Design and prediction for highly efficient SO2 capture from flue gas by imidazolium ionic liquids

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An efficient method for prediction in the capture of SO2 from flue gas by imidazolium ionic liquids was reported, where the concentration of SO2 is 2000 ppm. On the basis of quantitative calculations through a combination of Langmuir simulation, theoretical calculation and quantum chemical method, SO2 absorption and desorption performance from flue gas by twelve kinds of imidazolium ionic liquids with different anions were designed and predicted. Then, among them, five kinds of imidazolium ionic liquids were chosen and prepared to investigate their behavior of SO2 absorption capacity, desorption residue, and available absorption capacity. The results indicated that the experimental values were in good agreement with the predicted values. Thus, an ideal ionic liquid [Emim][Tetz] was obtained through the predictive method for the capture of SO2 of 2000 ppm, which showed high available absorption capacity of 0.24 g SO2 per g ionic liquid and excellent reversibility.
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韩建国rn黑龙江省广播电视局媒体融合发展处一级调研员rn复旦大学国际政治系国际政治专业法学学士;哈尔滨工业大学公共管理硕士,在职研究生.历任原黑龙江省新闻出版局办公室主任、原黑龙江省新闻出版广电局网络视听节目管理处处长、黑龙江省广播电视局媒体融合发展处处长等职务.
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