The integration of wind energy systems into the electric grid has become inevitable despite
the many problems associated with this integration. Most of these problems are due to …

Wind speed variations affect the performance of the wind energy conversion systems
(WECSs) negatively. This paper addressed an advanced law of the backstepping controller …

The design of robust and precise control of obtaining maximum power yield is an important
area of research in wind engineering. In the context of maximizing the amount of power …

The current research compares a geothermal-driven combined cooling, heating, and power
generation cycle (B–CCHP) and a modified version using turbine bleeding and regeneration …

In this recent research article, intelligent nonlinear direct power control (DPC) was proposed
to ensure the good functioning of DFIGs during faults in the electrical distribution grid and to …

In this study, we address the optimization of the direct power control of a doubly fed
induction generator within a wind conversion system under actual wind conditions. The …

Power maximization and fatigue alleviation are essential for variable speed wind turbines
operating in partial load zone. It is within this framework that the present paper gives a …

This paper proposes a high-order sliding mode control strategy to improve the performance
of power decoupling control for double-fed induction generators (DFIG). Initially, the …

This research work focuses on addressing the challenges of controlling a wind energy
conversion system (WECS) connected to the grid, particularly when faced with variable wind …

Double-fed induction generator (DFIG) wind turbines connected to the grid are particularly
subject to grid problems such as voltage dips. Because of this, it might be challenging to …