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模拟扩散系数的分子动力学方法
引用本文:宋海华,尹小勇. 模拟扩散系数的分子动力学方法[J]. 化学物理学报, 2005, 18(5): 719-723
作者姓名:宋海华  尹小勇
作者单位:天津大学化工学院 天津300072(宋海华),天津大学化工学院 天津300072(尹小勇)
摘    要:在分析当前应用的各类分子动力学方法的基础上提出一个2参数(即温度松弛时间和压力松弛时间)模型,采用正交实验确定了最优的模型参数,压力与温度松弛时间的最优值均为2fs.在最优条件下跟踪系统的体积变化,最大波动在10%之内.将该模型应用于不同温度下氩及超临界二氧化碳自扩散系数模拟,并用动力学理论对自扩散系数与温度、压力的关系进行了定性分析,结果与实验值吻合.说明新模型具有稳定而准确的特点.

关 键 词:等温等压  分子动力学  自扩散系数  松弛时间
收稿时间:2004-10-15

Molecular Dynamics Method for Simulating Diffusivities
Song Haihua and Yin Xiaoyong. Molecular Dynamics Method for Simulating Diffusivities[J]. Chinese Journal of Chemical Physics, 2005, 18(5): 719-723
Authors:Song Haihua and Yin Xiaoyong
Affiliation:School of Chemical Engineering, Tianjin University, Tianjin 300072,School of Chemical Engineering, Tianjin University, Tianjin 300072
Abstract:A new two-parameters, namely temperature and pressure relaxation times, model was proposed based on the basis of the isothermal-isobaric MD methods and both the parameters optimized by using the orthogonal test are 2 fs. The maximal deviation of system volume simulated under the optimal conditions was within the limit of 10%. The new model was used to simulate the selfdiffusion coefficients of argon and supercritical carbon dioxide at different temperatures, and the influence of temperature and pressure on selfdiffusion coefficients was analyzed qualitatively by the use of the kinetics theory. Good agreement is obtained between the simulated results and the experimentally measured data.
Keywords:Isothermal-isobaric   Molecular dynamics   Self-diffusion coefficient   Relaxation time
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