A study on thermophysical properties of binary mixtures of n-hexane with benzene and some alkyl-substituted benzenes within temperature range (293.15–323.15) K: Experimental and modeling approach

IF 2.8 3区 工程技术 Q3 CHEMISTRY, PHYSICAL Fluid Phase Equilibria Pub Date : 2024-05-23 DOI:10.1016/j.fluid.2024.114129
Fisnik Aliaj , Ariel Hernández , Rozafa Krasniqi , Verona Elshani , Naim Syla , Miranda Misini , Arbër Zeqiraj
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Abstract

The current work reports densities and sound speeds, and related thermodynamic excess properties, namely excess molar volumes and excess isentropic compressibilities, measured at temperatures from (293.15 to 323.15) K and under atmospheric pressure conditions for binary mixtures of n-hexane with benzene, toluene, ethylbenzene, o-xylene, m-xylene, and p-xylene. Redlich-Kister polynomial correlated the thermodynamic excess properties to test the quality of experimental data. Excess properties contributed to understanding molecular interactions between involved molecules and the peculiarities of their packing in the mixture. The Jouyban-Acree model was used to correlate the mixtures' experimental densities, sound speeds, and their related derived properties, namely isobaric thermal expansivities and isentropic compressibilities. The average absolute percentage deviation of the correlated values from the experimental ones was better than 0.036 %, 0.058 %, 0.040 %, and 0.146 % for density, sound speed, isobaric thermal expansivity, and isentropic compressibility, respectively, attesting to the robustness of the Jouyban-Acree correlations. Additionally, the Perturbed Chain Statistical Associating Fluid Theory Equation of State modeled the densities of the current mixtures. Schaaff's Collision Factor Theory and Nomoto's relation were compared for their ability to model the sound speeds of the mixtures. The efficacy of these models was tested by computing the average absolute percentage deviations between experimental and computed values. The modeled densities are reasonably concordant with experimental data, with an overall deviation of 0.02 %. Notably, Nomoto's relation exhibited superior performance over Schaaff's theory in modeling sound speeds of current mixtures, with an overall deviation of 0.33 %. The current findings underline the efficacy and versatility of the used models for thermodynamic modeling in systems of varying complexity.

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正己烷与苯和一些烷基取代苯的二元混合物在温度范围(293.15-323.15)K 内的热物理性质研究:实验和建模方法
本研究报告了正己烷与苯、甲苯、乙苯、邻二甲苯、间二甲苯和对二甲苯的二元混合物在开氏 293.15 至 323.15 度和常压条件下测得的密度和声速,以及相关的热力学过量特性,即过量摩尔体积和过量等熵压缩率。Redlich-Kister 多项式与热力学过剩特性相关联,以检验实验数据的质量。过量特性有助于了解相关分子之间的相互作用以及它们在混合物中的堆积特性。Jouyban-Acree 模型用于关联混合物的实验密度、声速及其相关衍生特性,即等压热膨胀率和等熵压缩率。就密度、声速、等压热膨胀率和等熵压缩率而言,相关值与实验值的平均绝对百分比偏差分别优于 0.036 %、0.058 %、0.040 % 和 0.146 %,这证明了 Jouyban-Acree 相关性的稳健性。此外,扰动链统计关联流体理论状态方程对当前混合物的密度进行了建模。比较了 Schaaff 碰撞因子理论和 Nomoto 关系对混合物声速建模的能力。通过计算实验值与计算值之间的平均绝对百分比偏差,检验了这些模型的有效性。模型密度与实验数据相当吻合,总体偏差为 0.02%。值得注意的是,在模拟当前混合物的声速时,Nomoto 关系比 Schaaff 理论表现出更优越的性能,总体偏差为 0.33%。目前的研究结果凸显了所使用模型在不同复杂程度系统的热力学建模中的有效性和多功能性。
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来源期刊
Fluid Phase Equilibria
Fluid Phase Equilibria 工程技术-工程:化工
CiteScore
5.30
自引率
15.40%
发文量
223
审稿时长
53 days
期刊介绍: Fluid Phase Equilibria publishes high-quality papers dealing with experimental, theoretical, and applied research related to equilibrium and transport properties of fluids, solids, and interfaces. Subjects of interest include physical/phase and chemical equilibria; equilibrium and nonequilibrium thermophysical properties; fundamental thermodynamic relations; and stability. The systems central to the journal include pure substances and mixtures of organic and inorganic materials, including polymers, biochemicals, and surfactants with sufficient characterization of composition and purity for the results to be reproduced. Alloys are of interest only when thermodynamic studies are included, purely material studies will not be considered. In all cases, authors are expected to provide physical or chemical interpretations of the results. Experimental research can include measurements under all conditions of temperature, pressure, and composition, including critical and supercritical. Measurements are to be associated with systems and conditions of fundamental or applied interest, and may not be only a collection of routine data, such as physical property or solubility measurements at limited pressures and temperatures close to ambient, or surfactant studies focussed strictly on micellisation or micelle structure. Papers reporting common data must be accompanied by new physical insights and/or contemporary or new theory or techniques.
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