ID: 197
/ PD-M1: 1
Topics: Static and Quasi-Static Fields, Mathematical Modelling and Formulations, Multi-Scale Modelling and HomogenizationKeywords: Eddy current losses, integral equation formulation, equivalent permeability.
Computation of Eddy Current Losses in Reinforced Concrete Blocks Protecting Underground AC Cables
Luca Di Rienzo1, Carlo de Falco2, Luca Buono3, Francesco Palone3, Roberto Spezie3
1Dipartimento di Elettronica, Informazione e Bioingegneria, Politecnico di Milano, Italy; 2MOX, Dipartimento di Matematica, Politecnico di Milano, Milano, Italy; 3Terna Rete Italia SpA - Engineering dept. - Technologies, Italy
ID: 345
/ PD-M1: 2
Topics: Static and Quasi-Static Fields, Mathematical Modelling and Formulations, Multi-Scale Modelling and HomogenizationKeywords: Magnetic losses, Magnetic fields, Eddy currents, Wireless power transmission
Current Loop Approach to Computing Losses in Coaxial Multi-phase Air-core Coil Systems
Noah James Salk, Chathan Cooke
Massachusetts Institute of Technology, United States of America
ID: 580
/ PD-M1: 3
Topics: Mathematical Modelling and FormulationsKeywords: model order reduction
(This presentation was moved to PO1)
Conference Organizer
Compumag2023 secretariat
ID: 209
/ PD-M1: 4
Topics: Static and Quasi-Static Fields, Mathematical Modelling and Formulations, Numerical Techniques, Multi-Physics and Coupled Problems, Multi-Scale Modelling and HomogenizationKeywords: finite element method, Fourier method, eddy currents, magneto-quasi static modeling.
A FEM-Fourier Coupled Magneto-Quasi Static Model for Windings with Large Clearance Distances Operated in the Medium Frequency Range
Siamak Pourkeivannour, Mitrofan Curti, Elena A. Lomonova
Department of Electrical Engineering, Eindhoven University of Technology, 5612 AZ Eindhoven, The Netherlands
ID: 451
/ PD-M1: 5
Topics: Static and Quasi-Static Fields, Numerical Techniques, Multi-Physics and Coupled Problems, Multi-Scale Modelling and HomogenizationKeywords: finite element methods, numerical analysis, superconducting coils, thermal analysis
Quasi-3D Method for Quench Simulation of Superconducting Coils
Laura Anna Maria D'Angelo1,2, Yvonne Späck-Leigsnering1,2, Herbert De Gersem1,2
1Institut für Teilchenbeschleunigung und Elektromagnetische Felder, TU Darmstadt, Germany; 2Graduate School Computational Engineering, TU Darmstadt, Germany
ID: 575
/ PD-M1: 6
Topics: Mathematical Modelling and FormulationsKeywords: Optimization
(This contribution was withdrawn)
Conference Organizer
Compumag2023 secretariat
ID: 154
/ PD-M1: 7
Topics: Static and Quasi-Static FieldsKeywords: Boundary integral equation method, loop electric current, nonlinear eddy current analysis, surface magnetic current.
Nonlinear Eddy Current Analysis by BEM Utilizing Fourier Series Expansion
Kazuhisa Ishibashi
POLOPT Technologies/Switzerland, Japan
ID: 541
/ PD-M1: 8
Topics: Static and Quasi-Static FieldsKeywords: Complementarity, Electroquasistatic, Energy Bounds, Mesh Adaptivity
Complementary formulations for electroquasistatics
Aldi Hoxha, Ruben Specogna
University of Udine, Italy
ID: 478
/ PD-M1: 9
Topics: Static and Quasi-Static FieldsKeywords: Copper losses, eddy current, proximity effect, skin effect.
Fast 2.5D Loss Calculation for round Litz Wires
Tianming Luo1, Mohamad Ghaffarian Niasar1, Peter Vaessen1,2
1Delft University of Technology, Netherlands, The; 2KEMA laboratories
ID: 333
/ PD-M1: 10
Topics: Static and Quasi-Static FieldsKeywords: finite element analysis, impedance measurement, impedance spectroscopy, biological cells, microfluidics
Numerical Study on Electrical Characterization of Red Blood Cells in Microchannel
Nutthaphong Tanthanuch1, Nitipong Panklang2, Boonchai Techaumnat3
1Thammasat University, Thailand; 2Rajamangala University of Technology Thanyaburi, Thailand; 3Chulalongkorn University, Thailand
ID: 235
/ PD-M1: 11
Topics: Static and Quasi-Static Fields, Material Modelling, Multi-Physics and Coupled ProblemsKeywords: Corona charging, Deep trap, Shallow trap, Surface Charge, Space Charge, XLPE
Numerical Analysis of Space Charge Dynamics in Positively Charged XLPE Employing Bipolar Charge Transport Model
Minhee Kim1, Hyeong-Jun Kim2, Se-Hee Lee2
1Samsung Research, Samsung Electronics, Republic of Korea, Korea, Republic of (South Korea); 2Department of Electrical Engineering Kyungpook National University Daegu, Republic of Korea
ID: 132
/ PD-M1: 12
Topics: Static and Quasi-Static Fields, Optimization and Design, Novel Computational Methods for Machines and DevicesKeywords: Core loss, end-region field, normal flux, pulse width modulation, synchronous generators.
Computation of Core Loss in Electrical Steel Laminations with Impacts of Normal Flux and PWM Switching Accounted
Zhaoqiang Zhang, Arne Nysveen, Julen Iradi Ceballos
Norwegian University of Science and Technology, Norway
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