Sebastiaan: Heat and mass transfer in contactor devices for Direct Air Capture
We seek to understand and optimise the design of (un)structured DAC sorbents through multiphysics CFD simulations
Ongoing projects
PhD projects
Postdoc projects
Rouzbeh: Experimental Study and Modelling of Monolith Structures for Direct Air Capture
In this project, a series of monolith geometries is designed to investigate how structural variations influence CO₂ adsorption performance in DAC applications.
Flavia: Modelling of Intensified Liquid-Gas Contactors for Carbon Capture Processes
This project is focused on the modeling and simulation of advanced absorption technologies for CO₂ capture, with the objective of achieving process intensification and absorber size reduction.
Other projects
Kinetic study of CO₂ adsorption under Direct Air Capture conditions using frequency response method
We are developing a set-up and analysis for measurement of CO₂ and H₂O uptake kinetics on DAC sorbents using a frequency response method.
STDAC: Integrated Solar Thermal Direct Air Capture for negative CO₂ emissions
In this project, we develop new integrated process in which solar radiation is captured as heat, and used directly to filter CO₂ from the air.