The analytical solution of 2D electromagnetic wave equation for eddy currents in the cylindrical solid rotor structures

The analytical solution of 2D electromagnetic wave equation for eddy currents in the cylindrical solid rotor structures

The paper presents the closed-form solution of two dimensional (2D) electromagnetic wave equation for eddy current problems in cylindrical structures. The magnetic field calculation is a complex issue for electrical machines especially. The paper provides an analytical solution for solid cylindrical...

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Bibliographic Details
Main Authors: Lale T. Ergene, Yasemin D. Ertuğrul
Format: Article
Language:English
Published: JVE International 2017-08-01
Series:Journal of Vibroengineering
Subjects:
electromagnetic wave equation
diffusion equation
parabolic partial differential equations
eddy current
closed form solution
solid rotor
boundary conditions
Online Access:https://www.jvejournals.com/article/18257
Description
Summary:The paper presents the closed-form solution of two dimensional (2D) electromagnetic wave equation for eddy current problems in cylindrical structures. The magnetic field calculation is a complex issue for electrical machines especially. The paper provides an analytical solution for solid cylindrical structures with linear magnetization. This approach is extended to the electrical machines with the solid rotors. Multilayered cylindrical geometry is used for the solution. Two dimensional parabolic partial differential equation is solved for each layer. According to the analytical solution, eddy current and eddy current losses are calculated in the solid region and compared to the results of the finite element model.
ISSN:1392-8716
2538-8460

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