Performance investigation of the toroidal tuned liquid column dampers for the vibration control of offshore wind turbines using the real-time hybrid simulation method
The research project investigates the use of a toroidal liquid column damper (T-TLCD) for the vibration control of offshore wind turbines. Using real-time hybrid simulation, the interaction between the damper and the support structure is analyzed both experimentally and numerically. The aim is to develop a multidirectional damping system that effectively reduces wind, wave and earthquake excitations.
The project is being carried out as part of a tandem project in cooperation with researchers from Tsinghua University.
Publications
Publications related to this topic
Solving large numerical substructures in real‐time hybrid simulations using proper orthogonal decomposition
Solving large numerical substructures in real‐time hybrid simulations using proper orthogonal decomposition
Multiscale fluid-structure coupled real-time hybrid simulation of monopile wind turbines with vibration control devices
Multiscale fluid-structure coupled real-time hybrid simulation of monopile wind turbines with vibration control devices
Numerical analysis of passive toroidal tuned liquid column dampers for the vibration control of monopile wind turbines using FVM and FEM
Numerical analysis of passive toroidal tuned liquid column dampers for the vibration control of monopile wind turbines using FVM and FEM