广义范德华和贝特洛状态方程确定液态铅热力学稳定性的能力

A. Ramesh, R. Balasubramanian
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引用次数: 1

摘要

已知的范德华和贝特洛状态方程并不能精确地描述流体的热力学性质。为了提高范德华状态方程的准确性,对其吸引项进行了六种不同的修正。利用这些广义状态方程确定了铅液的旋量(热力学稳定边界)和过热度的热力学极限。将状态方程改写为简化形式,由此得出相应状态的规律。对状态方程的吸引项进行了适当的修正,得出的过热度热力学极限值与铅的实验值一致。已经确定液态铅可以过热,在快速加热下,温度可达4565 K。也就是说,液态铅可以过热到比正常沸点高2544k。在过热度的热力学极限下,液态铅的体积为4.0095 × 10-5 m3 mol-1。当液态铅受到快速加热时,必须考虑到这一事实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ability of the generalized van der Waals and Berthelot equations of state to determine the thermodynamic stability of liquid lead
The known van der Waals and Berthelot equations of state do-not precisely describe the thermodynamic properties of fluids. To improve its accuracy, the attractive term of the van der Waals equation of state has been modified in six different ways. These generalized equations of state have been employed to determine the spinodal (thermodynamic stability boundary) and the thermodynamic limit of superheat of liquid lead. The equations of state are rewritten in reduced form, from which follows the law of corresponding states. The appropriate modification of the attractive term of the equation of state yielding the value of thermodynamic limit of superheat agreeing with the experimental value for lead has been established. It has been established that liquid lead can be superheated, under rapid heating, up to a temperature 4565 K. That is, liquid lead can be superheated to 2544 K above the normal boiling temperature. At the thermodynamic limit of superheat, the volume of the liquid lead is 4.0095 × 10-5 m3 mol-1. This fact is to be taken into account when liquid lead is subjected to rapid heating.
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