par Manelle SokarMai 22, 2025Conference Abstracts
Abstract The CESAR1 solvent is possibly the most popular non-proprietary solvent blend for CO2 capture and has been under thorough investigation in the past decade (Benquet et al., 2021; Buvik et al., 2024a; Campbell et al., 2022; Hume et al., 2022, 2021; Moser et...
par Solène FovelleJuin 10, 2024Conference Abstracts
The final step in capturing and storing carbon dioxide (CO₂) emissions is geological storage, where CO₂ is injected deep underground into carefully chosen locations. These locations could be natural formations like saline aquifers (underground reservoirs filled with...
par Solène FovelleJuin 10, 2024Conference Abstracts
A chemical mixture called CESAR1 is being widely studied as a solvent to capture carbon dioxide (CO₂) from industrial emissions (like power plants). CESAR1 is made up of two chemicals: AMP (2-amino-2-methyl propanol) and PZ (piperazine). It’s more stable and degrades...
par Solène FovelleJuin 10, 2024Conference Abstracts
Read our project partner’s presentation on “Exploring CCUS chains in Belgium and Greece based on open-access CESAR1 solvent capture technology”, by Anette Mathisen – (SINTEF), Hanne Kvamsdal (SINTEF), Stephane Jouenne (Totale Energies), Sabina Bigi...
par Solène FovelleNov 9, 2023Conference Abstracts
When solvents, such as ethanolamine (MEA), are used to capture carbon dioxide (CO₂) emissions in industrial processes, they gradually break down over time, a process called degradation. This breakdown reduces the solvent’s ability to absorb CO₂ efficiently,...
par Solène FovelleNov 7, 2023Conference Abstracts
Abstract Amine-based absorption is currently the most advanced and cost-effective means of postcombustion CO2 capture among the different technologies that can be used (Dutcher et al., 2015). Much work has been done to reduce energy consumption, which constitutes one...
