Enhanced distribution kinetics in liquid-liquid extraction byCO2-expanded solvents
Journal article, 2020

Liquid-liquid extraction (LLE) is a useful extraction technique for highly complex samples, however, it suffers from being slow due to mass transfer limitations. Carbon dioxide expanded liquids (CXL) is a good replacement of traditional organic solvents for extraction, and for the first time, the use of CXL in LLE was evaluated. An equipment consisting of a high-pressure view cell with on-line gas chromatography analysis was built and validated, and thereafter used to obtain novel phase equilibria data of the CO2/n-octanol/water system. The system was connected on-line to HPLC to study the potential of CO2-expanded liquid-liquid extraction (CXLLE) of pharmaceutical contaminants in water. In comparison with traditional LLE performed under similar experimental conditions, the addition of CO2 as a viscosity-lowering entrainer significantly increased the speed of mass transfer. Changes in compound log D (octanol-water distribution ratio) values brought by the CO2 expansion also proved the possibility of selectivity-tuning in CXLLE.

Author

Larissa P. Cunico

Lund University

Mingzhe Sun

Lund University

Yu Rui

Lund University

Semhar Ghirmai

Lund University

Markus Enekvist

Lund University

Simon Lundegard

Lund University

Margareta Sandahl

Lund University

Charlotta Turner

Lund University

Journal of Supercritical Fluids

0896-8446 (ISSN)

Subject Categories

Organic Chemistry

DOI

10.1016/j.supflu.2020.104874

More information

Latest update

2/17/2021