Molecular simulation of methane adsorption and its effect on kaolinite swelling as functions of pressure and temperature.

Molecular simulation was used to study methane adsorption and its effect on kaolinite swelling. The effects of temperature and pressure were also analysed. The comparisons which validate the force field and model in our paper were made between simulation and experiment. Simulation results demonstrate that adsorption behaviour of methane exhibit Langmuir adsorption behaviour. The temperature has a negative effect on gas adsorption, the adsorption amounts will decrease with increasing temperature at a given pressure. A quantitative relationship between the methane adsorption and the kaolinite swelling was provided. The kaolinite-methane interaction dominates and the methane-methane interaction contributes less than 20% to the total interaction energy. The first peak in the RDFs increases with the increasing pressure, illustrating that the system becomes less structured at higher pressure. Compared with the higher temperature, the first peaks at lower temperature increase as a higher amount of methane adsorbed indicating that the interaction between the kaolinite and methane increase with decreasing temperature. Methane is strongly adsorbed on the sites of the hydrogen and oxygen atoms in kaolinite molecules. [ABSTRACT FROM AUTHOR]