文摘
Phase equilibrium calculations based on 150 n-alkane + aromatic and n-alkane + naphthenic hydrocarbon binary mixtures were performed. These calculations were compared with experimental measurements whenever possible, and additional measurements were made as part of this work. The widely used Peng鈥揜obinson (PR) and Soave鈥揜edlich鈥揔wong (SRK) equations of state are shown to predict nonphysical liquid鈥搇iquid phase behavior for long-chain n-alkane + aromatic and long-chain n-alkane + naphthenic hydrocarbon binary mixtures with standard pure-component parameters (Tc, Pc, 蠅). Incorrect phase behavior prediction is shown to be insensitive to the selection of correlations for estimating pure-component properties for n-alkanes that are not available from experimental data. For cubic equations of state, correct phase behaviors are obtained only when negative values of the binary interaction parameters (kij) are used. For PC-SAFT, a noncubic equation of state (with standard parameter values defining molecules and with binary interaction parameters set to zero), phase behaviors that are consistent with observed phase behaviors are obtained. However, below the melting temperature of at least one of the components, liquid鈥搇iquid phase behavior is predicted for some binary mixtures. The quality of liquid/vapor phase composition and dew and bubble pressure predictions from the cubic and PC-SAFT models was not evaluated. Measurement and phase behavior modeling outcomes are discussed.