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• Wind_turbine_aerodynamics abstract "The primary application of wind turbines is to extract energy from the wind. Hence, the aerodynamics is a very important aspect of wind turbines. Like many machines, there are many different types all based on different energy extraction concepts. Similarly, the aerodynamics of one wind turbine to the next can be very different.Overall the details of the aerodynamics depend very much on the topology. There are still some fundamental concepts that apply to all turbines. Every topology has a maximum power for a given flow, and some topologies are better than others. The method used to extract power has a strong influence on this. In general all turbines can be grouped as being lift based, or drag based with the former being more efficient. The difference between these groups is the aerodynamic force that is used to extract the energy.The most common topology is the horizontal-axis wind turbine (HAWT). It is a lift based wind turbine with very good performance, accordingly it is a popular for commercial applications and much research has been applied to this turbine. In the latter part of the 20th century the Darrieus wind turbine was another popular lift based alternative but is rarely used today. The Savonius wind turbine is the most common drag type turbine, despite its low efficiency it is used because it is robust and simple to build and maintain.".
• Wind_turbine_aerodynamics thumbnail Wind_turbine_blades_in_laydown_yard_Pasco_2009.jpg?width=300.
• Wind_turbine_aerodynamics wikiPageID "20876989".
• Wind_turbine_aerodynamics wikiPageRevisionID "601120237".
• Wind_turbine_aerodynamics hasPhotoCollection Wind_turbine_aerodynamics.
• Wind_turbine_aerodynamics subject Category:Aerodynamics.
• Wind_turbine_aerodynamics subject Category:Wind_turbines.
• Wind_turbine_aerodynamics type Artifact100021939.
• Wind_turbine_aerodynamics type Device103183080.
• Wind_turbine_aerodynamics type Engine103287733.
• Wind_turbine_aerodynamics type HeatEngine103507963.
• Wind_turbine_aerodynamics type Instrumentality103575240.
• Wind_turbine_aerodynamics type Internal-combustionEngine103579982.
• Wind_turbine_aerodynamics type Machine103699975.
• Wind_turbine_aerodynamics type Motor103789946.
• Wind_turbine_aerodynamics type Object100002684.
• Wind_turbine_aerodynamics type PhysicalEntity100001930.
• Wind_turbine_aerodynamics type RotaryEngine104110654.
• Wind_turbine_aerodynamics type Turbine104498523.
• Wind_turbine_aerodynamics type Whole100003553.
• Wind_turbine_aerodynamics type WindTurbine104591517.
• Wind_turbine_aerodynamics type WindTurbines.
• Wind_turbine_aerodynamics comment "The primary application of wind turbines is to extract energy from the wind. Hence, the aerodynamics is a very important aspect of wind turbines. Like many machines, there are many different types all based on different energy extraction concepts. Similarly, the aerodynamics of one wind turbine to the next can be very different.Overall the details of the aerodynamics depend very much on the topology. There are still some fundamental concepts that apply to all turbines.".
• Wind_turbine_aerodynamics label "Wind turbine aerodynamics".
• Wind_turbine_aerodynamics sameAs m.0580l8j.
• Wind_turbine_aerodynamics sameAs Q8024053.
• Wind_turbine_aerodynamics sameAs Q8024053.
• Wind_turbine_aerodynamics sameAs Wind_turbine_aerodynamics.
• Wind_turbine_aerodynamics wasDerivedFrom Wind_turbine_aerodynamics?oldid=601120237.
• Wind_turbine_aerodynamics depiction Wind_turbine_blades_in_laydown_yard_Pasco_2009.jpg.
• Wind_turbine_aerodynamics isPrimaryTopicOf Wind_turbine_aerodynamics.