Wind turbine direct-drive generator structures are analysed in order to optimise and reduce mass. A method for modelling key stiffness parameters including a magnetic air-gap stiffness is outlined. Different approaches are used to parametrically calculate structural stiffness and mass. Finite element and analytical techniques are used to model mode 0 and mode 1 deflections and these can be used along with parametric models of electromagnetically active material
Direct-drive generators for wind turbines are high torque, low speed machines which require a heavy ...
Direct-drive generators for wind turbines are high torque, low speed machines which require a heavy ...
This thesis focuses on permanent magnet "direct drive" electrical generators for wind turbines with...
Wind turbine direct-drive generator structures are analysed in order to optimise and reduce mass. A ...
Direct-drive generators are low speed electrical machines requiring robust and large supporting stru...
This thesis concentrates on direct drive electrical generators for wind energy applications. A varie...
Direct-drive permanent magnet generators for multi-MW wind turbines are low speed high torque electr...
Direct-drive permanent magnet generators for multi-MW wind turbines are low speed high torque electr...
This thesis concentrates on direct drive electrical generators for wind energy applications. A varie...
Reducing the structural mass of low speed multi-MW electrical machines for renewable energy purposes...
Abstract: One way to achieve increased wind capacity is by installing larger and more efficient wind...
Large and robust supporting structures are needed to keep the airgap clearance of direct-drive multi...
Direct-drive generators for wind turbines are high torque, low speed machines which require a heavy ...
Direct-drive generators for wind turbines are high torque, low speed machines which require a heavy ...
This thesis focuses on permanent magnet "direct drive" electrical generators for wind turbines with...
Wind turbine direct-drive generator structures are analysed in order to optimise and reduce mass. A ...
Direct-drive generators are low speed electrical machines requiring robust and large supporting stru...
This thesis concentrates on direct drive electrical generators for wind energy applications. A varie...
Direct-drive permanent magnet generators for multi-MW wind turbines are low speed high torque electr...
Direct-drive permanent magnet generators for multi-MW wind turbines are low speed high torque electr...
This thesis concentrates on direct drive electrical generators for wind energy applications. A varie...
Reducing the structural mass of low speed multi-MW electrical machines for renewable energy purposes...
Abstract: One way to achieve increased wind capacity is by installing larger and more efficient wind...
Large and robust supporting structures are needed to keep the airgap clearance of direct-drive multi...
Direct-drive generators for wind turbines are high torque, low speed machines which require a heavy ...
Direct-drive generators for wind turbines are high torque, low speed machines which require a heavy ...
This thesis focuses on permanent magnet "direct drive" electrical generators for wind turbines with...