Numeerisen analyysin ja laskennallisen tieteen seminaari

31.10.2005 klo 14.15 U356

D.Sc. Anouar Belahcen, Laboratory of Electromechanics

Numerical analysis of electrical machines: Field, forces and performances

The structure and different constructions of rotating electrical machines are explained. The working principle and the equations of magnetic and mechanical field are presented and developed into adequate form for FEM implementation. Different aspects related to the application of these equations to the analysis of rotating electrical machines are discussed. The problems related to the non-linearity of iron as well as these related to the coupling of magnetic field with mechanical and electrical fields are raised and presented. Some post-processing method to calculate the magnetic forces, torque and other quantities of importance are presented also.

Contents

Introduction
- Rotating electrical machines
- Structure and principle of operation
Field solution
- Maxwell equations
- FE method
- Type of elements
Performances
- Steady state
- Transient (time integration)
Forces and torque
- Magnetic forces
- magnetostriction
Challenges and needs