Title :
2-D Analytical Prediction of Eddy Currents, Circuit Model Parameters, and Steady-State Performances in Solid Rotor Induction Motors
Author :
Boughrara, K. ; Dubas, F. ; Ibtiouen, R.
Author_Institution :
Lab. de l´Energie et des Syst. Intelligents, Univ. de Khemis-Miliana, Khemis-Miliana, Algeria
Abstract :
This paper presents a 2-D analytical method in the complex domain for the computation of magnetic field distribution, eddy currents, circuit model parameters, and steady-state performances in solid rotor induction motors. The proposed static analytical model considers stator slotting with tooth-tips. The rotor motion is simulated by varying the slip. The analytical magnetic field distribution is computed in polar coordinates from 2-D subdomain method (i.e., based on the formal resolution of Maxwell´s equations applied in subdomain) in each region, i.e., semiclosed stator slots, air gap, solid rotor, and shaft. The electromagnetic torque is obtained from both the electrical equivalent circuit and Maxwell stress tensor that is given by the magnetic field distribution. Analytical results are validated by the static finite-element method.
Keywords :
Maxwell equations; air gaps; eddy currents; equivalent circuits; finite element analysis; induction motors; magnetic fields; tensors; 2D analytical method; 2D analytical prediction; 2D subdomain method; Maxwell stress tensor; Maxwell´s equations; air gap; circuit model parameters; eddy currents; electrical equivalent circuit; electromagnetic torque; finite element method; magnetic field distribution; polar coordinates; rotor motion; semiclosed stator slots; solid rotor induction motors; static analytical model; stator slotting; Induction motors; Magnetic fields; Rotors; Shafts; Solids; Stators; Windings; Circuit model parameters; eddy currents; induction motors; slotted stator; subdomain method; tooth-tips;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2342666
