Add to ORKGResearch within the Cardiff Marine Energy Research Group (CMERG) has considered the integrated mathematical modelling of Tidal Stream Turbines (TST). The modelling studies are briefly reviewed. This paper concentrates on the experimental validation testing of small TST models in a water flume facility. The dataset of results, and in particular the measured axial thrust signals are analysed via time-frequency methods. For the 0.5 m diameter TST the recorded angular velocity typically varies by ± 2.5 % during the 90 second test durations. Modelling results confirm the expectations for the thrust signal spectrums, for both optimum and deliberately offset blade results. A discussion of the need to consider operating conditions, condition monito...
AbstractThis study used computational fluid dynamics to investigate the effect of waves and a veloci...
The durability and reliability of tidal energy systems can be compromised by the harsh environments ...
Coupled blade element momentum-computational fluid dynamic (BEM-CFD) approaches have been extensivel...
Research within the Cardiff Marine Energy Research Group (CMERG) has considered the integrated math...
Tidal Stream Turbines are developing renewable energy devices, for which proof of concept commercial...
In order to better manage and maintain deployed Tidal Stream Turbine (TST) devices their response to...
This study used computational fluid dynamics to investigate the effect of waves and a velocity profi...
A comparison of a tidal turbine's performance and structural loads is conducted using lab-scale nume...
The potential of tidal stream turbines simulations on steady-state conditions by the use of a drive ...
This thesis makes a comparison of different station keeping structures to support tidal energy conve...
This paper details a Blade Element Momentum (BEM) model for a 3 bladed, horizontal axis Tidal Stream...
This study used computational fluid dynamics to investigate the effect of waves and a velocity profi...
This paper considers the performance of a horizontal axis tidal turbine, at two sites off the Welsh ...
AbstractThis study used computational fluid dynamics to investigate the effect of waves and a veloci...
The durability and reliability of tidal energy systems can be compromised by the harsh environments ...
Coupled blade element momentum-computational fluid dynamic (BEM-CFD) approaches have been extensivel...
Research within the Cardiff Marine Energy Research Group (CMERG) has considered the integrated math...
Tidal Stream Turbines are developing renewable energy devices, for which proof of concept commercial...
In order to better manage and maintain deployed Tidal Stream Turbine (TST) devices their response to...
This study used computational fluid dynamics to investigate the effect of waves and a velocity profi...
A comparison of a tidal turbine's performance and structural loads is conducted using lab-scale nume...
The potential of tidal stream turbines simulations on steady-state conditions by the use of a drive ...
This thesis makes a comparison of different station keeping structures to support tidal energy conve...
This paper details a Blade Element Momentum (BEM) model for a 3 bladed, horizontal axis Tidal Stream...
This study used computational fluid dynamics to investigate the effect of waves and a velocity profi...
This paper considers the performance of a horizontal axis tidal turbine, at two sites off the Welsh ...
AbstractThis study used computational fluid dynamics to investigate the effect of waves and a veloci...
The durability and reliability of tidal energy systems can be compromised by the harsh environments ...
Coupled blade element momentum-computational fluid dynamic (BEM-CFD) approaches have been extensivel...