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Sterowanie i zarządzanie mocą w hybrydowych sysytemach wytwarzania energii
Języki publikacji
Abstrakty
Recently eco-friendly solutions are gaining attraction for energy generation to overcome the environmental problems, but unpredictable nature and high dependency on weather state are the main restriction of renewable sources. To overthrown this drawbacks, various renewable sources need to be integrated such us PV, wind turbines and battery, the biggest challenge of this integration is to control and manage the power flow. In this paper a control method is proposed to deal with the power flow from a standalone PV–wind-battery to meet the load demand. The system is validated in the Matlab/Simulink environment and the simulation results obtained confirm the effectiveness of the proposed control.
Ostatnio ekologiczne rozwiązania zyskują na atrakcyjności dla wytwarzania energii ale nieprzewidywalny charakter i wysoka zależność od stanu pogody są głównymi ograniczeniami źródeł odnawialnych. Aby usunąć te wady, należy zintegrować różne źródła odnawialne, takie jak PV, turbiny wiatrowe i baterie. Największym wyzwaniem związanym z tą integracją jest kontrolowanie przepływu energii i zarządzanie nim. W niniejszej pracy zaproponowano metodę sterowania, aby poradzić sobie z przepływem mocy z autonomicznej baterii wiatrowej PV i aby sprostać wymaganiom obciążenia. System jest walidowany w środowisku Matlab / Simulink, a uzyskane wyniki symulacji potwierdzają skuteczność proponowanej kontroli.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
186--190
Opis fizyczny
Bibliogr. 21 poz., rys.
Twórcy
autor
- AVCIS Laboratory - Oran University of Science and Technology -Mohamed Boudiaf
autor
- AVCIS Laboratory - Oran University of Science and Technology -Mohamed Boudiaf
autor
- AVCIS Laboratory - Oran University of Science and Technology -Mohamed Boudiaf
autor
- AVCIS Laboratory - Oran University of Science and Technology -Mohamed Boudiaf
Bibliografia
- [1] Chen, C.-W., et al., Modeling and controller design of a semiisolated multiinput converter for a hybrid PV/wind power charger system. IEEE Transactions on Power Electronics, 2015. 30(9): p. 4843-4853.
- [2] Christidis, G.C., A.C. Nanakos, and E.C. Tatakis, Hybrid Discontinuous/Boundary Conduction Mode of Flyback Microinverter for AC–PV Modules. IEEE Transactions on Power Electronics, 2016. 31(6): p. 4195-4205.
- [3] Islam, M.R., Y. Guo, and J. Zhu, A high-frequency link multilevel cascaded medium-voltage converter for direct grid integration of renewable energy systems. IEEE Transactions on Power Electronics, 2014. 29(8): p. 4167-4182.
- [4] Jain, S., et al., A single-stage photovoltaic system for a dualinverter- fed open-end winding induction motor drive for pumping applications. IEEE Transactions on power Electronics, 2015. 30(9): p. 4809-4818.
- [5] Saib, S. and A. Gherbi. Simulation and control of hybrid renewable energy system connected to the grid. in Energy (IYCE), 2015 5th International Youth Conference on. 2015. IEEE.
- [6] Jain, S. and V. Agarwal, An integrated hybrid power supply for distributed generation applications fed by nonconventional energy sources. IEEE transactions on energy conversion, 2008. 23(2): p. 622-631.
- [7] Kim, S.-K., et al., Dynamic modeling and control of a gridconnected hybrid generation system with versatile power transfer. IEEE transactions on industrial electronics, 2008. 55(4): p. 1677-1688.
- [8] Zhang, N., D. Sutanto, and K.M. Muttaqi, A review of topologies of three-port DC–DC converters for the integration of renewable energy and energy storage system. Renewable and Sustainable Energy Reviews, 2016. 56: p. 388-401.
- [9] Zhang, L. and Y. Li. Optimal energy management of hybrid power system with two-scale dynamic programming. in Power Systems Conference and Exposition (PSCE), 2011 IEEE/PES. 2011. IEEE.
- [10] Esmaeili, S. and M. Shafiee, Simulation of dynamic response of small wind-photovoltaic-fuel cell hybrid energy system. Smart Grid and Renewable Energy, 2012. 3(03): p. 194.
- [11] Shagar, B.M., S. Vinod, and S. Lakshmi. Design of DC-DC converter for hybrid wind solar energy system. in Computing, Electronics and Electrical Technologies (ICCEET), 2012 International Conference on. 2012. IEEE.
- [12] Bilal, B.O., et al., Study of the influence of load profile variation on the optimal sizing of a standalone hybrid PV/Wind/Battery/Diesel system. Energy Procedia, 2013. 36: p. 1265-1275.
- [13] Dahmane, M., et al. Renewable energy management algorithm for stand-alone system. in Renewable Energy Research and Applications (ICRERA), 2013 International Conference on. 2013. IEEE.
- [14] Liu, X., et al., A direct power conversion topology for grid integration of hybrid AC/DC energy resources. IEEE transactions on industrial electronics, 2013. 60(12): p. 5696-5707.
- [15] Bigdeli, N., Optimal management of hybrid PV/fuel cell/battery power system: A comparison of optimal hybrid approaches. Renewable and Sustainable Energy Reviews, 2015. 42: p. 377- 393.
- [16] Kharb, R.K., et al., Modeling of solar PV module and maximum power point tracking using ANFIS. Renewable and Sustainable Energy Reviews, 2014. 33: p. 602-612.
- [17] Lopez, J., et al., Dynamic Behavior of the Doubly Fed Induction Generator During Three-Phase Voltage Dips. IEEE Transactions on Energy Conversion, 2007. 22(3): p. 709-717.
- [18] Abad, G., et al., Direct Control of the Doubly Fed Induction Machine, in Doubly Fed Induction Machine. 2011, John Wiley & Sons, Inc. p. 363-477.
- [19] Aimani, S.E., Modélisation des différentes technologies d'éoliennes intégrées dans un réseau de moyenne tension. 2004.
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[20] Poitiers, F., ETUDE ET COMMANDE DE GENERATRICES ASYNCHRONES POUR L'UTILISATION DE L'ENERGIE EOLIENNE
- Machine asynchrone à cage autonome
- Machine asynchrone à double alimentation reliée au réseau. 2003, Université de Nantes. - [21] Chen, Y.-M., C.-S. Cheng, and H.-C. Wu. Grid-connected hybrid PV/wind power generation system with improved DC bus voltage regulation strategy. in Applied Power Electronics Conference and Exposition, 2006. APEC'06. Twenty-First Annual IEEE. 2006. IEEE.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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