Add to ORKGDue to abundant nanoscale pores developed in shale, gas flow in shale presents a complex dynamic process. This paper summarized the effects from effective stress increase, shale matrix shrinkage, gas slippage and Knudsen diffusion on the gas permeability change in shale during shale gas recovery. With the reduce in gas pressure, effective stress increase leads to the decline of the permeability in an exponential form; the permeability increases due to the shale matrix shrinkage induced by gas desorption; appearances of gas slippage and Knudsen diffusion cause an additional increase in the gas permeability particularly in small pores at low pressures. In addition, some reported models evaluating the shale permeability were reviewed preliminar...
In this work, new integrated permeability models for micro-nanopores and fractal shale matrixes are ...
Gas transport in unconventional shale strata is a multi-mechanism-coupling process that is different...
Gas transport in ultra-tight rock is non-Darcian. In addition to continuum flow, there are multiple ...
Due to abundant nanoscale pores developed in shale, gas flow in shale presents a complex dynamic pro...
AbstractThe shale gas reservoirs are composed of porous media of different length scales such as nan...
Shale formation is featured in nanopores and much gas adsorptions. Gas flow in the shale matrix is n...
Gas flow mechanisms and apparent permeability are important factors for predicating gas production i...
Poroelasticity and gas slippage on the walls of nanopores are two major mechanisms that regulate sha...
In more conventional gas reservoirs, gas flow is simple, uncomplicated, and described by simple flux...
Shale, a heterogeneous and extremely complex gas reservoir, contains low porosity and ultra-Low perm...
Matrix permeability is the primary transport property for shale gas recovery, due to the special pro...
Shale gas has become an essential source of energy supply in the United States and the world. It is ...
Shale matrix permeability is an important indicator for evaluating gas transport and production. How...
Producing gas from shale strata has become an increasingly important factor to secure energy over re...
Shale gas reservoirs are difficult to characterize, because routine methods developed for convention...
In this work, new integrated permeability models for micro-nanopores and fractal shale matrixes are ...
Gas transport in unconventional shale strata is a multi-mechanism-coupling process that is different...
Gas transport in ultra-tight rock is non-Darcian. In addition to continuum flow, there are multiple ...
Due to abundant nanoscale pores developed in shale, gas flow in shale presents a complex dynamic pro...
AbstractThe shale gas reservoirs are composed of porous media of different length scales such as nan...
Shale formation is featured in nanopores and much gas adsorptions. Gas flow in the shale matrix is n...
Gas flow mechanisms and apparent permeability are important factors for predicating gas production i...
Poroelasticity and gas slippage on the walls of nanopores are two major mechanisms that regulate sha...
In more conventional gas reservoirs, gas flow is simple, uncomplicated, and described by simple flux...
Shale, a heterogeneous and extremely complex gas reservoir, contains low porosity and ultra-Low perm...
Matrix permeability is the primary transport property for shale gas recovery, due to the special pro...
Shale gas has become an essential source of energy supply in the United States and the world. It is ...
Shale matrix permeability is an important indicator for evaluating gas transport and production. How...
Producing gas from shale strata has become an increasingly important factor to secure energy over re...
Shale gas reservoirs are difficult to characterize, because routine methods developed for convention...
In this work, new integrated permeability models for micro-nanopores and fractal shale matrixes are ...
Gas transport in unconventional shale strata is a multi-mechanism-coupling process that is different...
Gas transport in ultra-tight rock is non-Darcian. In addition to continuum flow, there are multiple ...