多孔介质中单纳米流体和混合纳米流体在水平波动表面上的热对流

IF 2.7 Q3 NANOSCIENCE & NANOTECHNOLOGY

Journal of Nanofluids Pub Date : 2023-03-01 DOI:10.1166/jon.2023.1920

Richa Saha, M. Narayana, P. Siddheshwar, S. S. Nagouda

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引用次数: 1

摘要

本文介绍了在多孔介质中嵌入的两个单纳米流体和一个混合纳米流体在三个均匀加热的波动表面(由正弦、锯齿或三角形波形描述)上的热对流流动的比较研究。每一种纳米流体的基液是水，纳米颗粒是铜、氧化铝或铜-氧化铝混合物。考虑了两种不同类型的多孔介质材料:泡沫铝和玻璃球。这个问题是由一个非线性的、耦合的偏微分方程系统控制的，它是用凯勒盒法解决的。探讨了各种多孔介质及其相关参数对纳米流体流动和传热的影响。可见，在正弦波形和三角形波形的表面波动幅值较大的情况下会出现二次流，而在锯齿波形和平面情况下则没有观察到二次流。为了评估传热性能，计算了平均努塞尔数。观察到玻璃球多孔介质的平均努塞尔数比泡沫铝高。在混合纳米流体的情况下，波动表面上的传热最高，而水-氧化铝的传热最低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Thermo-Convective Flows of Mono- and Hybrid-Nanofluids Over Horizontal Undulated Surfaces in a Porous Medium

This paper presents a comparative study between the thermo-convective flows of two mono- and one hybrid-nanofluid over three uniformly heated undulated surfaces (described by sinusoidal, sawtooth or triangular waveforms) embedded in a porous medium. The base fluid for each nanofluid is water, and the nanoparticles are copper, alumina or a copper-alumina mixture. Two different types of materials of the porous medium have been considered: aluminum foam and glass balls. This problem is governed by a system of nonlinear, coupled partial differential equations, which is solved using the Keller-Box method. The influences of each porous medium and the pertinent parameters on the nanofluid flows and heat transfer have been explored. It is seen that secondary flow occurs at large amplitudes of the surface undulations for the sinusoidal and triangular waveforms, but no such flow is observed in the case of the sawtooth waveform and the flat surface. To assess the heat transfer properties, the mean Nusselt number has been calculated. It is observed that the mean Nusselt number is higher in the porous medium of glass balls than aluminum foam. The heat transfer on the undulated surfaces is the highest in the case of a hybrid-nanofluid and the least for water-alumina.

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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.