Title :
Force calculation based on a local solution of Laplace´s equation
Author :
Nertens, R. ; Pahner, Uwe ; Hameyer, Kay ; Belmans, Ronnie ; De Weerdt, Robrecht
Author_Institution :
ESAT, Katholieke Univ., Leuven, Heverlee, Belgium
fDate :
3/1/1997 12:00:00 AM
Abstract :
The finite element method in two dimensions is a common technique to analyse electromagnetic devices. The co-ordinates is given as a series of circular harmonics of Maxwell stress method to calculate forces has an important role in this analysis. To obtain an acceptable accuracy of local field values, higher order elements are required yielding an increased computation time. A local solution of Laplace´s equation with the finite element solution as boundary conditions, promises a higher accuracy than the conventional method. The combination with lower order elements gives a good trade-off between accuracy and computation time. Two different methods are compared in the analysis of two applications. A typical example of a rotating machine with a small air gap, a squirrel cage induction machine, is discussed
Keywords :
Laplace equations; Maxwell equations; asynchronous machines; computational complexity; electric machines; electromagnetic devices; electromagnetic forces; finite element analysis; squirrel cage motors; 2D finite element method; Laplace´s equation; Maxwell stress method; boundary conditions; circular harmonics; computation time; electromagnetic devices; finite element solution; force calculation; higher order elements; local field values accuracy; local solution; lower order elements; rotating machines; squirrel cage induction machine; Finite element methods; Induction machines; Iron; Laplace equations; Magnetic fields; Magnetic flux; Magnetic flux density; Permanent magnets; Rotating machines; Torque;
Journal_Title :
Magnetics, IEEE Transactions on
