화학공학소재연구정보센터
Fluid Phase Equilibria, Vol.407, 269-279, 2016
A Monte Carlo simulation study of the liquid-liquid equilibria for binary dodecane/ethanol and ternary dodecane/ethanol/water mixtures
Obtaining knowledge of the mutual miscibility of alkanes, surfactants, and water over a wide range of temperatures and pressures is of great relevance for the energy industry. Molecular simulations using advanced sampling techniques and transferable force fields can serve as a predictive method to study a variety of phase equilibria at different temperatures, pressures, and overall compositions. In this work, configurational-bias Monte Carlo simulations in the NpT Gibbs ensemble with the Transferable Potentials for Phase Equilibria (TraPPE) force field are applied to investigate the binary mixture of n-dodecane and ethanol at pressures of 0.1 and 100 MPa and the ternary mixture of these compounds with water at one state point. The simulations qualitatively reproduce the increase of the upper critical solution temperature (UCST) with increasing pressure, but the miscibility gap is overestimated at both pressures and the UCSTs are shifted up by about 50K compared to the experimental values. The TraPPE model correctly shows a gradual decrease for the ethanol solubility in the n-dodecane-rich phase upon addition of water to the mixture. (C) 2015 Elsevier B.V. All rights reserved.