27272 Sharjah;
Department of Studies in Mathematics;
Technology Faculty;
Turkey||Department of Medical Research;
China Medical University;
Collegeof Engineering;
Elazig;
Shivagangothri;
Davangere 577 007;
India;
Department of Mechanical and Nuclear Engineering;
UnitedArab Emirates||Department of Mechanical Engineering;
Taiwan;
University of Sharjah;
Taichung;
F?rat University;
DavangereUniversity;
China Medical UniversityHospital;
In this study, carbon nanotubes, which serve as nanoparticles, are added to the basic fluid. By using a similarity transformation,the governing equations are converted into a set of ordinary differential equations (ODEs), which are then solved analytically. Inorder to simulate the flow and heat transfer behavior of carbon nanotubes, the Prandtl numbers for water and kerosene are 6.72and 21, respectively. The precision of the analytical solution found in this study for the nonlinear flowof fluid containing carbonnanotubes is what makes it so beautiful.With the available experimental data, the proposed model is reliable. Themain physicalparameters for the Jeffrey fluid flow on the stretching/shrinking surface using carbon nanotubes are shown in tables and graphsand described in detail for the thermal and boundary layers. Carbon nanotubes enhance the heat more than the nanofluid; forthis purpose, the work on carbon nanotubes flow through stretching/shrinking surfaces has many applications in biomedical,solar energy, generator cooling, nuclear system cooling, etc. Therefore, it is quite significant to assimilate the analyticalextension of heat transfer fluid in the presence of magnetohydrodynamics under the influence of slip velocity. Further, carbonnanotubes can effectively elucidate the base materials’ thermal performance and mechanical properties. Here, we assimilatedthe extension of heat transfer fluid in the incidence of magnetohydrodynamics under the influence of slip velocity analytically.Further, carbon nanotubes can successfully elucidate the base materials’ thermal performance and mechanical properties.
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