A three-dimensional tidal turbine simulation based on an oceanographic numerical model has been tested for suspended sediment calculation, particularly in the wake of a standalone tidal turbine. The results suggest a need for further improvement of the model in order to obtain correct predictions of suspension strength of the wake and suspended sediment concentration under the influence of a turbine (compared to measured data). Due to the wide use of FVCOM in coastal applications where turbines are commonly installed, it proves necessary to address this issue. Two approaches with respect to modifying bed shear stress and turbulent mixing calculations in the presence of a turbine are proposed and tested in this research. Using data collected...
Tidal turbines are commonly deployed at sea sites with water depths of up to 50 m to ease their depl...
A number of sites around the UK are being considered for development of tidal stream energy, one of ...
A comparison of a tidal turbine's performance and structural loads is conducted using lab-scale nume...
A three-dimensional tidal turbine simulation based on an oceanographic numerical model has been test...
A tidal turbine simulation system is developed based on a three-dimensional oceanographic numerical ...
A high resolution Computational Flow Dynamics (CFD) numerical model is built based on a laboratory e...
© 2018 The Authors The need for hydrokinetic turbine wake characterisation and their environmental i...
A large-eddy simulation (LES) of a laboratory-scale horizontal axis tidal stream turbine operating o...
© 2017 International Association for Hydro-environment Engineering and Research, Asia Pacific Divisi...
Tidal stream energy is a low-carbon energy source. Tidal stream turbines operate in a turbulent envi...
This research aims to implement a threedimensional regional scale numerical model within a region of...
A large-eddy simulation (LES) of a laboratory-scale horizontal axis tidal stream turbine operating o...
We apply a three-dimensional hydrodynamic model to consider the potential effects of energy extracti...
Tidal devices are likely to faced with shear flows and subjected to various wave climates. The paper...
Tidal turbines are commonly deployed at sea sites with water depths of up to 50 m to ease their depl...
A number of sites around the UK are being considered for development of tidal stream energy, one of ...
A comparison of a tidal turbine's performance and structural loads is conducted using lab-scale nume...
A three-dimensional tidal turbine simulation based on an oceanographic numerical model has been test...
A tidal turbine simulation system is developed based on a three-dimensional oceanographic numerical ...
A high resolution Computational Flow Dynamics (CFD) numerical model is built based on a laboratory e...
© 2018 The Authors The need for hydrokinetic turbine wake characterisation and their environmental i...
A large-eddy simulation (LES) of a laboratory-scale horizontal axis tidal stream turbine operating o...
© 2017 International Association for Hydro-environment Engineering and Research, Asia Pacific Divisi...
Tidal stream energy is a low-carbon energy source. Tidal stream turbines operate in a turbulent envi...
This research aims to implement a threedimensional regional scale numerical model within a region of...
A large-eddy simulation (LES) of a laboratory-scale horizontal axis tidal stream turbine operating o...
We apply a three-dimensional hydrodynamic model to consider the potential effects of energy extracti...
Tidal devices are likely to faced with shear flows and subjected to various wave climates. The paper...
Tidal turbines are commonly deployed at sea sites with water depths of up to 50 m to ease their depl...
A number of sites around the UK are being considered for development of tidal stream energy, one of ...
A comparison of a tidal turbine's performance and structural loads is conducted using lab-scale nume...