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On the Interplay of Micropolarity and Viscoelastic Relaxation in Controlling Drag Within a Cavity Flow

Authors

  • Khizar Hayat Khan Department of Mathematics, College of Science and Humanities, Prince Sattam Bin Abdulaziz University, Al-Kharj, Saudi Arabia
  • Muhammad Sabeel Khan Department of Mathematics, Capital University of Science and Technology, Islamabad, Pakistan https://orcid.org/0000-0003-4614-2840
  • Nazim Hussain Hanjano Department of Mathematics, Sukkur IBA University, Sukkur, Pakistan https://orcid.org/0000-0003-3829-369X
  • Farxod Akmalovich Ixtiyarov Center of Research and Innovation, Asia International University, Bukhara, Uzbekistan
  • Saeed Islam Department of Mechanical Engineering, Prince Mohammad Bin Fahd University, Al Khobar, Saudi Arabia https://orcid.org/0000-0001-5263-4871
  • Amna Department of Mathematics, Women University, Swabi, KP, Pakistan
  • Ghulam Khadija Department of Mathematics, Capital University of Science and Technology, Islamabad, Pakistan https://orcid.org/0009-0006-2312-952X
  • Muhammad Bilal Department of Mathematics, Capital University of Science and Technology, Islamabad, Pakistan https://orcid.org/0009-0004-1627-1793

DOI:

https://doi.org/10.37256/cm.7220269430

Keywords:

micropolar fluid, Eringen number, relaxation factor, drag force, finite element method, FreeFEM , liddriven cavity flow, sustainable engineering design, energy-efficient flow control, industry and innovation

Abstract

The interplay between microrotation, microinertia, and viscoelastic relaxation significantly influences the hydrodynamic performance of non-Newtonian cavity flows. This study investigates the combined effects of the Eringen number, micropolar coupling constant, and fluid relaxation factor on drag force, microrotation, and flow behavior in a two-dimensional lid-driven cavity. The governing nonlinear partial differential equations are formulated using Eringen’s micropolar theory with relaxation-time-dependent stress, and the characteristic Galerkin finite element method is employed for numerical solution using a custom FreeFEM++ implementation. The results reveal a strong coupling between microrotation and viscoelastic relaxation effects. Increasing the relaxation factor enhances flow elasticity, leading to variations in drag force depending on the flow regime. The Eringen number stabilizes the flow and suppresses drag oscillations, while the micropolar coupling constant modulates shear-layer thickness and vortex intensity. Higher Eringen number increases kinetic energy and produces more ordered streamline patterns, whereas larger values of micropolar constant reduces drag while amplifying microrotation. Overall, tuning Eringen number, micropolar constant and time relaxation provides an effective mechanism for controlling drag and optimizing flow stability. These findings offer valuable insights for the design of advanced microfluidic and rheological systems where microstructural and viscoelastic effects coexist.

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Published

2026-04-15

How to Cite

1.
Khan KH, Sabeel Khan M, Hanjano NH, Ixtiyarov FA, Islam S, Amna, Ghulam Khadija, Bilal M. On the Interplay of Micropolarity and Viscoelastic Relaxation in Controlling Drag Within a Cavity Flow. Contemp. Math. [Internet]. 2026 Apr. 15 [cited 2026 Jun. 4];7(2):2674-701. Available from: https://ojs.wiserpub.com/index.php/CM/article/view/9430

Issue

Contemporary Mathematics, Volume 7 Issue 2 (2026), 1369-2701

Section

Research Article

License

Copyright (c) 2026 Khizar Hayat Khan Khan, Muhammad Sabeel Khan, Nazim Hussain Hanjano, Farxod Akmalovich Ixtiyarov, Saeed Islam, Amna, Ghulam Khadija, Muhammad Bilal

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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