© 2017 Elsevier Ltd As part of the Terawatt project, two regional-scale hydrodynamic models of the Pentland Firth & Orkney waters were developed using unaltered commercially-available software (MIKE 3 and Delft3D), in order to investigate the suitability of such software for predicting the effects of tidal stream energy development. Realistic scenarios for tidal energy extraction were implemented in each, and the predictions of the models with and without turbines compared. Similar predictions were made of depth-averaged current speed (spatial correlation of R2=0.95), but bed stress in one model was more than double that in the other due to the use of different values for bed resistance. The effects of energy extraction are consistent betwe...
Tidal currents provide a significant energy source in many locations worldwide, particularly at coa...
A number of sites around the UK are being considered for development of tidal stream energy, one of ...
Tidal stream generators extract kinetic energy from tidal flows and convert it to electricity. Such ...
© 2017 Elsevier Ltd As part of the Terawatt project, two regional-scale hydrodynamic models of the P...
Regional-scale numerical hydrodynamic modelling is increasing in importance for estimating the tida...
The Pentland Firth (UK) is a channel between Scotland’s mainland and the Orkney Islands which has hi...
Tidal stream power generation offers the prospect of predictable, low-CO2 power at a number of locat...
The high tidal stream resource in the Pentland Firth (Scotland, UK) has encouraged the development o...
Tidal stream energy is a reliable and predictable low-carbon energy source. Over the next few years ...
The development on tidal turbine technology is ongoing with focus on several aspects, including hydr...
Tidal current turbines have the potential to provide a proportion of global energy requirements. Ins...
Flow turbulence stands out as one of the main issues that must be addressed for tidal stream energy ...
Banks Strait, Australia has been identified as highly promising for tidal turbine deployments. To as...
In the last decade, there has been a resurgence of interest in tidal power as a renewable, and envir...
This research aims to implement a threedimensional regional scale numerical model within a region of...
Tidal currents provide a significant energy source in many locations worldwide, particularly at coa...
A number of sites around the UK are being considered for development of tidal stream energy, one of ...
Tidal stream generators extract kinetic energy from tidal flows and convert it to electricity. Such ...
© 2017 Elsevier Ltd As part of the Terawatt project, two regional-scale hydrodynamic models of the P...
Regional-scale numerical hydrodynamic modelling is increasing in importance for estimating the tida...
The Pentland Firth (UK) is a channel between Scotland’s mainland and the Orkney Islands which has hi...
Tidal stream power generation offers the prospect of predictable, low-CO2 power at a number of locat...
The high tidal stream resource in the Pentland Firth (Scotland, UK) has encouraged the development o...
Tidal stream energy is a reliable and predictable low-carbon energy source. Over the next few years ...
The development on tidal turbine technology is ongoing with focus on several aspects, including hydr...
Tidal current turbines have the potential to provide a proportion of global energy requirements. Ins...
Flow turbulence stands out as one of the main issues that must be addressed for tidal stream energy ...
Banks Strait, Australia has been identified as highly promising for tidal turbine deployments. To as...
In the last decade, there has been a resurgence of interest in tidal power as a renewable, and envir...
This research aims to implement a threedimensional regional scale numerical model within a region of...
Tidal currents provide a significant energy source in many locations worldwide, particularly at coa...
A number of sites around the UK are being considered for development of tidal stream energy, one of ...
Tidal stream generators extract kinetic energy from tidal flows and convert it to electricity. Such ...