Add to ORKGUnder real sea conditions, floating vertical-axis tidal turbines experience motions in six degrees of freedom which influence the relative velocity perceived at the turbine's blades, with a direct effect on the loading and performance of the rotor. Understanding the fluid-structure interaction of a vertical-axis tidal turbine under the floating carrier’s motions provides insights about critical aspects for the design of floating hydrokinetic systems. In this project, the TU Delft in-house U2DiVA code is indicated as a conservative and time-effective tool to assess the hydrodynamic response of a vertical-axis tidal turbine under surge, sway and yaw motions compared to the computational fluid dynamics approach commonly used in the scientific ...
Wave induced motions due to actual sea state conditions will impact the performance of floating hori...
The unsteady hydrodynamic characteristics of vertical axis tidal turbine are investigated by numeric...
A rotor dynamic analysis is mandatory for stability and design optimization of submerged propellers ...
The drive to develop marine renewable energy is pushing new technology and has highlighted a gap in ...
Sustainable energy generation through renewable sources is a rapidly expanding industry within the e...
International audienceIn this article, we aim at providing results of fluid-structure interaction be...
International audienceIn this article, we aim at providing results of fluid-structure interaction be...
The present project aims to plunge into the multiphysics nature of a vertical axis tidal turbine. To...
Free stream tidal turbines are rotating bodies in fast flowing tidal currents, and as such are expos...
The commercial exploitation of kinetic energy from tidal current involves deploying multiple turbine...
Simulation of the hydrodynamic performance of a floating current turbine in a combined wave and flow...
Floating tidal turbines (FTT) are gaining popularity in the field of tidal energy these past few yea...
Fluid structure response of vertical axis tidal turbine blades using NACA 0012 and periodic inflow e...
Developing reliable tidal-energy turbines of a large size and capacity links to preservation of the ...
Tidal currents can be used as a predictable source of sustainable energy, and have the potential to ...
Wave induced motions due to actual sea state conditions will impact the performance of floating hori...
The unsteady hydrodynamic characteristics of vertical axis tidal turbine are investigated by numeric...
A rotor dynamic analysis is mandatory for stability and design optimization of submerged propellers ...
The drive to develop marine renewable energy is pushing new technology and has highlighted a gap in ...
Sustainable energy generation through renewable sources is a rapidly expanding industry within the e...
International audienceIn this article, we aim at providing results of fluid-structure interaction be...
International audienceIn this article, we aim at providing results of fluid-structure interaction be...
The present project aims to plunge into the multiphysics nature of a vertical axis tidal turbine. To...
Free stream tidal turbines are rotating bodies in fast flowing tidal currents, and as such are expos...
The commercial exploitation of kinetic energy from tidal current involves deploying multiple turbine...
Simulation of the hydrodynamic performance of a floating current turbine in a combined wave and flow...
Floating tidal turbines (FTT) are gaining popularity in the field of tidal energy these past few yea...
Fluid structure response of vertical axis tidal turbine blades using NACA 0012 and periodic inflow e...
Developing reliable tidal-energy turbines of a large size and capacity links to preservation of the ...
Tidal currents can be used as a predictable source of sustainable energy, and have the potential to ...
Wave induced motions due to actual sea state conditions will impact the performance of floating hori...
The unsteady hydrodynamic characteristics of vertical axis tidal turbine are investigated by numeric...
A rotor dynamic analysis is mandatory for stability and design optimization of submerged propellers ...