Optimization of the depressurization pathways plays a crucial role in avoiding potential geohazards while increasing hydrate production efficiency. In this study, methane hydrate was formed in a flexible plastic vessel and then gas production processes were conducted at constant confining pressure and constant confining temperature. The CMG-STARS simulator was applied to match the experimental gas production behavior and to derive the hydrate intrinsic dissociation constant. Secondly, fluid production behavior, pressure-temperature (P‐T) responses, and hydrate saturation evolution behaviors under different depressurization pathways were analyzed. The results show that integrated gas-water ratio (IGWR) decreases linearly with the increase in...
Natural gas hydrate is considered as a promising energy resource in the future. How to choose a suit...
Depressurization is thought to be a promising method for gas recovery from methane hydrate reservoir...
The Pilot-Scale Hydrate Simulator (PHS), a three-dimensional 117.8 L pressure vessel, was applied to...
The kinetic behaviors of methane hydrate dissociation under depressurization in porous media are inv...
Methane hydrate is the world's largest hydrocarbon reservoir, and can be performed as an important "...
The gas production behavior from methane hydrate in a porous sediment by depressurization was invest...
In this study, a 2D hydrate dissociation simulator has been improved and verified to be valid in nume...
Three high pressure reactors with different inner volumes, which are named as the Pilot-scale Hydrat...
This study presents the three-dimensional (3D) cubic hydrate simulator (CHS) to analyze the methane ...
Natural gas hydrate can be regarded as alternative energy source in future. Therefore, developing ap...
Dissociation processes of methane hydrate in porous media using the depressurization method are in...
The cubic hydrate simulator (CHS) is used to study the methane hydrate production behaviors in porou...
Pilot-Scale Hydrate Simulator (PHS), a novel three-dimensional 117.8-L pressure vessel was developed...
Methane hydrate is considered as a potential source of methane for energy supply. Therefore, develop...
In this work, the gas production behaviors of methane hydrate in porous media were investigated in t...
Natural gas hydrate is considered as a promising energy resource in the future. How to choose a suit...
Depressurization is thought to be a promising method for gas recovery from methane hydrate reservoir...
The Pilot-Scale Hydrate Simulator (PHS), a three-dimensional 117.8 L pressure vessel, was applied to...
The kinetic behaviors of methane hydrate dissociation under depressurization in porous media are inv...
Methane hydrate is the world's largest hydrocarbon reservoir, and can be performed as an important "...
The gas production behavior from methane hydrate in a porous sediment by depressurization was invest...
In this study, a 2D hydrate dissociation simulator has been improved and verified to be valid in nume...
Three high pressure reactors with different inner volumes, which are named as the Pilot-scale Hydrat...
This study presents the three-dimensional (3D) cubic hydrate simulator (CHS) to analyze the methane ...
Natural gas hydrate can be regarded as alternative energy source in future. Therefore, developing ap...
Dissociation processes of methane hydrate in porous media using the depressurization method are in...
The cubic hydrate simulator (CHS) is used to study the methane hydrate production behaviors in porou...
Pilot-Scale Hydrate Simulator (PHS), a novel three-dimensional 117.8-L pressure vessel was developed...
Methane hydrate is considered as a potential source of methane for energy supply. Therefore, develop...
In this work, the gas production behaviors of methane hydrate in porous media were investigated in t...
Natural gas hydrate is considered as a promising energy resource in the future. How to choose a suit...
Depressurization is thought to be a promising method for gas recovery from methane hydrate reservoir...
The Pilot-Scale Hydrate Simulator (PHS), a three-dimensional 117.8 L pressure vessel, was applied to...