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Shooting method applied to porous rotating disk: Darcy-Forchheimer flow of nanofluid
Muzamal Hussain,Humaira Sharif,Mohamed A. Khadimallah,Abir Mouldi,Hassen Loukil,Mohamed R. Ali,Abdelouahed Tounsi Techno-Press 2023 Advances in nano research Vol.14 No.3
The characteristics of motile microorganism and three dimensional Darcy-Forchheimer nanofluid flow by a porous rotatable disk with heat generation/absorption is reported. Thermophoretic and Brownian motion aspects are included by utilizing Buongiorno model. Moreover, slip conditions are considered on velocity, thermal, concentration and microorganism. Shooting procedure is implemented to find the numerical results of physical quantities are evaluated parametrically. The different physical parameters like heat sink/source parameter, thermal, Brownian number, thermophoresis parameter, concentration, Peclet number, bioconvected Lewis number, microorganism on concentration and density of motile microorganism distributions is considered. Graphs of concentration and microorganism are plotted to examine the influence of distinct prominent flow parameters.
Muzamal Hussain,Humaira Sharif,Mohammad Amien Khadimallah,Hamdi Ayed,Abir Mouldi,Muhammad Naeem Mohsin,Sajjad Hussain,Abdelouahed Tounsi Techno-Press 2024 Advances in nano research Vol.16 No.4
Latest advancement in field of fluid dynamics has taken nanofluid under consideration which shows large thermal conductance and enlarges property of heat transformation in fluids. Motivated by this, the key aim of the current investigation scrutinizes the influence of thermal radiation and magnetohydrodynamic on the laminar flow of an incompressible two-dimensional Williamson nanofluid over an inclined surface in the presence of motile microorganism. In addition, the impact of heat absorption/generation and Arrhenius activation energy is also examined. A mathematical modeled is developed which stimulate the physical flow problem. By using the compatible similarities, we transfer the governing PDEs into ODEs. The analytic approach based on Homotopy analysis method is introduced to impose the analytic solution by using Mathematica software. The impacts of distinct pertinent variable on velocity profiles are investigated through graphs.