Gas-Liquid Equilibrium Prediction of Ternary System (CO2-Ethanol-Water) at Moderate Pressures and Different Temperatures Using SRK-EOS

Ghazi F. Najmuldeen; Ghassan Jasim Hadi; Arkan Jasim Hadi; Iqbal Ahmed

Journal ArticleOPEN ACCESS

Gas-Liquid Equilibrium Prediction of Ternary System (CO2-Ethanol-Water) at Moderate Pressures and Different Temperatures Using SRK-EOS

F. Najmuldeen G
Jasim Hadi G
Jasim Hadi A
et al.

Physical Chemistry (2012) 2(1) 1-5

DOI: 10.5923/j.pc.20120201.01

N/ACitations

40Readers

Abstract

In this work, a thermodynamic model for the prediction of gas-liquid equilibrium at moderate pressures (up to 6 bar) and different temperatures (288-323 K) for the ternary system of carbon dioxide (1)-(2) mixture (ethanol-water) is established using Soave/Redlich/Kwong equation of state (SRK-EOS). Two different mixing rules were used to show the effect of the type of mixing rule. A comparison of experimental phase equilibrium data in the literature with the predicted results showed very good representation for one mixing rule and good for the other.

Cite

CITATION STYLE

APA

F. Najmuldeen, G., Jasim Hadi, G., Jasim Hadi, A., & Ahmed, I. (2012). Gas-Liquid Equilibrium Prediction of Ternary System (CO2-Ethanol-Water) at Moderate Pressures and Different Temperatures Using SRK-EOS. Physical Chemistry, 2(1), 1–5. https://doi.org/10.5923/j.pc.20120201.01

Gas-Liquid Equilibrium Prediction of Ternary System (CO2-Ethanol-Water) at Moderate Pressures and Different Temperatures Using SRK-EOS

Abstract

Cite

Register to see more suggestions