Prediction of critical transitions of ternary mixtures containing ammonia and n-alkanes
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The analysis of the critical transitions that occur in ternary mixtures is important to describe their physical behavior. It also enables the phase behavior of multi-component mixtures at high temperatures to be inferred. The objective of this work was to identify the critical transitions that occur in ternary mixtures containing ammonia and n-alkane. The mixture%27s critical loci were obtained and tested for stability using thermodynamic criteria expressed in terms of the Helmholtz free energy. Two equations of state were used to represent the Helmholtz free energy: the Carnahan-Starling-Redlich-Kwong (CSRK) and the Simplified Perturbed Hard Chain Theory (SPHCT). In order to identify the existing critical transitions, profiles of the critical loci were calculated along constant compositional ratios χ = x1 / x2. Some of the curves depict higher order critical transitions between liquid-liquid and gas-liquid critical point regions, or two different liquid-liquid critical regions. One of the critical transitions found could be considered as a new sub-class within existing classifications for ternary mixtures proposed by Sadus [R.J. Sadus, J. Phys. Chem. 96 (1992) 5197-5202]. © 2009 Elsevier B.V. All rights reserved.
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The analysis of the critical transitions that occur in ternary mixtures is important to describe their physical behavior. It also enables the phase behavior of multi-component mixtures at high temperatures to be inferred. The objective of this work was to identify the critical transitions that occur in ternary mixtures containing ammonia and n-alkane. The mixture's critical loci were obtained and tested for stability using thermodynamic criteria expressed in terms of the Helmholtz free energy. Two equations of state were used to represent the Helmholtz free energy: the Carnahan-Starling-Redlich-Kwong (CSRK) and the Simplified Perturbed Hard Chain Theory (SPHCT). In order to identify the existing critical transitions, profiles of the critical loci were calculated along constant compositional ratios χ = x1 / x2. Some of the curves depict higher order critical transitions between liquid-liquid and gas-liquid critical point regions, or two different liquid-liquid critical regions. One of the critical transitions found could be considered as a new sub-class within existing classifications for ternary mixtures proposed by Sadus [R.J. Sadus, J. Phys. Chem. 96 (1992) 5197-5202]. © 2009 Elsevier B.V. All rights reserved.
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Equations of state; Gas-liquid equilibrium; Liquid-liquid equilibrium; Mixture critical points; Ternary mixtures Compositional ratios; Critical locus; Critical points; Critical regions; Gas-liquid equilibrium; Helmholtz free energies; High temperatures; Higher orders; Liquid liquids; Liquid-liquid equilibrium; Mixture critical points; Multi-component mixtures; N alkanes; Physical behaviors; Redlich-Kwong; Simplified perturbed hard chain theories; Ternary mixtures; Ammonia; Binary mixtures; Equations of state of gases; Free energy; Liquids; Paraffins; Stability criteria; Thermodynamic stability; Equations of state of liquids
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