Application of kinetic Monte Carlo method to the vapour–liquid equilibria of associating fluids and their mixtures.
- Resource Type
- Article
- Authors
- Nguyen, Van T.; Tan, S. Johnathan; Do, D.D.; Nicholson, D.
- Source
- Molecular Simulation. May2016, Vol. 42 Issue 8, p642-654. 13p.
- Subject
- *MONTE Carlo method
*VAPOR-liquid equilibrium
*MIXTURES
*ELECTROSTATIC interaction
*CARBON dioxide
*METHANOL
*TEMPERATURE effect
- Language
- ISSN
- 0892-7022
Canonical kinetic Monte Carlo (C-kMC) simulations have been carried out to assess their feasibility and potential for calculating the vapour–liquid equilibria of various pure components with increasingly strong electrostatic interactions (carbon dioxide, methanol, ammonia and water) over a wide range of temperatures and for methanol/water mixtures at 298 K. The simulation results show that C-kMC is successful as a method for studying phase equilibria and thermodynamic properties. For all the examples investigated, the performance of the C-kMC method is at least as good as that of the conventional Monte Carlo (MC) methods and is efficient at low temperature where these fail. It also provides a route that is superior to the Widom method for the calculation of chemical potential. We recommend this method for this purpose and as an alternative to conventional MC for simulations of strongly associating fluids and at low temperatures. [ABSTRACT FROM AUTHOR]