Ingeniería e Investigación (Sep 2008)

induction motor, unbalance, electrical loss, finite element method.

  • Camilo Andrés Cortés,
  • Wim Deprez,
  • Johan Driesen,
  • Jhon J. Pérez

Journal volume & issue
Vol. 28, no. 3
pp. 64 – 74

Abstract

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This paper shows the pattern of a 7.5 kW squirrel-cage induction motor’s electrical loss in balanced and unbalanced conditions, modelling the motor using the finite element method and comparing the results with experimental data obtained in the laboratory for the selected motor. Magnetic flux density variation was analysed at four places in the machine. The results so obtained sho- wed that the undervoltage unbalanced condition was the most critical from the motor’s total loss point of view. Regarding varia- tion of loss in parts of the motor, a constant iron loss pattern was found when the load was changed for each type of voltage supply and that the place where the loss had the largest rise was in the machine’s rotor.

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