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A FRACTAL MODEL FOR CAPILLARY FLOW THROUGH A SINGLE TORTUOUS CAPILLARY WITH ROUGHENED SURFACES IN FIBROUS POROUS MEDIA

Boqi Xiao, Qiwen Huang, Hanxin Chen, Xubing Chen, GONGBO LONG

2020Fractals288 citationsDOI

Abstract

In this paper, a fractal model for capillary flow through a single tortuous capillary with roughened surfaces in fibrous porous media is derived. The determined imbibition height and imbibition mass of capillary rise are in satisfying agreement with the existing models reported in the literature. It is found that the imbibition height and imbibition mass of capillary decreases with increasing relative roughness. Besides, it is observed that the equilibrium time in a single tortuous capillary with roughened surfaces decreases with an increase in relative roughness. In addition, it is seen that the imbibition height and imbibition mass of capillary rise increases with imbibition time. With the proposed fractal model, the physical mechanisms of capillary flow through a single tortuous capillary with roughened surfaces in fibrous porous media are better elucidated. One advantage of our fractal analytical model is that it contains no empirical constant, which is usually required in previous models.

Topics & Concepts

ImbibitionCapillary actionPorous mediumMaterials scienceFractalSurface finishPorosityMechanicsFlow (mathematics)Fractal dimensionSurface roughnessComposite materialPhysicsMathematicsMathematical analysisGerminationBotanyBiologyFluid Dynamics and Thin FilmsLattice Boltzmann Simulation StudiesFluid Dynamics and Heat Transfer
A FRACTAL MODEL FOR CAPILLARY FLOW THROUGH A SINGLE TORTUOUS CAPILLARY WITH ROUGHENED SURFACES IN FIBROUS POROUS MEDIA | Litcius