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“Vapor-liquid” equilibrium measurements and modeling for the cyclohexane + n-hexanoic acid binary system |
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| Authors: | Alain ValtzChien-Bin Soo Christophe Coquelet Dominique RichonDaniel Amoros Hubert Gayet |
| Affiliation: | a MINES ParisTech, CEP/TEP - Centre Energétique et Procédés, 35 Rue Saint Honoré, 77305 Fontainebleau Cedex, France b Thermodynamics Research Unit, School of Chemical Engineering, University of KwaZulu-Natal, Howard College Campus, Durban, South Africa c Rhodia, Centre de Recherches et Technologies de Lyon, 85 avenue des Frères Perret, BP62, 69192 Saint-Fons Cedex, France |
| Abstract: | To simulate cyclohexane to cyclohexanol oxidation reactors, the acquisition and modeling of vapor-liquid equilibria of the key components, under the process conditions, are essential. n-Hexanoic acid is a co-product of the reaction. Vapor-liquid equilibrium data are reported for the cyclohexane + n-hexanoic acid binary system at four temperatures: 413, 423, 464 and 484 K. All measurements have been carried out using an apparatus based on the “static-analytic” method, with two ROLSI™ pneumatic capillary samplers. The generated data are successfully correlated using two equations of state, the Peng-Robinson (PR) and the Perturbed Chain Statistical Association Fluid Theory (PC-SAFT). Both models are capable of representing the experimental data, but the PC-SAFT EoS uses less binary interaction parameters. |
| Keywords: | &ldquo Vapor-liquid&rdquo equilibrium data &ldquo Static-analytic&rdquo method High-pressure Cyclohexane n-Hexanoic acid Equation of states PC-SAFT PR-EoS |
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