Modelling of elution–extrusion counter-current chromatography using perfect replacement approach

Abstract

Basing on the perfect replacement approach the equilibrium cell model is developed to describe the separation process in elution–extrusion counter-current chromatography (EECCC). As is known, EECCC consists of three steps: classical elution, sweeping elution, and extrusion. The perfect replacement approach means that during sweeping elution step, the mobile phase contained in the column moves and interacts with the “old” stationary phase in the same mode as during the classical elution step; the “new” and “old” stationary phases do not mix; and after the contacting with the mobile phase the concentration of solutes in the “old” stationary phase remains constant and this stationary phase volume is pushed ahead to the exit of the column. Equations are presented allowing the simulation of the chromatogram of solutes eluted from the column with the mobile phase during the elution period and the chromatogram of solutes pushed out of the column with the stationary phase during the extrusion period of EECCC. These equations can help to choose the optimal conditions for conducting elution–extrusion counter-current chromatography.