Development of a force field for molecular simulation of the phase equilibria of perfluoromethylpropyl ether |
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Authors: | H-C LI C MCCABEL S T CUI P T CUMMINGS H D COCHRAN |
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Institution: | 1. Department of Chemical Engineering , University of Tennessee , Knoxville, TN, 37996-2200, USA;2. Chemical Technology Division, Oak Ridge National Laboratory , Oak Ridge, TN, 37831-6224, USA;3. Chemical Technology Division, Oak Ridge National Laboratory , Oak Ridge, TN, 37831-6224, USA;4. Departments of Chemical Engineering, Chemistry, and Computer Science , University of Tennessee , Knoxville, TN, 37996-2200, USA |
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Abstract: | A first step towards the development of a general, realistic potential model for perfluoroether compounds has been to parameterize a united atom model for a short chain perfluoroether perfluoromethylpropyl ether (CF3CF2CF2OCF3). The potential model takes the usual form in which separate bond bending and torsional terms describe the intramolecular interactions with the addition of van der Waals and electrostatic terms to describe the non-bonded interactions. Ab initio quantum calculations have been carried out to obtain the partial charges and intramolecular torsional and bending potentials. Phase equilibrium data were then used to optimize the van der Waals interaction parameters through Gibbs ensemble Monte Carlo simulations. The resulting model reproduces vapour-liquid equilibrium densities, the critical temperature and the critical density of perfluoromethylpropyl ether, in good agreement with those from experiment. |
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