International audienceTidal turbines are located in shallow water depths in comparison to their dimensions (15 m-diameter turbines in 40 m depths, typically). Constrained vertically by the water depth and laterally by neighbouring turbines, the flow within a tidal farm is subjected to blockage effects that influence the performance of individual devices. The Betz limit (which is the maximum power extractable from an unconstrained flow) can, therefore, be exceeded as demonstrated by Garrett and Cummins. Thus, beyond a significant blockage ratio, blockage effects should be considered when assessing the energy production of a tidal farm. The actuator disk method is particularly suited to simulate the flow field within an array of turbines unde...
A series of works have been performed to better understand the effects of channel blockage on the p...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
Tidal current turbines have the potential to provide a proportion of global energy requirements. Ins...
In this paper, idealised analytical and numerical models are used to explore the potential for local...
International audienceAssessing the efficiency of a tidal turbine array is necessary for adequate de...
Tidal turbines permit to produce renewable electricity from tidal currents, especially in macro-tida...
Tidal stream energy presents challenges that will require the development of new engineering tools i...
An array of ten 1 MW turbines, with a one diameter inter-turbine spacing, is simulated in a hypothet...
Tidal stream energy has gained attention as a source of predictable and renewable energy. Devices r...
Linear momentum actuator disc theory (LMADT) is extended to address the power available to a tidal t...
In order to make the extraction of tidal current energy economically viable, the power production pe...
Numerical simulations are used to explore the potential for local blockage effects and dynamic tunin...
Tidal currents are a promising source of clean and renewable power in many locations worldwide. In ...
Tidal stream energy is a predictable source of renewable energy. Tidal stream turbines have been pro...
Tidal energy is now the subject of an extensive amount of research. Several studies have demonstrate...
A series of works have been performed to better understand the effects of channel blockage on the p...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
Tidal current turbines have the potential to provide a proportion of global energy requirements. Ins...
In this paper, idealised analytical and numerical models are used to explore the potential for local...
International audienceAssessing the efficiency of a tidal turbine array is necessary for adequate de...
Tidal turbines permit to produce renewable electricity from tidal currents, especially in macro-tida...
Tidal stream energy presents challenges that will require the development of new engineering tools i...
An array of ten 1 MW turbines, with a one diameter inter-turbine spacing, is simulated in a hypothet...
Tidal stream energy has gained attention as a source of predictable and renewable energy. Devices r...
Linear momentum actuator disc theory (LMADT) is extended to address the power available to a tidal t...
In order to make the extraction of tidal current energy economically viable, the power production pe...
Numerical simulations are used to explore the potential for local blockage effects and dynamic tunin...
Tidal currents are a promising source of clean and renewable power in many locations worldwide. In ...
Tidal stream energy is a predictable source of renewable energy. Tidal stream turbines have been pro...
Tidal energy is now the subject of an extensive amount of research. Several studies have demonstrate...
A series of works have been performed to better understand the effects of channel blockage on the p...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
Tidal current turbines have the potential to provide a proportion of global energy requirements. Ins...