av Solène Fovelle | mai 22, 2025 | Conference Abstracts
Abstract CO2 capture using amine-based absorption is the most mature technology to decarbonize carbon intensive industries, Bui et al. (2018). Research has been focused on studying solvents that are stable, environmentally sustainable and energy efficient. The CESAR1...
av Solène Fovelle | mai 22, 2025 | Conference Abstracts
Abstract CO2 capture plays a fundamental role in achieving the climate change goals set by the Paris Agreement 2015. Capturing 90% of the CO2 being emitted from industrial sources is not enough, (Brandl et al., 2021). There is a need to design, optimize and qualify...
av Solène Fovelle | mai 22, 2025 | Conference Abstracts
Abstract Many large-scale capture plants will need to be operated in a flexible and dynamic manner to cope with varying flow rates and/or CO2 concentration in the flue gas from the host plant. Under such circumstances, careful design of the capture plant is required,...
av Solène Fovelle | mai 22, 2025 | Conference 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...
av Solène Fovelle | jun 10, 2024 | Conference 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...
av Solène Fovelle | jun 10, 2024 | Conference 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...
