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      Gaussian-Charge Polarizable and Nonpolarizable Models for CO2.

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          Abstract

          A polarizable intermolecular potential model using three classical Drude oscillators on the atomic sites has been developed for CO2. The model is rigid with bond lengths and molecular geometries set to their experimental values. Electrostatic interactions are represented by three Gaussian charges connected to the molecular frame by harmonic springs. Nonelectrostatic interactions are represented by the Buckingham exponential-6 potential, with potential parameters optimized to vapor-liquid equilibria (VLE) data. A nonpolarizable CO2 model that shares the other ingredients of the polarizable model was also developed and optimized to VLE data. Gibbs ensemble Monte Carlo and molecular dynamics simulations were used to evaluate the two models with respect to a variety of thermodynamic and transport properties, including the enthalpy of vaporization, second virial coefficient, density in the one-phase fluid region, isobaric and isochoric heat capacities, radial distribution functions, self-diffusion coefficient, and shear viscosity. Excellent agreement between model predictions and experimental data was found for all properties studied. The polarizable and nonpolarizable models provide a similar representation of CO2 properties, which indicates that the properties of pure CO2 fluid are not strongly affected by polarization. The polarizable model, which has an order of magnitude higher computational cost than the nonpolarizable model, will likely be useful for the study of a mixture of CO2 and polar components for which polarization is important.

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          Author and article information

          Journal
          J Phys Chem B
          The journal of physical chemistry. B
          American Chemical Society (ACS)
          1520-5207
          1520-5207
          Feb 11 2016
          : 120
          : 5
          Affiliations
          [1 ] Department of Chemical and Biological Engineering, Princeton University , Princeton, New Jersey 08544, United States.
          [2 ] Chemical Engineering Program, Texas A&M University at Qatar , P.O. Box 23874, Doha, Qatar.
          Article
          10.1021/acs.jpcb.5b11701
          26788614
          495f6e22-1bee-41c5-9dcd-d1b1613d129c
          History

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