Title :
Motor temperature estimation incorporating dynamic rotor impedance
Author :
Eltom, A.H. ; Moharari, N.S.
Author_Institution :
Tennessee Univ., Chattanooga, TN, USA
fDate :
3/1/1991 12:00:00 AM
Abstract :
The estimation of induction motor temperature at different system, motor, and load conditions is investigated. Motor temperature is estimated using comprehensive interactive electrical, thermal, and mechanical models. The electrical model accounts for the skin effect in the rotor bars and predicts the dynamic motor impedance as motor speed changes. The thermal model accounts for the heating and cooling process in the motor. The interactive model is used to study motor behavior during balanced system condition, unbalanced system condition, high inertia load, locked rotor, and overload situations. Motor temperature during these states is predicted. It is shown that under certain conditions motor starting time may exceed the locked rotor time. Rotor thermal limit curves during an unbalanced voltage condition are presented
Keywords :
electric impedance; induction motors; rotors; thermal analysis; balanced system condition; cooling; dynamic rotor impedance; electrical models; heating; high inertia load; induction motor temperature; interactive model; load conditions; locked rotor; mechanical models; overload situations; rotor thermal limit curves; skin effect; temperature estimation; thermal models; unbalanced system condition; Bars; Cooling; Heating; Impedance; Induction motors; Predictive models; Rotors; Skin effect; Temperature; Voltage;
Journal_Title :
Energy Conversion, IEEE Transactions on
