An integral equation method and an asymptotic analysis approach for erosion in porous media
ORAL
Abstract
In nature, erosion caused by water or air flow is one of the most prevalent
geological and mechanical processes. This phenomenon occurs at the fluid-solid
interface when the total shear stress induced by the flow exceeds specific
critical threshold that depends on the properties of the solid material.
This research project focuses on the mathematical modeling and simulation
of erosion process in a porous medium characterized by axisymmetric channels.
We employ an integral equation method, which enables efficient and accurate
analysis of the erosion process within the porous medium. We present a detailed
comparison between the numerical solutions from our model and the reduced
mathematical model using asymptotic analysis developed by Kahza and Sanaei
[Phys. Rev. Fluids, 9(2024)], providing insights into erosion patterns and
validating the proposed approach. Furthermore, we extend our methodology to
examine the transport and behavior of active particles immersed in the fluid.
geological and mechanical processes. This phenomenon occurs at the fluid-solid
interface when the total shear stress induced by the flow exceeds specific
critical threshold that depends on the properties of the solid material.
This research project focuses on the mathematical modeling and simulation
of erosion process in a porous medium characterized by axisymmetric channels.
We employ an integral equation method, which enables efficient and accurate
analysis of the erosion process within the porous medium. We present a detailed
comparison between the numerical solutions from our model and the reduced
mathematical model using asymptotic analysis developed by Kahza and Sanaei
[Phys. Rev. Fluids, 9(2024)], providing insights into erosion patterns and
validating the proposed approach. Furthermore, we extend our methodology to
examine the transport and behavior of active particles immersed in the fluid.
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Presenters
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Szu-Pei Peter Fu
State Univ of NY - Farmingdale
Authors
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Szu-Pei Peter Fu
State Univ of NY - Farmingdale
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Pejman Sanaei
Georgia state Univeristy