Fluid flow, particle transport, and chemical reactions in porous media play a vital role in various disciplines, including hydrology, medicine, and engineering. In particular, in the petroleum industry, subsurface engineering applications involving injection or production of fluids are associated with physical and chemical processes at the pore-scale (nano/microscale). These processes encompass fluid-rock interactions that can determine and alter the fluid behavior and rock properties at reservoir scales (macroscale). Developing engineering tools to probe and link pore-scale processes to reservoir-scale remains a fundamental research challenge to enhance our understanding and our ability to predict the observed phenomena in the subsurface ...
textFlow and transport phenomena in the subsurface often span a wide range of length (nanometers to ...
textAccurate predictions of macroscopic multiphase flow properties, such as relative permeability an...
Difficulties have been encountered in modelling unconventional reservoirs using traditional approach...
textUnconventional reservoirs, specifically carbonates, tight gas sandstone and shale gas formations...
textMany engineering and scientific applications of flow in porous media are characterized by transp...
The study presented in this thesis addresses various pore-scale phenomena related to the oil indust...
Source rocks such as resource shale are a special subclass of petroleum reservoirs where the hydroca...
Unconventional reservoir resources are important to supplement energy consumption and maintain the b...
Due to the influence of pore-throat size distribution, pore connectivity, and microscale fractures, ...
textTight gas and shale oil play an important role in energy security and in meeting an increasing e...
Many geological materials, such as shale, mudstone, carbonate rock, limestone and rock salt are mult...
Source rocks, such as organic-rich shale, consist of multi-scale pore structures which include pores...
This paper describes a new modeling framework for microscopic to reservoir-scale simulations of hydr...
The first part of this work proposes a partitioning scheme to divide porous media in shale into thre...
A new multi-continuum compositional gas simulation model is presented for deformable organic-rich so...
textFlow and transport phenomena in the subsurface often span a wide range of length (nanometers to ...
textAccurate predictions of macroscopic multiphase flow properties, such as relative permeability an...
Difficulties have been encountered in modelling unconventional reservoirs using traditional approach...
textUnconventional reservoirs, specifically carbonates, tight gas sandstone and shale gas formations...
textMany engineering and scientific applications of flow in porous media are characterized by transp...
The study presented in this thesis addresses various pore-scale phenomena related to the oil indust...
Source rocks such as resource shale are a special subclass of petroleum reservoirs where the hydroca...
Unconventional reservoir resources are important to supplement energy consumption and maintain the b...
Due to the influence of pore-throat size distribution, pore connectivity, and microscale fractures, ...
textTight gas and shale oil play an important role in energy security and in meeting an increasing e...
Many geological materials, such as shale, mudstone, carbonate rock, limestone and rock salt are mult...
Source rocks, such as organic-rich shale, consist of multi-scale pore structures which include pores...
This paper describes a new modeling framework for microscopic to reservoir-scale simulations of hydr...
The first part of this work proposes a partitioning scheme to divide porous media in shale into thre...
A new multi-continuum compositional gas simulation model is presented for deformable organic-rich so...
textFlow and transport phenomena in the subsurface often span a wide range of length (nanometers to ...
textAccurate predictions of macroscopic multiphase flow properties, such as relative permeability an...
Difficulties have been encountered in modelling unconventional reservoirs using traditional approach...