基于 VLE 测量以及 CP-PC-SAFT 和 mg-SAFT 状态方程建模的丙烷 + 邻甲苯胺二元体系在纯溶剂临界点附近的部分摩尔和微观结构特性

IF 2.2 3区工程技术 Q3 CHEMISTRY, PHYSICAL

Journal of Chemical Thermodynamics Pub Date : 2024-09-28 DOI:10.1016/j.jct.2024.107395

Ilnar Sh. Khabriev , Vener F. Khairutdinov , Talgat R. Akhmetzyanov , Gabitov I. Radifovich , Ilya Polishuk , Ilmutdin M. Abdulagatov

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引用次数: 0

摘要

在平衡条件下，通过流体相取样的静态分析方法测量了二元超临界（SC）C3H8 + 邻甲苯胺混合物的等温 VLE 特性（PTxy 关系）。测量在三个温度（393.15、433.15 和 473.15）K 和高达 10.41 MPa 的压力下进行。实验用 VLE 仪器（高温高压光学池）测量了二元 SC C3H8 + 邻甲苯胺混合物的相平衡特性 (PTxy)。在 0.95 置信度（覆盖因子为 k = 2）下，温度、压力和相浓度测量的绝对和相对不确定度的综合扩展值分别为 0.15 K、0.5 %、4.2 %（x）和 4.8 %（y）。临界曲线数据、TC-x、PC-x 和 PC- TC 预测值是根据测量的 VLE 数据推导出来的。测量的 VLE 和推导的临界曲线数据用于估算克里切夫斯基参数 ∂P∂xTCVC∞的理论重要性和物理意义。根据推导出的克里切夫斯基参数和纯溶剂（SC C3H8）特性，计算了无限稀释的 C3H8 + 邻甲苯胺混合物在纯溶剂（C3H8）临界点附近的热力学特性（部分摩尔特性 V¯2∞、H¯2∞、C¯P2∞ 和分布平衡常数 KD）和微观结构特性（团簇尺寸 Nexc∞）。CP-PC-SAFT 和 mg-SAFT 状态方程 (EoS)（相互作用参数为零：k12 = 0）这两种模型（纯预测模型，无可调参数）都成功地应用于目前 SC C3H8 + 邻甲苯胺混合物的 PTxy 相平衡。C3H8 + 邻甲苯胺体系的当前测量 VLE 数据以及所报告的纯丙烷和邻甲苯胺的纯化合物特性被用来检验基于理论的 CP-PC-SAFT 和 mg-SAFT EoS 模型的预测能力。结果表明，mg-SAFT 在预测 k12 = 0 时 C3H8 + 邻甲苯胺体系的 VLE 方面更胜一筹。

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Partial molar and microstructural properties of binary propane + o-toluidine system near the critical point of pure solvent based on the VLE measurements and modeling with CP-PC-SAFT and mg-SAFT equation of states

The isothermal VLE properties (PTxy relationship) of a binary supercritical (SC) C₃H₈ + o-toluidine mixture was measured by means of static-analytic method with fluid phase sampling at equilibrium conditions. The measurements were made at three temperatures of (393.15, 433.15, and 473.15) K and pressures up to 10.41 MPa. An experimental VLE apparatus, a high-temperature and high-pressure optical cell, has been used to measure the phase equilibrium properties (PTxy) of the binary SC C₃H₈ + o-toluidine mixture. The combined expanded absolute and relative uncertainties of the temperature, pressure, and the phase concentration measurements at 0.95 confidence level with a coverage factor of k = 2 is estimated at 0.15 K, 0.5 %, 4.2 % (for x) and 4.8 % (for y), respectively. The critical curve data,

T_{C}

−

x

P_{C}

x

, and

P_{C}

−

T_{C}

projections, have been derived based on the measured VLE data. The measured VLE and the derived critical curve data were used to estimate the theoretically important and physical meaning of Krichevskii parameter,

{(\frac{\partial P}{\partial x})}_{T_{C} V_{C}}^{\infty}

. Thermodynamic (partial molar properties,

{\bar{V}}_{2}^{\infty}, {\bar{H}}_{2}^{\infty}, {\bar{C}}_{P 2}^{\infty}

, and distribution equilibrium constant

K_{D}

), and microstructural (cluster’s size,

N_{exc}^{\infty}

) properties of infinite-dilute C₃H₈ + o-toluidine mixture near the critical point of pure solvent (C₃H₈) were calculated based on the derived Krichevskii parameter and pure solvent (SC C₃H₈) properties. CP-PC-SAFT and mg-SAFT equation of state (EoS), with zero interaction parameter,

k_{12}

= 0, for both models (pure prediction models, no adjustable parameters) were successfully applied to the present PTxy phase equilibria for the SC C₃H₈ + o-toluidine mixture. The present measured VLE data for C₃H₈ + o-toluidine system along with the reported pure compound properties of pure propane and o-toluidine have been used to examine the predictive capabilities of the theoretically based CP-PC-SAFT and mg-SAFT models of EoS. It was demonstrated that mg-SAFT is superior in predicting VLE of the C₃H₈ + o-toluidine system with

k_{12}

= 0.

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来源期刊

Journal of Chemical Thermodynamics 工程技术-热力学

CiteScore

5.60

自引率

15.40%

发文量

199

审稿时长

79 days

期刊介绍： The Journal of Chemical Thermodynamics exists primarily for dissemination of significant new knowledge in experimental equilibrium thermodynamics and transport properties of chemical systems. The defining attributes of The Journal are the quality and relevance of the papers published. The Journal publishes work relating to gases, liquids, solids, polymers, mixtures, solutions and interfaces. Studies on systems with variability, such as biological or bio-based materials, gas hydrates, among others, will also be considered provided these are well characterized and reproducible where possible. Experimental methods should be described in sufficient detail to allow critical assessment of the accuracy claimed. Authors are encouraged to provide physical or chemical interpretations of the results. Articles can contain modelling sections providing representations of data or molecular insights into the properties or transformations studied. Theoretical papers on chemical thermodynamics using molecular theory or modelling are also considered. The Journal welcomes review articles in the field of chemical thermodynamics but prospective authors should first consult one of the Editors concerning the suitability of the proposed review. Contributions of a routine nature or reporting on uncharacterised materials are not accepted.