Mixed convective flow of engine oil-based non-Newtonian tri-hybrid nanofluid across a porous rotating disk

Ashish Paul, Bhagyashri Patgiri, Neelav Sarma
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Abstract

Purpose Flow induced by rotating disks is of great practical importance in several engineering applications such as rotating heat exchangers, turbine disks, pumps and many more. The present research has been freshly displayed regarding the implementation of an engine oil-based Casson tri-hybrid nanofluid across a rotating disk in mass and heat transferal developments. The purpose of this study is to contemplate the attributes of the flowing tri-hybrid nanofluid by incorporating porosity effects and magnetization and velocity slip effects, viscous dissipation, radiating flux, temperature slip, chemical reaction and activation energy. Design/methodology/approach The articulated fluid flow is described by a set of partial differential equations which are converted into one set of higher-order ordinary differential equations (ODEs) by using convenient conversions. The numerical solution of this transformed set of ODEs has been spearheaded by using the effectual bvp4c scheme. Findings The acquired results show that the heat transmission rate for the Casson tri-hybrid nanofluid is intensified by, respectively, 9.54% and 11.93% when compared to the Casson hybrid nanofluid and Casson nanofluid. Also, the mass transmission rate for the Casson tri-hybrid nanofluid is augmented by 1.09% and 2.14%, respectively, when compared to the Casson hybrid nanofluid and Casson nanofluid. Originality/value The current investigation presents an educative response on how the flow profiles vary with changes in the inevitable flow parameters. As per authors’ knowledge, no such scrutinization has been carried out previously; therefore, our results are novel and unique.
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发动机油基非牛顿三混合纳米流体在多孔旋转盘上的混合对流
目的旋转盘引起的流动在一些工程应用中具有重要的实际意义,如旋转热交换器、涡轮盘、泵等。本研究新鲜展示了以发动机油为基础的卡松三混合纳米流体在质量和热量传递发展中穿过旋转盘的实施情况。本研究的目的是通过将多孔效应、磁化和速度滑移效应、粘性耗散、辐射通量、温度滑移、化学反应和活化能等因素结合起来,研究流动的三混合纳米流体的属性。研究结果表明,与卡松混合纳米流体和卡松纳米流体相比,卡松三混合纳米流体的传热率分别提高了 9.54% 和 11.93%。此外,与卡松混合纳米流体和卡松纳米流体相比,卡松三混合纳米流体的质量传输率分别提高了 1.09% 和 2.14%。据作者所知,以前从未进行过此类研究;因此,我们的结果是新颖独特的。
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