Offene Stellen
Data science and model development for designing future clean energy systems
Bachelorthesis / Masterthesis / HiWi
11.07.2025
To achieve current climate goals, rapid technological changes are necessary. Data driven model development from large-scale simulations will be a crucial pillar for future engineers, enabling a swift transition of the energy system through innovative technical solutions.
The Institute for Simulation of Reactive Thermo-Fluid Systems (STFS) is at the forefront of pioneering advancements in large-scale simulations and AI-driven model development. Our mission is to lead groundbreaking research and development efforts, leveraging cutting-edge AI and HPC resources to solve complex problems and drive technological innovation.
Betreuer/in: Dr.-Ing. Hendrik Nicolai
Accelerate Innovations: High-Performance Computing Software Development for Heterogenous Architectures
Masterthesis / HiWi
11.07.2025
To achieve current climate goals, rapid technological changes are necessary. High-performance computing will be a crucial pillar for future engineers, enabling a swift transition of the energy system through innovative technical solutions.
The Institute for Simulation of Reactive Thermo-Fluid Systems (STFS) aims to lead this journey by developing new generation of algorithms to enable simulations of reactive multiphase flows targeting the next generation of super computers. This includes Europe's first Exascale supercomputer, currently being built at our partner, Jülich Supercomputing Centre.
Betreuer/in: Dr.-Ing. Hendrik Nicolai
Cutting Edge High-Performance Computing: Towards ExascaleCFD simulations
Masterthesis/ HiWi
11.07.2025
To achieve current climate goals, rapid technological changes are necessary. High-performance computing will be a crucial pillar for future engineers, enabling a swift transition of the energy system through innovative technical solutions.
The Institute for Simulation of Reactive Thermo-Fluid Systems (STFS) aims to lead this journey by performing groundbreaking simulations. This includes leveraging Europe's first Exascale supercomputer, recently launched at our partner, Jülich Supercomputing Centre.
Betreuer/in: Dr.-Ing. Hendrik Nicolai
HiWi for the analysis of high-resolution numerical simulations
Direct Numerical Simulation (DNS) of Turbulent Flames
08.07.2025
At the Department of Simulation of Reactive Thermo-Fluid Systems, we are engaged in basic research on the combustion of regenerative energy sources such as hydrogen (H2) and ammonia (NH3) using numerical simulations.
For this purpose, we are looking for dedicated support in the evaluation of simulation data of turbulent combustion (large amounts of data). We offer exciting and challenging tasks, extensive support and a flexible way of working.
Depending on your interests and possibilities, the focus of your work can be adjusted (data analysis, simulations, documentation, model development, etc.). Experience in the implementation and evaluation of CFD simulations is an advantage but not essential. If the collaboration is successful, further supervision is possible if desired, e.g. for a thesis, ADP or joint publication. The scope of work is between 20 and 40 hours per month (increased hourly rate). I look forward to your inquiry!
Betreuer/in: Felix Rong, M.Sc. M.Sc.
Es sind zur Zeit keine weiteren Stellen ausgeschrieben. Initiativbewerbungen sind aber immer willkommen.
Bei Interesse an einer Tätigkeit als Hiwi können Sie sich bei Prof. Dr.-Ing. Christian Hasse melden.
