Abstract
The key purpose of the existing article is to discuss the effects of various hybrid nanofluids and a simple nanofluid over the heat transfer and friction drags along a stretched surface. The various kinds of hybrid nanofluids and a simple nanofluid together with the effects of aligned magnetic field, nonlinear radiation and suction have been taken into consideration. These hybrid nanofluids are prepared by suspending a couple of distinct nanoparticles Cu and A{l}_{2}{O}_{3} into the base fluids {H}_{2}O and {C}_{2}{H}_{6}{O}_{2}. The comparison of various graphical results of skin friction coefficient, rate of heat transfer, velocity and temperature for two different hybrid nanofluids Cu{-}A{l}_{2}{O}_{3}/{H}_{2}O, Cu{-}A{l}_{2}{O}_{3}/{H}_{2}O{-}{C}_{2}{H}_{6}{O}_{2} and a simple nanofluid A{l}_{2}{O}_{3}/{H}_{2}O is considered. Moreover, the impact of surface stretching, aligned magnetic field and thermal radiation over the velocity, temperature, skin friction coefficient and local Nusselt number are also considered. The outcomes drawn from this modern research is that the hybrid nanofluid Cu{-}A{l}_{2}{O}_{3}/{H}_{2}O{-}{C}_{2}{H}_{6}{O}_{2} is quite effective in cooling and heating in comparison to the other hybrid nanofluids Cu{-}A{l}_{2}{O}_{3}/{H}_{2}O, Cu{-}A{l}_{2}{O}_{3}/{C}_{2}{H}_{6}{O}_{2} and a simple nanofluid A{l}_{2}{O}_{3}/{H}_{2}O. Based on these findings we could say that the suspension of multiple particles in the composition of two or more base fluids provides a better rate of heat transfer and limits the friction drag.
Highlights
The key purpose of the existing article is to discuss the effects of various hybrid nanofluids and a simple nanofluid over the heat transfer and friction drags along a stretched surface
This article allows us to provide the effect of several nanoparticles over the velocity, temperature, fraction drag, and heat transfer in the flow of different hybrid nanofluids
The evaluation covers the suspension of two distinct nanoparticles Cu and Al2O3 in the combination of two different base fluids H2O and C2H6O2
Summary
The key purpose of the existing article is to discuss the effects of various hybrid nanofluids and a simple nanofluid over the heat transfer and friction drags along a stretched surface. The various kinds of hybrid nanofluids and a simple nanofluid together with the effects of aligned magnetic field, nonlinear radiation and suction have been taken into consideration These hybrid nanofluids are prepared by suspending a couple of distinct nanoparticles Cu and Al2O3 into the base fluids H2O and C2H6O2. The outcomes drawn from this modern research is that the hybrid nanofluid Cu−Al2O3/H2O−C2H6O2 is quite effective in cooling and heating in comparison to the other hybrid nanofluids Cu−Al2O3/H2O , Cu−Al2O3/C2H6O2 and a simple nanofluid Al2O3/H2O Based on these findings we could say that the suspension of multiple particles in the composition of two or more base fluids provides a better rate of heat transfer and limits the friction drag. The ongoing effort dealing with hybrid nanofluids which is the key purpose of the authors intended to improve the transfer of heat
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