Mingchao Liang scite author profile

In this paper, fluid transport through fibrous porous media is studied by the fractal theory with a focus on the effect of surface roughness of capillaries. A fractal model for Kozeny–Carman (KC) constant and dimensionless permeability of fibrous porous media with roughened surfaces is derived. The determined KC constant and dimensionless permeability of fibrous porous media with roughened surfaces are in good agreement with available experimental data and existing models reported in the literature. It is found that the KC constant of fibrous porous media with roughened surfaces increases with the increase of relative roughness, porosity, area fractal dimension of pore and tortuosity fractal dimension, respectively. Besides, it is seen that the dimensionless permeability of fibrous porous media with roughened surfaces decreases with increasing relative roughness and tortuosity fractal dimension. However, it is observed that the dimensionless permeability of fibrous porous media with roughened surfaces increases with porosity. With the proposed fractal model, the physical mechanisms of fluids transport through fibrous porous media are better elucidated.

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Permeability model for fractal porous media with rough surfaces

Yang

Liang

et al. 2014

Microfluid Nanofluid

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A fractal streaming current model for charged microscale porous media

Liang

Yang

2014

Journal of Electrostatics

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Effective Thermal Conductivity of Porous Media With Roughened Surfaces by Fractal-Monte Carlo Simulations

Xiao

Wang

et al. 2020

Fractals

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In this paper, the Fractal-Monte Carlo has been employed to simulate the effective thermal conductivity of porous media with roughened surfaces. The proposed probability model for the effective thermal conductivity of porous media with roughened surfaces can be expressed as a function of the relative roughness, porosity, minimum and maximum diameter of pores, fractal dimensions, and random number. The proposed model is validated by a satisfying agreement of our Fractal-Monte Carlo simulations and the experimental data. In our Fractal-Monte Carlo model, there is no extra empirical constant and each parameter has clear physical meaning. Then, the effects of micro-structural parameters of porous media on the effective thermal conductivity of porous media with roughened surfaces have been analyzed in detail. It can be found that the effective thermal conductivity of porous media with roughened surfaces decreases with the increase of relative roughness and tortuosity fractal dimension. Our results demonstrate that the proposed Fractal-Monte Carlo model can be used to characterize other transport properties such as mass transfer of porous media.

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Analysis of electroosmotic characters in fractal porous media

Liang

Yang

Miao

et al. 2015

Chemical Engineering Science

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Mingchao Liang

A fractal study for the effective electrolyte diffusion through charged porous media

An analytical model for the transverse permeability of gas diffusion layer with electrical double layer effects in proton exchange membrane fuel cells

A fractal analysis of laminar flow resistance in roughened microchannels

A Fractal Model for Kozeny–carman Constant and Dimensionless Permeability of Fibrous Porous Media With Roughened Surfaces

Permeability model for fractal porous media with rough surfaces

A fractal streaming current model for charged microscale porous media

Effective Thermal Conductivity of Porous Media With Roughened Surfaces by Fractal-Monte Carlo Simulations

Analysis of electroosmotic characters in fractal porous media

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