Abstract
Numerical investigation is performed to scrutinize the enhanced thermal transmission of Carreau nanoliquid above wedge geometry in the incidence of irregular heat rise/fall and radiation effects. In this research aluminum alloy AA7072 nanoparticles are suspended into the methanol liquid to achieve the better results. The arising system of nonlinear coupled equations is exercised numerically by employing suitable numerical scheme, i.e. bvp5c Matlab solver. The prime motive of this research is to determine the effectual thermal conductivity of the nanoliquid by using Maxwell/Xue models in order to achieve the enhanced energy transmission. The stimulus of pertinent constraints upon the flow factors viz. velocity and thermal gradients are illustrated through plots and also the wall friction and energy transmission rate are bestowed thru graphical trends and numerical values. Evidently, the deposition of Aluminum alloy nanoparticles in methanol liquid effectively amplified the thermal transfer mechanism in Xue nanomodel case than Maxwell nanomodel case.
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