Investigation of the hydrodynamic interaction between marine atmospheric boundary layer and offshore wind farm using a high-order spectral method for nonlinear surface waves, a large-eddy simulation (LES) for wind turbulence, and an actuator line model for wind turbines
Analyzing the effects of floating platform motions such as pitch, surge, and heave motions on wind-wave-turbine interaction dynamics.
Clarifying the effects of strong downwind swells on the wind power production from offshore wind farm.
Capturing wake evolution and wake meandering of offshore wind farm.
Energy harvesting system utilizing the self-oscillating characteristics of an inverted flag.
Investigation of the hydrodynamic interaction between an inverted flag and its surrounding fluid by using an immersed boundary method (IBM).
Analyzing a hydrodynamic condition where an optimal energy is produced.