3DCFD-Modeling of a Hydrogen Combustion-Process with Regard to Simulation Stability and Emissions 2023-01-1209
In the context of the energy transition, CO2-neutral solutions are of enormous importance for all sectors, but especially for the mobility sector. Hydrogen as an energy carrier has therefore been the focus of research and development for some time. However, the development of hydrogen combustion engines is in many respects still in the conception phase. Automotive system providers and engineering companies in the field of software development and simulation are showing great interest in the topic. In a joint project with the industrial partners Robert Bosch GmbH and AVL Germany, combustion in a H2-DI-engine for use in light-duty vehicles was methodically investigated using the CFD tool AVL FIRE®. The collaboration between Robert Bosch GmbH and the Institute for Mobile Systems (IMS) at Otto von Guericke University Magdeburg has produced a model study in which model approaches for the combustion of hydrogen can be analyzed. Plausibility checks and a validation of the models with measurement data were carried out for the resulting models. The major advantage of a hydrogen combustion engine is its potential CO2 neutrality. However, with the goal of climate neutrality and compliance with criteria pollutant emission legislation, an investigation of exhaust emissions was necessary. Due to the very high temperatures during the combustion, in locally rich areas within the combustion chamber nitrogen oxides (NOx) are produced. The formation process of NOx in the H2-Air mixture was therefore investigated and modelled by simulation. A further aim is to provide the necessary data for a variation of the operating point in order to be able to achieve a more precise NOx prediction with simulation models.
Citation: Dafis, A., Rottengruber, H., and Jochmann, P., "3DCFD-Modeling of a Hydrogen Combustion-Process with Regard to Simulation Stability and Emissions," SAE Technical Paper 2023-01-1209, 2023, https://doi.org/10.4271/2023-01-1209. Download Citation
Author(s):
Aristidis Dafis, Hermann Rottengruber, Paul Jochmann
Affiliated:
Research assistant, Otto-Von-Guericke University Magdeburg, Robert Bosch GmbH
Pages: 11
Event:
23rd Stuttgart International Symposium
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Combustion chambers
Research and development
Combustion and combustion processes
Nitrogen oxides
Exhaust emissions
Computational fluid dynamics
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