The impact of monocity and hybridity of nanostructures on the thermal performance of Maxwellian thin-film flow with memory and Darcy-Forchheirmer effects

Sadiq Muhammad A.

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The impact of monocity and hybridity of nanostructures on the thermal performance of Maxwellian thin-film flow with memory and Darcy-Forchheirmer effects

机译：The impact of monocity and hybridity of nanostructures on the thermal performance of Maxwellian thin-film flow with memory and Darcy-Forchheirmer effects

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This article considers viscoelastic effects on the enhancement of transportation of heat in thin-film flow when the relaxation time phenomenon is considered to be significant. Transport models characterizing momentum and thermal memory effects are solved numerically. Finite element simulations are carried out for the prediction about viscoelasticity, relaxation time memory effects and drag by nonlinear porous medium and suspension of hybrid nanostructures in the Maxwellian fluid. The predictions are recorded in the form of graphical and numerical data which are interpreted to extract significant outcomes. A notable contrast in the behavior of thermal relaxation time and suspension of nanostructures is observed. This consequence is a blessing that thermal and momentum boundary layer thicknesses may be rheostated via relaxation times. On the other hand, a substantial rise in the thermal conductivity of Maxwellian working fluid in a thin-film region is observed due to the suspension of hybrid nanoparticles. Further, it is observed that improvement in thermal efficiency of the Maxwellian thin-film flow via hybrid nanoparticles is higher than the improvement in thermal efficiency of the Maxwellian thin-film flow via mono nanoparticles. The existence of a porous medium in the thin-film flow region offers a notable drag to flow. Subsequently, the porous medium is noted as a momentum controlling factor in the thin-film flow of Maxwell fluid. The heat generation process in hybrid nanofluid is faster that the heat generation in mono nanofluid.

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《Journal of thermal analysis and calorimetry》 |2021年第2期|1261-1272|共12页
作者
Sadiq Muhammad A.;
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作者单位

DCC KFUPM, Dept Math, KFUPM Box 5084, Dhahran 31261, Saudi Arabia;

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正文语种英语
中图分类物理化学（理论化学）、化学物理学;
关键词
Thin-film flow; Memory effects; Darcy-Forchheimer porous medium; Hybrid nanofluid; Thermal relaxation time;

The impact of monocity and hybridity of nanostructures on the thermal performance of Maxwellian thin-film flow with memory and Darcy-Forchheirmer effects

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