Projects
Cracking of green ammonia to hydrogen using innovative catalyst and adsorbent assisted plasma technology (HYPACT). University of Antwerp
Cracking of green ammonia to hydrogen using innovative catalyst and adsorbent assisted plasma technology (HYPACT). University of Antwerp
PLAnetary plasma Turbulence and Intermittency – coupling with interplanetary transients from data analysis and NUmerical Modelling KU Leuven
The project PLATINUM is devoted to investigate the planetary plasma turbulence and complexity and the response to variability and turbulence induced by interplanetary extreme events and transients (e.g., Corotating Interaction Regions - CIR, Coronal Mass Ejections – CME). It considers two prototypical planetary plasma systems: the Earth (dense atmosphere, strong inner magnetic field) and Mars (rarefied atmosphere, almost vanishing, remnant ...
Hydrogen through plasma ammonia cracking technology (HyPACT). KU Leuven
Project is to investigate an new ammonia cracking process based on integration of plasmat technology with thermocatalysis and adsorptive purification, able to produce fuel cell grate H2 on large scale for handling large tonnages of ammonia for intercontinental import of H2.
On the Transition to more Renewable Energy in power-to-X applications (T-REX). University of Antwerp
Confronting solar observations with MHD theory/simulations in the Solar Orbiter era. KU Leuven
The present PERIHELION research profile is extremely timely. The next few years will bring the launch of Solar Orbiter and PROBA-3. Also on the ground, observatories such as LOFAR (in radio) and DKIST (in visible light) are expected to bring observational breakthroughs. At the same time, new numerical codes from KULeuven/CmPA, like EUHFORIA, will become ready for full-scale scientific exploitation. We expect that the first 2 years of the ...