In this Letter. a difference-fractal model for the permeability of viscous flow through fibrous porous media is proposed. Since fractal objects have well-defined geometric properties, and are discrete and discontinuous, we apply the difference approach to developing the fractal model. The model of non-dimensional permeability is expressed as a function of porosity and fractal dimension. To verify the validity of the proposed model, the predicted permeability values are compared with those of experimental measurements. A good agreement between the prediction of the fractal model and the existing experimental data from the literature is found
The study of water and gas transport through fibrous gas diffusion layer (GDL) is important to the o...
The permeability of the fractal porous media is simulated by Monte Carlo technique in this work. Bas...
International audiencePredicting the permeability of porous media in saturated and partially saturat...
In this paper a fractal permeability model for bi-dispersed porous media is developed based on the f...
Mass transport through porous media is an important subject to engineers and scientists in various a...
This special issue gathers together a number of recent papers on fractal geometry and its applicatio...
Many researchers have revealed that relative permeability depends on the gas-water-rock interactions...
Mass transport through porous media is an important subject to engineers and scientists in various:a...
Permeability tensor describes the resistance to fluid flow through the fibrous porous media, which m...
Due to the rapid development of Micro-Electro-Mechanical System (MEMS), more and more attention has ...
Most classical predictive models of relative permeability conceptualize the pores in porous media as...
The relationship between permeability and porosity is reviewed and investigated. The classical Koze...
Abstract The permeability of a porous medium is strongly affected by its local geometry and connecti...
International audienceCement-based materials are more and more recognized as fractal materials. From...
We present fractal models for the flow rate, velocity, effective viscosity, apparent viscosity, and ...
The study of water and gas transport through fibrous gas diffusion layer (GDL) is important to the o...
The permeability of the fractal porous media is simulated by Monte Carlo technique in this work. Bas...
International audiencePredicting the permeability of porous media in saturated and partially saturat...
In this paper a fractal permeability model for bi-dispersed porous media is developed based on the f...
Mass transport through porous media is an important subject to engineers and scientists in various a...
This special issue gathers together a number of recent papers on fractal geometry and its applicatio...
Many researchers have revealed that relative permeability depends on the gas-water-rock interactions...
Mass transport through porous media is an important subject to engineers and scientists in various:a...
Permeability tensor describes the resistance to fluid flow through the fibrous porous media, which m...
Due to the rapid development of Micro-Electro-Mechanical System (MEMS), more and more attention has ...
Most classical predictive models of relative permeability conceptualize the pores in porous media as...
The relationship between permeability and porosity is reviewed and investigated. The classical Koze...
Abstract The permeability of a porous medium is strongly affected by its local geometry and connecti...
International audienceCement-based materials are more and more recognized as fractal materials. From...
We present fractal models for the flow rate, velocity, effective viscosity, apparent viscosity, and ...
The study of water and gas transport through fibrous gas diffusion layer (GDL) is important to the o...
The permeability of the fractal porous media is simulated by Monte Carlo technique in this work. Bas...
International audiencePredicting the permeability of porous media in saturated and partially saturat...