With the increasing demand for clean and renewable energy, offshore wind turbines are
growing in size and are being positioned closer to deep waters. This trend presents …

With the increase in wind turbine sizes, careful investigation into wind turbine wake effect is
crucial for operational safety. This study proposes a two-way fluid-structure interaction (FSI) …

As wind turbine blades become longer and more flexible, aerodynamic characteristics
become increasingly complex and require complete investigations. In this study, a two-way …

The aeroelastic stability of highly flexible blades under complex sea conditions is one of the
key issues restricting the reliability and efficiency growth of offshore wind turbines. This work …

Turbulent flow and boundary-layer (BL) characteristics over cylindrical obstacles have been
understudied compared to the flow dynamics around cubic roughness in the urban BL …

With the increasing size of wind turbines, the aeroelastic phenomenon plays an essential
role in the safety of wind turbines. A fluid-structure interaction (FSI) analysis for wind turbine …

With the trend towards larger and lighter designs of wind turbines, blades are progressively
being developed to have longer and more flexible configurations. Under standstill …

As global energy demands rise and the urgent need to reduce carbon emissions, offshore
wind energy technology has evolved rapidly, becoming a vital component of the world's …

This work offers a review of techniques related to flexible robotic manipulator (FRM)
systems. Our review is divided into two parts. The first part presents the background of …

A new coupled aero-servo-elastic method is developed to model unsteady loads and wakes
of Floating Offshore Wind Turbines (FOWTs) with elastic blades, in which rotor speed control …