Approaches for the Turbocharger Integration into the 3D-CFD Simulation Domain.- Validation by Means of a Virtual Hot Gas Test Bench.- Comparison of the 0D-Turbocharger against Experimental Data from a Two-cylinder Engine.
Andreas Kächele was research associate at the Research Institute of Automotive Engineering and Vehicle Engines (FKFS) in Stuttgart, Germany, focusing on multidimensional engine simulation. After obtaining his PhD from Prof. Dr.-Ing. M. Bargende, he continues to work in the virtual engine design with emphasis on combustion process development.
Despite the increasing interest in multidimensional combustion engine simulation from researchers and industry, the field of application has been restricted to stationary operating points for turbocharged engines. Andreas Kächele presents a 3D-CFD approach to extend the simulation into the transient regime, enabling the detailed analysis of phenomena during changes in engine operating point. The approach is validated by means of a virtual hot gas test bench and experiments on a two-cylinder engine.
Contents
Approaches for the Turbocharger Integration into the 3D-CFD Simulation Domain
Validation by Means of a Virtual Hot Gas Test Bench
Comparison of the 0D-Turbocharger against Experimental Data from a Two-cylinder Engine
Target Groups
Researcher and students of internal combustion engines
Engine developers and automotive engineers
About the Author
Andreas Kächele was research associate at the Research Institute of Automotive Engineering and Vehicle Engines (FKFS) in Stuttgart, Germany, focusing on multidimensional engine simulation. After obtaining his PhD from Prof. Dr.-Ing. M. Bargende, he continues to work in the virtual engine design with emphasis on combustion process development.