Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Sterowanie małą turbiną wiatrową podłączona do sieci
Języki publikacji
Abstrakty
This paper presents a control of a grid connected small wind turbine (SWT) system. The chosen SWT topology consists of a synchronous machine (SM) with excitation winding, a full power back to back converter and an output filter. The control system consists of the hill search type Maximum Power Point Tracking (MPPT) algorithm and the Voltage Oriented Control (VOC). The two control algorithms are interacting over the DCvoltage controller. The proposed control requires small number of measurements that can be reduced to the electrical subsystem of SWT.
W artykule przedstawiono sterowanie małą turbiną wiatrową podłączoną do sieci. System składa się z silnika synchronicznego oraz przekształtnika i filtru wyjściowego. Do sterowania wykorzystano algorytm MPPT i układ VOC.
Wydawca
Czasopismo
Rocznik
Tom
Strony
174--178
Opis fizyczny
Bibliogr. 23 poz., rys., tab., wykr.
Twórcy
autor
- University of Maribor, Faculty of Electrical Engineering and Computer Science, Smetanova ulica 17, 2000 Maribor, Slovenia
autor
- University of Maribor, Faculty of Electrical Engineering and Computer Science, Smetanova ulica 17, 2000 Maribor, Slovenia
autor
- University of Maribor, Faculty of Electrical Engineering and Computer Science, Smetanova ulica 17, 2000 Maribor, Slovenia
Bibliografia
- [1] Renewables Global Status Report available at http://www.ren21.net/gsr
- [2] Vries E., Close up – Vestas V164-8.0 naccele and hub, available at http://www.windpowermonthly.com/article/1211056/
- [3] Small Wind World Report 2014 available at http://smallwind.org
- [4] Chen Z., Blaabjerg F., Wind turbines – a Cost Effective Power Source, Przeglad Elektrotechniczny (Electrotechnical Review in Polish), No. 5 (2004), 464-469.
- [5] Ani, S.O., Polinder H, Ferreira J.A.,Energy, Comparison of Energy Yield of Small Wind Turbines in Low Wind Speed Areas, IEEE Transactions on Sustainable Energy, 4 (2012), no. 1, 42-49
- [6] Blaabjerg F., Ma K., Yang Y., Power Electronics – The Key Technology for Renewable Energy Systems, Ecological Vehicles and Renewable Energies proceeding of international conference in Monte Carlo, Monaco, 2014, IEEE, 1-11
- [7] Iov F., Blaabjerg F., Power Electronics and Control for Wind Power Systems, in Power Electronics and Machines in Wind Applications proceedings of international conference in Lincoln, USA, 2009, IEEE, 1-16
- [8] Chen Z., Guerrero J.M., Blaabjerg F., A Review of the State of the Art of Power Electronics for Wind Turbines, IEEE Transactions on Power Electronics, 24 (2009), No. 8, 1859-1875
- [9] Blaabjerg F., Liserre M., Ma K., Power Electronics for Wind Turbine systems, IEEE transactions on Industry Applications, 48 (2011), No. 2, 708-719
- [10] Thiringer T., Petersson A., Grid Integration of Wind Turbines, Przeglad Elektrotechniczny (Electrotechnical Review in Polish), No. 5 (2004), 470-475
- [11] Buchert K, Fuchs F.W., Comparison of Three Phase Rectifier Topologies in Small Wind Turbines. European Conference on Power Electronics and Applications in Lappeenranta, 2014, IEEE, 1-10
- [12] Cernelic J., Stumberger G., Laboratory Realization of Static VAr Compensator, in Compatibility and Power Electronics (CPE) proceedings of the international conference in Ljubljana, Slovenia, 2013, IEEE, 120-125
- [13] Liserre, M., Blabjerg, F., Hansen S, Design and Control of an LCL-Filter-Based Three-Phase Active Rectifier, IEEE Transactions on Industry Applications, 41(2005), No. 5, pp 1281-1291
- [14] Sun W., Chen Z., Wu X., Intelligent Optimize Design of LCL Filter for Three-phase Voltage Source PWM Rectifier, Power Electronics and Motion Control Conference proceedings of international conference in Wuhan, China, 2009, IEEE, pp. 970-974
- [15] Aubree R., Auger F., Dai P., A New Low Cost Sensorless MPPT Algorithm for Small Wind Turbines, Renewable Energies and Vehicular Technology proceedings of international conference in Hammamet, 2012, IEEE, 305-311
- [16] Koutroulis E., Kalaitzakis K., Design of a Maximum Power Tracking System for Wind-Energy-Conversion Applications, IEEE Transactions on Industrial Electronics, 53 (2006), No. 2, 486-494
- [17] Kazmi S., Goto H., Guo H., Ichinokura O., Review and Critical Analysis of the Research Papers Published Till Date on Maximum Power Point Tracking in Wind Energy Conversion System, in Energy Conversion Congress and Exposition (ECCE) in Atlanta, USA, 2010, 4075-4082
- [18] Ling Y., Guoxiang W., Cai X., Comparison of Wind Turbine Efficiency in Maximum Power Extraction of Wind Turbines with Doubly Fed Induction Generator, Przeglad Elektrotechniczny (Electrotechnical Review in Polish), No. 5b (2012), 157
- [19] Urtasun A., Sanchis P., Marroyo L., Small Wind Turbine Sensorless MPPT: Robustness Analysis and Lossless Approach, IEEE Transactions on Industry Applications, 50 (2014), No. 6, 4113-4121
- [20] Blaabjerg F., Teodorescu R., Liserre M., Timbus A.V., Overview of Control and Grid Synchronization for Distributed Power Generation Systems, IEEE Transactions on Industrial Electronics, 53 (2006), No. 5, 1398-1409
- [21] Timbus A., Liserre M., Teodorescu R., Rodriguez P., Blaabjerg F., Evaluation of Current Controllers for Distributed Power Generation Systems, IEEE Transactions on Power Electronics, 24 (2009), No. 3, 654-664
- [22] Sedlak M., Stynski S., Kazmierkowski M., Malinowski M., Three-level four-leg flying capacitor converter for renewable energy sources, Przeglad Elektrotechniczny (Electrotechnical Review in Polish), No. 12a (2012), 6
- [23] Ahmed K. H., Finney S. J., Williams B. W., Passive Filter Design for Three-Phase Inverter Interfacing in Distributed Generation, Compatibility in Power Electronics proceedings of international conference in Gdansk, Poland, 2007, IEEE, 1-9
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-921cd5a8-b357-4407-a595-db98f3be1f7c