Prediction of sound velocity and compressibility via molecular simulation at fixed entropy |
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Authors: | Babak Fazelabdolabadi Alireza Bahramian |
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Affiliation: | Institute of Petroleum Engineering, University of Tehran, Tehran, 11155-4563, Iran |
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Abstract: | A molecular-level simulation route is proposed to compute the isentropic thermodynamic properties in a fluid system by Monte Carlo simulation at fixed entropy. The method involves computation of the pressure response of a system to an infinitesimal change in system density by introduction of a single molecule, while retaining the system volume as well as the absolute molar entropy. The probability for accepting a change in temperature during the Monte Carlo moves was weighted against the argument proposed by Smith et al. [W.R. Smith, M. Lísal, I. Nezbeda, Chem. Phys. Lett. 426 (2006) 436–440]. Application to fluid argon has confirmed superior accuracy for the technique within the gas state to yield results within 1.2% of the measured values for the range of thermodynamic conditions investigated. |
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Keywords: | Monte Carlo Isentropic properties Speed of sound Thermodynamics |
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