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1-ethyl-3-methylimidazolium chloride plus imidazole deep eutectic solvents as physical solvents for remarkable separation of H2S from CO2

[Display omitted] •[Emim]Cl + imidazole DESs were examined for H2S and CO2 absorption.•The absorption of H2S and CO2 in DESs is found to be physical type.•The solubilities of H2S in DESs are much higher than the solubilities of CO2.•[Emim]Cl + imidazole DESs are superior to most physical solvents fo...

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Published in:Separation and purification technology 2021-12, Vol.276, p.119313, Article 119313
Main Authors: Wu, Xiankun, Cheng, Ning-Ning, Jiang, Haijiao, Zheng, Wen-Tao, Chen, Yang, Huang, Kuan, Liu, Fujian
Format: Article
Language:English
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Summary:[Display omitted] •[Emim]Cl + imidazole DESs were examined for H2S and CO2 absorption.•The absorption of H2S and CO2 in DESs is found to be physical type.•The solubilities of H2S in DESs are much higher than the solubilities of CO2.•[Emim]Cl + imidazole DESs are superior to most physical solvents for H2S separation.•The strong interaction between H(H2S) and Cl([Emim]Cl) plays an important role. The selective removal of H2S from CO2-contained gaseous mixture is an important and challenging task for natural gas industry. Herein, 1-ethyl-3-methylimidazolium chloride ([Emim]Cl) + imidazole DESs were examined as the physical solvents for H2S and CO2 absorption. The solubilities of gases were determined systematically, and the Henry’s constants of gases, ideal selectivities of gas pair, enthalpy changes of gas absorption were calculated. The variations of H2S and CO2 solubilities with [Emim]Cl contents in DESs show different trends. In addition, the H2S solubilities in the [Emim]Cl + imidazole DESs are much higher than those of CO2. The results were compared with other liquid solvents, and [Emim]Cl + imidazole DESs enable extremely high efficiency for H2S absorption and large selectivity towards CO2. The molecular dynamics (MD) simulations and density functional theory (DFT) calculations were then systematically carried out to explain the results obtained. It is demonstrated that the strong interaction was found between the H of H2S and Cl− of [Emim]Cl, which contributes to the excellent performance of [Emim]Cl + imidazole DESs in separation of H2S from CO2.
ISSN:1383-5866
DOI:10.1016/j.seppur.2021.119313