2015
DOI: 10.1002/aic.14880
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Molecular‐based virial coefficients of CO2‐H2O mixtures

Abstract: We report second and third virial coefficients for the system CO2‐H2O, calculated via cluster integrals using quantitative molecular models taken from the literature. Considered models include (1) fits to highly accurate ab initio calculations of the potential energy surfaces, and (2) semiempirical Gaussian Charge Polarizable Models (GCPM). Three‐body effects are found to be essential for obtaining quantitative results. Good agreement with experiment is obtained for the pure‐component coefficients, and for the… Show more

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Cited by 16 publications
(18 citation statements)
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“…The calculated values for the third virial coefficient agree very well with those of Schultz et al, 53 which were calculated using the same pair potential as in the present work 9 and a very simple nonadditive three-body potential. Agreement with experimental data is, for the most part, satisfactory.…”
Section: Discussionsupporting
confidence: 89%
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“…The calculated values for the third virial coefficient agree very well with those of Schultz et al, 53 which were calculated using the same pair potential as in the present work 9 and a very simple nonadditive three-body potential. Agreement with experimental data is, for the most part, satisfactory.…”
Section: Discussionsupporting
confidence: 89%
“…Third virial coefficient B 3 as a function of temperature obtained in this work at three different levels of theory as well as B 3 values calculated by Schultz et al, 53 B 3 values derived from the experimentally based SWEOS, 45 and selected experimental B 3 data. [54][55][56][57][58][59][60] Schultz et al 53 obtained their B 3 values using the same pair potential as in the present work 9 including the QFH correction. To account for nonadditive three-body interactions, they used an isotropic ATM term and a single polarizable site with isotropic polarizability.…”
Section: The Third Virial Coe Cient Of Carbon Dioxidementioning
confidence: 73%
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“…Several approaches can be employed to calculate B2 for either pure compounds or mixtures. The Mayer sampling method, based on free energy perturbation approaches [65], was implemented to calculate virial coefficients for a variety of potentials [66][67]. B2 for small alkanes and inert gases can be extracted from the simulated pair correlation functions [68][69] or from analytic equations of state [70][71].…”
Section: Second Virial Coefficientsmentioning
confidence: 99%