The renewable energy sector witnesses increased demand due to energy crises and climate
change. Wind energy, in particular, is promising for reducing fossil fuel dependence and …

Floating offshore wind turbines (FOWTs) have complex dynamics problems and strong
coupling effects within their entire systems, and they are sensitive to winds and sea waves …

This study investigates the lateral vibration control efficiency of toroidal tuned liquid column
dampers (TTLCDs) for monopile supported offshore wind turbines. The TTLCD has the …

The passive tunned mass dampers (TMDs) can effectively mitigate vibrations of offshore
wind turbines (OWTs). However, most of the aforementioned literatures only focus on the …

The tuned inerter damper (TID) has recently emerged in the literature as a bona fide
resonant vibration absorber for the seismic protection of building structures by relaxing the …

This work explores the possibility of installing compliant liquid dampers-inerter (CLDI) on
monopile offshore wind turbines (OWTs) for controlling combined vibrations from wind …

Bi-directional vibrations of offshore wind turbine (OWT) exist due to the misalignment of wind
and wave loadings, which induces the structural fatigue failure. At present, monopile …

Slender and flexible offshore wind turbines (OWTs) are vulnerable to external dynamic
excitations, and passive tuned mass dampers (TMDs) have been widely used to control …

As slender structures, offshore wind turbines (OWTs) are prone to vibration and deformation
under wind and waves. Tuned mass dampers (TMDs) have become among the most …

Modern wind turbines are becoming taller and more slender to gather wind energy more
efficiently and are increasingly installed in complex environments. Consequently, the new …