2024, Vol. 5, Issue 1, Part A
Numerical simulation of poorly conducting couple stress fluid dispersion in non-porous matrices
Numerical simulation of poorly conducting couple stress fluid dispersion in non-porous matrices
Author(s): Umavathi A and KS Mallika
Abstract: This research examines the scattering behavior of ineffectively conducting couple push liquids inside non-porous networks through progressed numerical reenactments. By joining computational liquid flow procedures with couple stretch constitutive models and permeable media stream recreations, we created a comprehensive system to analyze liquid scattering wonders. The consideration considers components such as advection, dissemination, microstructural flow, and warm impacts due to the destitute conductivity of the liquid. Through fastidious experimentation and approval against benchmark cases, our numerical model illustrates tall exactness in capturing the complex interaction between liquid rheology and lattice properties. The parametric consider uncovers noteworthy impacts of Liquid consistency: 0.003 Pa.s, Couple push coefficient: 0.05 N/m^2, and Permeable media penetrability: 1.2 × 10^-10 m^2 on scattering behavior. Notably, our inquiry gives important experiences into optimizing forms in medicate conveyance, groundwater remediation, and improved oil recuperation applications. In comparison to existing writing, our approach outperforms conventional reenactment methods, advertising a strong numerical system for considering ineffectively conducting couple stretch liquid scattering. This ponder contributes to both hypothetical understanding and viable applications in assorted designing and natural areas.
Pages: 19-24 | Views: 82 | Downloads: 45Download Full Article: Click Here
How to cite this article:
Umavathi A, KS Mallika. Numerical simulation of poorly conducting couple stress fluid dispersion in non-porous matrices. Int J Mech Therm Eng 2024;5(1):19-24.