气体吸收

气体吸收是化工单元操作之一。用适当的液体吸收剂处理气体混合物以去除其中一种或多种组分的操作。按吸收性质分化学吸收和物理吸收两大类。广泛应用在合成氨、石油化工及废气处理中。本课题组着力于解决气体中二氧化硫、二氧化硫的吸收,以及利用新型质子离子液体复合膜用于乙烯/乙烷分离,具有良好的工业应用前景。


本课题组在该领域发表的论文:

[1] Z. Huang, B. Jiang, H. Yang, B. Wang, N. Zhang, H. Dou, G. Wei, Y. Sun, and L. Zhang, Investigation of glycerol-derived binary and ternary systems in CO2 capture process. Fuel 210 (2017) 836-843.

[2]. Jiang, B., et al., Design of multiple-site imidazole derivative aqueous solution for SO2 capture in low concentration. Journal of the Taiwan Institute of Chemical Engineers, 2018. 91: p. 441-448.

[3]. Jiang, B., et al., Design of multiple-site imidazole derivative aqueous solution for SO2 capture in low concentration. Journal of the Taiwan Institute of Chemical Engineers, 2018. 91: p. 441-448.

[4]. Jiang, B., et al., A Novel Supported Liquid Membrane Based on Binary Metal Chloride Deep Eutectic Solvents for Ethylene/Ethane Separation. Industrial & Engineering Chemistry Research, 2017. 56(51): p. 15153-15162.

[5]. Huang, Z., et al., Investigation of glycerol-derived binary and ternary systems in CO2 capture process. Fuel, 2017. 210: p. 836-843.

[6]. Sun, Y., et al., A Novel Copper(I)-Based Supported Ionic Liquid Membrane with High Permeability for Ethylene/Ethane Separation. Industrial & Engineering Chemistry Research, 2017. 56(3): p. 741-749.

[7]. Jiang, B., et al., Highly efficient and reversible CO2 capture by imidazolate-based ether-functionalized ionic liquids with a capture transforming process. Journal of the Taiwan Institute of Chemical Engineers, 2016. 69: p. 85-92.