In this article structural implementation and optimum performance of Vertical Axis Wind Turbine (VAWT) using magnetic levitation technology is articulated. With the positivity of customary VAWT, the surplus advantages like spinning at low wind-speed, higher efficiency, low noise emission, etc. are also quantified. The leading result ascending before traditional wind turbine can be demarcated as energy dissipation during rotation. By means of property of permanent magnet as an alternate of ball bearings, levitation of the turbine is anticipated with decline in damages while rotation and hence wind turbine blades are positioned on a shaft for attaining stability throughout rotation. Power is then generated with an axial flux generator, which incorporates the utilization of permanent magnets and set of coils.
On the structural implementation of magnetic levitation windmill
Siano, Pierluigi;
2017
Abstract
In this article structural implementation and optimum performance of Vertical Axis Wind Turbine (VAWT) using magnetic levitation technology is articulated. With the positivity of customary VAWT, the surplus advantages like spinning at low wind-speed, higher efficiency, low noise emission, etc. are also quantified. The leading result ascending before traditional wind turbine can be demarcated as energy dissipation during rotation. By means of property of permanent magnet as an alternate of ball bearings, levitation of the turbine is anticipated with decline in damages while rotation and hence wind turbine blades are positioned on a shaft for attaining stability throughout rotation. Power is then generated with an axial flux generator, which incorporates the utilization of permanent magnets and set of coils.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
