Calculation of the Thermodynamic Quantities for Cubic Gauche Nitrogen (cg-N)

IF 0.9 Q4 THERMODYNAMICS International Journal of Thermodynamics Pub Date : 2022-08-01 DOI:10.5541/ijot.1085553

H. Yurtseven, Ö. Akay

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Abstract

This work aims to investigate the thermodynamic properties of the cubic gauge nitrogen (cg-N) by calculating the relevant thermodynamic quantities as a functions of temperature and pressure. The thermodynamic quantities of volume (V), thermal expansion (αp), isothermal compressibility (κT), bulk modulus(B), and the heat capacity (Cp) are calculated as a function of temperature at constants pressures (0, 35, 125, 250 GPa) for the cg-N structure. Also, the pressure dependences of V, κT, αp, Cp and γ (macroscopic Grüneisen parameter) are predicted at T= 295 K for this structure. This calculation is caried out by the thermodynamic relations using some literature data. From our calculations, we find that the κT, αp and also B exhibit anomalous behavior as the temperature lowers below about 100 K at constant pressures studied. This is an indication that cg-N transforms to a solid phase at low temperatures (below about 100 K). Experimental measurements can examine this prediction when available in the literature for the cg-N phase. Also, our predictions of the κT, αp, Cp and γ at various pressures (T= 295 K) can be examined experimentally for the cg-N phase. This calculation method can be applied to some other structures.

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立方计量氮（cg-N）热力学量的计算

本工作旨在通过计算作为温度和压力函数的相关热力学量来研究立方表压氮（cg-N）的热力学性质。对于cg-N结构，体积（V）、热膨胀（αp）、等温压缩性（κT）、体积模量（B）和热容（Cp）的热力学量被计算为恒定压力（0、35、125、250GPa）下温度的函数。此外，在T=295K时，预测了该结构的V、κT、αp、Cp和γ（宏观Grüneisen参数）的压力依赖性。该计算是利用一些文献资料，通过热力学关系式进行的。根据我们的计算，我们发现κT、αp和B在所研究的恒定压力下，当温度降至约100K以下时，表现出异常行为。这表明cg-N在低温（低于约100K）下转变为固相。当cg-N相的文献中可用时，实验测量可以检验这种预测。此外，我们对不同压力（T=295K）下的κT、αp、Cp和γ的预测可以通过实验对cg-N相进行检验。这种计算方法可以应用于其他一些结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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.