A model predictive control strategy for enhancing fault ride through in PMSG wind turbines using SMES and improved GSC control

Abstract: Wind energy has emerged as a prominent player in the realm of renewable energy sources, both in terms of capacity and technological adaptability. Among the various renewable energy technologies, wind turbine generators stand out as the most widely employed. Recently, gearless permanent magnet synchronous generators have gained traction in the wind energy sector due to their appealing features, such as reduced maintenance costs and the elimination of gearboxes. Nevertheless, challenges remain, particularly conc… Show more

“…Reference (Abdelkader et al, 2023) combines Model Predictive Control (MPC) with Superconducting Magnetic Energy Storage (SMES) devices and improved wind power generation system grid-side inverter control to achieve overvoltage suppression during grid disturbances.…”

Analysis of the impact of transient overvoltage on grid-connected PMSG-based wind turbine systems

“…Reference (Abdelkader et al, 2023) combines Model Predictive Control (MPC) with Superconducting Magnetic Energy Storage (SMES) devices and improved wind power generation system grid-side inverter control to achieve overvoltage suppression during grid disturbances.…”

Analysis of the impact of transient overvoltage on grid-connected PMSG-based wind turbine systems

Double-pancake superconducting coil integrated with DFIG-based wind power systems under voltage-dip events: Design and performance analysis study

IoT based monitoring system for DFIG based wind turbines under voltage dips