A Sliding Surface Technique Incorporating Radial Basis Functions for Movement Simulation in 2-D Models of Rotating Machines

Konferenz: CEM 2006 - 6th International Conference on Computational Electromagnetics
04.04.2006 - 06.04.2006 in Aachen, Germany

Tagungsband: CEM 2006

Seiten: 2Sprache: EnglischTyp: PDF

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Jagiela, Mariusz (Technical University of Opole, Poland)
Bumby, Jim; Tavner, Peter (University of Durham, United Kingdom)

The paper presents an alternative approach to the well-known sliding surface technique by using radial basis functions as interpolants in a rotating machine air-gap. The proposed technique allows for easy handling of non-uniformly distributed nodes at the sliding interface. The method is shown to have general applicability to any kind of an electrical machine. It is observed that non-uniformly generated meshes reduce computational error due to mesh inconsistency, which appears when subdomains are coupled using first-order triangular elements in the region of a machine air-gap.