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VOL. 1, ISSUE 1 (2025)
Magnetohydrodynamic (MHD) two-phase flow of blood with suspended magnetic nanoparticles in a cylindrical artery: A mathematical study
Authors
Chintala Tulasi
Abstract
This study investigates the magnetohydrodynamic (MHD) two-phase flow of blood infused with magnetic nanoparticles (MNPs) in a cylindrical artery under the influence of an external magnetic field. Blood is modelled as a non-Newtonian fluid (Casson fluid), while the nanoparticles are treated as a dispersed phase. The governing equations—continuity, momentum, and Maxwell’s equations—are solved analytically and numerically to analyse velocity profiles, wall shear stress (WSS), and particle distribution. The study explores the effects of Hartmann number (Ha), particle concentration (ϕ), and magnetic field strength (B₀) on hemodynamics. Results indicate that MNPs enhance targeted drug delivery efficiency but increase shear stress at arterial walls, which may influence atherosclerosis risk. The findings contribute to biomedical engineering applications, particularly in magnetic drug targeting (MDT) and hyperthermia therapy.
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Pages:19-20
How to cite this article:
Chintala Tulasi "Magnetohydrodynamic (MHD) two-phase flow of blood with suspended magnetic nanoparticles in a cylindrical artery: A mathematical study". World Journal of Advanced Research , Vol 1, Issue 1, 2025, Pages 19-20
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