Title of article
Molecular models for 267 binary mixtures validated by vapor–liquid equilibria: A systematic approach
Author/Authors
Vrabec، نويسنده , , Jadran and Huang، نويسنده , , Yow-lin and Hasse، نويسنده , , Hans، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
16
From page
120
To page
135
Abstract
By assessing a large number of binary systems, it is shown that molecular modeling is a reliable and robust route to vapor–liquid equilibria (VLE) of mixtures. A set of simple molecular models for 78 pure substances from prior work is taken to systematically describe all 267 binary mixtures of these components for which relevant experimental VLE data is available. The mixture models are based on the modified Lorentz–Berthelot combining rule. Per binary system, one state independent binary interaction parameter in the energy term is adjusted to a single experimental vapor pressure. The unlike energy parameter is altered usually by less than 5% from the Berthelot rule. The mixture models are validated regarding the vapor pressure at other state points and also regarding the dew point composition, which is a fully predictive property in this work. In almost all cases, the molecular models give excellent predictions of the mixture properties.
Keywords
Unlike interaction , Vapor–liquid equilibrium , Molecular model , Mixture
Journal title
Fluid Phase Equilibria
Serial Year
2009
Journal title
Fluid Phase Equilibria
Record number
1987426
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