Talks and Poster Presentations (with Proceedings-Entry):
K. Hollaus:
"The Multiscale Finite Element Method in three dimensions to simulate the Eddy Current Problem in Laminated Iron Cores";
Talk: 18th International IGTE Symposium on Numerical Field Calculation and Electrical Engineering,
Graz;
2018-09-16
- 2018-09-19; in: "18th International IGTE Symposium on Numerical Field Calculation and Electrical Engineering",
C. Magele, O. Biró, D. Lowther, P. Alotto, A. Reinbacher-Köstinger (ed.);
18th International IGTE Symposium on Numerical Field Calculation and Electrical Engineering
(2018),
Paper ID 1,
53 pages.
English abstract:
Introduction to the Multiscale Finite Element Method MSFEM:
If we compare a Large scale (transformer core with overall dimensions) to a Fine scale (thickness of the laminate d and width of the air gap d 0)
The geometric dimensions are extremely different: two scales
The laminated core represents a quasi periodic structure with period p =
Outline
Introduction to the Multiscale Finite Element method MSFEM
Construction of a MSFEM-approach
Averaging of coefficients
MSFEM in 3 D
Time harmonic method and MSFEM in 3 D
High Order MSFEM in 3 D
Time Stepping and MSFEM in 3 D
Harmonic Balance MSFEM in 3 D
Costs of MSFEM in 3 D
2D/1D-MSFEM
2D/1D-MSFEM with MVP A
2D/1D-MSFEM with CVP T
Current Activities
MSFEM and Material Modeling
MSFEM and SMOR
Created from the Publication Database of the Vienna University of Technology.