Enrichment at Vapour–liquid Interfaces of Mixtures: Establishing a Link between Nanoscopic and Macroscopic Properties

Abstract: Component density profiles at vapour–liquid interfaces of mixtures can exhibit a non-monotonic behaviour with a maximum that can be many times larger than the densities in the bulk phases. This is called enrichment and is usually only observed for low-boiling components. The enrichment is a nanoscopic property which can presently not be measured experimentally – in contrast to the classical Gibbs adsorption. The available information on the enrichment stems from molecular simulations, density gradient theory, … Show more

“…Results from equilibrium molecular thermodynamics show an enrichment of low-boiling components at vapour-liquid interfaces for many mixtures [46][47][48][49][50][51][52][53][54][55][56][57][58][59][60][61][62][63][64][65]. This enrichment is predicted consistently by molecular simulations, i.e.…”

“…This enrichment is predicted consistently by molecular simulations, i.e. Monte Carlo (MC) or molecular dynamics (MD) simulations, as well as density gradient theory (DGT) [46,47,52,53,[66][67][68]. Since the enrichment is a nanoscopic effect at fluctuating fluid interfaces, currently no experimental methods are available to study it directly.…”

“…The developed simulation scenario is tested using simple Lennard-Jones model mixtures. In these tests, we address a current topic: the influence of the enrichment of components at the vapour-liquid interface on the mass transfer [46].…”

Mass Transfer through Vapour–liquid Interfaces: a Molecular Dynamics Simulation Study

“…Results from equilibrium molecular thermodynamics show an enrichment of low-boiling components at vapour-liquid interfaces for many mixtures [46][47][48][49][50][51][52][53][54][55][56][57][58][59][60][61][62][63][64][65]. This enrichment is predicted consistently by molecular simulations, i.e.…”

“…This enrichment is predicted consistently by molecular simulations, i.e. Monte Carlo (MC) or molecular dynamics (MD) simulations, as well as density gradient theory (DGT) [46,47,52,53,[66][67][68]. Since the enrichment is a nanoscopic effect at fluctuating fluid interfaces, currently no experimental methods are available to study it directly.…”

“…The developed simulation scenario is tested using simple Lennard-Jones model mixtures. In these tests, we address a current topic: the influence of the enrichment of components at the vapour-liquid interface on the mass transfer [46].…”

Mass Transfer through Vapour–liquid Interfaces: a Molecular Dynamics Simulation Study