TY - JOUR SN - 03783812 EP - 119 AV - none SP - 111 TI - Effect of pressure on the solid-liquid equilibria of synthetic paraffin mixtures using predictive methods N1 - cited By 23 Y1 - 2011/// VL - 310 UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-80053384350&doi=10.1016%2fj.fluid.2011.08.005&partnerID=40&md5=6b0101e19e4f7abc59b744eee4e553f9 JF - Fluid Phase Equilibria A1 - Nasrifar, K. A1 - Fani Kheshty, M. KW - Clapeyron equations; Cubic equation of state; Developed model; Effect of pressure; Equation of state; Experimental data; Liquid Phase; Low-to-high; Multicomponents; Predictive methods; Pressure dependence; Solid liquid equilibrium; Solid-phase; UNIQUAC; Wax formation KW - Binary mixtures; Equations of state of liquids; Liquids; Paraffin waxes; Paraffins; Phase equilibria; Ternary systems KW - Pressure effects ID - scholars1805 IS - 1-2 N2 - The solid-liquid equilibria of paraffin mixtures are studied from low to high pressures. The liquid phase is described by a cubic equation of state. The solid phase is described by solid UNIQUAC and a pressure dependence term resulted from Clapeyron equation. The developed model accurately predicts the wax disappearance temperature of pure, binary and multicomponent paraffin mixtures for wide ranges of temperature, pressure and composition. Further, the model reasonably predicts the amount of wax precipitated and wax composition from low to high temperatures and at any pressure. When compared to other models, the developed model is in better agreement with experimental data in predicting wax disappearance temperature. In predicting wax deposit and composition, the developed model is similar to the well-known models in the literature. © 2011 Elsevier B.V. ER -