Add to ORKGAlthough hydrocarbon production from unconventional reservoirs, the so-called shale gas, has exploded recently, reliable predictions of resource availability and extraction are missing because conventional tools fail to account for their ultra-low permeability and complexity. Here, we use molecular simulation and statistical mechanics to show that continuum description—Darcy’s law—fails to predict transport in shales nanoporous matrix (kerogen). The non-Darcy behaviour arises from strong adsorption in kerogen and the breakdown of hydrodynamics at the nanoscale, which contradict the assumption of viscous flow. Despite this complexity, all permeances collapse on a master curve with an unexpected dependence on alkane length. We rationalize thi...
In this work, we study gas flow through shale matrix consisting of a microporous inorganic material ...
Predicting apparent gas permeability (AGP) in nanopores is a major challenge for shale gas developme...
Shale formation is featured in nanopores and much gas adsorptions. Gas flow in the shale matrix is n...
Although hydrocarbon production from unconventional reservoirs, the so-called shale gas, has explode...
In a context of growing attention for shale gas, the precise impact of organic matter (kerogen) on h...
Shale reservoir contains different rock components that exhibit multi-scale hierarchical pore struct...
We report the results of modelling the transport of n-octane and n-hexadecane and their mixtures thr...
Organic-rich resource shales play an important role in global natural gas production. However, many ...
Most of the worlds currently accessible hydrocarbon resources are found in tight rocks - rocks with ...
In the past decades, exploration and production activities gradually shift to unconventional resourc...
Understanding and characterizing the transport of shale gas (methane) through the nanopores of kerog...
Over the past few years, the production of shale hydrocarbons has seen a renewed interest both in sc...
Nanopores are extremely developed and randomly distributed in shale gas reservoirs. Due to the raref...
Kerogen is a microporous amorphous solid, which is the major component of the organic matter scatter...
Multiple transport mechanisms coexist in nanopores of shale gas reservoirs with complex pore size di...
In this work, we study gas flow through shale matrix consisting of a microporous inorganic material ...
Predicting apparent gas permeability (AGP) in nanopores is a major challenge for shale gas developme...
Shale formation is featured in nanopores and much gas adsorptions. Gas flow in the shale matrix is n...
Although hydrocarbon production from unconventional reservoirs, the so-called shale gas, has explode...
In a context of growing attention for shale gas, the precise impact of organic matter (kerogen) on h...
Shale reservoir contains different rock components that exhibit multi-scale hierarchical pore struct...
We report the results of modelling the transport of n-octane and n-hexadecane and their mixtures thr...
Organic-rich resource shales play an important role in global natural gas production. However, many ...
Most of the worlds currently accessible hydrocarbon resources are found in tight rocks - rocks with ...
In the past decades, exploration and production activities gradually shift to unconventional resourc...
Understanding and characterizing the transport of shale gas (methane) through the nanopores of kerog...
Over the past few years, the production of shale hydrocarbons has seen a renewed interest both in sc...
Nanopores are extremely developed and randomly distributed in shale gas reservoirs. Due to the raref...
Kerogen is a microporous amorphous solid, which is the major component of the organic matter scatter...
Multiple transport mechanisms coexist in nanopores of shale gas reservoirs with complex pore size di...
In this work, we study gas flow through shale matrix consisting of a microporous inorganic material ...
Predicting apparent gas permeability (AGP) in nanopores is a major challenge for shale gas developme...
Shale formation is featured in nanopores and much gas adsorptions. Gas flow in the shale matrix is n...