Summary: Two-scale actuator disc theory is shown to predict qualitatively the performance of a lateral array of tidal turbines in a depth-averaged channel model. The agreement between the numerical and analytical models is improved by extrapolating the numerical results to zero background roughness. Increasing background roughness is shown to reduce the optimal turbine spacing and increase the peak array power coefficient
An analysis is made of wind turbines in a row by means of an extension to actuator disk theory and a...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
In the planning of hydrokinetic turbine array deployment and for the performance prediction of its c...
Summary: Two-scale actuator disc theory is shown to predict qualitatively the performance of a later...
The challenge in the hydrodynamic modelling of tidal and marine turbine farms is to take into accou...
The characteristics of flow past a partial cross-stream array of (idealized) tidal turbines are inve...
Although wind and tidal turbines operate in turbulent shear flow, most theoretical results concernin...
In this paper, idealised analytical and numerical models are used to explore the potential for local...
The effects of blockage and wake mixing are fundamental but still unresolved problems in the aero/hy...
To date, only a few studies have examined the execution of the actuator disc approximation for a ful...
The power available to a tidal stream turbine fence depends on the turbine resistance, the mass flux...
Thesis (Ph.D.)--University of Washington, 2020The performance of a current turbine is influenced by ...
The actuator disc is a useful method for parameterising a tidal stream turbine in a solution of the ...
Numerical simulations are used to explore the potential for local blockage effects and dynamic tunin...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
An analysis is made of wind turbines in a row by means of an extension to actuator disk theory and a...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
In the planning of hydrokinetic turbine array deployment and for the performance prediction of its c...
Summary: Two-scale actuator disc theory is shown to predict qualitatively the performance of a later...
The challenge in the hydrodynamic modelling of tidal and marine turbine farms is to take into accou...
The characteristics of flow past a partial cross-stream array of (idealized) tidal turbines are inve...
Although wind and tidal turbines operate in turbulent shear flow, most theoretical results concernin...
In this paper, idealised analytical and numerical models are used to explore the potential for local...
The effects of blockage and wake mixing are fundamental but still unresolved problems in the aero/hy...
To date, only a few studies have examined the execution of the actuator disc approximation for a ful...
The power available to a tidal stream turbine fence depends on the turbine resistance, the mass flux...
Thesis (Ph.D.)--University of Washington, 2020The performance of a current turbine is influenced by ...
The actuator disc is a useful method for parameterising a tidal stream turbine in a solution of the ...
Numerical simulations are used to explore the potential for local blockage effects and dynamic tunin...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
An analysis is made of wind turbines in a row by means of an extension to actuator disk theory and a...
An embedded Reynolds-Averaged Navier-Stokes blade element actuator disk model is used to investigate...
In the planning of hydrokinetic turbine array deployment and for the performance prediction of its c...