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Analysis of nonlinear effects in fluid flows through porous media

А. Б. Золотухин, Abdumalik Gayubov

2022Journal of Petroleum Exploration and Production Technology12 citationsDOIOpen Access PDF

Abstract

Abstract This article examines the nonlinear effects of fluid flow in a porous medium, governed by a new semi-analytical equation, from three aspects: equation derivation, experimental verification, and macroscale simulation modelling. The rigorous derivation of the new equation is presented with a semi-analytical approach in which the gas slippage effect and inertial forces are described. The latter effect is controlled by Fochheimer number, which is defined as a product of tortuosity and Reynolds number. The new equation successfully predicts the deviations from Darcy’s law in low-permeability media when the gas slippage effect occurs. The Klinkenberg gas slippage factor is obtained as a function of porous media’s structural parameter (porosity and intrinsic permeability) and gas property (mean free path of gas molecules). The equation validations are performed by core flow experiments for a wide range of reservoir properties, which yield good matching relationship between modelled and observed values. In addition, the proposed semi-analytical equation is used to simulate gas flow in the radial model.

Topics & Concepts

TortuositySlippagePorous mediumMechanicsPermeability (electromagnetism)Nonlinear systemDarcy's lawFluid dynamicsPorosityDiffusion equationFlow (mathematics)Materials sciencePhysicsGeotechnical engineeringGeologyChemistryEngineeringQuantum mechanicsMembraneComposite materialBiochemistryMetric (unit)Operations managementGroundwater flow and contamination studiesHydraulic Fracturing and Reservoir AnalysisLattice Boltzmann Simulation Studies
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