Wind farm control has been a topic of research for more than two decades. It has been
identified as a core component of grand challenges in wind energy science to support …

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

In wind farms, turbines are operated to maximize only their own power production. Individual
operation results in wake losses that reduce farm energy. Here we operate a wind turbine …

Global power production increasingly relies on wind farms to supply low-carbon energy. The
recent Intergovernmental Panel on Climate Change (IPCC) Special Report predicted that …

The wake effect is a major and complex problem in the wind power industry. Wake steering,
such as controlling yaw angles of wind turbines, is a proven approach to mitigate the wake …

This paper presents the state-of-the-art technologies and development trends of wind
turbine drivetrains–the system that converts kinetic energy of the wind to electrical energy–in …

Wake steering is a form of wind farm control in which turbines use yaw offsets to affect wakes
in order to yield an increase in total energy production. In this first phase of a study of wake …

Yaw control is one of the most promising active wake control strategies to maximize the total
power generation of wind farms. Meanwhile, structural performance needs to be considered …

The spatiotemporal flow field in a wind farm determines the wind turbines' energy production
and structural fatigue. However, it is not obtainable by the current measurement, modeling …

This article presents a review of control strategies for maximizing power production within
wind farms. Discussions focus on three notable concepts; power de-rating, yaw-based wake …