News
New Publication: Pore shape matters – In-situ investigation of freeze-drying kinetics by 4D XCT methods
Sebastian Gruber, Joshua Greiner, Alexander Eppink, Maximilian Thomik, Frederik Coppens, Nicole Vorhauer-Huget, Evangelos Tsotsas, Petra Först
https://doi.org/10.1016/j.foodres.2024.114837
CRC/TRR 287 BULK-REACTION Funding Period 2
The CRC/TRR 287 BULK-REACTION is granted for 4 more years by the Deutsche Forschungsgemeinschaft DFG between 2024 and 2028.
The CRC is a Trans-Regio project between the Otto-von-Guericke-University Magdeburg, Ruhr University Bochum, Technical University Dortmund and Christian-Albrechts-University Kiel. The main goal of the CRC is the examination of reacting moving granular assemblies with gas flow, which is an important unit operation in energy process engineering.
Two research projects, from Neda Kazemi and Felix Faber, contribute to the CRC with research against waste and usage of renewable energies for heating applications.
Further reading can be found here.
New Publication: Model PEM water electrolyzer cell for studies of periodically alternating drainage/imbibition cycles
Supriya Bhaskaran, Tamara Miličić, Tanja Vidaković-Koch, Vikranth Kumar Surasani, Evangelos Tsotsas, Nicole Vorhauer-Huget
https://doi.org/10.1016/j.ijhydene.2024.06.268
Investigating the counter-current two-phase flow within the anodic porous transport layer (PTL) of polymer electrolyte membrane water electrolyzers (PEMWEs) is a complex yet intriguing challenge. Until now, the gasliquid invasion processes inside PTLs are only to a limited extent accessible under operation conditions, usually using sophisticated and expensive optical approaches, i.e., neutron imaging. We propose a model-supported experimental method with a fully operating microfluidic PEMWE, that allows to examine pore-scale oxygenwater distributions at the anode with high spatial and temporal resolution. The microfluidic cell is made of transparent Poly-Methyl-Methacrylate (PMMA), and the PTL is simplified by a quasi-2D pore network (PN) with a uniform pore-throat structure in the first preliminary study. The proposed setup is a significant advancement over previous studies, where gas was only injected at a constant flow rate from a single point. Test cases with current densities of 0.1, 1, and 2 A/cm2 and water flow rates of 1, 3, 5, and 10 ml/min were realized in the novel setup. We found periodically alternating invasion of oxygen (drainage) and water (imbibition), which were analyzed based on image sequences as well as voltage measurements. The experimental data is additionally supported by pore-scale Lattice Boltzmann (LB) and PN simulations. The preliminary results with the simplified PN structure are used to study the dominating transport mechanisms, revealing that drainage and imbibition occur simultaneously and are affected by evaporation and wetting liquid films formed in sharp pore corners. These phenomena are also expected to occur in more complex PTL structures. The preliminary results can, therefore, be regarded as an important basis for PTL studies, which are structurally more complex.
Scholarship for Mr. Felix Faber
Great News: Felix Faber secures a scholarship from Kompetenznetz Verfahrenstechnik Pro3 e.V. verfahrenstechnik-pro3.de!
The scholarship, available annually to 3 students in process engineering. Felix Faber is focusing on modeling microwave heating with a pore network model to detect the temperature distribution and hot spots based on local pore structure.
Congratulations, Felix!