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 wake management of offshore wind farms (OWFs) mainly considers the wake effect.
Wake effects commonly occur in offshore wind farms, which cause a 5–10% reduction in …

Wake interactions between wind turbines have a great impact on the overall performance of
a wind farm. In this work, a novel deep learning method, called Bilateral Convolutional …

Given the depletion of shallow water wind energy resources and maturity of Floating
Offshore Wind Turbine (FOWT), offshore wind technology is shifting from bottom fixed to …

The wake in a large-scale Floating Offshore Wind Farm (FOWF) can reduce the wind speed
in downstream areas, thereby affecting and reducing the power production of FOWF. To …

This paper proposes a method to optimize the layout design of floating offshore wind farms
(FOWFs), in order to maximize the energy efficiency over a year. It is assumed that each …

Offshore wind energy is getting increasing attention as a clean alternative to the currently
scarce fossil fuels mainly used in Europe's electricity supply. The further development and …

Wake losses inside a wind farm occur due to the aerodynamic interactions when a
downwind turbine is in the wake of upwind turbines. The ability of floating offshore wind …

This paper introduces a dynamic parametric wind farm model that is capable of simulating
floating wind turbine platform motion coupled with wake transport under time-varying wind …

In recent years, a major focus on wind farm wake control is to maximise the production of
wind farms. To improve the power generation efficiency of wind farms through wake …