Title :
3D FEM analysis of a novel magnetic levitation system
Author :
Hasirci, Ugur ; Balikci, Abdul ; Zabar, Zivan ; Birenbaum, Leo
Author_Institution :
Electr. & Electron. Eng. Dept., Duzce Univ., Duzce, Turkey
Abstract :
This paper deals with the 3D FEM analysis of a novel magnetic levitation (maglev) train driven by an air-cored tubular linear induction motor. This new maglev system originates from Electromagnetic Launcher (EML) technology, especially the Linear Induction Launcher (LIL) type. Some 2D magnetic analyses based on current sheet model or transmission line approach for the LIL type launchers are available in the literature but this paper provides an alternative way to analyze LIL type of EMLs by using 3D Finite Element Method (FEM). The analysis examines into the variation of propulsion, levitation, and guidance forces induced in the moving part. It is expected that the possible results of this magnetic analysis will lead some new and important design considerations for the novel maglev system.
Keywords :
electric propulsion; electromagnetic launchers; finite element analysis; induction motors; linear motors; magnetic levitation; transmission lines; 2D magnetic analyses; 3D FEM analysis; 3D finite element method; LIL type launchers; LIL type of EML; air-cored tubular linear induction motor; electromagnetic launcher technology; guidance forces; linear induction launcher; maglev system; maglev train; magnetic analysis; magnetic levitation system; propulsion; sheet model; transmission line approach; Coils; Force; Induction motors; Magnetic levitation; Propulsion; Solid modeling; Three-dimensional displays;
Conference_Titel :
Electromagnetic Launch Technology (EML), 2014 17th International Symposium on
Conference_Location :
La Jolla, CA
DOI :
10.1109/EML.2014.6920677
