WANG L Y, ZHOU H J, ZHANG Y J.On the solubility and dissolution mechanism of CO₂ in ｛［Bmim］［BF4］⁺ alkali metal salt｝ metal complex ionic liquid[J].Journal of Henan Polytechnic University(Natural Science) ,2023,42(6):86-95.

doi:10.16186/j.cnki.1673-9787.2021100022

Received:2021/10/12

Revised:2021/12/20

Published:2023/11/25

On the solubility and dissolution mechanism of CO2 in ｛［Bmim］［BF4］+alkali metal salt｝ metal complex ionic liquid

WANG Lanyun1,2,3, ZHOU Huajian1, ZHANG Yajuan1

1.School of Safety Science and Engineering，Henan Polytechnic University，Jiaozuo  454000，Henan，China;2.Cultivation Base of State Key Laboratory of Gas Geology and Gas Control，Henan Polytechnic University，Jiaozuo  454000，Henan，China;3.Co-construction and Cooperation Between the Provinces and Departments for Safe Production and Clean and Efficient Utilization of Coal Innovation Center，Henan Polytechnic University，Jiaozuo  454000，Henan，China

Abstract:In order to capture carbon dioxide more economically and effectively，reduce environmental pollution，and strengthen the rational use of resources，various concentrations of metal complex ionic liquids ［Bmim］［BF₄］+MBF₄（M=Li⁺，Na⁺ and K⁺）were prepared in this paper.Under the pressure range of 100～4 000 kPa，the gas absorption experiment was carried out at 30，40 and 50 ℃ by using a high-pressure reactor，and the solubility of CO₂ in metal complex ionic liquids（MILs） was measured.Density functional simulation was used to calculate the charge distribution，Fukui index，and binding energy parameters of the stable configuration of the mixed system of MILs and CO₂，and to analyze the CO₂ absorption mechanism of MILs from a microscopic perspective.The experimental results show that the solubility of CO₂ in MILs decreases with increasing temperature and decreasing pressure.Adding alkali metal salt can promote the absorption of CO₂ by ILs，but when the concentration of alkali metal salt in ILs is ≥1 mol/L，it will inhibit CO₂ absorption.Besides，0.010 mol/L ［Bmim］［BF₄］+KBF₄ absorbs the highest amount of CO₂.The density functional calculation results demonstrate that ［Bmim］［BF₄］+KBF₄ has a large K⁺ volume and strong hydrogen bond force，and the solubility of K⁺ in the ionic liquid is small，resulting in less steric hindrance，so ［Bmim］［BF₄］+KBF₄ has more free volume to accommodate CO₂.Overall，MILs have higher CO₂ absorption than pure ILs，and have a better application prospects in  greenhouse gases management.

Key words:CO₂ absorption;alkali metal salts;［Bmim］［BF₄］ ionic liquid;metal complex ionic liquid;density functional

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