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

FAST. Farm is a midfidelity multiphysics engineering tool for predicting the power
performance and structural loads of wind turbines within a wind farm. FAST. Farm uses …

Previous research has revealed the need for a validation study that considers several wake
quantities and code types so that decisions on the trade‐off between accuracy and …

As more floating farms are being developed, the wake interaction between multiple floating
wind turbines (FWTs) is becoming increasingly relevant. FWTs have long natural periods in …

This paper systematically investigates the effects of six factors, namely wind shear, ambient
turbulence, wake meandering, wake-added turbulence, turbulence intensities, and wind …

The main objective of the presented work is the validation of the simulation tool FAST. Farm
for the calculation of power and structural loads in single wake situations; the basis for the …

FAST. Farm is a mid‐fidelity engineering tool developed by the National Renewable Energy
Laboratory targeted at accurately and efficiently predicting wind turbine power production …

Accurately predicting the evolution of wake is crucial for power output and structural load
estimation in wind farms. This study aims to validate the dynamic wake meandering (DWM) …

Current global analysis tools for floating wind turbines (FWTs) do not account for the
combined effects of atmospheric stability and wakes from neighboring turbines. This work …

Wake steering via deliberate yaw offset is an emerging wind farm control technique that has
the potential to mitigate wake losses and further increase wind farm energy yield. The loads …