Supported ionic liquid sorbents for CO_2 capture from simulated flue-gas

Supported ionic liquid sorbents for CO_2 capture from simulated flue-gas

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摘要 Supported ionic liquid(IL) sorbents for CO_2 capture were prepared by impregnating tetramethylammonium glycinate([N1111][Gly]) into four types of porous materials in this study. The CO_2 adsorption behavior was investigated in a thermogravimetric analyzer(TGA). Among them, poly(methyl methacrylate)(PMMA)-[N1111][Gly]exhibits the best CO_2 adsorption properties in terms of adsorption capacity and rate. The CO_2 adsorption capacity reaches up to 2.14 mmol·g-1 sorbent at 35 °C. The fast CO_2 adsorption rate of PMMA-[N1111][Gly] allows 60 min of adsorption equilibrium time at 35 °C and much shorter time of 4 min is achieved at 75 °C. Further, Avrami's fractional-order kinetic model was used and fitted well with the experiment data, which shows good consistency between experimental results and theoretical model. In addition, PMMA-[N1111][Gly] remained excellent durability in the continuous adsorption–desorption cycling test. Therefore, this stable PMMA-[N1111][Gly] sorbent has great potential to be used for fast CO_2 adsorption from flue-gas. Supported ionic liquid(IL) sorbents for CO_2 capture were prepared by impregnating tetramethylammonium glycinate([N1111][Gly]) into four types of porous materials in this study. The CO_2 adsorption behavior was investigated in a thermogravimetric analyzer(TGA). Among them, poly(methyl methacrylate)(PMMA)-[N1111][Gly]exhibits the best CO_2 adsorption properties in terms of adsorption capacity and rate. The CO_2 adsorption capacity reaches up to 2.14 mmol·g-1 sorbent at 35 °C. The fast CO_2 adsorption rate of PMMA-[N1111][Gly] allows 60 min of adsorption equilibrium time at 35 °C and much shorter time of 4 min is achieved at 75 °C. Further, Avrami's fractional-order kinetic model was used and fitted well with the experiment data, which shows good consistency between experimental results and theoretical model. In addition, PMMA-[N1111][Gly] remained excellent durability in the continuous adsorption–desorption cycling test. Therefore, this stable PMMA-[N1111][Gly] sorbent has great potential to be used for fast CO_2 adsorption from flue-gas.

作者 Jiajia Ren Zheng Li Yifeng Chen Zhuhong Yang Xiaohua Lu

机构地区 State Key Laboratory of Material-Oriented Chemical Engineering Energy Engineering

出处《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2018年第11期2377-2384,共8页 中国化学工程学报（英文版）

基金 Supported by the National Basic Research Program of China(2013CB733503) the National Natural Science Foundation of China(21136001,21136004,21476106,21428601,21776123) the Top-notch Academic Programs Project of Jiangsu Higher Education Institutions(TAPP)and the Jiangsu Natural Science Foundation(BK20130062)

关键词 CO2 ADSORPTION AMINO acid IONIC LIQUID Supported IONIC LIQUID SORBENT ADSORPTION kinetics CO2 adsorption Amino acid ionic liquid Supported ionic liquid sorbent Adsorption kinetics

分类号 TQ [化学工程]

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Chinese Journal of Chemical Engineering

2018年第11期

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Supported ionic liquid sorbents for CO_2 capture from simulated flue-gas

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