Offshore wind turbines (OWTs) are known to experience modal property and foundation tilt
changes during operation. These may negatively influence their serviceability and can lead …

Vibration damping in offshore wind turbines is a key parameter to predict reliably the
dynamic response and fatigue life of these systems. Damping in an offshore wind turbine …

Upscaling of traditional monopiles to support larger offshore wind turbines introduces fatigue-
related design challenges. The design becomes mainly driven by wave-induced fatigue …

Current utility-scale wind turbines are highly dynamic systems excited by a large variety of
loading sources. The proper operation of wind turbines thus requires a complete knowledge …

Reliable predictions of the lifetime of offshore wind turbine structures are influenced by the
limited knowledge concerning the inherent level of damping during downtime. Error …

The response from steep and breaking waves for a monopile structure is investigated by
analysis of experimental results and by application of numerical models for six irregular sea …

Offshore wind turbines can exhibit dynamic resonant behavior due to sea states with wave
excitation frequencies coinciding with the structural eigenfrequencies. In addition to …

Offshore wind turbines (OWT) are often supported on large-diameter monopiles and
subjected to cyclic loading such as wind and wave actions. The cyclic loading can lead to an …

The dynamic characteristics of offshore wind turbines are heavily affected by environmental
loads from wave and wind action and nonlinear soil behaviour. In the design of the monopile …

With the development of wind turbine manufacturing technology, the wind turbine rotor is
facing more design challenges for exposing to complex environmental conditions and …