An Apparent Gas Permeability Model for Real Gas Flow in Fractured Porous Media with Roughened Surfaces

Wu, Tao; Wang, Qian; Wang, Shifang

doi:10.3390/polym13121937

Polymers

2021

DOI: 10.3390/polym13121937

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An Apparent Gas Permeability Model for Real Gas Flow in Fractured Porous Media with Roughened Surfaces

Tao Wu

Qian Wang

Shifang Wang

Abstract: The investigation of gas transport in fractured porous media is essential in most petroleum and chemical engineering. In this paper, an apparent gas permeability model for real gas flow in fractured porous media is derived with adequate consideration of real gas effect, the roughness of fracture surface, and Knudsen diffusion based on the fractal theory. The fractal apparent gas permeability model is obtained to be a function of micro-structural parameters of fractured porous media, relative roughness, the pre… Show more

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2024

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Percolation Characteristics of Power-Law Fluid in the Fractal Tree-Like Bifurcation Networks With Rough Surfaces

Yang,

Sheng,

Liang

et al. 2024

J Por Media

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In order to study the seepage characteristics of power-law fluids in the fractal tree-like bifurcation networks with rough surfaces based on fractal theory, the shape factor of rough surfaces is treated as the randomly distributed cones. According to the generalized Darcy's law and the constitutive equation of power-law fluids, the fully-developed laminar and incompressible flow of power-law fluids in rough pipelines is explored, and the velocity graduation and flow rate expressions of fluids in rough pipelines are obtained. Then, the fractal model for the permeability of power-law fluid in the tree-like bifurcation network with rough surfaces is proposed, and the total flow rate, total pressure drop, and permeability of power-law fluid in the tree bifurcation network with rough surfaces are derived. The relative increase in pressure and the relative decrease in permeability are also obtained. Finally, the analytical expression for the permeability of power-law fluids is analyzed. It can be seen that the permeability of a rough tree-like bifurcation network is inversely proportional to relative roughness, length ratio, bifurcation angle, etc., and directly proportional to the power-law index and diameter ratio. At the same time, the predicted values of the model are compared with existing models, proving the correctness and rationality of the model.

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Percolation Characteristics of Power-Law Fluid in the Fractal Tree-Like Bifurcation Networks With Rough Surfaces

Yang,

Sheng,

Liang

et al. 2024

J Por Media

View full text Add to dashboard Cite

show abstract

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An Apparent Gas Permeability Model for Real Gas Flow in Fractured Porous Media with Roughened Surfaces

Cited by 1 publication

References 49 publications

Percolation Characteristics of Power-Law Fluid in the Fractal Tree-Like Bifurcation Networks With Rough Surfaces

Percolation Characteristics of Power-Law Fluid in the Fractal Tree-Like Bifurcation Networks With Rough Surfaces

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