Carbon capture, utilisation and storage (CCUS) has gained prominence as one of a suite of
technologies needed for mitigating the urgent threat posed by climate change. Despite the …

Absorption in an aqueous amine solution is currently the most mature industrial process to
capture anthropogenic and native CO 2. The high cost of the technology prevents its …

Blending two or more amines has recently been recognized as an efficient strategy to
formulate competitive sorbents for post-combustion CO 2 capture, as it allows to benefit from …

Mixing amines with different properties is considered a smart strategy for developing efficient
aqueous solutions for reversible CO 2 capture. Specifically, dual-amine blends containing …

Catalytic solvent regeneration has attracted broad interest owing to its potential to reduce
energy consumption in CO2 separation, enabling industry to achieve emission reduction …

Aqueous blends of the three amines 2-aminoethanol (MEA), N-methyldiethanolamine
(MDEA) and 2-amino-2-methyl-1-propanol (AMP) were tested as sorbents for CO 2 capture …

Recently, the development of efficient solid acid catalysts to promote the CO2 desorption
rate while reducing energy consumption has attracted much attention. In this work, low-cost …

In the CO2 capture process, solid acid catalysts have been widely adopted to decrease
energy consumption in the amine regeneration process owing to abundant acid sites …

The challenge for the carbon dioxide (CO 2) capture by using amine solution is the huge
energy cost in solvent regeneration process, this work combined the advantages of three …

High energy duty restricts the application of amine-based absorption in CO2 capture and
limits the achievement of carbon neutrality. Although regenerating the amine solvent with …