This paper describes a thorough thermal study on a fleet of DC traction motors which were found to suffer from overheating after 3 years of full operation. Overheating of these traction motors is attributed partly because of the higher than expected number of starts and stops between train terminals. Another probable cause of overheating is the design of the traction motor and/or its control strategy. According to the motor manufacturer, a current shunt is permanently connected across the motor field winding. Hence, some of the armature current is bypassed into the current shunt. The motor then runs above its rated speed in the field weakening mode. In this study, a finite difference model has been developed to simulate the temperature profile at different parts inside the traction motor. In order to validate the simulation result, an empty vehicle loaded with drums of water was also used to simulate the full pay-load of a light rail vehicle experimentally. The authors report that the simulation results agree reasonably well with experimental data, and it is likely that the armature of the traction motor will run cooler if its field shunt is disconnected at low speeds.
Thermal studies of d.c. traction motors
01.01.1998
6 pages
Aufsatz (Zeitschrift)
Englisch
finite difference methods , DC traction motors , machine windings , light rail vehicle , temperature profile , railways , temperature distribution , machine theory , thermal studies , thermal analysis , finite difference model , current shunt , DC motors , field weakening mode , control strategy , overheating , armature current , traction motors
Thermal studies of DC traction motors
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