Title :
Use of Thermal Network on Determining the Temperature Distribution Inside Electric Motors in Steady-State and Dynamic Conditions
Author :
Yabiku, Renato ; Fialho, Rafael ; Teran, Luis ; Ramos, Marcílio E. ; Kawasaki, Nelson
Author_Institution :
GEVISA GE Motors, Campinas, Brazil
Abstract :
This paper outlines a set of useful calculations and design guidelines for motor temperature rise prediction. The steady-state analysis is presented, allowing a general view about the expected temperature rise in the stator winding. For transient conditions, the starting and stall phenomena are modeled considering the factors that are often neglected: the skin effect and the heat exchange from the bars to the tooth. The end ring temperature rise is assessed. The accurate temperature rise calculation is critical for several reasons: to control the peak temperature for hazardous locations, to predict the fatigue under the heating-up and cooling-down processes, to calculate the number of consecutive starts, and to establish a safe stall time.
Keywords :
electric motors; heat transfer; skin effect; stators; temperature distribution; transient analysis; cooling-down process; design guidelines; dynamic conditions; electric motors; end ring temperature rise; heat exchange; heating-up process; motor temperature rise prediction; skin effect; stator winding; steady-state condition; temperature distribution; temperature rise calculation; thermal network; transient conditions; Bars; Electric motors; Fatigue; Guidelines; Induction motors; Resistors; Rotors; Skin effect; Stator windings; Steady-state; Teeth; Temperature control; Temperature distribution; Thermal conductivity; Thermal resistance; Bar; cage; end ring; skin effect; stall; starting; temperature;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2010.2057398
