Add to ORKGThis paper presents results from an experimental study which analysed the hydrodynamic response of the out-of-plane blade root bending moment for a horizontal-axis turbine exposed to multi-frequency oscillatory motion. Estimates of the amplitude and phase agree well with those for single frequency oscillatory motion, which suggests that a model based on the principles of linear superposition is applicable. When minor flow separation is experienced, linear superposition is likely to offer conservative estimates. The findings are likely to be of interest to designers of turbines deployed in tidal streams, rivers or canals, and who are seeking low computational approaches for assessing the dynamic blade loads
Tidal turbines encounter a range of unsteady flow conditions, some of which may induce severe load f...
Free stream tidal turbines are rotating bodies in fast flowing tidal currents, and as such are expos...
International audienceA study into the loading e ects of wave-current interactions on a blade sectio...
This paper presents results from an experimental study which analysed the hydrodynamic response of t...
Characterisation of the unsteady hydrodynamic loads is essential for accurate predictions of the fat...
This paper presents blade root bending moment measurements of a horizontal-axis tidal turbine for pl...
Sustainable and cost effective design for tidal current turbines requires knowledge of the complex n...
AbstractAn improved characterisation of the unsteady hydrodynamic loads on tidal turbine blades is n...
An improved characterisation of the unsteady hydrodynamic loads on tidal turbine blades is necessary...
The flow developed on a tidal site can be characterized by combinations of turbulence, shear flows, ...
Accurate assessment of the fatigue life of tidal stream turbines and components requires prediction ...
Tidal turbine arrays are planed to be installed in areas with strong currents where the flow can oft...
Initial results of an ongoing Navier-Stokes Computational Fluid Dynamics study of horizontal axis ti...
Until recently tidal stream turbine design has been carried out mainly by experimental prototype tes...
Tidal turbines encounter a range of unsteady flow conditions, some of which may induce severe load f...
Free stream tidal turbines are rotating bodies in fast flowing tidal currents, and as such are expos...
International audienceA study into the loading e ects of wave-current interactions on a blade sectio...
This paper presents results from an experimental study which analysed the hydrodynamic response of t...
Characterisation of the unsteady hydrodynamic loads is essential for accurate predictions of the fat...
This paper presents blade root bending moment measurements of a horizontal-axis tidal turbine for pl...
Sustainable and cost effective design for tidal current turbines requires knowledge of the complex n...
AbstractAn improved characterisation of the unsteady hydrodynamic loads on tidal turbine blades is n...
An improved characterisation of the unsteady hydrodynamic loads on tidal turbine blades is necessary...
The flow developed on a tidal site can be characterized by combinations of turbulence, shear flows, ...
Accurate assessment of the fatigue life of tidal stream turbines and components requires prediction ...
Tidal turbine arrays are planed to be installed in areas with strong currents where the flow can oft...
Initial results of an ongoing Navier-Stokes Computational Fluid Dynamics study of horizontal axis ti...
Until recently tidal stream turbine design has been carried out mainly by experimental prototype tes...
Tidal turbines encounter a range of unsteady flow conditions, some of which may induce severe load f...
Free stream tidal turbines are rotating bodies in fast flowing tidal currents, and as such are expos...
International audienceA study into the loading e ects of wave-current interactions on a blade sectio...