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  4. Absolute entropy and energy of carbon dioxide using the two-phase thermodynamic model
 
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Absolute entropy and energy of carbon dioxide using the two-phase thermodynamic model

Journal
Journal of Chemical Theory and Computation
Journal Volume
7
Journal Issue
6
Pages
1893-1901
Date Issued
2011
Author(s)
Huang, S.-N.
Pascal, T.A.
Goddard, W.A.
Maiti, P.K.
Lin, S.-T.
SHIANG-TAI LIN  
DOI
10.1021/ct200211b
URI
http://www.scopus.com/inward/record.url?eid=2-s2.0-79959209257&partnerID=MN8TOARS
http://scholars.lib.ntu.edu.tw/handle/123456789/362836
Abstract
The two-phase thermodynamic (2PT) model is used to determine the absolute entropy and energy of carbon dioxide over a wide range of conditions from molecular dynamics trajectories. The 2PT method determines the thermodynamic properties by applying the proper statistical mechanical partition function to the normal modes of a fluid. The vibrational density of state (DoS), obtained from the Fourier transform of the velocity autocorrelation function, converges quickly, allowing the free energy, entropy, and other thermodynamic properties to be determined from short 20-ps MD trajectories. The anharmonic effects in the vibrations are accounted for by the broadening of the normal modes into bands from sampling the velocities over the trajectory. The low frequency diffusive modes, which lead to finite DoS at zero frequency, are accounted for by considering the DoS as a superposition of gas-phase and solid-phase components (two phases). The analytical decomposition of the DoS allows for an evaluation of properties contributed by different types of molecular motions. We show that this 2PT analysis leads to accurate predictions of entropy and energy of CO2 over a wide range of conditions (from the triple point to the critical point of both the vapor and the liquid phases along the saturation line). This allows the equation of state of CO2 to be determined, which is limited only by the accuracy of the force field. We also validated that the 2PT entropy agrees with that determined from thermodynamic integration, but 2PT requires only a fraction of the time. A complication for CO2 is that its equilibrium configuration is linear, which would have only two rotational modes, but during the dynamics it is never exactly linear, so that there is a third mode from rotational about the axis. In this work, we show how to treat such linear molecules in the 2PT framework.
SDGs

[SDGs]SDG7

Type
journal article

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