(258d) Higher Order Virial Coefficients and Molecular Clustering of Polarizable Water Models
AIChE Annual Meeting
2006
2006 Annual Meeting
Engineering Sciences and Fundamentals
Thermodynamic Properties and Phase Behavior IV
Tuesday, November 14, 2006 - 1:27pm to 1:45pm
Mayer Sampling molecular simulation is a free energy perturbation method for calculating cluster integrals [1]. It has been used recently to determine higher order virial coefficients (up to B6) for the Lennard-Jones fluid and various non-polarizable, pair-wise water models [1,2]. Here we employ the Mayer Sampling method to determine higher order virial coefficients for polarizable water. We have calculated up to B4 for the polarizable point charge (PPC) model of Svishchev et al. [3] and the Gaussian charge polarizable model (GCPM) proposed by Chialvo and Cummings [4]. This work represents the first accounting of polarization in the Mayer Sampling method, and the first determination of B4 for PPC water and B3 and B4 for GCPM water. Additionally, we use these virial coefficients to examine gas-phase molecular clustering in both water models under a range of sub- and super-critical conditions.
(1) Singh, J.K.; Kofke, D.A. Mayer Sampling: Calculation of cluster integrals using free-energy perturbation methods. Phys. Rev. Lett. 2004, 92, Art. No. 220601.
(2) Singh, J.K.; Benjamin, K.M.; Schultz, A.J.; Kofke, D.A. Higher order virial coefficients of water models. J. Phys. Chem. B. to be submitted.
(3) Svishchev, I.M.; Kusalik, P.G.; Wang, J.; Boyd, R.J. Polarizable point-charge model for water: Results under normal and extreme conditions. J. Chem. Phys. 1996, 105, 4742.
(4) Chialvo, A.A.; Cummings, P.T. Simple transferable intermolecular potential for the molecular simulation of water over wide ranges of state conditions. Fluid Phase Equil., 1998, 150, 73.