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Tytuł artykułu

Mathematical model for assessment of voltage disturbing sources in networks with distributed power generation

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Warianty tytułu
PL
Model matematyczny do określania napię1)ciowych źródeł zakłóceń w sieci z rozproszoną generacją
Języki publikacji
EN
Abstrakty
EN
The assessment of voltage disturbing emission sources still lacks adequate models for customer side incorporating mixed loads and distributed power generation. The paper proposes a solution for this challenging task. It includes the determination of topology and parameters of equivalent circuits representing customers’ installations with local power sources in three- and four-wire networks. The equivalent circuits are developed on the basis of two-staged transformation, meet requirements of IEC 61000-4-30 and can be used for the on-line assessment of the emission sources of linear voltage disturbances.
PL
W artykule zaproponowano rozwiązanie problemu konkurujących zadań w sieci zawierającej różne obciążenia I rozproszone generatiry. Określono topologię I parametry obwodów zastępczych reprezentujących instalacje klientów w sieci trzy- I czteroprzewodowej. Schematy zastępcze okręslono na bazie dwustopniowej transformacji z uwzględnieniem normy IEC 61000-4-30. Pozwoliło to na okręślanie on-line źródeł emisji zakłóceń.
Rocznik
Strony
49--53
Opis fizyczny
Bibliogr. 29 poz., rys.
Twórcy
autor
  • Pryazovskyi State Technical University, Department of Industrial Electrical Power Supply, Ukraine, 87500, Mariupol, 7 Universytets'ka
  • Beketov National University of Urban Economy in Kharkiv, Department of Cities Electrical Power Supply, Ukraine, 61002, Kharkiv, 12 Revolutsii
  • TUT Estonian Maritime Academy, Centre for General and Basic Studies, Kopli 101, 11712 Tallinn, Estonia, and TKK University of Applied Sciences, Department of Electrical Engineering, Pärnu mnt 62, 10135 Tallinn, Estonia
autor
  • Tallinn University of Technology, Department of Electrical Power Engineering and Mechatronics, Ehitajate tee 5, 19086 Tallinn, Estonia
Bibliografia
  • [1] IEC 61000-4-30:2015 Electromagnetic compatibility (EMC). Testing and measurement techniques. Power quality measurement methods.
  • [2] Sayenko Yu., Sukhonos M., Kalyuzhniy D., Bolgov V., Mathematical Model for Real-Time Assessment of Contributions of Disturbing Sources to Power Quality Level at a Point of Common Coupling, 10th International Electric Power Quality and Supply Reliability Conference, Tallinn, Estonia, 29- 31 August, 2016, 29-35
  • [3] Sayenko Yu., Kalyuzhniy D., Analytical methods for determination of the factual contributions impact of the objects connected to power system on the distortion of symmetry and sinusoidal waveform of voltages, Przegląd Elektrotechniczny, 15 (2005), 81–85
  • [4] De Jaeger E., Disturbance emission level assessment techniques, 20th Int. Conf. and Exhibition on Elect. Distribution CIRED, Prague, Czech Republic, June 8–11, 2009, vol. 2, 1–2.
  • [5] CIGRE report 468, Review of Disturbance Emission Assessment Techniques, CIGRE/CIRED working group C4.109, 2011
  • [6] Perera S., Gosbell V. J., Sneddon B., A study on the identification of major harmonic sources in power systems, Australian Universities Power Eng. Conf., Melbourne, Australia, Sept. 29–Oct. 2, 2002
  • [7] Gopalakrishnana C., Prabhub S. G., Kumara K. U., Practical implementation of CIGRE 36.05/CIRED 2 Joint WG CC02 for assessment of harmonic emission level of AC arc furnaces connected to the Tamil Nadu distribution network, Int. J. Elect. Power & Energy Syst., vol. 29 (2007), 275–279
  • [8] Tulsky V. N., Kartashev I. I., Shamonov R. G., Assessing of impact of disturbing load on power quality, 17th Int. Conf. Electricity Distribution CIRED, Barcelona, May 12–15, 2003
  • [9] Seritan G. C., Cepişcă C., Guerin P., The analysis of separating harmonics from supplier and consumer, Electrotehnică, Electronică, Automatică (EEA), vol. 55 (2007), no. 1, 14–18
  • [10] Wilsun Xu, Xian Liu, Yilu Liu, An investigation on the validity of power-direction method for harmonic source determination, IEEE Trans. Power Del., vol. 18 (2003), 214–219
  • [11] Mayer V. Ya., Zeniya, A technique of determining share impacts of consumers and power supplying utility into distortion of electric power quality (in Russian), Electricity (Электричество), No 9 (1994), 19–24
  • [12] Sun Y., Li P., Li, S., Zhang, L., Contribution determination for multiple unbalanced sources at the point of common coupling, Energies, 10 (2) (2017), 171
  • [13] CIGRE 36.05/ CIRED 2 Joint WG CC02 (Voltage Quality), Review of methods for measurement and evaluation of harmonic emission level from an individual distorting load, CIGRE, 1999
  • [14] Gamazin S. I., Petrovich V. A., Determining the actual contribution of the consumer in the distortion of the quality parameters of electric energy (in Russian), Ind. Power Eng., no. 1 (2003), 32–38
  • [15] Zykin F. A., Finding the extent loads participate in reducing the quality of electric power (in Russian), Electricity, no. 11 (1992), 13–19
  • [16] Tanaka T., Akagi H., A new method of harmonic power detection based on the instantaneous active power in threephase circuits, IEEE Trans. Power Del., vol. 10 (1995), 1737– 1742
  • [17] Schau H., Novitskiy A., Identification of the dominant harmonic source in the LV network on the base of anomalous power flows considerations, IEEE Russia Power Tech 2005, St. Petersburg, Russia, June 27–30, 2005, 1–5
  • [18] Seiphetlho T. E., Rens A. P. J., On the assessment of voltage unbalance, 14th Int. Conf. Harmonics and Quality of Power ICHQP, Bergamo, Sept. 26–29, 2010, 1–6
  • [19] Aiello M., Cataliotti A., Cosentino V., Nuccio S., Time domain method to detect harmonic sources in unbalanced power systems, XVII IMEKO World Congr., Dubrovnik, Croatia, June 22–27, 2003, 496–501
  • [20] Smirnov S. S., Kovernikova L. I., Customer’s contribution to high-harmonic voltage levels in electric network nodes (in Russian), Electricity (Электричество), no. 1 (1996), 32–38
  • [21] Chun Li, Wilsun Xu, T. Tayjasanant, A “Critical Impedance”- based method for identifying harmonic sources, IEEE Trans. Power Del., vol. 19 (2004), 671–678
  • [22] Rens A. P. J., Swart P. H., On techniques for the localisation of multiple distortion sources in three-phase networks: Time domain verification, European Trans. Elect. Power, vol. 11 (2001), 317–322
  • [23] Emanuel A. E., On the assessment of harmonic pollution, IEEE Trans. Power Del., vol.10 (1995), no. 3, 1693–1698
  • [24] Jayatunga U., Perera S., Ciufo P., Voltage unbalance emission assessment in radial power systems, IEEE Trans. Power Del., vol. 27 (2012), 1653–1661
  • [25] Jayatunga U., Perera S., Ciufo P., Agalgaonkar A. P., Voltage Unbalance Emission Assessment in Interconnected Power Systems, IEEE Trans. Power Del., vol. 28 (2013), 2383–2393
  • [26] Sayenko Yu. L., Kalyuzhniy D. M., Identification of a linear generalized load in a three-phase three-wire network for the task of apportioning factual contributions at a point of common coupling (in Russian), Electrical Engineering and Electromechanics (Электротехника и электромеханика), nr 6 (2016), 65–69
  • [27] Sayenko Yu. L., Kalyuzhniy D. M., Svergunenko S. V., Identification of a linear generalized load for the task of apportioning factual contributions in three-phase four-wire grids (in Russian), Technical Electrodynamics (Технічна електродинаміка), nr 2 (2018), 67-74
  • [28] S. D., Ghita O. M., Cepisca C., Vintea A. S., Power quality monitoring systems for smart grid networks, 8th International Symposium on Advanced Topics in Electrical Engineering, Bucharest, Romania, May 23-25, 2013
  • [29] Shafiuzzaman Kh., Basu M., Conlon M., UPQC for Power Quality Improvement in DG Integrated Smart Grid Network: a Review, Int. J. Emerging Elect. Power Syst., vol.13 (2012), no.1, 1-13
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a6d8d6f8-deab-41ed-82a2-90e6357d01a7
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