Title :
Predicting the torque of a switched reluctance machine from its finite element field solution
Author :
Moallem, M. ; Ong, C.M.
Author_Institution :
Sch. of Electr. Eng., Purdue Univ., West Lafayette, IN, USA
fDate :
12/1/1990 12:00:00 AM
Abstract :
The discretization errors that affect the accuracy of the calculated torque of a switched reluctance machine (SRM) from its finite-element solution are examined. A significant improvement in the accuracy of the computed flux density and torque fan be obtained with a reasonably fine mesh in the air gap by selecting properly shaped and uniform triangular elements. The computed torque/angle characteristic will be smooth and accurate when the proper mesh model is preserved as the rotor is rotated. A reasonably accurate value of the torque can be obtained from three different methods: the global virtual work method, the Maxwell stress-tensor method, and the Coulomb virtual work method. The computed torque/angle characteristics of a 4 kW SRM are generated from the three methods. The computed characteristics are checked against the measured torque/angle characteristics
Keywords :
finite element analysis; reluctance motors; torque; 4 kW; Coulomb virtual work method; Maxwell stress-tensor method; air gap; discretization errors; fine mesh; finite element field solution; flux density; global virtual work method; rotor; switched reluctance machine; torque; triangular elements; Convergence; Finite element methods; Lorentz covariance; Magnetic field measurement; Reluctance machines; Senior members; Shape measurement; Student members; Switches; Torque;
Journal_Title :
Energy Conversion, IEEE Transactions on
