Liquid-liquid equilibria of water-hydrocarbon systems from cubic equations of state

Kh Nasrifar; M. Moshfeghian

doi:10.1016/S0378-3812(01)00743-9

Liquid-liquid equilibria of water-hydrocarbon systems from cubic equations of state

Kh Nasrifar, M. Moshfeghian^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

24 Citations (Scopus)

Abstract

Using a new mixing rule, mutual solubility of water-hydrocarbon systems is calculated with three cubic equations of state (EOS). Based on the van der Waals' mixing rule for the a-parameter of the cubic EOS, a new mixing rule is developed for considering the hydrophobic interactions in the water-rich phase. This mixing rule is not quadratic; hence it does not satisfy the low density boundary condition. However, when it is used with the cubic EOS, the quantitative description of the mutual solubility of hydrocarbons and water is quite satisfactory for a wide range of temperature. For each binary water-hydrocarbon system, three or four binary parameters are required to represent the liquid-liquid equilibria. The average absolute error for calculating water solubility or hydrocarbon solubility is within 7%.

Original language	English
Pages (from-to)	261-275
Number of pages	15
Journal	Fluid Phase Equilibria
Volume	193
Issue number	1-2
DOIs	https://doi.org/10.1016/S0378-3812(01)00743-9
Publication status	Published - Jan 30 2002
Externally published	Yes

Keywords

Cubic equation of state
Hydrocarbon solubility
Mixing rule
Water solubility

ASJC Scopus subject areas

General Chemical Engineering
General Physics and Astronomy
Physical and Theoretical Chemistry

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10.1016/S0378-3812(01)00743-9

Cite this

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abstract = "Using a new mixing rule, mutual solubility of water-hydrocarbon systems is calculated with three cubic equations of state (EOS). Based on the van der Waals' mixing rule for the a-parameter of the cubic EOS, a new mixing rule is developed for considering the hydrophobic interactions in the water-rich phase. This mixing rule is not quadratic; hence it does not satisfy the low density boundary condition. However, when it is used with the cubic EOS, the quantitative description of the mutual solubility of hydrocarbons and water is quite satisfactory for a wide range of temperature. For each binary water-hydrocarbon system, three or four binary parameters are required to represent the liquid-liquid equilibria. The average absolute error for calculating water solubility or hydrocarbon solubility is within 7%.",

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AU - Moshfeghian, M.

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AB - Using a new mixing rule, mutual solubility of water-hydrocarbon systems is calculated with three cubic equations of state (EOS). Based on the van der Waals' mixing rule for the a-parameter of the cubic EOS, a new mixing rule is developed for considering the hydrophobic interactions in the water-rich phase. This mixing rule is not quadratic; hence it does not satisfy the low density boundary condition. However, when it is used with the cubic EOS, the quantitative description of the mutual solubility of hydrocarbons and water is quite satisfactory for a wide range of temperature. For each binary water-hydrocarbon system, three or four binary parameters are required to represent the liquid-liquid equilibria. The average absolute error for calculating water solubility or hydrocarbon solubility is within 7%.

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KW - Mixing rule

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Liquid-liquid equilibria of water-hydrocarbon systems from cubic equations of state

Abstract

Keywords

ASJC Scopus subject areas

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