正十三烷固液平衡的相图(T - X和T - P)和热力学量的计算

IF 0.9 Q4 THERMODYNAMICS

International Journal of Thermodynamics Pub Date : 2023-07-28 DOI:10.5541/ijot.1267822

Özlem TARI İLGİN, H. Yurtseven

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引用次数: 1

摘要

利用朗道现象学模型计算相图和热力学量，研究了正三烷烃的固液平衡。用固相序参量展开自由能，将相线方程拟合到文献中T - X和T - P相图的实验数据中。利用该模型预测了n-三烷烃的热力学量(序参量ψ、磁化率χ_ψ、自由能F、热容C、熵S和焓H)与温度的关系。我们的结果表明，n-C13到n-C17的斜率dT / dP = 2 "K/MPa"。ψ随T变化为ψ~(T-T_m)^(1 / 2)大于T_m。它对于〖χ_ψ〗^(-1)、S(T)和C(T)是线性的，对于正十三烷中的F(T)和H(T)是二次的。这表明朗道模型能很好地描述正十三烷固液平衡相图的行为。热力学量的预测也可以与其他一些理论模型的测量和预测进行比较。压力的影响，特别是对正十三烷的固液平衡的影响，也可以在这里研究的模型下进行研究。

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Calculation of the Phase Diagrams (T – X and T – P) and the Thermodynamic Quantities for the Solid – Liquid Equilibria in n-tridecane

The solid – liquid equilibria in n-tridecane is investigated by calculating phase diagrams and the thermodynamic quantities using the Landau phenomenological model. By expanding the free energy in terms of the order parameter of the solid phase, the phase line equations are fitted to the experimental data for the T – X and T – P phase diagrams from the literature. The temperature dependences of the thermodynamic quantities (order parameter ψ, susceptibility χ_ψ, free energy F, the heat capacity C, entropy S and the enthalpy H) are predicted for the n-tridecane from this model. Our results give that the slope dT⁄dP≅2 "K/MPa" for n-C13 to n-C17. ψ varies with T as ψ~(T-T_m )^(1⁄2) above T_m. It is linear for the 〖χ_ψ〗^(-1), S(T) and C(T), and quadratic for the F(T) and H(T) in n-tridecane. This indicates that the Landau model, describes the observed behaviour of the phase diagrams satisfactorily for the solid – liquid equilibria in n-tridecane. Predictions of the thermodynamic quantities can also be compared with the measurements and predictions of some other theoretical models. The pressure effect, in particular, on the solid – liquid equilibria in n-tridecane can also be investigated under the model studied here.

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来源期刊

International Journal of Thermodynamics THERMODYNAMICS-

CiteScore

1.50

自引率

12.50%

发文量

期刊介绍： The purpose and scope of the International Journal of Thermodynamics is · to provide a forum for the publication of original theoretical and applied work in the field of thermodynamics as it relates to systems, states, processes, and both non-equilibrium and equilibrium phenomena at all temporal and spatial scales. · to provide a multidisciplinary and international platform for the dissemination to academia and industry of both scientific and engineering contributions, which touch upon a broad class of disciplines that are foundationally linked to thermodynamics and the methods and analyses derived there from. · to assess how both the first and particularly the second laws of thermodynamics touch upon these disciplines. · to highlight innovative & pioneer research in the field of thermodynamics in the following subjects (but not limited to the following, novel research in new areas are strongly suggested): o Entropy in thermodynamics and information theory. o Thermodynamics in process intensification. o Biothermodynamics (topics such as self-organization far from equilibrium etc.) o Thermodynamics of nonadditive systems. o Nonequilibrium thermal complex systems. o Sustainable design and thermodynamics. o Engineering thermodynamics. o Energy.