Over the past decade, there has been rapid increase in the offshore wind turbine
installations. The future installations will see a progression from shallow to deep waters. It …

Wake effects within a wind farm are identified as one of the main factors impacting wind farm
power production and fatigue loading on wind turbines' structural elements. An efficient …

Fast and effective numerical models describing the effect of platform motion on the
performance of floating offshore wind turbines (FOWTs) are fundamental to assess energy …

The wake produced by a model wind turbine is investigated using proper orthogonal
decomposition (POD) of numerical data obtained by large eddy simulations at a diameter …

The wind turbines that operate in the wake region of the upstream turbines produce less
power and may suffer serious structural issues due to highly unsteady flows, which can …

When dealing with multirotor devices such as quadcopters or wind farms, the cost of blade-
resolved large-eddy simulation (LES) becomes prohibitive. Combining LES with a family of …

The growing number and growing size of wind energy projects coupled with the rapid
growth in high-performance computing technology are driving researchers toward …

Turbulent wake flows behind helical-and straight-bladed vertical axis wind turbines (VAWTs)
in boundary layer turbulence are numerically studied using the large-eddy simulation (LES) …

The actuator line method is implemented into a residual-based variational multiscale (VMS)
fluid modelling framework to simulate airflow around a wind turbine. In the actuator line …

Wind turbine parameterization models, which are often employed to avoid the computational
cost of resolving the blade aerodynamics, are critical for the capability of large-eddy …