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A NOVEL FRACTAL SOLUTION FOR LAMINAR FLOW RESISTANCE IN ROUGHENED CYLINDRICAL MICROCHANNELS

Boqi Xiao, Yonghui Liu, Hanxin Chen, Xubing Chen, GONGBO LONG

2020Fractals30 citationsDOI

Abstract

In this work, a novel fractal model for the laminar flow in roughened cylindrical microchannels is proposed. The average height of rough elements is derived using the fractal theory. The effects of relative roughness on the friction factor and the Poiseuille number are discussed. It is found that the Darcy friction factor and the Poiseuille number increase with the increase in the relative roughness in the cylindrical microchannel. Besides, it is observed that the Darcy friction factor decreases with the increase in the Reynolds number. Each parameter of the proposed model has a clear physical meaning. The present model can properly reveal some mechanisms that affect the laminar flow in roughened cylindrical microchannels. The present model improves the understanding of the physical mechanisms of fluid flows through roughened cylindrical microchannels. Our model predictions are compared with the existing experimental data, and good agreement can be found.

Topics & Concepts

Laminar flowHagen–Poiseuille equationMicrochannelMechanicsReynolds numberFractalMaterials scienceFriction factorFlow (mathematics)Work (physics)Surface finishDarcy–Weisbach equationLaminar sublayerThermodynamicsTurbulencePorosityPhysicsMathematicsComposite materialPorous mediumMathematical analysisFluid Dynamics and Turbulent FlowsHeat Transfer MechanismsAdhesion, Friction, and Surface Interactions