화학공학소재연구정보센터
AIChE Journal, Vol.64, No.5, 1528-1539, 2018
Enhanced CO2 Separation Performance for Tertiary Amine-Silica Membranes via Thermally Induced Local Liberation of CH3Cl
A facile method for the fabrication of amine-silica membranes with enhanced CO2 separation performance was proposed via the thermally induced liberation of small molecules from quaternary ammonium salt. Quaternary ammonium-silica (QA-SiO1.5) xerogel powders/films were fabricated via sol-gel processing and their thermal stability was systematically studied using thermogravimetric mass spectrometer, Fourier transform infrared, energy dispersive spectroscopy, and positron annihilation lifetime spectroscopy analysis. CO2 sorption performances of QA-SiO1.5 derived xerogel powders were quantitatively compared after assigning their relevant parameters to a dual-mode sorption model. The gas permeation performances of membranes derived from QA-SiO1.5 were evaluated in terms of kinetic diameter and temperature dependence of gas permeance, and activation energy (E-p) required for gas permeation. The results indicate that liberation of the CH3Cl molecules from these membranes significantly improved both CO2 permeation and CO2/N-2 separation capabilities. Therefore, the present study provides insight that should be useful in the development of high-performance CO2 separation membranes via the effect of the thermally induced liberation of small molecules. (C) 2017 American Institute of Chemical Engineers