Short-Circuit Current of Wind Turbines With Doubly Fed Induction Generator

The short-circuit current contribution of wind turbines has not received much attention so far. This paper considers the short-circuit behavior, especially the short-circuit current of wind turbines with a doubly fed induction generator. Mostly, these wind turbines have a crowbar to protect the power electronic converter that is connected to the rotor windings of the induction generator. First, the maximum value of the short-circuit current of a conventional induction machine is determined. The differences between a crowbar-protected doubly fed induction generator and a conventional induction generator are highlighted and approximate equations for the maximum short-circuit current of a doubly fed induction generator are determined. The values obtained in this way are compared to the values obtained from time domain simulations. The differences are less then 15%

[1]  Tao Sun Power Quality of Grid-Connected Wind Turbines with DFIG and Their Interaction with the Grid , 2004 .

[2]  A. Dittrich,et al.  Comparison of fault ride-through strategies for wind turbines with DFIM generators , 2005, 2005 European Conference on Power Electronics and Applications.

[3]  E. Muljadi,et al.  Making connections [wind generation facilities] , 2005, IEEE Power and Energy Magazine.

[4]  J.T.G. Pierik,et al.  Voltage dip ride-through control of direct-drive wind turbines , 2004, 39th International Universities Power Engineering Conference, 2004. UPEC 2004..

[5]  J. Morren,et al.  Ridethrough of wind turbines with doubly-fed induction generator during a voltage dip , 2005, IEEE Transactions on Energy Conversion.

[6]  Jonas Persson,et al.  Dynamic Response of Grid-Connected Wind Turbine with Doubly Fed Induction Generator during Disturbances , 2004 .

[7]  Jan Pierik,et al.  Grid Interaction of Offshore Wind Farms. Part 1. Models for Dynamic Simulation , 2005 .

[8]  Jan Pierik,et al.  Grid interaction of offshore wind farms. Part 2. Case study simulations , 2005 .

[9]  O. Anaya-Lara,et al.  Control of DFIG-based wind generation for power network support , 2005, IEEE Transactions on Power Systems.

[10]  G. C. Paap,et al.  The influence of voltage sags on the stability of 10 kV distribution networks with large-scale dispersed co-generation and wind generators , 2001 .

[11]  Kari Mäki,et al.  Effect of wind power based distributed generation on protection of distribution network , 2004 .