We use constant energy, constant volume (<i>NVE</i>) molecular dynamics simulations to study the dissociation of the fully occupied structure I methane hydrate in a confined geometry between two hydroxylated silica surfaces between 36 and 41 Å apart, at initial temperatures of 283, 293, and 303 K. Simulations of the two-phase hydrate/water system are performed in the presence of silica, with and without a 3 Å thick buffering water layer between the hydrate phase and silica surfaces. Faster decomposition is observed in the presence of silica, where the hydrate phase is prone to decomposition from four surfaces, as compared to only two sides in the case of the hydrate/water simulations. The existence of the water layer between the hydrate pha...
Microsecond simulations have been performed to investigate CH<sub>4</sub> hydrate formation from gas...
Molecular dynamic simulations are performed to study the conditions for methane nano-bubble formatio...
Equilibrium molecular dynamic simulations were employed to investigate the methane solubility in wat...
We use constant energy, constant volume (NVE) molecular dynamics simulations to study the dissociati...
Gas hydrates are crystalline compounds with cage-like structures formed by hydrogen-bonded water mol...
Methane hydrates are crystalline solids of water that contain methane molecules trapped inside their...
Knowledge on the kinetics of gas hydrate dissociation in microporous sediments is very important for...
Thermal stimulation on dissociation of methane hydrate was investigated with molecular dynamics simu...
An understanding of the dynamic behavior of subtle hydrate dissociation in the liquid water phase is...
The dissociation process of methane hydrate is simulated at P=30 bar and T=315, 320 and 325 K, using...
An understanding of the dynamic behavior of subtle hydrate dissociation in the liquid water phase is...
We simulated decomposition of structure I methane hydrate (H) with all cages filled in contact with ...
Hydrate dissociation is often accompanied by the formation of nanobubbles. Knowledge of the effects ...
Nonequilibrium, constant energy, constant volume (NVE) molecular dynamics simulations are used to st...
Methane (CH4) hydrate dissociation and the mechanism by depressurisation are investigated by molecul...
Microsecond simulations have been performed to investigate CH<sub>4</sub> hydrate formation from gas...
Molecular dynamic simulations are performed to study the conditions for methane nano-bubble formatio...
Equilibrium molecular dynamic simulations were employed to investigate the methane solubility in wat...
We use constant energy, constant volume (NVE) molecular dynamics simulations to study the dissociati...
Gas hydrates are crystalline compounds with cage-like structures formed by hydrogen-bonded water mol...
Methane hydrates are crystalline solids of water that contain methane molecules trapped inside their...
Knowledge on the kinetics of gas hydrate dissociation in microporous sediments is very important for...
Thermal stimulation on dissociation of methane hydrate was investigated with molecular dynamics simu...
An understanding of the dynamic behavior of subtle hydrate dissociation in the liquid water phase is...
The dissociation process of methane hydrate is simulated at P=30 bar and T=315, 320 and 325 K, using...
An understanding of the dynamic behavior of subtle hydrate dissociation in the liquid water phase is...
We simulated decomposition of structure I methane hydrate (H) with all cages filled in contact with ...
Hydrate dissociation is often accompanied by the formation of nanobubbles. Knowledge of the effects ...
Nonequilibrium, constant energy, constant volume (NVE) molecular dynamics simulations are used to st...
Methane (CH4) hydrate dissociation and the mechanism by depressurisation are investigated by molecul...
Microsecond simulations have been performed to investigate CH<sub>4</sub> hydrate formation from gas...
Molecular dynamic simulations are performed to study the conditions for methane nano-bubble formatio...
Equilibrium molecular dynamic simulations were employed to investigate the methane solubility in wat...