Houlsby, G.

Total results: 12
Title Author Date Sort ascending Type of Content Technology Collection Method Device
Tidal stream turbine power capping in a head-driven tidal channel Vogel, C., Willden, R., Houlsby, G. Journal Article Current, Tidal Modeling Array Effects, Control
Blade element momentum theory for a tidal turbine Vogel, C., Willden, R., Houlsby, G. Journal Article Current, Axial Flow Modeling Hydrodynamics, Performance, Structural
Power available from a depth-averaged simulation of a tidal turbine array Vogel, C., Willden, R., Houlsby, G. Journal Article Current, Tidal Lab Data Array Effects
The power available to tidal turbines in an open channel flow Houlsby, G., Vogel, C. Journal Article Current, Tidal Modeling Array Effects
Effect of free surface deformation on the extractable power of a finite width turbine array Vogel, C., Houlsby, G., Willden, R. Journal Article Current, Tidal Modeling Array Effects, Performance
A note on the power potential of tidal currents in channels Draper, S., Adcock, T., Borthwick, A. Journal Article Current Modeling Performance
Estimate of the tidal stream power resource of the Pentland Firth Draper, S., Adcock, T., Borthwick, A. Journal Article Current, Tidal Modeling Hydrodynamics, Performance
An electrical analogy for the Pentland Firth tidal stream power resource Draper, S., Adcock, T., Borthwick, A. Journal Article Current Modeling Hydrodynamics
Tidal stream energy resource assessment of the Anglesey Skerries Serhadlıoğlu, S., Adcock, T., Houlsby, G. Journal Article Current, Tidal Field Data, Modeling Array Effects, Hydrodynamics
The available power from tidal stream turbines in the Pentland Firth Adcock, T., Draper, S., Houlsby, G. Journal Article Current, Tidal Modeling Hydrodynamics
Energy potential of a tidal fence deployed near a coastal headland Draper, S., Borthwick, A., Houlsby, G. Journal Article Current Modeling Hydrodynamics
Modelling tidal energy extraction in a depth-averaged coastal domain Draper, S., Houlsby, G., Oldfield, M. Journal Article Current, Tidal Modeling Performance