The effect of free surface deformation on the power extracted by a tidal turbine array partially spanning a wide channel is investigated using a theoretical model. Two predominant flow scales are assumed; turbine-scale flow, and array-scale flow, which are analysed as quasi-inviscid open channel flow problems in which conservation of mass, momentum, and energy are considered, and coupled through kinematic and dynamic boundary conditions. Power extraction may be maximised by determining the optimum inter-turbine spacing, which also enhances efficiency (ratio of power generated to power removed from the flow). Power extraction and efficiency increase as Froude number increases, improving open channel array performance. In the infinitely wide ...
Tidal stream energy presents challenges that will require the development of new engineering tools i...
The power available to a tidal stream turbine fence depends on the turbine resistance, the mass flux...
Tidal energy is a renewable and promising energy source. Turbines are deployed under water in marine...
The effect of free surface deformation on the power extracted by a tidal turbine array partially spa...
Linear momentum actuator disc theory (LMADT) is extended to address the power available to a tidal t...
Tidal stream energy has gained attention as a source of predictable and renewable energy. Devices r...
A new theoretical model is proposed to explore the efficiency of a long array of tidal turbines part...
In order to make the extraction of tidal current energy economically viable, the power production pe...
A theoretical model is proposed for a row of sub-arrays of tidal turbines aligned in a cross-stream ...
In this paper, idealised analytical and numerical models are used to explore the potential for local...
Tidal energy has the potential to generate sustainable electricity from tidal flows using arrays of ...
Tidal stream energy is a predictable source of renewable energy. Tidal stream turbines have been pro...
International audienceTidal turbines are located in shallow water depths in comparison to their dime...
An array of ten 1 MW turbines, with a one diameter inter-turbine spacing, is simulated in a hypothet...
A one-dimensional head driven channel flow model is used to investigate the characteristics of tidal...
Tidal stream energy presents challenges that will require the development of new engineering tools i...
The power available to a tidal stream turbine fence depends on the turbine resistance, the mass flux...
Tidal energy is a renewable and promising energy source. Turbines are deployed under water in marine...
The effect of free surface deformation on the power extracted by a tidal turbine array partially spa...
Linear momentum actuator disc theory (LMADT) is extended to address the power available to a tidal t...
Tidal stream energy has gained attention as a source of predictable and renewable energy. Devices r...
A new theoretical model is proposed to explore the efficiency of a long array of tidal turbines part...
In order to make the extraction of tidal current energy economically viable, the power production pe...
A theoretical model is proposed for a row of sub-arrays of tidal turbines aligned in a cross-stream ...
In this paper, idealised analytical and numerical models are used to explore the potential for local...
Tidal energy has the potential to generate sustainable electricity from tidal flows using arrays of ...
Tidal stream energy is a predictable source of renewable energy. Tidal stream turbines have been pro...
International audienceTidal turbines are located in shallow water depths in comparison to their dime...
An array of ten 1 MW turbines, with a one diameter inter-turbine spacing, is simulated in a hypothet...
A one-dimensional head driven channel flow model is used to investigate the characteristics of tidal...
Tidal stream energy presents challenges that will require the development of new engineering tools i...
The power available to a tidal stream turbine fence depends on the turbine resistance, the mass flux...
Tidal energy is a renewable and promising energy source. Turbines are deployed under water in marine...