1. Study of the post-combustion CO2 capture process by absorption-regeneration using amine solvents applied to cement plant flue gases with high CO2 contents.
- Author
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Laribi, Sinda, Dubois, Lionel, De Weireld, Guy, and Thomas, Diane
- Subjects
FLUE gases ,CEMENT plants ,CARBON dioxide adsorption ,SOLVENTS ,SOLVENT analysis ,AMINES ,CEMENT industries ,CARBON sequestration - Abstract
• High CO 2 contents flue gases. • Both simple and activated solutions investigated in partial oxy-fuel conditions. • Simulation of absorption-regeneration CO 2 capture process. • Aspen Hysys™ simulations validated thanks to micro-pilot experimental results. • Significant energy savings. The present study is focusing on the investigation, for the cement industry, of the post-combustion CO 2 capture process using amine(s)-based solvents. The novel aspect of the work is the flue gas considered, namely the high CO 2 contents (between 20 and 60 vol.%), representative of flue gases coming from oxygen-enriched air combustion process (also called partial oxy-fuel combustion). Using the results of preliminary solvents screening tests at laboratory scale, absorption-regeneration micro-pilot experiments were carried out for the best solvents in order to characterize their respective absorption and regeneration performances. The use of the activated solution of DEA (diethanolamine) 30 wt.% with PZ (piperazine) 5 wt.% led to particularly high absorption performances in all CO 2 concentration range. Besides the experimental measurements, Aspen Hysys™ simulations of the micro-pilot tests were performed for three solvents (monoethanolamine (MEA) as the reference case, then PZ and DEA + PZ) to validate the models implemented. Finally, the validated models were used to perform industrial scale simulations. These simulations confirmed that both the regeneration energy, the equivalent work and the operating costs are reduced when the absorption-regeneration process is implemented to flue gases with high CO 2 contents. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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