Title :
Thermal analysis and comparison of permanent magnet motor and generator
Author :
Zhao, Nannan ; Zhu, Z.Q. ; Liu, Weiguo
Abstract :
In this paper, both analytical lumped-circuit method and finite element analysis are employed to predict the temperature rises of two identical prototype surface-mounted permanent magnet machines when they are back-to-back connected mechanically and used as a motor and a generator, respectively. The predicted results are validated by the experiment. The analysis reveals that the eddy current losses in magnets and sleeve cause higher temperature rise than that in the stator winding in both machines. The analytical lumped-circuit method takes much less time and the accuracy is even higher than the 2D finite element analysis with due account for the duty cycle, cooling effect, and interface gaps between components, although more detailed temperature distribution inside components can be obtained using the finite element analysis.
Keywords :
cooling; eddy current losses; finite element analysis; permanent magnet generators; permanent magnet motors; stators; temperature distribution; thermal analysis; 2D finite element analysis; analytical lumped-circuit method; back-to-back mechanically connected machine; cooling effect; duty cycle; eddy current losses; identical prototype surface-mounted permanent magnet machine; interface gaps; permanent magnet generator; permanent magnet motor; sleeve; stator winding; temperature distribution; temperature rise prediction; thermal analysis; Electromagnetic fields; Finite element methods; Loss measurement; Rotors; Temperature measurement; Thermal analysis; Thermal resistance;
Conference_Titel :
Electrical Machines and Systems (ICEMS), 2011 International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4577-1044-5
DOI :
10.1109/ICEMS.2011.6073482
