Young Scientist 2023
Meet the makers
Methodological Key Points
- Magnetoquasistatics and electroquasistatics
- Coupling with thermal and elasto-hydrodynamical fields
- nonlinear Material modeling
- Volumetric discretization methods
- Time domain & frequency domain
Application Key Points
- Electrical energy engineering
- Electrical machines
- Elektromagnetic Compatibility
- Further applications in which energy is transformed
Own software
- Pyrit (Finite element solver in Python)
Cooperations and sponsorships
- CREATOR SFB361/F90 (https://www.tu-darmstadt.de/trr361/home_trr361/index.en.jsp)
- DFG project 510839159 “Electrothermal Characterisation and Advancements of Insulation Systems for HVDC Cable Joints by Simulation and Experiment”
- DFG project 436819664
- DIAGNOSE project (BMBF-05P18RDRB1) in cooperation with CERN
- Faudi-Stiftungspreis ((https://www.tu-darmstadt.de/universitaet/aktuelles_meldungen/einzelansicht_371776.de.jsp)
Publications
Group leader
| Name | Working area(s) | Contact | |
|---|---|---|---|
| Dr.-Ing. Yvonne Späck-Leigsnering | Computational Electromagnetic Compatibility | spaeck@temf.tu-... +49 6151 16-24031 S2|17 133 |
Group Members
| Name | Working area(s) | Contact | |
|---|---|---|---|
| Christian Bergfried M.Sc. | Electric and thermal stresses in insulation systems of electric machines | christian.bergfried@tu-... +49 6151 16-24028 S2|17 120 |
| Jonas Bundschuh M.Sc. | Finite-element simulation of homogenized field models for foil windings | jonas.bundschuh@tu-... +49 6151 16-24022 S2|17 125 |
| Maren Greta Ruppert-Schmidt M.Sc. | Electrothermal Simulation of HVDC Cable Joints | ruppert@temf.tu-... +49 6151 16-24022 S2|17 125 |