Multiscale Finite Element Formulations for 2D/1D Problems
Multiscale finite element methods for 2D/1D problems have been studied in this work to demonstrate their excellent ability to solve the eddy current problem in a single iron sheet of electrical machines. We believe that these methods are much more efficient than conventional 3D finite element method...
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| Published in | IEEE transactions on energy conversion Vol. 39; no. 2; pp. 953 - 962 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.06.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0885-8969 1558-0059 1558-0059 |
| DOI | 10.1109/TEC.2023.3333530 |
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| Abstract | Multiscale finite element methods for 2D/1D problems have been studied in this work to demonstrate their excellent ability to solve the eddy current problem in a single iron sheet of electrical machines. We believe that these methods are much more efficient than conventional 3D finite element methods and just as accurate. The 2D/1D multiscale finite element methods are based on a magnetic vector potential or a current vector potential. Known currents for excitation can be replaced by the Biot-Savart-field. Boundary conditions allow to integrate planes of symmetry. All approaches consider eddy currents, an insulation layer and preserve the edge effect. A segment of a fictitious electrical machine has been studied to demonstrate all above options, the accuracy and the low computational costs of the 2D/1D multiscale finite element methods. Numerous simulations are presented. Direct and iterative solvers were investigated to reliably solve the system of equations from 2D/1D MSFEMs. |
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| AbstractList | Multiscale finite element methods for 2D/1D problems have been studied in this work to demonstrate their excellent ability to solve the eddy current problem in a single iron sheet of electrical machines. We believe that these methods are much more efficient than conventional 3D finite element methods and just as accurate. The 2D/1D multiscale finite element methods are based on a magnetic vector potential or a current vector potential. Known currents for excitation can be replaced by the Biot-Savart-field. Boundary conditions allow to integrate planes of symmetry. All approaches consider eddy currents, an insulation layer and preserve the edge effect. A segment of a fictitious electrical machine has been studied to demonstrate all above options, the accuracy and the low computational costs of the 2D/1D multiscale finite element methods. Numerous simulations are presented. Direct and iterative solvers were investigated to reliably solve the system of equations from 2D/1D MSFEMs. |
| Author | Schobinger, Markus Hollaus, Karl |
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| SubjectTerms | 2D/1D multiscale finite element method MSFEM Biot-Savart-field Boundary conditions direct solver Eddy currents Edge effect Finite element analysis Finite element method Insulation Iron iterative solver Magnetic vector potentials Mathematical models thin iron sheets Three-dimensional displays |
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| Title | Multiscale Finite Element Formulations for 2D/1D Problems |
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