Magneto-Bioconvection Dynamics of Synovial Nanofluids: Consequences of Porosity, Rheology, and Heat Generation

Shaimaa Fathey Ramadan; M Bhatti; Khaled Saad Mekheimer; Ali Mohamed Ali Soliman Moawad; C. M. Khalique

Magneto-Bioconvection Dynamics of Synovial Nanofluids: Consequences of Porosity, Rheology, and Heat Generation

محل انتشار: مجله مکانیک کاربردی محاسباتی، دوره: 57، شماره: 1

سال انتشار: 1405

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 126

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https://civilica.com/doc/2446004

شناسه ملی سند علمی:

JR_JCAM-57-1_008

تاریخ نمایه سازی: 5 آذر 1404

چکیده مقاله:

The primary objective of this study is to analyze the thermal processes, nanoparticle concentration, and bioconvection mechanisms in a synovial fluid model using numerical methods. Two fluid models are considered: Model (۱), representing a shear-thinning fluid, and Model (۲), representing a shear-thickening fluid. The influences of magnetic field, porosity, Joule heating, and viscous dissipation are incorporated into the analysis. The governing equations for momentum, energy, nanoparticle concentration, and motile microorganism density are formulated using the lubrication approximation. The resulting nonlinear differential equations are solved numerically using the Runge–Kutta–Merson method and the finite difference scheme.The effects of key parameters on velocity, temperature, nanoparticle concentration, and motile microorganism density are systematically explored. The study reveals that the magnetic field significantly alters the fluid motion, reducing velocity as magnetic intensity increases, whereas higher velocities are observed in the shear-thinning model. The synovial fluid achieves its maximum velocity near the knee cartilage surface. The temperature profile is higher in Model (۱) than in Model (۲), primarily due to heat generation effects. The concentration production parameter also affects the thermal field, leading to lower nanoparticle concentrations in Model (۱). Moreover, the thermophoretic parameter decreases nanoparticle concentration, while the Brownian motion parameter enhances it. Heat-source-driven fluid motion ultimately reduces the density of motile microorganisms.

کلیدواژه ها:

synovial fluid ، Bioconvection ، nanoparticles ، microorganisms ، FDM

نویسندگان

Shaimaa Fathey Ramadan

Mathematical Department, Faculty of Science (Girls), Al-Azhar University, Nasr City, Cairo, Egypt

M Bhatti

Department of Physics, College of Science, Korea University, ۱۴۵ Anam-ro, Seongbuk-gu, Seoul ۰۲۸۴۱, Republic of Korea

Khaled Saad Mekheimer

Mathematical Department, Faculty of Science (Girls), Al-Azhar University, Nasr City, Cairo, Egypt

Ali Mohamed Ali Soliman Moawad

Mathematical Department, Faculty of Science (Girls), Al-Azhar University, Nasr City, Cairo, Egypt

C. M. Khalique

Material Science Innovation and Modelling (MaSIM) Research Focus Area, North-West University (Mafikeng Campus), Private Bag X۲۰۴۶, Mmabatho ۲۷۳۵, South Africa

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