Shear viscosity of linear alkanes through molecular simulations: quantitative tests for n-decane and n-hexadecane
RS Payal and S Balasubramanian and I Rudra and K Tandon and I Mahlke and D Doyle and R Cracknell, MOLECULAR SIMULATION, 38, 1234-1241 (2012).
DOI: 10.1080/08927022.2012.702423
Atomistic molecular dynamics simulations were carried out at equilibrium to calculate the shear viscosity of n-decane and n-hexadecane under ambient and high temperature-high pressure conditions. Two force fields, one using a computationally efficient united-atom (TrAPPE-UA) approach and another an all-atom (AA) approach (Tobias, Tu and Klein), were employed. Quantitative agreement with experimental data is obtained with the AA force field, whereas the UA model predicts the viscosity within 20-30% of the experiment. The intra-and inter-molecular structure of the fluid obtained from these two models is similar, pointing to the role of differences in their dynamical characteristics to the observed difference in the calculated viscosities.
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