Transport properties of mixtures composed of acetone, water, and supercritical carbon dioxide by molecular dynamics simulation

Sohrevardi Nahid; Bozorgmehr Mohammad Reza; Heravi Mohammad Momen; Khanpour Mehrdad

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Transport properties of mixtures composed of acetone, water, and supercritical carbon dioxide by molecular dynamics simulation

机译：分子动力学模拟，由丙酮，水和超临界二氧化碳组成的混合物的运输特性

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Transport properties of various mixtures of supercritical carbon dioxide, acetone, and water at different concentrations are evaluated at temperatures 313.15 K and pressure 150 bar by molecular dynamics simulations. The results show that the self-diffusion (viscosity) coefficient is increased (decreased) for all various mixtures studied when the concentration of the acetone is increased. In addition, the densities of the mixtures will rise (lower), when the supercritical carbon dioxide (acetone) concentrations is increased. We have observed that the first peak heights of the radial distribution functions will rise at very low mole fraction of water (x(w) = 0.016) when the acetone and carbon dioxide concentrations are increasing, and hence the self-diffusion coefficients will decrease while its density and viscosity will increase.

机译：在313.15K温度和150bar压力下，通过分子动力学模拟评估了不同浓度的超临界二氧化碳、丙酮和水的各种混合物的输运性质。结果表明，随着丙酮浓度的增加，所研究的各种混合物的自扩散（粘度）系数都增加（减少）。此外，当超临界二氧化碳（丙酮）浓度增加时，混合物的密度将升高（降低）。我们已经观察到，当丙酮和二氧化碳浓度增加时，当水的摩尔分数非常低（x（w）=0.016）时，径向分布函数的第一峰高度将升高，因此自扩散系数将降低，而其密度和粘度将增加。

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来源
《The Journal of Supercritical Fluids》 |2017年第2017期|共6页
作者
Sohrevardi Nahid; Bozorgmehr Mohammad Reza; Heravi Mohammad Momen; Khanpour Mehrdad;
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作者单位

Islamic Azad Univ Mashhad Branch Dept Chem Mashhad Iran;

Islamic Azad Univ Mashhad Branch Dept Chem Mashhad Iran;

Islamic Azad Univ Mashhad Branch Dept Chem Mashhad Iran;

Islamic Azad Univ Ayatollah Amoli Branch Dept Chem Amol Iran;

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原文格式 PDF
正文语种 eng
中图分类元素及化合物的分离方法;理论物理学;
关键词
Supercritical carbon dioxide mixtures; Transport properties; Molecular dynamics;

机译：超临界二氧化碳混合物;运输特性;分子动力学;
入库时间 2022-08-20 19:17:01

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Transport properties of mixtures composed of acetone, water, and supercritical carbon dioxide by molecular dynamics simulation

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