TY - JOUR
T1 - Estimation of liquid-liquid-vapor equilibria using predictive EOS models. 1. Carbon dioxide-n-alkanes
AU - Polishuk, Ilya
AU - Wisniak, Jaime
AU - Segura, Hugo
PY - 2003/2/27
Y1 - 2003/2/27
N2 - This study looks for the first time at the possibility of predicting liquid-liquid-vapor equilibria without preliminary resource to experimental data. For this purpose, the two most successful GE-based semipredictive models (PSRK and LCVM) and the global phase diagram (klGPD)-based semi-predictive approach (GPDA) have been implemented and compared. Although GE-based models require a significant amount of experimental data for evaluation of their parameters and prediction of the equilibrium, GPDA needs no more that 2-3 key experimental points. The superiority of GPDA, which considers the entire thermodynamic phase space, over the GE-based models, which are based on the fit of VLE data, is clearly demonstrated. Although the GE-based models fail to predict global phase behavior and to describe three-phase data accurately, GPDA yields exact predictions of the global phase behavior and accurate estimations of the composition and density of the vapor and the CO2-rich phases. In addition, it is accurate in describing the P-T projection of three-phase lines. All of the models considered are unable to predict the hydrocarbon-rich phase accurately. Presently, this problem cannot be solved without violating the predictive character of the model.
AB - This study looks for the first time at the possibility of predicting liquid-liquid-vapor equilibria without preliminary resource to experimental data. For this purpose, the two most successful GE-based semipredictive models (PSRK and LCVM) and the global phase diagram (klGPD)-based semi-predictive approach (GPDA) have been implemented and compared. Although GE-based models require a significant amount of experimental data for evaluation of their parameters and prediction of the equilibrium, GPDA needs no more that 2-3 key experimental points. The superiority of GPDA, which considers the entire thermodynamic phase space, over the GE-based models, which are based on the fit of VLE data, is clearly demonstrated. Although the GE-based models fail to predict global phase behavior and to describe three-phase data accurately, GPDA yields exact predictions of the global phase behavior and accurate estimations of the composition and density of the vapor and the CO2-rich phases. In addition, it is accurate in describing the P-T projection of three-phase lines. All of the models considered are unable to predict the hydrocarbon-rich phase accurately. Presently, this problem cannot be solved without violating the predictive character of the model.
UR - http://www.scopus.com/inward/record.url?scp=0037468156&partnerID=8YFLogxK
U2 - 10.1021/jp0219101
DO - 10.1021/jp0219101
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AN - SCOPUS:0037468156
SN - 1089-5647
VL - 107
SP - 1864
EP - 1874
JO - Journal of Physical Chemistry B
JF - Journal of Physical Chemistry B
IS - 8
ER -