Add to ORKGThe icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without experimental tests and numerical simulations due to the lack of real data from the field. The high cost of wind tunnel testing, conducted to the necessity to develop a numerical approach that can accurately evaluate the energy losses for different configurations of wind turbine and weather conditions at lower cost and over a shorter period. PROICET is a numerical model to calculate the annual energy production of a wind turbine considering the icing events. This model can elsewhere quantify the energy losses induced by the ice
The wind power industry is one of the fastest-growing renewable energy industries in the world. Sinc...
The objective of this article is to review the methodologies used in the last 15 years to estimate t...
Wind turbine performance depends mainly on the wind speed and aerodynamics of blades. The roughness ...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
Atmospheric icing causes production losses to wind turbines, poses a risk of ice throw and increases...
Atmospheric icing causes production losses to wind turbines, poses a risk of ice throw and increases...
One of the main challenges associated with cold-climate wind energy is icing on wind turbines and a ...
AbstractOne of the main challenges associated with cold-climate wind energy is icing on wind turbine...
Wind farms in cold climates are known for their challenge’s with lowered performance due to icing on...
The wind power industry is one of the fastest-growing renewable energy industries in the world. Sinc...
The wind power industry is one of the fastest-growing renewable energy industries in the world. Sinc...
The wind power industry is one of the fastest-growing renewable energy industries in the world. Sinc...
The objective of this article is to review the methodologies used in the last 15 years to estimate t...
Wind turbine performance depends mainly on the wind speed and aerodynamics of blades. The roughness ...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
The icing causes energy losses for wind turbines. Impact of ice is difficult to quantify without exp...
Atmospheric icing causes production losses to wind turbines, poses a risk of ice throw and increases...
Atmospheric icing causes production losses to wind turbines, poses a risk of ice throw and increases...
One of the main challenges associated with cold-climate wind energy is icing on wind turbines and a ...
AbstractOne of the main challenges associated with cold-climate wind energy is icing on wind turbine...
Wind farms in cold climates are known for their challenge’s with lowered performance due to icing on...
The wind power industry is one of the fastest-growing renewable energy industries in the world. Sinc...
The wind power industry is one of the fastest-growing renewable energy industries in the world. Sinc...
The wind power industry is one of the fastest-growing renewable energy industries in the world. Sinc...
The objective of this article is to review the methodologies used in the last 15 years to estimate t...
Wind turbine performance depends mainly on the wind speed and aerodynamics of blades. The roughness ...