Add to ORKGTo fully understand the performance of tidal stream turbines for the creation of ocean ren wable energy, a range of computational models is required. We review and compare results from several models at different length scales. Models under review include blade element momentum theory (BEMT), blade element actuation disk RANS-CFD, blade- resolved RANS-CFD and coastal models based on the shallow water equations. Three sets of experimental results are used for model validation
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
To fully understand the performance of tidal stream turbines for the development of ocean renewable ...
To fully understand the performance of tidal stream turbines for the development of ocean renewable ...
This paper presents a method to obtain the pressure distribution across the surface of a tidal turbi...
The predictable nature of the tides offers a regular, reliable source of renewable energy that can b...
The downstream evolution of the wake generated by a rotating tidal energy conversion device influenc...
This paper details a Blade Element Momentum (BEM) model for a 3 bladed, horizontal axis Tidal Stream...
This paper details a Blade Element Momentum (BEM) model for a 3 bladed, horizontal axis Tidal Stream...
The predictable nature of the tides offers a regular, reliable source of renewable energy that can ...
This is the author accepted manuscript. The final version is available from the link in this record....
This paper investigates the accuracy of the Computational Fluid Dynamics (CFD) based Immersed Body F...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
Coupled blade element momentum-computational fluid dynamic (BEM-CFD) approaches have been extensivel...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
To fully understand the performance of tidal stream turbines for the development of ocean renewable ...
To fully understand the performance of tidal stream turbines for the development of ocean renewable ...
This paper presents a method to obtain the pressure distribution across the surface of a tidal turbi...
The predictable nature of the tides offers a regular, reliable source of renewable energy that can b...
The downstream evolution of the wake generated by a rotating tidal energy conversion device influenc...
This paper details a Blade Element Momentum (BEM) model for a 3 bladed, horizontal axis Tidal Stream...
This paper details a Blade Element Momentum (BEM) model for a 3 bladed, horizontal axis Tidal Stream...
The predictable nature of the tides offers a regular, reliable source of renewable energy that can ...
This is the author accepted manuscript. The final version is available from the link in this record....
This paper investigates the accuracy of the Computational Fluid Dynamics (CFD) based Immersed Body F...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
Coupled blade element momentum-computational fluid dynamic (BEM-CFD) approaches have been extensivel...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...
The non-uniformity and dynamics of the environment tidal stream turbines need to operate within will...