A better understanding of seismic wave attenuation in hydrate-bearing sediments is needed for the improved geophysical quantification of seafloor methane hydrates, important for climate change, geohazard and economic resource assessment. Hence, we conducted a series of small strain (<10−6), seismic frequency (50–550 Hz), laboratory resonant column experiments on synthetic methane hydrate-bearing sands under excess-water seafloor conditions. The results show a complex dependence of P- and S-wave attenuation on hydrate saturation and morphology. P- and S-wave attenuation in excess-water hydrate-bearing sand is much higher than in excess-gas hydrate-bearing sand and increases with hydrate saturation between 0 and 0.44 (the experimental range)....
Remote seismic methods, which measure the compressional wave (P wave) velocity (Vp) and shear wave (...
We show that direct estimates of the permeability of hydrate-bearing geological formations are possi...
Using a specially constructed Gas Hydrate Resonant Column (GHRC), the University of Southampton expl...
AbstractA better understanding of seismic wave attenuation in hydrate-bearing sediments is needed fo...
Compressional wave (P wave) and shear wave (S wave) velocities (Vp and Vs, respectively) from remote...
The majority of presently exploitable marine methane hydrate reservoirs are likely to host hydrate i...
Gas hydrates are ice–like compounds found in marine sediments and permafrosts. A significant fractio...
The majority of presently exploitable marine methane hydrate reservoirs are likely to host hydrate i...
Using a specially constructed Gas Hydrate Resonant Column (GHRC), the University of Southampton expl...
Observations of velocities in sediments containing gashydrates show that the strength of sediments i...
Gas hydrates are solid, ice like, compounds that form in marine sediments and in permafrost regions....
Results of seismic surveys are routinely used to assess the presence of methane hydrate in deep ocea...
Prior studies have shown an ambiguous relationship between gas-hydrate saturation and seismic attenu...
Knowledge of the effect of methane hydrate saturation and morphology on elastic wave attenuation cou...
A better understanding of the effect of methane hydrate morphology and saturation on elastic wave ve...
Remote seismic methods, which measure the compressional wave (P wave) velocity (Vp) and shear wave (...
We show that direct estimates of the permeability of hydrate-bearing geological formations are possi...
Using a specially constructed Gas Hydrate Resonant Column (GHRC), the University of Southampton expl...
AbstractA better understanding of seismic wave attenuation in hydrate-bearing sediments is needed fo...
Compressional wave (P wave) and shear wave (S wave) velocities (Vp and Vs, respectively) from remote...
The majority of presently exploitable marine methane hydrate reservoirs are likely to host hydrate i...
Gas hydrates are ice–like compounds found in marine sediments and permafrosts. A significant fractio...
The majority of presently exploitable marine methane hydrate reservoirs are likely to host hydrate i...
Using a specially constructed Gas Hydrate Resonant Column (GHRC), the University of Southampton expl...
Observations of velocities in sediments containing gashydrates show that the strength of sediments i...
Gas hydrates are solid, ice like, compounds that form in marine sediments and in permafrost regions....
Results of seismic surveys are routinely used to assess the presence of methane hydrate in deep ocea...
Prior studies have shown an ambiguous relationship between gas-hydrate saturation and seismic attenu...
Knowledge of the effect of methane hydrate saturation and morphology on elastic wave attenuation cou...
A better understanding of the effect of methane hydrate morphology and saturation on elastic wave ve...
Remote seismic methods, which measure the compressional wave (P wave) velocity (Vp) and shear wave (...
We show that direct estimates of the permeability of hydrate-bearing geological formations are possi...
Using a specially constructed Gas Hydrate Resonant Column (GHRC), the University of Southampton expl...