A multi-component drop evaporation model based on analytical solution of Stefan–Maxwell equations

“…Equation 54could be formulated in terms of molar rather than mass fluxes [82]. The latter equation could be solved under the assumption that the molar density of the mixture does not depend on the distance from the droplet surface.…”

“…The latter equation could be solved under the assumption that the molar density of the mixture does not depend on the distance from the droplet surface. The solution to this equation would be rather similar to (61) and (62) and its explicit form was given in [82]. These two equations and their solutions predict slightly different evaporation rates since the conditions of constant total mass density and constant molar density of the mixture are not equivalent.…”

“…The authors of [84,85,86,82] drew attention to the fact that more accurate description of multi-component diffusion, compared with Equation 54, should be based on the Maxwell-Stefan equations. Ignoring the Soret effects, diffusion due to pressure gradients and external forces, these equations can be presented as [87,82]:…”

Droplets and Sprays

“…Equation 54could be formulated in terms of molar rather than mass fluxes [82]. The latter equation could be solved under the assumption that the molar density of the mixture does not depend on the distance from the droplet surface.…”

“…The latter equation could be solved under the assumption that the molar density of the mixture does not depend on the distance from the droplet surface. The solution to this equation would be rather similar to (61) and (62) and its explicit form was given in [82]. These two equations and their solutions predict slightly different evaporation rates since the conditions of constant total mass density and constant molar density of the mixture are not equivalent.…”

“…The authors of [84,85,86,82] drew attention to the fact that more accurate description of multi-component diffusion, compared with Equation 54, should be based on the Maxwell-Stefan equations. Ignoring the Soret effects, diffusion due to pressure gradients and external forces, these equations can be presented as [87,82]:…”

Droplets and Sprays

“…Lohse (2016) also highlighted the importance of their result for various applications in chemical technology, and in particular towards controlled liquid-liquid micro-extraction. Although the present study addresses the multicomponent droplet dissolution in a bulk liquid, our system shares similarity with the evaporation of a sessile droplet in air or the dissolution of a sessile droplet in another liquid, which further enhances the relevance of this study (Kneer et al 1993;Tamim & Hallett 1995;Brenn et al 2007;Dietrich et al 2016;Tonini & Cossali 2016).…”

Molecular dynamics study of multicomponent droplet dissolution in a sparingly miscible liquid

“…Lohse [26] also highlighted the importance of their result for various applications in chemical technology and in particular towards controlled liquid-liquid micro-extraction. Although the present study addresses the multicomponent droplet dissolution in a bulk liquid, our system shares similarity with the evaporation of a sessile droplet in air or the dissolution of a sessile droplet in another liquid, which further enhances the relevance of this study [68,[137][138][139][140].…”

Molecular dynamics simulations of Nanobubbles and Nanodrops