Chair of Electromagnetic Theory

Ongoing Research Projects

Project manager
Prof. Dr. rer. nat. Markus Clemens

Project member
Hendrik Hensel, M.Sc.

Project duration
Since 2022

Keywords
High-voltage direct current, gas-insulated line, charge accumulation, electro-quasistatic fields, field control techniques, field grading materials, conductivity, sulfur hexalfluoride, environmentally friendly insulating gas

Project description     Project-related publications

Project manager
Prof. Dr. Markus Clemens
Prof. Dr. Benedikt Schmuelling

Project member
Dr. Norman Haussmann
Steven Stroka, M.Sc.

Consortium
University of Wuppertal
Technical University of Munich
Valeo Schalter und Sensoren GmbH
IBC SOLAR AG
Stadt Bad Staffelstein

Project duration
August 2021 - July 2024

Support
German Federal Ministry for Economics and Climate Action (BMWK)

Project description     Project-related publications

Project member
Dr. Fotios Kasolis
Hendrik Hensel, M.Sc.

Project duration
Since 2010

Keywords
electro-quasi-static fields, electric power transmission, nonlinear electric field control, implicit time integration methods, numerical linear algebra, parallelized implementation, domain decomposition methods, GPGPU computing

Project description     Project-related publications

Project leader
Prof. Dr. rer. nat. Markus Clemens (Chair of Electromagnetic Theory, University of Wuppertal, Germany)

Project member
Jennifer Dutiné, M.Sc.
Bernhard Kähne, M.Sc.

Cooperation partner
Prof. Dr. Sebastian Schöps (Graduiertenschule Computational Engineering, TU Darmstadt, Germany)

Keywords
applied mathmatics, electromagnetic theory, scientific computing, Numerics of electromagnetic fields, time integration, finite elements method

Acknowledgement
Deutschen Forschungsgemeinschaft (DFG) under grant number CL143/11-1 and CL143/11-2

Project description     Project-related publications

Project manager
Prof. Dr. rer. nat. Markus Clemens

Project member
Dr. Fotios Kasolis

Project duration
01.04.2020 - 31.03.2023

Keywords
reduced-order method, circuit analysis, model order reduction, numerical linear algebra, electro-quasi-static fields, transient analysis, implicit time integration, start value estimation, kernel-based regression, entropy, recurrent states, snapshot sampling

Acknowledgment
Deutsche Forschungsgemeinschaft (DFG) under grant no. CL143/18-1.

Project description     Project-related publications

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