Title :
A low speed, high-torque, direct-drive permanent magnet generator for wind turbines
Author :
Wu, W. ; Ramsden, V.S. ; Crawford, T. ; Hill, G.
Author_Institution :
CSIRO Telecommun. & Ind. Phys., Lindfield, NSW, Australia
Abstract :
There is a market for small, efficient and cost-effective wind generators for mini-grid and remote power systems. Direct-drive permanent magnet generators have become very attractive for this application. This paper describes the improvements achieved in an outer-rotor direct-drive permanent magnet generator by using finite element analysis and optimisation techniques. The starting torque of the generator is studied. An optimisation routine for the design, including magnetic finite element analysis and lumped-parameter thermal model, is presented. A prototype for 20 kW, 211 rpm generator was built. The test results with a resistive load confirm the satisfactory operation of the generator. Compared with the previous prototype, the new design has lower mass, lower starting torque and improved efficiency
Keywords :
AC generators; finite element analysis; machine theory; optimisation; permanent magnet generators; rotors; starting; torque; wind turbines; 20 kW; direct-drive permanent magnet generator; efficiency improvement; finite element analysis; high-torque; low speed; lumped-parameter thermal model; magnetic finite element analysis; mini-grid power systems; optimisation techniques; outer-rotor direct-drive permanent magnet generator; remote power systems; resistive load; starting torque; wind turbines; Design optimization; Finite element methods; Magnetic analysis; Permanent magnets; Power generation; Power system analysis computing; Prototypes; Torque; Wind energy generation; Wind power generation;
Conference_Titel :
Industry Applications Conference, 2000. Conference Record of the 2000 IEEE
Conference_Location :
Rome
Print_ISBN :
0-7803-6401-5
DOI :
10.1109/IAS.2000.881049
