Multiscale storage and transport modeling in unconventional shale gas: A review
Several studies have been performed to model the storage and transport in organic matter
present in shale gas. However, the unconventional formation does not only contain organic …
present in shale gas. However, the unconventional formation does not only contain organic …
A review of cryogenic quasi-steady liquid-vapor phase change: Theories, models, and state-of-the-art applications
The recent developments in deep space exploration and renewable energy transition
involve many critical topics on cryogenic fluids, including cryogenic propellant management …
involve many critical topics on cryogenic fluids, including cryogenic propellant management …
Hydraulic fracturing and enhanced recovery in shale reservoirs: theoretical analysis to engineering applications
Shale reservoirs are extensively exploited using hydraulic fracturing, which forms multiple
cracks that connect with the existing natural fractures to create a continuous path for the gas …
cracks that connect with the existing natural fractures to create a continuous path for the gas …
Transport of shale gas in microporous/nanoporous media: molecular to pore-scale simulations
As the typical unconventional reservoir, shale gas is believed to be the most promising
alternative for the conventional resources in future energy patterns, attracting more and …
alternative for the conventional resources in future energy patterns, attracting more and …
Sticky layers affect oil transport through the nanopores of realistic shale kerogen
Understanding the transport mechanism of hydrocarbons through kerogen nanopores is
crucial to shale oil production. However, existing studies primarily focus on single …
crucial to shale oil production. However, existing studies primarily focus on single …
Gas flow models of shale: a review
Conventional flow models based on Darcy's flow physics fail to model shale gas production
data accurately. The failure to match field data and laboratory-scale evidence of non-Darcy …
data accurately. The failure to match field data and laboratory-scale evidence of non-Darcy …
Fast prediction of methane adsorption in shale nanopores using kinetic theory and machine learning algorithm
Understanding the gas adsorption behavior in shale nanopores is essential for the reservoir
estimation and performance prediction of shale gas, which is still unclear considering the …
estimation and performance prediction of shale gas, which is still unclear considering the …
A comparative study of shale oil transport behavior in graphene and kerogen nanopores with various roughness via molecular dynamics simulations
Understanding the transport behavior of molecules within nanopores is crucial in various
fields, including nanofluidic, bioengineering and geophysics. To elucidate oil flow within …
fields, including nanofluidic, bioengineering and geophysics. To elucidate oil flow within …
Review of shale gas transport prediction: Basic theory, numerical simulation, application of ai methods, and perspectives
The gas transport mechanism in shale reservoirs is extremely complex and is a typical
multiscale and multiphysics coupled transport process, considering the complex shale rock …
multiscale and multiphysics coupled transport process, considering the complex shale rock …
Apparent diffusion coefficient for adsorption-controlled gas transport in nanoporous media
We present an apparent diffusion coefficient derived from a diffusion-based mass
conservation equation for single-component gas transport in nanoporous media. Multiple …
conservation equation for single-component gas transport in nanoporous media. Multiple …