mining Institute. 19 July 2023, Vol. 261, P. 443-454. DOI: 10.31897/PMI.2023.25 [Scopus] (cited: 10)
6. Influence of nonlinear load on the measurement of harmonic impedance of the power supply system. Proceedings of the 2023 5th International Youth Conference on Radio Electronics Electrical and Power Engineering Reepe 2023. 2023, DOI: 10.1109/REEPE57272.2023.10086795 [Scopus] (cited: 11)
7. An assessment of the share contributions of distortion sources for various load parameters. International Journal of Power Electronics and Drive Systems. June 2022, Vol. 13, P. 950-959. DOI: 10.11591/ijpeds.v13.i2.pp950-959 [Scopus] (cited: 5)
8. Identification of harmonic source location in power distribution network. International Journal of Power Electronics and Drive Systems. June 2022, Vol. 13, P. 938-949. DOI: 10.11591/ijpeds.v13.i2.pp938-949 [Scopus] (cited: 1)
9. Computation of Nonlinear Load Harmonic Currents in the Presence of External Distortions. Computation. March 2022, Vol. 10, DOI: 10.3390/computation10030041 [Scopus] (cited: 15)
10. Method for evaluation of the utility’s and consumers’ contribution to the current and voltage distortions at the PCC. Energies. December-2 2021, Vol. 14, DOI: 10.3390/en14248416 [Scopus] (cited: 9)
11. Experimental determination of parameters of nonlinear electrical load. Energies. November-2 2021, Vol. 14, DOI: 10.3390/en14227762 [Scopus] (cited: 12)
12. Estimation of electricity generation by an electro-technical complex with photoelectric panels using statistical methods. Symmetry. July 2021, Vol. 13, DOI: 10.3390/sym13071278 [Scopus] (cited: 11)
13. Effects of active rectifiers on power quality in supply systems in mineral mining industry. Eurasian Mining. 2021, Vol. 35, P. 70-74. DOI: 10.17580/em.2021.01.14 [Scopus] (cited: 3)
14. Applying Newton's second order optimization method to define transition keys between planar coordinate systems. E3s Web of Conferences. 23 December 2020, Vol. 224, DOI: 10.1051/e3sconf/202022401003 [Scopus] (cited: 1)
15. Experimental study of harmonic influence on electrical energy metering. Energies. 22 October 2020, Vol. 13, DOI: 10.3390/en13215536 [Scopus] (cited: 23)
16. Use of active power transducers in industrial dc power systems supplying electrolysis cells. Tsvetnye Metally. 2020, Vol. 2020, P. 95-100. DOI: 10.17580/tsm.2020.02.13 [Scopus] (cited: 9)
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Application of an active rectifier used to mitigate currents distortion in 6-10 kV distribution grids

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