Add to ORKGThe TOUGH+Millstone simulator has been developed for the analysis of coupled flow, thermal and geomechanical processes associated with the formation and/or dissociation of CH 4-hydrates in geological media. It is composed of two constituent codes: (a) a significantly enhanced version of the TOUGH+Hydrate simulator, v2.0, that accounts for all known flow, physical, thermodynamic and chemical processes associated with the evolution of hydrate-bearing systems and includes the most recent physical properties relationships, coupled seamlessly with (b) Millstone v1.0, a new code that addresses the conceptual, computational and mathematical shortcomings of earlier codes used to describe the geomechanical response of these systems. The capabilities...
Natural gas hydrates have been treated as a potential energy resource for decades. Understanding geo...
The recovery of methane from gas hydrate layers that have been detected in several subsea sediments ...
Sand production has been identified as a key reason limiting sustained and commercial gas production...
TOUGH + Millstone has been developed for the analysis of coupled flow, thermal and geomech...
The TOUGH+Millstone simulator has been developed for the analysis of coupled flow, thermal and geome...
In this paper, we describe the development and application of a numerical simulator that analyzes th...
Geologic reservoirs containing gas hydrate occur beneath permafrost environments and within marine c...
The Mallik site represents an onshore permafrost-associated gas hydrate accumulation in the Mackenzi...
Large quantities of natural gas hydrate are present in marine sediments along the coastlines of many...
Gas production from hydrates induced by depressurization is a complex thermal-hydrodynamic-mechanica...
We present a fully coupled thermo-hydro-mechanical formulation for the simulation of sediment deform...
Natural gas from hydrates is extremely abundant as an energy resource; US resource-grade hydrate dep...
Gas hydrates are crystalline clathrate compounds made of water and a low molecular gas like methane ...
We present a fully coupled thermo-hydro-mechanical formulation for the simulation of sediment deform...
The deformation processes of hydrate sediments during hydrate gas production are complex due to the ...
Natural gas hydrates have been treated as a potential energy resource for decades. Understanding geo...
The recovery of methane from gas hydrate layers that have been detected in several subsea sediments ...
Sand production has been identified as a key reason limiting sustained and commercial gas production...
TOUGH + Millstone has been developed for the analysis of coupled flow, thermal and geomech...
The TOUGH+Millstone simulator has been developed for the analysis of coupled flow, thermal and geome...
In this paper, we describe the development and application of a numerical simulator that analyzes th...
Geologic reservoirs containing gas hydrate occur beneath permafrost environments and within marine c...
The Mallik site represents an onshore permafrost-associated gas hydrate accumulation in the Mackenzi...
Large quantities of natural gas hydrate are present in marine sediments along the coastlines of many...
Gas production from hydrates induced by depressurization is a complex thermal-hydrodynamic-mechanica...
We present a fully coupled thermo-hydro-mechanical formulation for the simulation of sediment deform...
Natural gas from hydrates is extremely abundant as an energy resource; US resource-grade hydrate dep...
Gas hydrates are crystalline clathrate compounds made of water and a low molecular gas like methane ...
We present a fully coupled thermo-hydro-mechanical formulation for the simulation of sediment deform...
The deformation processes of hydrate sediments during hydrate gas production are complex due to the ...
Natural gas hydrates have been treated as a potential energy resource for decades. Understanding geo...
The recovery of methane from gas hydrate layers that have been detected in several subsea sediments ...
Sand production has been identified as a key reason limiting sustained and commercial gas production...