96/05556 Kinetics of the formation of CO2 hydrate on the surface of liquid CO2 droplet in water

A comprehensive kinetic model of hydrate formation on the surface of a CO2 droplet in high-pressure, low-temperature water is developed. The model predicts that the hydrate layer formed is very thin and that the formation time is less than two seconds. These predictions are consistent with experimen

Kinetic study on the dissolution of COz from the surface of a liquid COz droplet in water was conducted, and a mechanism of the decay of C02 hydrate was proposed. The model was applied to the experimental data which showed that the radius of liquid COP droplets in water reduced linearly with time. I

## Abstract This article proposes a mechanism of CO~2~ hydrate formation taking into account both diffusion and reaction, and gives an analysis of its kinetics. The most important assumptions on the model are that water dissolves into liquid CO~2~ and reacts to form CO~2~ hydrate, and that the hydr

Stability of the hydrate layer formed on the surface of a CO2 droplet in high-pressure and low-temperature water is studied. The criterion for stability of the hydrate layer is found to be Xcno2/> 0.098, where X~o: is the mole fraction of CO2 in the hydrate layer. Because COz molecules are not bonde

In modeling disposal and sequestration of anthropogenic CO, in the deep ocean, one of the complicated phenomena encountered is formation of a thin solid hydrate layer at the interface of the disposed liquid CO, and seawater. Recently, P. C. Lund published several -articles on formation and stability