非线性混合对流和非均匀热源/散热对穿过拉伸旋转盘的卡松三元混合纳米流体流动的综合影响

IF 2.7 Q3 NANOSCIENCE & NANOTECHNOLOGY

Journal of Nanofluids Pub Date : 2024-04-01 DOI:10.1166/jon.2024.2136

Ashish Paul, Bhagyashri Patgiri, Neelav Sarma

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引用次数: 0

摘要

本研究强调了一种被称为卡松三元混合纳米流体的特定类型流体的重要性。我们的研究探索了一种结合多种复杂现象的新方法，包括磁流体辐射流、非线性混合对流、非均匀热源或散热片、阿伦尼乌斯模型描述的化学反应以及多重滑移效应。研究人员使用适当的数学变换将控制方程系统转化为一阶常微分方程组，然后使用 bvp4c 求解器对其进行数值求解。研究调查了不同参数值下的速度剖面、热扩散、浓度扩散以及传热和传质行为。结果表明，与三元混合纳米流体相比，Casson 三元混合纳米流体的传热率上升了 2.98%。此外，与混合纳米流体和传统纳米流体相比，三元混合纳米流体的传热率分别提高了 7.49% 和 6.89%。此外，在存在混合对流和非线性热对流参数的情况下，传热率分别提高了 17.5% 和 3.11%。同时，化学反应参数的存在也对传质率产生了积极影响。

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Combined Effect of Non-Linear Mixed Convection, and Non-Uniform Heat Source/Sink on Casson Ternary Hybrid Nanofluid Flow Across a Stretched Rotatory Disk

This present study emphasizes the importance of a specific type of fluid called a Casson ternary hybrid nanofluid. Our research explores a novel approach using the combination of several complex phenomena, including magnetohydrodynamic radiative flow, non-linear mixed convection, a non-uniform heat source or sink, a chemical reaction described by the Arrhenius model, and multiple slip effects. The researchers transformed the system of governing equations into a set of first-order ordinary differential equations using appropriate mathematical transformations and then solved them numerically using the bvp4c solver. The study investigated the behavior of velocity profiles, thermal dispersion, concentration dispersion, and heat and mass transfer for different values of the parameters involved. Our results indicated that the rising values of the heat transmission rate escalated by 2.98% for Casson ternary hybrid nanofluid when compared to ternary hybrid nanofluid. Further, ternary hybrid nanofluid had a 7.49% and 6.89% higher heat transmission rate compared to the hybrid nanofluid and conventional nanofluid, respectively. Besides, the heat transmission rate is enhanced by 17.5% and 3.11% respectively under the existence of the mixed convective and non-linear thermal convection parameters. Also, the presence of chemical reaction parameter shows a positive impact on the rate of mass transmission

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来源期刊

Journal of Nanofluids NANOSCIENCE & NANOTECHNOLOGY-

自引率

14.60%

发文量

期刊介绍： Journal of Nanofluids (JON) is an international multidisciplinary peer-reviewed journal covering a wide range of research topics in the field of nanofluids and fluid science. It is an ideal and unique reference source for scientists and engineers working in this important and emerging research field of science, engineering and technology. The journal publishes full research papers, review articles with author''s photo and short biography, and communications of important new findings encompassing the fundamental and applied research in all aspects of science and engineering of nanofluids and fluid science related developing technologies.