par Manelle Sokar | Jan 20, 2026 | Conference Abstracts
Abstract Chemical absorption using aqueous amine solutions is a well-established method to capture CO2 from industrial gases. The technology has a high level of maturity and is industrially deployed. However, for CO2 capture from exhaust gases, solvent emissions may...
par Manelle Sokar | Jan 20, 2026 | Conference Abstracts
Abstract Rapid upscaling and deployment of more cost-efficient and sustainable carbon capture solutions is needed to reduce the emissions of CO2-intensive industries. Solvent-based carbon capture is an important technology that can be readily adopted to many emission...
par Manelle Sokar | Jan 20, 2026 | Conference Abstracts
Abstract The overarching aim of the AURORA project is to qualify the CESAR1 solvent for commercial deployment. This is done through a dedicated qualification procedure [1], which ensures that important knowledge gaps are identified based on results from previous...
par Manelle Sokar | Jan 20, 2026 | Conference Abstracts
Abstract The aim of the AURORA project has been to qualify the open and non-proprietary CESAR1 solvent technology for commercial deployment. As part of this qualification there have been two major test campaigns in pilots (the Tiller pilot and the Technology Centre...
par Manelle Sokar | Sep 5, 2025 | Conference Abstracts
Abstract An amine-based CO2 capture plant may cause harmful emissions to the atmosphere, and it is important to measure and control the emissions of amines and products resulting from their degradation during the process. The present work is a part of the SCOPE and...
par Manelle Sokar | Sep 5, 2025 | Conference Abstracts
Abstract The CESAR1 solvent is a non-proprietary blend of 2-amino-2-methylpropanol (AMP) and piperazine (PZ), that has been extensively studied as a good candidate for post-combustion CO2 capture. It offers lower energy demand, more flexibility of operation and higher...
