Multiphase Processes and Reactors
contact: Dr. Marion Börnhorst
Multiphase flows including chemical reactions are dominant processes in technical reactors and other applications, such as combustion and emission control. Our group investigates the interaction of heat and mass transfer between different phases with reaction kinetics and its effect on the overall system efficiency. This includes experimental investigations of reaction kinetics, heat and mass transfer and the development of kinetic models, which can be implemented to CFD models for simulation and optimization of the entire process. Our research focuses on multiphase systems and reactors for mobile and stationary emission control as well as for chemical energy storage.
- Multiphase chemical reactions in SCR systems
- Investigation of the reactive absorption of CO2 in a falling film reactor by laser induced fluorescence
- Gas phase reactions in diesel exhaust tract
- Cutting rising bubbles without contact
- Clean Circles – Chemical energy transport and storage by iron and iron oxides
- 3D CFD Simulation of Urea-SCR systems
- Modeling of multiphase reacting flows in catalytic systems
- Droplet/Wall-Interaction in Urea-SCR systems
- AdBlue Deposits – Experimental and numerical studies on urea injection and decomposition in SCR systems