Development of a facile reclaiming process for degraded alkanolamine and glycol solvents used for CO2 capture systems

[Display omitted] •A facile thermal reclaimer has been successfully designed and developed.•The reclaimer treated degraded alkanolamine and glycol solvents.•HSSs content in the reclaimed MEA product was reduced to around 0.61 wt% as solvent.•The reclaiming pressures for MEA and MEG are 38 and 20 kPa...

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Bibliographic Details
Published in:International journal of greenhouse gas control 2018-07, Vol.74, p.174-181
Main Authors: Ju, Huitian, ElMoudir, Walid, Aboudheir, Ahmed, Mahinpey, Nader
Format: Article
Language:English
Subjects:
Alkanolamine solvents
Glycol solvents
Impurities and degradation products
Post-combustion CO2 capture
Reclaiming process
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Summary:[Display omitted] •A facile thermal reclaimer has been successfully designed and developed.•The reclaimer treated degraded alkanolamine and glycol solvents.•HSSs content in the reclaimed MEA product was reduced to around 0.61 wt% as solvent.•The reclaiming pressures for MEA and MEG are 38 and 20 kPa.•Almost, all degradation products in reclaimed products are lower than 10 ppm. Post-combustion CO2 capture based on alkanolamine solvents is currently the most developed and ready-to-use technology to reduce CO2 emission into the atmosphere. The CO2 gas captured by this method usually displays a moderate level of moisture, which requires dehydration through the use of glycol solvents. However, due to exposure to impurities in the flue gas stream and high temperatures, these solvents can experience chemical and thermal degradation. The build-up of degradation products can lead to plant operational problems and increase consumption of utilities such as gas and electricity. A new reclaiming process was therefore developed to separate degradation products and other types of impurities from these solvents. A detailed analysis of the feed stream, the recovered product stream, and the waste stream showed that this novel reclamation technology is capable of removing most of the undesirable impurities and degradation products and restoring the solvent to almost its original purity at a high recovery rate with minimal energy consumption. The data generated by this study will be useful for scaling-up and designing commercial reclaimers that can meet the solvents’ cleanup targets with low expenditure, low energy consumption, and minimal waste for disposal.
ISSN:1750-5836
1878-0148
DOI:10.1016/j.ijggc.2018.05.004