Initial results of an ongoing Navier-Stokes Computational Fluid Dynamics study of horizontal axis tidal current turbine hydrodynamics are presented. Part of the underlying motivation is assessing the effects of the Reynolds number on turbine performance and loads in steady flow conditions and unsteady regimes. The study aims at a) providing initial verification and validation of Navier-Stokes CFD for steady and unsteady tidal turbine flows over a wide range of Reynolds numbers, and b) estimating the dependence of turbine performance and loads on this parameter, so as to enable more reliable exploitation of low-Reynolds number tank measurements for field installation analysis and design. The investigation starts from a tidal current turbine ...
Tidal energy has clear potential in producing large amounts of energy as the world’s capacity exceed...
This is the final version. Available from MDPI via the DOI in this record.Tidal turbines are subject...
The results of a detailed experimental investigation of the near-wake (up to seven turbine diameters...
Until recently tidal stream turbine design has been carried out mainly by experimental prototype tes...
This paper presents the effect of idealised unsteady tidal velocities on the performance of a newly-...
Tidal stream turbines have generated significant research interests due to their major advantages ov...
A comparison of a tidal turbine's performance and structural loads is conducted using lab-scale nume...
Reliably predicting turbine/wake interactions in arrays of tidal stream turbines is paramount to red...
Uncertainty in tidal turbine loading contributes significantly to conservatism in turbine design. Th...
A three dimensional computational model of a full scale axial flow tidal turbine has been used to in...
Sustainable and cost effective design for tidal current turbines requires knowledge of the complex n...
Tidal stream turbines fixed on the seabed can harness the power of tides at locations where the bath...
Due to concerns about the impacts of carbon emissions on the environment, the security of supply of ...
The tidal turbine benchmarking project, funded by the UK's EPSRC and the Supergen ORE Hub, has condu...
The predictable nature of the tides offers a regular, reliable source of renewable energy that can b...
Tidal energy has clear potential in producing large amounts of energy as the world’s capacity exceed...
This is the final version. Available from MDPI via the DOI in this record.Tidal turbines are subject...
The results of a detailed experimental investigation of the near-wake (up to seven turbine diameters...
Until recently tidal stream turbine design has been carried out mainly by experimental prototype tes...
This paper presents the effect of idealised unsteady tidal velocities on the performance of a newly-...
Tidal stream turbines have generated significant research interests due to their major advantages ov...
A comparison of a tidal turbine's performance and structural loads is conducted using lab-scale nume...
Reliably predicting turbine/wake interactions in arrays of tidal stream turbines is paramount to red...
Uncertainty in tidal turbine loading contributes significantly to conservatism in turbine design. Th...
A three dimensional computational model of a full scale axial flow tidal turbine has been used to in...
Sustainable and cost effective design for tidal current turbines requires knowledge of the complex n...
Tidal stream turbines fixed on the seabed can harness the power of tides at locations where the bath...
Due to concerns about the impacts of carbon emissions on the environment, the security of supply of ...
The tidal turbine benchmarking project, funded by the UK's EPSRC and the Supergen ORE Hub, has condu...
The predictable nature of the tides offers a regular, reliable source of renewable energy that can b...
Tidal energy has clear potential in producing large amounts of energy as the world’s capacity exceed...
This is the final version. Available from MDPI via the DOI in this record.Tidal turbines are subject...
The results of a detailed experimental investigation of the near-wake (up to seven turbine diameters...