CaCl2 熔盐局部结构和物理化学特性的分子动力学模拟

IF 1.6 4区 工程技术 Q3 Chemical Engineering
Hui Li, Xuexue Wei, J. Liang, Weigang Cao, Zongying Cai, Yu Yang
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引用次数: 0

摘要

CaCl2 熔盐作为熔盐电解过程中常用的电解质,具有较高的分解电位和较强的结合 O2- 的能力。因此,研究 CaCl2 的结构和性质对熔盐电解具有重要意义。本文采用分子动力学模拟(MD)方法研究了 CaCl2 熔盐的局部结构和理化性质随温度的变化规律。结果表明,温度对异质离子对的影响较小,而对同质离子对的影响较大。随着温度的升高,离子对之间的相互作用减弱,配位数减少,局部结构发生微小变化,结构构型趋向于带有空位的不规则八面体结构。计算得到的自扩散系数、粘度和离子电导率与实际情况相符,但由于 Ca2+ 的极化效应较强,密度与实际情况相比存在较大误差。局部结构直接决定了熔盐的热力学性质。该研究促进了含碱土金属熔盐的基础理论研究,对熔盐电解过程的研究具有重要的参考价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular dynamics simulations of the local structure and physicochemical properties of CaCl2 molten salt
CaCl2 molten salt, as a common electrolyte in the process of molten salt electrolysis, has a high decomposition potential and a strong ability to bind O2−. So the study of the structure and properties of CaCl2 is significant for the molten salt electrolysis. In this paper, molecular dynamics simulations (MD) method was used to investigate the variation rule of the local structure and physicochemical properties of CaCl2 molten salt with temperature. The results show that the temperature has less effect on the heterozygous ion pairs and more effect on the homozygous ion pair. With the increase of temperature, the interaction between ion pairs is weakened, the coordination number decreases, the local structure changes a little, and the structural configuration tends to be an irregular octahedral structure with vacancies. The calculated self-diffusion coefficients, viscosities, and ionic conductivities are consistent well with the reality, but there is a significant error in densities due to the strong polarization effect of Ca2+ compared to the reality. The local structure directly determines the thermodynamic properties of the molten salts. This study promotes the basic theoretical research on alkaline earth metal-containing molten salts and is an important reference for the study of molten salt electrolysis process.
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来源期刊
CiteScore
2.80
自引率
12.50%
发文量
107
审稿时长
3 months
期刊介绍: The International Journal of Chemical Reactor Engineering covers the broad fields of theoretical and applied reactor engineering. The IJCRE covers topics drawn from the substantial areas of overlap between catalysis, reaction and reactor engineering. The journal is presently edited by Hugo de Lasa and Charles Xu, counting with an impressive list of Editorial Board leading specialists in chemical reactor engineering. Authors include notable international professors and R&D industry leaders.
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