Modeling of Surface Tension and Viscosity for Non-electrolyte Systems by Means of the Equation of State for Square-well Chain Fluids with Variable Interaction Range 被引量：1

Modeling of Surface Tension and Viscosity for Non-electrolyte Systems by Means of the Equation of State for Square-well Chain Fluids with Variable Interaction Range

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摘要 The equation of state(EOS)for square-well chain fluid with variable range(SWCF-VR) developed in our previous work based on statistical mechanical theory for chemical association is employed for the correlations of surface tension and viscosity of common fluids and ionic liquids(ILs).A model of surface tension for multi-component mixtures is presented by combining the SWCF-VR EOS and the scaled particle theory and used to produce the surface tension of binary and ternary mixtures.The predicted surface tensions are in excellent agreement with the experimental data with an overall average absolute relative deviation(AAD)of 0.36%.A method for the calculation of dynamic viscosity of common fluids and ILs at high pressure is presented by combining Eyring’s rate theory of viscosity and the SWCF-VR EOS.The calculated viscosities are in good agreement with the experimental data with the overall AAD of 1.44% for 14 fluids in 84 cases.The salient feature is that the molecular parameters used in these models are self-consistent and can be applied to calculate different thermodynamic properties such as pVT,vapor-liquid equilibrium,caloric properties,surface tension,and viscosity. The equation of state（EOS）for square-well chain fluid with variable range（SWCF-VR） developed in our previous work based on statistical mechanical theory for chemical association is employed for the correlations of surface tension and viscosity of common fluids and ionic liquids（ILs）.A model of surface tension for multi-component mixtures is presented by combining the SWCF-VR EOS and the scaled particle theory and used to produce the surface tension of binary and ternary mixtures.The predicted surface tensions are in excellent agreement with the experimental data with an overall average absolute relative deviation（AAD）of 0.36%.A method for the calculation of dynamic viscosity of common fluids and ILs at high pressure is presented by combining Eyring’s rate theory of viscosity and the SWCF-VR EOS.The calculated viscosities are in good agreement with the experimental data with the overall AAD of 1.44% for 14 fluids in 84 cases.The salient feature is that the molecular parameters used in these models are self-consistent and can be applied to calculate different thermodynamic properties such as pVT,vapor-liquid equilibrium,caloric properties,surface tension,and viscosity.

作者 LI Jinlong HE Changchun MA Jun PENG Changjun LIU Honglai HU Ying

机构地区 State Key Laboratory of Chemical Engineering and Department of Chemistry

出处《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2011年第4期533-542,共10页 中国化学工程学报（英文版）

基金 Supported by the National Natural Science Foundation of China （20776040 20876041 20736002） the National Basic Research Program of China （2009CB219902） the Program for Changjiang Scholars and Innovative Research Team in University of China （Grant IRT0721） the 111 Project （Grant B08021） of China

关键词 surface tension VISCOSITY equation of state square-well chain scaled particle theory Eyring’s theory ionic liquid 表面张力动态粘度状态方程流体相互作用非电解质建模系统

分类号 O647.1 [理学—物理化学] TQ327.8 [理学—化学]

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Chinese Journal of Chemical Engineering

2011年第4期

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