Purpose

Thermal features of hybrid nanoliquid consist of Cu–Ti, CuO–TiO₂ and C71500–Ti₆Al₄V/H₂O as hybrid mixtures of nano-sized particles in a base fluid through a microchannel are inspected. In this study, flow model of Darcy–Forchheimer is hired to examine the flow of hybrid composition.

Design/methodology/approach

The equations which delineate the physical occurrence of the flow are resolved via Runge–Kutta–Fehlberg scheme united through shooting procedure.

Findings

It is established that flow velocity of hybrid nano composition satisfies the identity U_(_{CuO-TiO2/water})>U_(_{Cu–Ti/water})>U_(_{C71500–Ti6Al4V/water}).

Originality/value

Hybrid nanofluid flow of Cu–Ti, CuO–TiO₂ and C71500–Ti₆Al₄V/H₂O hybrid mixtures in a base fluid through a microchannel are inspected.

中文翻译：

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具有滑流，对流边界和非线性热流的微通道中混合纳米流体的熵产分析

目的

杂化纳米液体的热学特征由Cu-Ti，CuO-TiO ₂和C71500-Ti ₆ Al ₄ V / H ₂ O组成，它们通过微通道检查了纳米粒子在基础流体中的杂化混合物。在这项研究中，Darcy–Forchheimer的流动模型被用来检验混合成分的流动。

设计/方法/方法

描绘流的物理发生的方程是通过射程联合的Runge–Kutta–Fehlberg方案求解的。

发现

确定杂化纳米组合物的流速满足U_（_{CuO-TiO 2 /水}）> U_（_{Cu-Ti /水}）> U_（_{C71500-Ti 6 Al 4 V /水}）。

创意/价值

检查了微通道中基础液中Cu-Ti，CuO-TiO ₂和C71500-Ti ₆ Al ₄ V / H ₂ O混合混合物的混合纳米流体流动。