Supercritical Phase Equilibria Modeling of Glyceride Mixtures and Carbon Dioxide Using the Group Contribution EoS

Journal of Thermodynamics Pub Date : 2011-10-09 DOI:10.1155/2011/730960

T. Fornari, D. Tenllado, C. Torres, G. Reglero

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引用次数: 5

Abstract

The Group Contribution Equation of State (GC-EoS) was extended to represent high-pressure phase equilibria behavior of mixtures containing mono-, di-, triglycerides, and carbon dioxide (CO2). For this purpose, the alcohol-ester and the alcohol-triglyceride binary group interaction parameters were regressed in this work, using experimental phase equilibria data from the literature. The capability of the parameters obtained was assessed by applying the GC-EoS model to simulate the supercritical CO2 fractionation of a complex glyceride mixture, which was produced by the ethanolysis of sunflower oil. Experimental data was obtained in a countercurrent packed extraction column at pressures ranging from 16 to 25 MPa and temperatures from 313 to 368 K. The GC-EoS model was applied in a completely predictive manner to simulate the phase equilibria behavior of the multistage separation process. The chemical analysis of the glyceride mixture allowed a significant simplification of its complex composition and thus, a simple and satisfactory simulation of the supercritical extraction process was achieved.

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甘油混合物和二氧化碳的超临界相平衡模型使用基团贡献EoS

将基团贡献状态方程(GC-EoS)扩展到含有一、二、甘油三酯和二氧化碳(CO2)的混合物的高压相平衡行为。为此，本研究使用文献中的实验相平衡数据，对醇-酯和醇-甘油三酯二元基相互作用参数进行了回归。利用GC-EoS模型模拟了葵花籽油乙醇解制备的复杂甘油混合物的超临界CO2分馏过程，对所得参数的性能进行了评价。实验数据在逆流填充萃取塔中获得，压力范围为16 ~ 25 MPa，温度范围为313 ~ 368 K。GC-EoS模型以完全预测的方式模拟了多段分离过程的相平衡行为。对甘油混合物的化学分析使其复杂的组成得到了显著的简化，从而实现了超临界萃取过程的简单而令人满意的模拟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Thermodynamics

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