![]() ![]() Nanofluid is utilized as a coolant in industrial applications. Because of their tiny size and large precise area, nanofluids have a high thermal conductivity, which aids in long-term stability and minimal blockage in a variety of physical phenomena like grinding, electronics refrigeration, peristaltic pumping utilized in treatments of diabetes, machining, and so on. The analysis of nanofluids is one of the most demanding research areas due to the extensive range of applications in various industries and engineering fields. Moreover, for higher values of the nanoparticle volume fraction, the reduced shear stress and the reduced heat transfer rate increased respectively by almost 1.30% and 0.0031% for the solution of the first branch, while nearly 1.24%, and 3.13% for the lower branch solution. It is discerned that the branch of dual outcomes exists in the opposing flow case. In addition, the temperature distribution uplifts due to radiation and curvature parameters. ![]() The involvement of the radiation parameter shows an increasing tendency in the heat transfer rate, resulting in an enhancement in thermal flow efficacy. ![]() The outcomes divulge that the aspect of friction factor and heat transport upsurge by incorporating alumina nanoparticles. The impacts of assorted control parameters on gradients are investigated. Based on some reasonable assumptions, the model of nonlinear equations is developed and then tackled numerically employing the built-in bvp4c MATLAB solver. Thus, the current paper is a comparative exploration of the time-independent buoyancy opposing and heat transfer flow of alumina nanoparticles scattered in water as a regular fluid induced via a vertical cylinder with mutual effect of stagnation-point and radiation. Fluid solutions containing metal nanoparticles have higher thermal conductivity than conventional fluids, allowing for more effective cooling. Cooling and heating are two critical processes in the transportation and manufacturing industries. ![]()
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