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Estimating of Non-Darcy Flow Coefficient in Artificial Porous Media

Abadelhalim Elsanoose, Ekhwaiter Abobaker, Faisal Khan, Mohammad Azizur Rahman, Amer Aborig, Stephen Butt

2022Energies20 citationsDOIOpen Access PDF

Abstract

This study conducted a radial flow experiment to investigate the existence of non-Darcy flow and calculate the non-Darcy “inertia” coefficient; the experiment was performed on seven cylindrical perforated artificial porous media samples. Two hundred thirty-one runs were performed, and the pressure drop was reported. The non-Darcy coefficient β was calculated and compared with available in the literature. The results showed that the non-Darcy coefficient decreased nonlinearly and converged on a value within a specific range as the permeability increased. Nonetheless, it was found that the non-Darcy flow exists even in the very low flow rate deployed in this study. In addition, it has been found that the non-Darcy effect is not due to turbulence but also the inertial effect. The existence of a non-Darcy flow was confirmed for all the investigated samples. The Forchheimer numbers for airflow at varied flow rates are determined using experimentally measured superficial velocity, permeability, and non-Darcy coefficient.

Topics & Concepts

Darcy's lawPermeability (electromagnetism)Darcy numberPorous mediumMechanicsPressure dropFlow coefficientInertiaVolumetric flow rateTurbulenceMaterials scienceMathematicsPorosityChemistryReynolds numberPhysicsClassical mechanicsComposite materialBiochemistryNusselt numberMembraneHeat and Mass Transfer in Porous MediaParticle Dynamics in Fluid FlowsFluid Dynamics and Turbulent Flows
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