A critical aspect of the 3D electromechanical analysis of rotating machinery is the treatment of motion. A powerful technique which can take advantage of the numerical characteristics of integral formulation is proposed. The motion can be “naturally” modelled because no mesh in the free space and, consequently, in the air gap is needed. In order to highlight the effectiveness and the general validity of the approach, the paper discusses a numerical example on the calculation of the Lorentz force waveforms in the armature end winding of a large turbine generator.

A novel technique to treat the motion in the analysis of electric machinery based on integral formulation

MARIGNETTI, Fabrizio;TAMBURRINO, Antonello;VENTRE, Salvatore
2011-01-01

Abstract

A critical aspect of the 3D electromechanical analysis of rotating machinery is the treatment of motion. A powerful technique which can take advantage of the numerical characteristics of integral formulation is proposed. The motion can be “naturally” modelled because no mesh in the free space and, consequently, in the air gap is needed. In order to highlight the effectiveness and the general validity of the approach, the paper discusses a numerical example on the calculation of the Lorentz force waveforms in the armature end winding of a large turbine generator.
2011
9784931455191
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11580/18340
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