To help constrain models involving the chemical stability and lifetime of gas clathrate hydrates exposed at the seafloor, dissolution rates of pure methane and carbon-dioxide hydrates were measured directly on the seafloor within the nominal pressure-temperature (P/T) range of the gas hydrate stability zone. Other natural boundary conditions included variable flow velocity and undersaturation of seawater with respect to the hydrate-forming species. Four cylindrical test specimens of pure, polycrystalline CH4 and CO2 hydrate were grown and fully compacted in the laboratory, then transferred by pressure vessel to the seafloor (1028 m depth), exposed to the deep ocean environment, and monitored for 27 hours using time-lapse and HDTV cameras. V...
Natural gas hydrates are widely distributed in sediments along continental margins, and harbor enorm...
The aims of this research project were to assist in understanding hydrate formation, stability, and ...
Recently, carbon dioxide injection into deep sea sediments has become one of the carbon dioxide miti...
Here, we present a dissolution study of exposed hydrate from outcrops at Barkley Canyon. Previously,...
Highlights • Sediment influence on hydrate dissolution was studied in the field and lab • ...
This paper reports a laboratory mimic study that focused on the extraction of methane (CH4) from hyd...
A quantitative understanding of hydrate formation and dissociation in the sea floor requires detail...
Abstract: The accumulation f gas hydrates largely depends onthe spatial variability of gas solubilit...
Sequestering waste CO_2 in the deep ocean as a gas, liquid, or hydrate has been variously proposed (...
Highlights • CO2-methane exchange in a pressure vessel was simulated. • The model uses a d...
The dissolution from a liquid CO2 lake source located at a flat ocean bottom at 3,000 m depth is inv...
Methane hydrates are globally distributed in sediments along the continental margins and potentially...
We develop a kinetic model for hydrate crystallization from methane gas venting through shallow sedi...
Methane hydrate formation and dissociation kinetics were investigated in seawater-saturated consolid...
Gas hydrates are crystalline compounds made of gas and water molecules. Methane hydrates are found i...
Natural gas hydrates are widely distributed in sediments along continental margins, and harbor enorm...
The aims of this research project were to assist in understanding hydrate formation, stability, and ...
Recently, carbon dioxide injection into deep sea sediments has become one of the carbon dioxide miti...
Here, we present a dissolution study of exposed hydrate from outcrops at Barkley Canyon. Previously,...
Highlights • Sediment influence on hydrate dissolution was studied in the field and lab • ...
This paper reports a laboratory mimic study that focused on the extraction of methane (CH4) from hyd...
A quantitative understanding of hydrate formation and dissociation in the sea floor requires detail...
Abstract: The accumulation f gas hydrates largely depends onthe spatial variability of gas solubilit...
Sequestering waste CO_2 in the deep ocean as a gas, liquid, or hydrate has been variously proposed (...
Highlights • CO2-methane exchange in a pressure vessel was simulated. • The model uses a d...
The dissolution from a liquid CO2 lake source located at a flat ocean bottom at 3,000 m depth is inv...
Methane hydrates are globally distributed in sediments along the continental margins and potentially...
We develop a kinetic model for hydrate crystallization from methane gas venting through shallow sedi...
Methane hydrate formation and dissociation kinetics were investigated in seawater-saturated consolid...
Gas hydrates are crystalline compounds made of gas and water molecules. Methane hydrates are found i...
Natural gas hydrates are widely distributed in sediments along continental margins, and harbor enorm...
The aims of this research project were to assist in understanding hydrate formation, stability, and ...
Recently, carbon dioxide injection into deep sea sediments has become one of the carbon dioxide miti...