二氧化碳在正己烷、正癸烷、正十六烷、环己烷和角鲨烷中扩散系数的原子分子动力学模拟

Atomistic Molecular Dynamics Simulations of Carbon Dioxide Diffusivity in n-Hexane, n-Decane, n-Hexadecane, Cyclohexane, and Squalane.

作者信息

Moultos Othonas A, Tsimpanogiannis Ioannis N, Panagiotopoulos Athanassios Z, Trusler J P Martin, Economou Ioannis G

机构信息

Chemical Engineering Program, Texas A&M University at Qatar , P.O. Box 23874, Doha, Qatar.

Environmental Research Laboratory, National Centre for Scientific Research "Demokritos" , 15310 Aghia Paraskevi Attikis, Greece.

出版信息

J Phys Chem B. 2016 Dec 22;120(50):12890-12900. doi: 10.1021/acs.jpcb.6b04651. Epub 2016 Dec 12.

DOI:10.1021/acs.jpcb.6b04651

PMID:27936740

Abstract

Atomistic molecular dynamics simulations were carried out to obtain the diffusion coefficients of CO in n-hexane, n-decane, n-hexadecane, cyclohexane, and squalane at temperatures up to 423.15 K and pressures up to 65 MPa. Three popular models were used for the representation of hydrocarbons: the united atom TraPPE (TraPPE-UA), the all-atom OPLS, and an optimized version of OPLS, namely, L-OPLS. All models qualitatively reproduce the pressure dependence of the diffusion coefficient of CO in hydrocarbons measured recently, and L-OPLS was found to be the most accurate. Specifically for n-alkanes, L-OPLS also reproduced the measured viscosities and densities much more accurately than the original OPLS and TraPPE-UA models, indicating that the optimization of the torsional potential is crucial for the accurate description of transport properties of long chain molecules. The three force fields predict different microscopic properties such as the mean square radius of gyration for the n-alkane molecules and pair correlation functions for the CO-n-alkane interactions. CO diffusion coefficients in all hydrocarbons studied are shown to deviate significantly from the Stokes-Einstein behavior.

摘要

进行了原子分子动力学模拟，以获得温度高达423.15 K、压力高达65 MPa时，CO在正己烷、正癸烷、正十六烷、环己烷和角鲨烷中的扩散系数。使用了三种常用模型来表示碳氢化合物：联合原子TraPPE（TraPPE-UA）、全原子OPLS以及OPLS的优化版本L-OPLS。所有模型定性地再现了最近测量的CO在碳氢化合物中扩散系数的压力依赖性，并且发现L-OPLS是最准确的。具体对于正构烷烃，L-OPLS还比原始的OPLS和TraPPE-UA模型更准确地再现了测量的粘度和密度，这表明扭转势的优化对于准确描述长链分子的传输性质至关重要。这三种力场预测了不同的微观性质，例如正构烷烃分子的均方回转半径以及CO与正构烷烃相互作用的对关联函数。研究中所有碳氢化合物中的CO扩散系数均显示出与斯托克斯-爱因斯坦行为有显著偏差。

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二氧化碳在正己烷、正癸烷、正十六烷、环己烷和角鲨烷中扩散系数的原子分子动力学模拟

Atomistic Molecular Dynamics Simulations of Carbon Dioxide Diffusivity in n-Hexane, n-Decane, n-Hexadecane, Cyclohexane, and Squalane.

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