Indirect Vector-Controlled Brushless Doubly-Fed Twin-Stator Induction Generator for Wind Energy Conversion Application

Abstract: Wind energy conversion systems (WECSs) seem certain to play a major part in the world’s energy future due to their known high power capacity. The maximum power tracking is unavoidable due to the wind velocity variation and the non-linear relation with the turbine mechanical power. Commercial wind turbines are commonly coupled to either doubly-fed induction generators (DFIGs), wound rotor synchronous generators (WRSG) or permanent magnet synchronous generators (PMSGs). The DFIG-based WECS has several advantages… Show more

“…This is considering a complementary attempt to test the validity and efficiency of BDSWRG to Ride Through asymmetric disturbance, after their marked efficiency to ride through the symmetric drop voltages [21]. While the superiority of the control algorithm has been derived to prevent power line outage through this short-term fault between grid-generator, by compensating suitable reactive power and dispensing the common crowbar circuits [22]. The reactive power compensating to the grid is one of the low voltage ridethrough (LVRTH) requirements to avoid the drop-in voltage through fault occurrence [23].…”

Intensifications reactive power during of asymmetric network outages in dual-stator winding generators

“…This is considering a complementary attempt to test the validity and efficiency of BDSWRG to Ride Through asymmetric disturbance, after their marked efficiency to ride through the symmetric drop voltages [21]. While the superiority of the control algorithm has been derived to prevent power line outage through this short-term fault between grid-generator, by compensating suitable reactive power and dispensing the common crowbar circuits [22]. The reactive power compensating to the grid is one of the low voltage ridethrough (LVRTH) requirements to avoid the drop-in voltage through fault occurrence [23].…”

Intensifications reactive power during of asymmetric network outages in dual-stator winding generators

Doubly-Fed Induction Generator (DFIG) in Connected or Weak Grids for Turbine-Based Wind Energy Conversion System