Fault ride through capability of doubly-FED induction generator wind power generation system

With the increasing penetration of wind energy into power system, many countries' grid codes improve the requirements of wind turbines, and require for the capabilities of fault ride through and voltage support during grid faults. The control strategy of variable speed doubly fed induction generator (DFIG) during grid faults are presented, including crowbar protection, oscillation damping control, voltage support and reactive power boosting. Based on the simulation, the dynamic performance of DFIG wind turbines during 3-phase short-circuit fault are analyzed. With the control strategy, the converter is protected effectively, oscillation is damped significantly, grid voltage can be supported and reactive power can be boosted, which makes the DFIG wind turbines have better capability of fault ride through and improve the stability of power transmission system.