Turkish Journal of Electromechanics & Energy

The paper presents a novel variable structure coordinated controller for a brushless doubly fed induction generator (BDFG) to improve its dynamic performance. The system under study consists of a BDFG driven variable speed wind turbine. The machine model in d-q power winding (PW) synchronously rotating reference frame is formulated in Matlab/Simulink. The new vector control algorithm which contains two control paths was then developed. The first path controls the active power of the power winding and the other controls its reactive power. The dynamic performance of the BDFG with the new controller has been tested when the overall system is subjected to a various patterns of wind speed. Also the transient and dynamic response is tested under sudden short circuit and open circuit at the generator bus. The digital simulation results showed that the new vector controller improved the dynamic performance of the overall system.

A. D. Hansen, F. I. Poul, and F. Blaabjerg, Overall control strategy of variable speed doubly-fed induction generator wind turbine, Nordic wind power conference, 1-2 March, Chalmers University of Technology, (2004).

R. Pena, J. C. Clar, and G. M. Asher, Doubly fed induction generator using back-to-back PWM converters and its application to variable speed, IEEE Proc. Electr. Power Appl., 143(5), 380-387, (1996).

K. Protsenko, and D. Xu, Modeling and control of brushless doubly-fed induction generators in wind energy applications, IEEE Trans. Power Electronics, 23(3), 1191-1197, (2008).

M. S. Boger, A. K. Wallace, R. Spee, and R. Li, General pole number model of the brushless doubly-fed machine, IEEE Trans. Ind. Appl., 31(5), 1022-1028, (1995).

W. R. Brassfield, R. Spee, and T.G. Habetler, Direct torque control for brushless doubly-fed machines, IEEE Trans. Ind. Appl., 32(5), 1098-1104, (1996).

J. Poza, E. Oyarbide, and D. Roye, New vector control algorithm for brushless doubly-fed machines, Proc. IEEE IECON Conf., Seville, Spain, Vol:2, 1138-1143, November (2002).

S. O. Madbouly, H. F. Soliman, and A. M. Sharaf, A new coordinated inter-coupled vector control of brushless doubly fed wind driven induction generator, IJPEGT Journal, Issue 2, (2011).

A. M. Sharaf, W. Wang, and I. H. Altaş, A novel modulated power filter compensator for distribution networks with distributed wind energy, Int. J. Emerg. Electr. Power Syst., 8(3), 1–20, (2007).

M. E. Şahin, A. M. Sharaf, and H. İ. Okumuş, A novel filter compensation scheme for single phase-self-excited induction generator micro wind generation system, Sci. Res. Essays, 7(34),3058–72, (2012).

J.G. Slootweg, H. Polinder, and W.L. Kling, Representing wind turbine electrical generating systems in fundamental frequency simulations, IEEE Trans. Energy Conversion, 18(4), 516-524, December (2003).

A. Perdana, O. Carlson, and J. Persson, Dynamic response of grid connected wind turbine with Doubly Fed Induction Generator during disturbances, Nordic Workshop on Power and Industrial Electronics, Trondheim, Norway, (2004).

S. Heier, Grid integration of wind energy conversion systems, John Wiley & Sons Ltd, (1998).

Wind Turbine, Implement model of variable pitch wind turbine Matlab/Simulink, website: www.mathworks.com, (2016).

R. Li, A. Wallace, R.Spee, and Y. Wang,Two-Axis model development of cage-rotor brushless doubly-fed machines, IEEE Trans. Energy Conversion, 6(3), 453-460, September, (1991).

J. Poza, E. Oyarbide, D. Roye, and M. Rodriguez, Unified reference frame d-q model of the brushless doubly fed machine, IEEE Proc. Electr. Power Appl., 153(5), 726-734, September, (2006).

R. Carlson, H. Voltolini, F. Runcos, P. Kuo-Peng, and N. J. Batistela, Performance analysis with power factor compensation of a 75 kw brushless doubly fed induction generator prototype, Proc. IEEE IEMDC Conf., Antalya, Turkey, vol.2, 1502-1507, May, (2007).

D. Basic, J. G. Zhu, G. Boardman, Transient performance study of a brushless doubly fed twin stator induction generator, IEEE Trans. Energy Conversion, 18(3), 400-408, September (2003).