In this paper, idealised analytical and numerical models are used to explore the potential for local blockage effects to enhance the performance of turbines in tidal channels. Arrays of turbines modelled using the volume-flux-constrained actuator disc and blade element momentum theories are embedded within one-dimensional analytical and two-dimensional numerical channel domains. The effects of local blockage on the performance of arrays comprising one and five rows of actuator discs and tidal rotors operating in steady and oscillatory channel flow are then examined. In the case of steady flow, numerical results are found to agree very well with the two-scale actuator disc theory of Nishino & Willden [1]. In the case of oscillatory flow,...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
The effect of free surface deformation on the power extracted by a tidal turbine array partially spa...
Three-dimensional incompressible Reynolds-averaged Navier-Stokes (RANS) computations are performed f...
Numerical simulations are used to explore the potential for local blockage effects and dynamic tunin...
International audienceTidal turbines are located in shallow water depths in comparison to their dime...
In order to make the extraction of tidal current energy economically viable, the power production pe...
Tidal stream energy presents challenges that will require the development of new engineering tools i...
Linear momentum actuator disc theory (LMADT) is extended to address the power available to a tidal t...
A new theoretical model is proposed to explore the efficiency of a long array of tidal turbines part...
A series of works have been performed to better understand the effects of channel blockage on the p...
Tidal stream energy has gained attention as a source of predictable and renewable energy. Devices r...
The performance-enhancing effects of closely packing tidal turbines in single row arrays (tidal fenc...
Theoretical models suggest that in order to maximise their collective power out put, tidal turbines ...
Tidal energy is now the subject of an extensive amount of research. Several studies have demonstrate...
Tidal stream energy is a predictable source of renewable energy. Tidal stream turbines have been pro...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
The effect of free surface deformation on the power extracted by a tidal turbine array partially spa...
Three-dimensional incompressible Reynolds-averaged Navier-Stokes (RANS) computations are performed f...
Numerical simulations are used to explore the potential for local blockage effects and dynamic tunin...
International audienceTidal turbines are located in shallow water depths in comparison to their dime...
In order to make the extraction of tidal current energy economically viable, the power production pe...
Tidal stream energy presents challenges that will require the development of new engineering tools i...
Linear momentum actuator disc theory (LMADT) is extended to address the power available to a tidal t...
A new theoretical model is proposed to explore the efficiency of a long array of tidal turbines part...
A series of works have been performed to better understand the effects of channel blockage on the p...
Tidal stream energy has gained attention as a source of predictable and renewable energy. Devices r...
The performance-enhancing effects of closely packing tidal turbines in single row arrays (tidal fenc...
Theoretical models suggest that in order to maximise their collective power out put, tidal turbines ...
Tidal energy is now the subject of an extensive amount of research. Several studies have demonstrate...
Tidal stream energy is a predictable source of renewable energy. Tidal stream turbines have been pro...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
The effect of free surface deformation on the power extracted by a tidal turbine array partially spa...
Three-dimensional incompressible Reynolds-averaged Navier-Stokes (RANS) computations are performed f...