Molecular Dynamics Calculation of the Self-Diffusion Coefficients in Molten LiF–RbBr and LiF–CsBr Mixtures

M. A. Kobelev; K. I. Oleinik; A. S. Tatarinov

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Molecular Dynamics Calculation of the Self-Diffusion Coefficients in Molten LiF–RbBr and LiF–CsBr Mixtures

机译：熔融LIF-RBBR和LIF-CSBR混合物自扩散系数的分子动力学计算

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Classical molecular dynamics simulation is used to calculate the self-diffusion coefficients of the ions that make up reciprocal molten LiF–RbBr and LiF–CsBr mixtures at a temperature of 1420 K over the entire concentration range. The microscopic motion of the fluoride ion is shown to change qualitatively as a function of the nature of the cation forming the nearest environment. For example, the nearest environment of the fluoride ion in a reciprocal LiF–RbBr mixture at a low rubidium bromide concentration favors an increase in its self-diffusion coefficient despite the fact that the system density increases in this case.

机译：经典的分子动力学模拟用于计算在整个浓度范围内在1420k的温度下构成倒数熔融LIF-RBBR和LiF-CSBR混合物的离子的自扩散系数。氟离子的微观运动显示为定性地改变，作为形成最近环境的阳离子的性质的函数。例如，尽管系统密度在这种情况下增加，但在低铷溴化物浓度下，富含溴化铷浓度的氟离子的最接近的环境的最接近的环境仍然是其自扩散系数的增加。

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《Russian Metallurgy(Metally)》 |2018年第2期|共5页
作者
M. A. Kobelev; K. I. Oleinik; A. S. Tatarinov;
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作者单位

Institute of High-Temperature Electrochemistry Ural Branch Russian Academy of Sciences;

Institute of Metallurgy Ural Branch Russian Academy of Sciences;

Institute of Physics and Technology Ural Federal University;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
alkali metal halides; molecular dynamics simulation; self-diffusion coefficients; rigid ion model;

机译：碱金属卤化物;分子动力学模拟;自扩散系数;刚性离子模型;

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1. Molecular Dynamics Calculation of the Self-Diffusion Coefficients in Molten LiF–RbBr and LiF–CsBr Mixtures [J] . M. A. Kobelev, K. I. Oleinik, A. S. Tatarinov Russian Metallurgy(Metally) . 2018,第2期

机译：熔融LIF-RBBR和LIF-CSBR混合物自扩散系数的分子动力学计算
2. Investigation of the local structure of molten ThF4-LiF and ThF4-LiF-BeF2 mixtures by high-temperature X-ray absorption spectroscopy and molecular-dynamics simulation [J] . Sun Jian, Guo Xiaojing, Zhou Jing, Journal of synchrotron radiation . 2019,第5期

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3. MOLECULAR DYNAMICS CALCULATION OF MOLTEN LiF, KC1 AND LiF-KCl(1:1) SYSTEM [J] . 邵俊, 舒光裕, 徐桦, 中国物理快报：英文版 . 1989,第010期

机译：熔融LIF，KC1和LIF-KCl（1：1）系统的分子动力学计算
4. Transport Properties in Cryolitic Melts: NMR Measurements and Molecular Dynamics Calculations of Self-Diffusion Coefficients [C] . M. Gobet, V. Sarou-Kanian, A.-L. Rollet, International symposium on molten salts and ionic liquids;Electrochemical Society meeting . 2010

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5. Slab-geometry molecular dynamics simulations: Development and application to calculation of activity coefficients, interfacial electrochemistry, and ion channel transport. [D] . Crozier, Paul S. 2001

机译：平板几何分子动力学模拟：开发和应用于活度系数，界面电化学和离子通道迁移的计算。
6. Analysis of Selected Methods Use for Calculation of the Coefficients of Adsorption Isotherms and Simplified Equations of Adsorption Dynamics with the Use of IZO Application [O] . Jacek Piekarski, Katarzyna Ignatowicz, Tomasz Dąbrowski 2021

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7. Calculation of the second self-diffusion and viscosity virial coefficients of Lennard-Jones fluid by equilibrium molecular dynamics simulations [O] . Hassan Yousefi Oderji, Hongbin Ding, Hassan Behnejad 2011

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8. MEASUREMENT OF MASS TRANSFER COEFFICIENTS IN A MECHANICALLY AGITATED, NONDISFERSING CONTACTOR OPERATING WITH A MOLTEN MIXTURE OF LiF-BeF2-ThF4 AND MOLTEN BISMUTH [R] . C. H. Brown, J. R. Hightower, J. A. Klein 1976

机译：用LiF-BeF2-ThF4和熔体铋的熔融混合物操作的机械搅拌，非离子接触器中质量传递系数的测量

Molecular Dynamics Calculation of the Self-Diffusion Coefficients in Molten LiF–RbBr and LiF–CsBr Mixtures

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