Evaluation of Phase Separation Behavior of Amine+Organic Solvent+H2o Phase Change Absorbents

31 Pages Posted: 29 Jan 2023

See all articles by Jiawei Fang

Jiawei Fang

Beijing University of Chemical Technology

Xianhang Jin

affiliation not provided to SSRN

Chunhua Cui

Beijing University of Chemical Technology

Jian-Hong Wang

Beijing University of Chemical Technology

Qing Sun

Beijing University of Chemical Technology

Weidong Zhang

Beijing University of Chemical Technology

Abstract

CO2 phase change absorbents, CPCAs, have attracted growing interest due to their potential of energy saving for CO2 capture. Unclear phase separation pattern is challenging for the efficient development of CPCAs. The effect of organic solvents properties on the phase separation process was investigated in this work. The difference of ion-dipole interaction between ion-organic solvent and ion-water was used to illustrate the phase separation behavior. Dielectric constant and ET(30) were proposed as indicators to provide guidance on the selection of organic solvents in CPCA. The organic solvents with less dielectric constant and ET(30) relative to water, were tend to phase split, and higher ion distribution coefficient obtained. The developed MEA CPCAs showed larger CO2 cyclic capacity than 30wt.%MEA, among which 1,4-dioxane CPCA was 49.0% higher than benchmark MEA solution.

Keywords: CO2 capture, CO2 phase change absorbent (CPCA), organic solvent, phase separation behavior

Suggested Citation

Fang, Jiawei and Jin, Xianhang and Cui, Chunhua and Wang, Jian-Hong and Sun, Qing and Zhang, Weidong, Evaluation of Phase Separation Behavior of Amine+Organic Solvent+H2o Phase Change Absorbents. Available at SSRN: https://ssrn.com/abstract=4340887 or http://dx.doi.org/10.2139/ssrn.4340887

Jiawei Fang

Beijing University of Chemical Technology ( email )

15 N. 3rd Ring Rd E
Chaoyang, Beijing, 201204
China

Xianhang Jin

affiliation not provided to SSRN ( email )

Chunhua Cui

Beijing University of Chemical Technology ( email )

15 N. 3rd Ring Rd E
Chaoyang, Beijing, 201204
China

Jian-Hong Wang

Beijing University of Chemical Technology ( email )

15 N. 3rd Ring Rd E
Chaoyang, Beijing, 201204
China

Qing Sun

Beijing University of Chemical Technology ( email )

15 N. 3rd Ring Rd E
Chaoyang, Beijing, 201204
China

Weidong Zhang (Contact Author)

Beijing University of Chemical Technology ( email )

15 N. 3rd Ring Rd E
Chaoyang, Beijing, 201204
China

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