Dry Water as a Promoter for Gas Hydrate Formation: A Review

Abstract: Applications of clathrate hydrate require fast formation kinetics of it, which is the long-standing technological bottleneck due to mass transfer and heat transfer limitations. Although several methods, such as surfactants and mechanical stirring, have been employed to accelerate gas hydrate formation, the problems they bring are not negligible. Recently, a new water-in-air dispersion stabilized by hydrophobic nanosilica, dry water, has been used as an effective promoter for hydrate formation. In this review, … Show more

“…A review on dry water for hydrate formation was done by Wei and Maeda . The procedure for preparation of dry water, thermodynamic and kinetic effects of dry water during methane hydrate formation, the synergistic effect of dry water with other promoters, along with discussion on self-preservation effect of dry water hydrate were presented.…”

Energy Storage in Hydrates: Status, Recent Trends, and Future Prospects

“…A review on dry water for hydrate formation was done by Wei and Maeda . The procedure for preparation of dry water, thermodynamic and kinetic effects of dry water during methane hydrate formation, the synergistic effect of dry water with other promoters, along with discussion on self-preservation effect of dry water hydrate were presented.…”

Energy Storage in Hydrates: Status, Recent Trends, and Future Prospects

“…12 Although clathrate hydrate applications have great potential, these are limited by slow kinetics and low water-to-hydrate conversion rates due to mass transfer limitations. 13 Thermal properties of nanoparticles are critical factors in estimating the heat-transfer coefficient of a hydrate formation process. As a result, hydrate formation requires a high thermal conductivity material.…”

Phase Equilibria of Zinc Oxide (ZnO) Nanoparticles and Tetrahydrofuran (THF) in CO₂ Hydrate Systems: Individual and Combined Analyses

Effect of Promoters on Methane Hydrate Formation Under Static Conditions