Fault ride-through capability of a DFIG in isolated grids employing DVR and supercapacitor energy storage

• FRT capability improvement of isolated DFIGs under symmetrical and asymmetrical faults.
• Implementation through the control of a DVR and a supercapacitor ESS.
• Supply high quality voltages to the “healthy” phases.
• Ride-through faults when operating in parallel with a synchronous generator.
• Support the voltage and frequency of the power system during the faults.

In order to utilize Doubly Fed Induction Generators (DFIGs) as primary power source in an isolated system, they should be able to regulate the voltage and frequency of the system as well as ride-through faults. This paper proposes a new control strategy for a DFIG operating in an isolated power system, accomplished by a Dynamic Voltage Restorer (DVR) and a Supercapacitor Energy Storage System (SCESS), in order to ride through symmetrical and asymmetrical faults. During faults, the DFIG continues to operate normally, while the active power mismatch is handled by the SCESS. In particular, during asymmetrical faults, the DFIG and the DVR are properly controlled in order to feed the non-faulty phases uninterruptedly. When integrated in a power system with conventional synchronous generators, the proposed control strategy improves the Fault Ride-Through (FRT) capability of a DFIG, while providing frequency and voltage support to the system throughout the fault duration. Thus, the transient stability of the power system is significantly improved. The effectiveness of the proposed control method under different fault conditions is verified by detailed simulation results.