J
Johan Gyselinck
Researcher at Université libre de Bruxelles
Publications - 273
Citations - 2778
Johan Gyselinck is an academic researcher from Université libre de Bruxelles. The author has contributed to research in topics: Finite element method & Eddy current. The author has an hindex of 24, co-authored 262 publications receiving 2440 citations. Previous affiliations of Johan Gyselinck include University of Liège & Ghent University.
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Journal ArticleDOI
Multiphysics NVH Modeling: Simulation of a Switched Reluctance Motor for an Electric Vehicle
Fabio Luis Marques dos Santos,Jan Anthonis,Francesco Naclerio,Johan Gyselinck,Herman Van der Auweraer,Luiz Carlos Sandoval Góes +5 more
TL;DR: This paper presents a multiphysics modeling of a switched reluctance motor (SRM) to simulate the acoustic radiation of the electrical machine using a 2-D finite-element model of the motor to simulate its magnetic properties and aMultiphysics mechatronic model ofThe motor and controls to simulate operating conditions.
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Calculation of eddy currents and associated losses in electrical steel laminations
TL;DR: In this paper, a method for directly including the laminated core energy dissipation in a time stepped 2D model of a complete (rotating) machine is proposed, by way of example the method is applied to a tooth model with enforced flux waveforms.
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A nonlinear time-domain homogenization technique for laminated iron cores in three-dimensional finite-element models
TL;DR: In this article, a nonlinear homogenization technique for laminated iron cores in 3D finite element models of electromagnetic devices is presented, which takes into account the eddy current effects in the stacked core without the need of modeling all laminations separately.
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Multi-slice FE modeling of electrical machines with skewed slots-the skew discretization error
TL;DR: In this article, the simulation of rotating electrical machines with skewed slots by means of a multi-slice FE model is studied, and particular attention is devoted to the ensuing skew discretization error.
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Frequency-domain homogenization of bundles of wires in 2-D magnetodynamic FE calculations
Johan Gyselinck,Patrick Dular +1 more
TL;DR: In this article, a general approach for the frequency-domain homogenization of multiturn windings in two-dimensional (2-D) finite element calculations is presented, where a skin and proximity effect characterization of the individual conductors, of arbitrary cross-section and packing, is obtained using a representative 2-D FE model.