A review of control methods of wind turbine systems with permanent magnet synchronous generator

• Autorzy: Gajewski P.

Warianty tytułu

PL

Przegląd metod sterowania systemów elektrowni wiatrowych z generatorem synchronicznym o magnesach trwałych

• Języki publikacji: EN

Abstrakty

EN

The paper presents a review of control methods of the wind energy conversion systems with permanent magnet synchronous generator. The modern vector control methods for converter system of variable-speed wind energy conversion have been described. In order to improve the energy efficiency of wind turbine, the maximum power point tracking algorithm has been applied. To verify the effectiveness of the considered configuration and its control strategy, the selected simulation studies have been performed. The obtained study results showed the high effectiveness of the considered configuration and its control methods.

PL

W artykule przedstawiono przegląd metod sterowania elektrowni wiatrowej z generatorem synchronicznym o magnesach trwałych. Opisano nowoczesne metody sterowania wektorowego dla przekształtnikowych układów elektrowni wiatrowych. W celu zwiększenia skuteczności przetwarzania energii wiatrowej zastosowano algorytm śledzenia mocy maksymalnej. W celu sprawdzenia skuteczności rozpatrywanej topologii i metody sterowania, wybrane badania symulacyjne zostały przedstawione i omówione. Przeprowadzone badania potwierdziły prawidłowość i dużą dokładność sterowania rozpatrywanej topologii i ich metod sterowania.

Słowa kluczowe

EN

wind energy; permanent magnet synchronous generator; power converter; simulation

PL

energia wiatrowa; generator synchroniczny PMSG; układ przekształtnikowy; badanie symulacyjne

• Wydawca: Wydawnictwo Politechniki Lubelskiej
• Czasopismo: Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska
• Rocznik: 2017
• Tom: T. 7, nr 4
• Strony: 32--37
• Opis fizyczny: Bibliogr. 17 poz., rys., tab.

Twórcy

autor

Gajewski P.

• Wroclaw University of Technology, Department of Electrical Machines, Drives and Measurements

Bibliografia

• [1] Errami Y., Maaroufi M., Ouassaid M.: Modeling and control strategy of PMSG based variable speed wind energy conversion system. International Conference on Multimedia Computing and Systems (ICMCS), 2010, 1–6.
• [2] Freitas T.R.R., Menegaz P.J.M., Simonetti D.S.L.: Converter topologies for permanent magnetic synchronous generator on wind energy conversion system. XI Brazilian Power Electronics Conference, Praiamar, 2011, 936–942.
• [3] Gajewski P., Pieńkowski K.: Control of a variable speed wind turbine system with PMSG generator. Maszyny Elektryczne - Zeszyty Problemowe 3/2015, 75–90.
• [4] Innoue Y., Morimoto S., Sanada M.: Control method for direct torque controlled PMSG in wind power generation system. IEEE International in Electric Machines and Drives Conference, IEMDC ’09, 2009, 1231–1238.
• [5] Kot R., Rolak M., Malinowski M.: Comparison of maximum peak power tracking algorithms for a small wind turbine. Mathematics and Computers in Simulation 91/2013, 29–40.
• [6] Malinowski M., Milczarek A., Kot R., Goryca Z., Szuster T.: Optimized energyconversion system for small wind turbines. Renewable Energy Sources in Modern Distributed Power Generation System, IEEE Power ElectronicsmMagazine 2(3)/2015, 16–30.
• [7] Malinowski M., Jasiński M., Kaźmierkowski M.P.: Simple direct power control of three-phase PWM rectifier using space-vector modulation (DPC-SVM). IEEE Transaction on Industrial Electronics 51(2)/2004, 447–454.
• [8] Muyeen S.M., Takahasi R., Murata T., Tamura J.: A variable speed wind turbine control strategy to meet wind farm grid code requirements. IEEE Transactions on Power Systems 25(1)/2010, 331–340.
• [9] Rizo M., Rodriguez A., Bueno E., Rodriquez F., Girón C.: Low voltage ridethrough of wind turbine based on interior permanent magnet synchronous generators sensorless vector controlled. IEEE Energy Conversion Congress and Exposition, Atlanta, GA, 2010, 2507–2514.
• [10] Rolak M., Kot R., Malinowski M., Goryca Z.: AC/DC converter with maximum power point tracking algorithm for complex solution of small wind turbine. Przegląd Elektrotechniczny 87(6)/2011, 91–96.
• [11] Sekhara R.: Space vector modulated direct torque control of IPMSM drive. International Advanced Research Journal in Science, Engineering and Technology 2(8)/2015, 45–49.
• [12] Slootweg J.G., Haan W.H., Polinder G., Kling W.L.: General model for representing variable speed wind turbines in power system dynamics simulations. IEEE Transactions on Power Systems 18(1)/2003, 144–151.
• [13] Sayeef S., Mendis N., Muttaqi K., Perera S.: Enhanced reactive power support of a PMSG based wind turbine for a remote area power system. 20th Australasian Universities Power Engineering Conference (AUPEC), 2010, 1–5.
• [14] Thongam J.S., Ouhrouche M.: MPPT control methods in wind energy conversion systems. Fundamental and Advance Topics in Wind Power, Dr. Rupp Carriveau (Ed.), InTech Europe, 2011, 339–361.
• [15] Wu B., Yongqiang L., Navid Z., Samir K.: Power conversion and control of wind energy. John Wiley & Sons, INP., Publication 2011.
• [16] Zhang J., Cheng M., Chen Z., Fu X.: Pitch angle control for variable speed wind turbines. Third International Conference on Electric Utility Deregulation and Restructuring and Power Technologies, DRPT, 2008, 2691–2696.
• [17] Zhao Y., Wei Ch., Zhang Z., Qiao W.: A review on position/speed sensorless control for permanent-magnet synchronous machine-based wind energy conversion systems. IEEE Journal of Emerging and Selected Topics in Power Electronics 1(4)/2013, 203–216.