Add to ORKGIn this study, we evaluate the response of oceanic subsurface systems to thermal stresses caused by the flow of warm fluids through noninsulated well systems crossing hydrate-bearing sediments. Heat transport from warm fluids, originating from deeper reservoirs under production, into the geologic media can cause dissociation of the gas hydrates. The objective of this study is to determine whether gas evolution from hydrate dissociation can lead to excessive pressure buildup, and possibly to fracturing of hydrate-bearing formations and their confining layers, with potentially adverse consequences on the stability of the suboceanic subsurface. This study also aims to determine whether the loss of the hydrate--known to have a strong ce...
In this project we have sought to explain the co-existence of gas and hydrate phases in sediments wi...
Drilling fluid invasion into hydrate-bearing sediments could induce hydrate dissociation and complic...
In nature, gas hydrates exist in areas of permafrost and in shallow subsurface sediments at ocean de...
In this study, we evaluate the response of oceanicsubsurface systems to thermal stresses caused by t...
This study addresses a numerical approach for exploring how thermal change destabilizes marine gas h...
[1] Hydrate-bearing sediments may destabilize spontaneously as part of geological processes, unavoid...
Gas hydrates in near-mudline subsea sediments present significant challenges in the production of un...
Unconfined Class 2 hydrate accumulations in the oceanic subsurface are characterized by mobile salin...
Summarization: Gas hydrate dissociation is known to affect the permeability and the mechanical prope...
Summarization: Gas hydrates consist of small molecules trapped in crystal lattices of water molecule...
Unconfined Class 2 hydrate accumulations in the oceanic subsurface are characterized by mobile salin...
As hydrocarbon exploration and development moves into deeper water and onshore arctic environments, ...
Gas hydrates are natural ice-like solids formed from the combination of gas and water molecules. Hyd...
Gas hydrates are natural ice-like solids formed from the combination of gas and water molecules. Hyd...
As hydrocarbon exploration and development moves into deeper water and onshore Arctic environments, ...
In this project we have sought to explain the co-existence of gas and hydrate phases in sediments wi...
Drilling fluid invasion into hydrate-bearing sediments could induce hydrate dissociation and complic...
In nature, gas hydrates exist in areas of permafrost and in shallow subsurface sediments at ocean de...
In this study, we evaluate the response of oceanicsubsurface systems to thermal stresses caused by t...
This study addresses a numerical approach for exploring how thermal change destabilizes marine gas h...
[1] Hydrate-bearing sediments may destabilize spontaneously as part of geological processes, unavoid...
Gas hydrates in near-mudline subsea sediments present significant challenges in the production of un...
Unconfined Class 2 hydrate accumulations in the oceanic subsurface are characterized by mobile salin...
Summarization: Gas hydrate dissociation is known to affect the permeability and the mechanical prope...
Summarization: Gas hydrates consist of small molecules trapped in crystal lattices of water molecule...
Unconfined Class 2 hydrate accumulations in the oceanic subsurface are characterized by mobile salin...
As hydrocarbon exploration and development moves into deeper water and onshore arctic environments, ...
Gas hydrates are natural ice-like solids formed from the combination of gas and water molecules. Hyd...
Gas hydrates are natural ice-like solids formed from the combination of gas and water molecules. Hyd...
As hydrocarbon exploration and development moves into deeper water and onshore Arctic environments, ...
In this project we have sought to explain the co-existence of gas and hydrate phases in sediments wi...
Drilling fluid invasion into hydrate-bearing sediments could induce hydrate dissociation and complic...
In nature, gas hydrates exist in areas of permafrost and in shallow subsurface sediments at ocean de...