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Control of a Four-wire Hybrid Prosumer Converter for Balancing Utility Grids

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Języki publikacji
EN
Abstrakty
EN
The paper presents the project of the power electronic AC/DC converter operating under a multiresonant control algorithm for prosumer applications. This design allows independent control of active and reactive power for any or each phase. Both the converter and its algorithm are based on a three-phase converter of four-wire topology (AC/DC 3p-4w) with a DC bus, which couple the converter to a renewable energy source and energy storage. Further, model and simulation tests were carried out in the Matlab-SIMULINK programming environment. The results obtained indicate that operation with deep unbalances and powers of opposite signs in individual phases results in current variations (oscillations) in the DC line, which is a significant limitation, and it can be concluded that the level of asymmetry should be limited to the level acceptable to the energy storage device.
Wydawca
Rocznik
Strony
1--11
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
  • Faculty of Electrical Engineering and Computer Science, Department of Electrical Drives and Machines, Lublin University of Technology, Lublin, Poland
  • Faculty of Electrical Engineering and Computer Science, Department of Electrical Drives and Machines, Lublin University of Technology, Lublin, Poland
Bibliografia
  • Barlik, R., Nowak, M. and Grzejszczak, P. (2013). Power Transfer Analysis in A Single Phase Dual Active Bridge. Bulletin of the Polish Academy of Sciences: Technical Sciences, 61(4), pp. 809–828.
  • Blaabjerg, F., Teodorescu, R., Liserre, M. and Timbus, A. V. (2006). Overview of Control and Grid Synchronization for Distributed Power Generation Systems. IEEE Transactions on Industrial Electronics, 53(5), pp. 1398–1409.
  • Brito, M. A. G., Galotto, L., Sampaio, L. P., Melo, G. A. and Canesin, C. A. (2013). Evaluation of the Main MPPT Techniques for Photovoltaic Applications. IEEE Transactions on Industrial Electronics, 60(3), pp. 1156–1167.
  • Daniel, Z. and Cyril, S. S. (2017). Design of PR Current Control with Selective Harmonic Compensators Using MATLAB. Journal of Electrical Systems and Information Technology, 4, pp. 347–358.
  • Grijalva, S., Costley, M. and Ainsworth, N. (2011). Prosumer-Based Control Architecture for the Future Electricity Grid. IEEE International Conference on Control Applications, Denver, pp. 28–30.
  • Innoue, S. and Akagi, H. (2007). A Bidirectional DC-DC Converter for an Energy Storage System with Galvanic Isolation. IEEE Transactions on Power Electronics, 22(6), pp. 2299–2306.
  • Islam, S., Zeb, K., Din, W. and Khan, I. (2018). Design of a Proportional Resonant Controller with Resonant Harmonic Compensator and Fault Ride Trough Strategies for a Grid-Connected Photovoltaic System. Electronics, 7(12), pp. 451.
  • Jarzyna, W. (2019). A Survey of the Synchronization Process of Synchronous Generators and Power Electronic Converters. Bulletin of the Polish Academy of Sciences. Technical Sciences, 67(6), pp. 1069–1083.
  • Jarzyna, W., Zieliński, D. and Gopakumar, K. (2020). An Evaluation of the Accuracy of Inverter Sync Angle During the Grid’s Disturbances. Metrology and Measurement Systems, 27(2), pp. 355–371.
  • Jarzyna, W., Zieliński, D., Zielińska, K. and Fatyga, K. (2017). Reduction of Voltage and Power Oscillation in the Two-Phase Shorting of A Grid Inverter. In: 19th European Conference on Power Electronics and Applications (EPE’17 ECCE Europe), Warsaw, 11–14 September 2017.
  • Kouro, S., Malinowski, M., Gopakumar, K., Pou, J., Franquelo, L. G., Wu, B., Rodriguez, J., Perez, M. A., Leon, J. I. (2010). Recent Advances and Industrial Applications of Multilevel Converters. In: IEEE Transactions on Industrial Electronics, 57(8), pp. 2553–2580.
  • Nicastri, A. and Nagliero, A. (2010). Comparison and Evaluation of the PLL Techniques for the Design of the Grid-Connected Inverter Systems. In: IEEE International Symposium on Industrial Electronics, Bari, 4–7 July 2010.
  • Piasecki, S., Jasiński, M. and Milicua, A. (2011). Brief View on Control of Grid-Interfacing AC-DC-AC Converter and Active Filter under Unbalanced and Distorted Voltage Conditions. In: International Journal for Computation and Mathematics in Electrical and Electronic Engineering (COMPEL) on EVER’09, Emerald, 30(1), pp. 351–373.
  • Rodriguez, P., Pou, J., Bergras, J., Candela, J. I., Burgos, R. P. and Boroyevich, D. (2007). Decoupled Double Synchronous Reference Frame PLL for Power Converters Control. IEEE Transactions on Power Electronics, 22(2), pp. 584–592.
  • Silva, S. M., Lopes, B. M., Filho, B. J. C., Campana, R. P. and Bosventura, W. C. (2004). Performance Evaluation of PLL Algorithms for Single-Phase Grid-Connected Systems. In: Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting, vol. 4, Seattle, 3–7 October 2004.
  • Teodorescu, R., Blaabjerg, F., Liserre, M. and Loh, P. C. (2006). Proportional-Resonant Controllers and Filters for Grid-Connected Voltage-Source Converters, IEEE Proceedings-Electric Power Applications, 153(5), pp. 750–762.
  • Zielińska, K. and Zieliński, D. (2016). Influence of Power Converters on InCreasing the Share of Renewable Energy Sources. Acta Energetica, 1(26), pp. 125–131.
  • Zieliński, D., Lipnicki, P. and Jarzyna, W. (2015). Synchronization of Voltage Frequency Converters with the Grid in the Presence of Notching. COMPEL – International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 34(3), pp. 657–673.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6cde7474-a028-43e2-a162-055492ed25f4
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