Numerical simulation in the earths subsurface Understanding physical processes in the earths subsurface is very challenging and very important research field. • Challenges: Rock formations often consist of porous material with multiscale features. Several physical processes are active at the same time. • Apps: ground water flow, CO2 storage, and oil recovery. Numerical simulation is an increasingly powerful tool
This is a Phase I report on a project to significantly enhance existing subsurface simulation softwa...
Controlling the flow of fluids (e.g. water, oil, natural gas or CO2) in subsurface porous media is a...
Numerical modeling of fluid flow and contaminant transport is often used to test hypotheses and to g...
International audienceThe underground is a reservoir of natural resources (water, oil and gas, heat,...
Our understanding of the subsurface system of the earth is becoming increasingly more sophisticated ...
Numerical simulators are frequently used to assess future risks, support remediation and monitoring ...
Enhancement in computing power and better data availability have paved the way for deciphering the e...
This dataset contains simulation results used in Nakao et al. "Repeated breakdown and formation of h...
The Earth's subsurface is a key resource that provides energy via fossil fuels and geothermal source...
The DOE and several other Federal agencies have committed significant resources to support the devel...
The finite element method is used to simulate coupled problems, which describe the related physical ...
The quantitative imaging of the Earth subsurface is a major challenge in geophysics. In oil and gas ...
During the past five decades, numerical modeling of subduction, one of the most challenging and capt...
We discuss computational engineering and science (CES) methodologies and tools applicable to a varie...
Fluid flow, particle transport, and chemical reactions in porous media play a vital role in various ...
This is a Phase I report on a project to significantly enhance existing subsurface simulation softwa...
Controlling the flow of fluids (e.g. water, oil, natural gas or CO2) in subsurface porous media is a...
Numerical modeling of fluid flow and contaminant transport is often used to test hypotheses and to g...
International audienceThe underground is a reservoir of natural resources (water, oil and gas, heat,...
Our understanding of the subsurface system of the earth is becoming increasingly more sophisticated ...
Numerical simulators are frequently used to assess future risks, support remediation and monitoring ...
Enhancement in computing power and better data availability have paved the way for deciphering the e...
This dataset contains simulation results used in Nakao et al. "Repeated breakdown and formation of h...
The Earth's subsurface is a key resource that provides energy via fossil fuels and geothermal source...
The DOE and several other Federal agencies have committed significant resources to support the devel...
The finite element method is used to simulate coupled problems, which describe the related physical ...
The quantitative imaging of the Earth subsurface is a major challenge in geophysics. In oil and gas ...
During the past five decades, numerical modeling of subduction, one of the most challenging and capt...
We discuss computational engineering and science (CES) methodologies and tools applicable to a varie...
Fluid flow, particle transport, and chemical reactions in porous media play a vital role in various ...
This is a Phase I report on a project to significantly enhance existing subsurface simulation softwa...
Controlling the flow of fluids (e.g. water, oil, natural gas or CO2) in subsurface porous media is a...
Numerical modeling of fluid flow and contaminant transport is often used to test hypotheses and to g...