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 …

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 …

Wind farm control using dynamic concepts is a research topic that is receiving an increasing
amount of interest. The main concept of this approach is that dynamic variations of the wind …

The objective of this paper is to compare field data from a scanning lidar mounted on a
turbine to control-oriented wind turbine wake models. The measurements were taken from …

Wind turbines are often sited together in wind farms as it is economically advantageous.
Controlling the flow within wind farms to reduce the fatigue loads, maximize energy …

Wind farms experience significant power losses due to wake interactions between turbines.
Research shows that wake steering can alleviate these losses by redirecting the flow …

In this paper, a model predictive control (MPC) is proposed for wind farms to minimize wake-
induced power losses. A constrained optimization problem is formulated to maximize the …

IEA Wind Task 32 exists to identify and mitigate barriers to the adoption of lidar for wind
energy applications. It leverages ongoing international research and development activities …

This article provides a comprehensive review of the most recent advances in the planning,
execution, and analysis of inflow and wake measurements from nacelle-mounted wind …

Wind turbines in a wind farm typically operate in the wake of other turbines, inevitably
leading to a power loss and enhanced structural degradation of turbines downstream …