Nina Miladinović, Luka Ceyssens, Giuseppe Granata, and Tom Van Gerven of the Departments of Materials Engineering and Chemical Engineering have published a new article entitled Impact of particle breakage on the carbonation of argon oxygen decarburization slag – limitations and energy assessment. This article is published in Journal of CO2 Utilization Volume 95, May 2025.
Disposing waste from the steel-making industry and the ongoing rise in global carbon dioxide emissions represent significant challenges to overcome. Carbonation of steel slags, the main waste material formed in steelmaking processes, is one of the possible solutions. In this research, three different kinds of mills are compared in order to most effectively approach the carbonation of argon oxygen decarburization (AOD) steel slag while simultaneously milled. Using breakage potential as a parameter for quantitative comparison, it is shown that the planetary ball mill is noticeably performing better than the vibratory mill and the McCrone mill – up to 39 % in terms of breakage of particles. The breakage potential correlates well with the carbonation rate at all three examined speeds (200 rpm, 500 rpm and 800 rpm) in the planetary ball mill. However, it is estimated that energy up to 120 kJ/g is used for the breakage of particles. Energy applied above this threshold contributes mainly to the agglomeration, but at different rates depending on the implemented speed. This difference is due to the varying contribution of two influencing parameters during simultaneous carbonation and milling – the presence of water and the number of collisions of the grinding balls with the AOD steel slag. The present work gives insights into the breakage of steel slag particles, their carbonation potential and limitations for achieving higher carbonation rates as well as predicted energy usage to obtain these processes.
Reference
Nina Miladinović, Luka Ceyssens, Giuseppe Granata, Tom Van Gerven, Impact of particle breakage on the carbonation of argon oxygen decarburization slag – limitations and energy assessment, Journal of CO2 Utilization, Volume 95, 2025, 103073, ISSN 2212-9820, https://doi.org/10.1016/j.jcou.2025.103073
Acknowledgement
This work was supported by The Research Foundation – Flanders (FWO) within the AgriCarb project (G0A4821N) and C-farms project (S004023N).
