Add to ORKG[1] Methane gas hydrates, crystalline inclusion compounds formed from methane and water, are found in marine continental margin and permafrost sediments worldwide. This article reviews the current understanding of phenomena involved in gas hydrate formation and the physical properties of hydrate-bearing sediments. Formation phenomena include pore-scale habit, solubility, spatial variability, and host sediment aggregate properties. Physical properties include thermal properties, permeability, electrical conductivity and permittivity, small-strain elastic P and S wave velocities, shear strength, and volume changes resulting from hydrate dissociation. The magnitudes and interdependencies of these properties are critically important for predict...
Gas hydrates are crystalline clathrate compounds made of water and a low molecular gas like methane ...
Results of seismic surveys are routinely used to assess the presence of methane hydrate in deep ocea...
Methane hydrate saturation estimates from remote geophysical data and borehole logs are needed to as...
An extensive amount of natural gas trapped in the subsurface is found as methane hydrate. A fundamen...
Gas hydrates are crystalline compounds made of gas and water molecules. Methane hydrates are found i...
Methane hydrates form at high pressure and low temperatures conditions typically found in submarine ...
Gas hydrates are ice–like compounds found in deep sea sediments and permafrosts. Concise detectionan...
Gas hydrates are solid, ice like, compounds that form in marine sediments and in permafrost regions....
Gas hydrates are clathrate hydrates, which are solid, ice-like compounds. Gas hydrates exist where t...
The amount of carbon trapped in hydrates is estimated to be larger than in conventional oil and gas ...
Gas hydrates are ice–like compounds found in marine sediments and permafrosts. A significant fractio...
International audienceIn this study, methane hydrate-bearing sand (MHBS) was created in the laborato...
International audienceIn this study, methane hydrate-bearing sand (MHBS) was created in the laborato...
Field study of natural gas hydrates is new in geoscience, as it is in commercial interest. It is onl...
The mass of carbon trapped in methane hydrates exceeds that in conventional fossil fuel reservoirs. ...
Gas hydrates are crystalline clathrate compounds made of water and a low molecular gas like methane ...
Results of seismic surveys are routinely used to assess the presence of methane hydrate in deep ocea...
Methane hydrate saturation estimates from remote geophysical data and borehole logs are needed to as...
An extensive amount of natural gas trapped in the subsurface is found as methane hydrate. A fundamen...
Gas hydrates are crystalline compounds made of gas and water molecules. Methane hydrates are found i...
Methane hydrates form at high pressure and low temperatures conditions typically found in submarine ...
Gas hydrates are ice–like compounds found in deep sea sediments and permafrosts. Concise detectionan...
Gas hydrates are solid, ice like, compounds that form in marine sediments and in permafrost regions....
Gas hydrates are clathrate hydrates, which are solid, ice-like compounds. Gas hydrates exist where t...
The amount of carbon trapped in hydrates is estimated to be larger than in conventional oil and gas ...
Gas hydrates are ice–like compounds found in marine sediments and permafrosts. A significant fractio...
International audienceIn this study, methane hydrate-bearing sand (MHBS) was created in the laborato...
International audienceIn this study, methane hydrate-bearing sand (MHBS) was created in the laborato...
Field study of natural gas hydrates is new in geoscience, as it is in commercial interest. It is onl...
The mass of carbon trapped in methane hydrates exceeds that in conventional fossil fuel reservoirs. ...
Gas hydrates are crystalline clathrate compounds made of water and a low molecular gas like methane ...
Results of seismic surveys are routinely used to assess the presence of methane hydrate in deep ocea...
Methane hydrate saturation estimates from remote geophysical data and borehole logs are needed to as...