Title :
Calculating the Forces Created by an Electrodynamic Wheel Using a 2-D Steady-State Finite-Element Method
Author :
Bird, Jonathan ; Lipo, Thomas A.
Author_Institution :
Wisconsin-Madison Univ., Madison
fDate :
3/1/2008 12:00:00 AM
Abstract :
We present a two-dimensional complex steady-state finite-element method for calculating the lift and thrust or breaking forces created when a magnetic rotor is translationally moved and rotated over a conducting sheet. The method replaces the magnetic rotor with an equivalent current sheet by equating the current sheet´s and magnet rotor´s magnetic vector potentials. We validate the steady-state method by comparing the forces with transient finite-element models. The utility of this steady-state model is that it enables a study of the effects of parameter changes for such a machine to be undertaken rapidly.
Keywords :
eddy currents; electrodynamics; finite element analysis; magnetic forces; magnetic levitation; rotors; 2D steady state finite element method; breaking forces; conducting sheet; current sheet; electrodynamic wheel; lift; magnetic rotor; magnetic vector potentials; thrust; Eddy currents; Halbach rotor; electromagnetic analysis; finite-element methods; maglev;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2007.913038
