Title :
Effect of Rotor Pole-Shoe Construction on Losses of Inverter-Fed Synchronous Motors
Author :
Rasilo, Paavo ; Belahcen, Anouar ; Arkkio, Antero
Author_Institution :
Dept. of Electr. Eng., Aalto Univ., Aalto, Finland
Abstract :
The effect of rotor pole-shoe construction on the electromagnetic losses of a 12.5-MW frequency-converter-fed wound-field synchronous motor is studied by numerical simulations. The simulations are done with the finite-element method including a dynamic model for the eddy-current, hysteresis, and excess losses in the core laminations. In the machine under examination, a reduction of 6.8% in the rated-load total electromagnetic losses was achieved merely by modifying the rotor pole-shoe shape and the damper-winding slots. Furthermore, a 15.4% reduction was achieved by removing the damper winding and changing the rotor lamination material to a 0.5-mm Fe-Si sheet instead of the original 2-mm steel sheet. Calorimetric measurements with a 150-kVA generator confirm the significant effect of the rotor lamination material under frequency-converter supply.
Keywords :
calorimetry; eddy current losses; finite element analysis; frequency convertors; hysteresis motors; invertors; rotors; steel; FeSi; FeSi sheet; apparent power 150 kVA; calorimetric measurements; core laminations; damper-winding slots; eddy current; electromagnetic losses; finite element method; frequency-converter supply; frequency-converter-fed; hysteresis; inverter-fed synchronous motors; numerical simulations; power 12.5 MW; rotor lamination material; rotor pole-shoe construction; rotor pole-shoe shape; steel sheet; wound-field synchronous motor; Footwear; Iron; Magnetic losses; Rotors; Synchronous motors; Windings; Finite-element (FE) methods; loss measurement; magnetic losses; synchronous motors; variable-speed drives (VSDs);
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2013.2266631
