Wind energy is foundational for achieving 100% renewable electricity production, and
significant innovation is required as the grid expands and accommodates hybrid plant …

Wind farm control design is a recently new area of research that has rapidly become a key
enabler for the development of large wind farm projects and their safe and efficient …

Wind farm (WF) controllers adjust the control settings of individual turbines to enhance the
total performance of a wind farm. Most WF controllers proposed in the literature assume a …

Wake models play an integral role in wind farm layout optimization and operations where
associated design and control decisions are only as good as the underlying wake model …

The dynamics of the turbulent atmospheric boundary layer play a fundamental role in wind
farm energy production, governing the velocity field that enters the farm as well as the …

Continued focus on reducing carbon emissions and improving energy efficiency requires
buildings to become grid-interactive and not just behave as static consumers. A distributed …

Active power control for wind farms is needed to provide ancillary services. One of these
services is to track a power reference signal with a wind farm by dynamically de-and …

This paper presents a graph‐based dynamic yaw model to predict the dynamic response of
the hub‐height velocities and the power of a wind farm to a change in yaw. The model builds …

This article aims to address the wind-farm power tracking problem, which requires the farm's
total power generation to track time-varying power references and, therefore, allows the …

Turbulent wakes trailing utility-scale wind turbines reduce the power production and
efficiency of downstream turbines. Thorough understanding and modeling of these wakes is …