My PhD project is about the Chemical Looping Combustion (CLC) process, which is a promising combustion technology for power generation and industrial applications with inherent CO₂ capture. In CLC, metal oxide particles transfer the oxygen from air to the fuel. Since the fuel and air are never mixed during the combustion, CO₂ and steam are generated without gas separation. In comparison to other CO₂ capture technologies, the costs and energy penalty of gas separation are avoided. Further information can be found in the project description: Dynamic Flowsheet Simulation of Solids Processes for Chemical Looping Combustion

Since 2023 my research focuses on Phase Tracking in Fluidized Beds via Electrical Capacitance Volume Tomography and Borescopic High-Speed Camera Imaging Motivation

For our experimental and simulation work, we are continuously offering Master, Bachelor and Project Theses. So if you are interested in working with this innovative process, contact us or come by our institute! We will then discuss a suitable topic for your thesis.

• Lindmüller, L.; Haus, J.; Hartge, EU.; Heinrich S.:
  Dynamic Modelling of Reactive Fluidized Bed Systems Using the Example of the Chemical Looping Combustion Process for Solid Fuels.
  In: Heinrich, S. (Ed.) (2020): Dynamic Flowsheet Simulation of Solids Processes
  Switzerland: Springer International Publishing, DOI 10.1007/978-3-030-45168-4