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A process simulation study of CO2 capture by ionic liquids

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Abstract This study was aimed to simulate a new ionic liquids (ILs)-based CO 2 capture process which is useful to capture CO 2 from model flue gas, by using two… Click to show full abstract

Abstract This study was aimed to simulate a new ionic liquids (ILs)-based CO 2 capture process which is useful to capture CO 2 from model flue gas, by using two promising CO 2 absorbents, 1-butyl-3-methylimidazolium tetrafluoroborate ([bmim][BF 4 ]) and 1-butyl-3-methylimidazolium hexafluorophosphate ([bmim][PF 6 ]). Thermodynamic properties such as vapor pressure, heat capacity and density were modeled. Vapor-liquid equilibrium (VLE) data were calculated by Redlich-Kwong (R-K) equation and NRTL model. The calculated VLE data were in good agreement with the experimental values. This ILs-based CO 2 capture process is characterized with few advantages such as there is no issue of water; solvent (ILs) loss is negligible as compared to monoethanolamine (MEA)-based CO 2 capture process (e.g., 0.299 g/tCO 2 for [bmim][BF 4 ] and 0.391 g/tCO 2 for [bmim][PF 6 ] respectively, while 178 g/tCO 2 for MEA); potential corrosion risk is excluded; the energy consumption in [bmim][BF 4 ]- and [bmim][PF 6 ]-based processes are lowered up to 26.7% and 24.8% respectively than that in MEA-based process. Thus, such an ILs-based CO 2 capture process is more competitive than traditional MEA-based CO 2 capture process.

Keywords: capture process; bmim; process; based capture; ionic liquids; capture

Journal Title: International Journal of Greenhouse Gas Control
Year Published: 2017

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