M.Sc. Linus Engelmann
Lehrstuhl für Fluiddynamik M.Sc. Linus Engelmann
Contact details
Carl-Benz Straße 199
47057 Duisburg
Room: NETZ 1.05
Phone: +49-(0)203-379 8147
E-mail: linus.engelmann [at] uni-due.de
Research Interests
- Compressible Flows
- Turbulent Reactive Flows
- Internal Aerodynamics
- LES method-development
- Multiphase Flows
Project
DFG-subproject “Flammenausbreitung in inhomogenen Gemischen bei Direkteinspritzung - Large-Eddy-Simulation, Modellvalidierung und Analyse“. The focus of this work will be in the improvement of combustion modeling, the implementation of direct-injection and development of a backtracing method in the in-house code PsiPhi for engine geometries. Results will contribute to the understanding of causation of combustion process, change of load as well as mixture and emission formation.
Journal Publications
- Cyclic Variations in the Flame Propagation in an Spark-Ignited Engine: Multi Cycle Large Eddy Simulation Supported by Imaging Diagnostics; Linus Engelmann, Judith Laichter, Patrick Wollny, Markus Klein, Sebastian A. Kaiser & Andreas M. Kempf - Flow, Turbulence and Combustion 2022. LINK
- A-posteriori assessment of Large-Eddy Simulation subgrid-closures for momentum and scalar fluxes in a turbulent premixed burner experiment; L Engelmann, J Hasslberger, E Inanc, M Klein, A Kempf - Computers & Fluids, 2022. LINK
- Towards the Suitability of Information Entropy as an LES Quality Indicator; L Engelmann, M Ihme, I Wlokas, A Kempf - Flow, Turbulence and Combustion, 2022
- A-posteriori LES assessment of subgrid-scale closures for bounded passive scalars; L Engelmann, M Klein, AM Kempf - Computers & Fluids, 2021
- Robust dynamic adaptation of the Smagorinsky model based on a sub-grid activity sensor; J Hasslberger, L Engelmann, A Kempf, M Klein - Physics of Fluids, 2021
- Regularized, parameter free scale similarity type models for large eddy simulation; M Klein, S Ketterl, L Engelmann, A Kempf, H Kobayashi - International Journal of Heat and Fluid Flow, 2020
Reviewer
- Computer and Fluids
- Flow, Turbulence and Combustion
Teaching
- Strömungslehre 1
- Turbulent Flows