旋转系统中纳米流体的传热传质特性:对流边界层流动

Q3 Engineering

Nanoscience and Nanotechnology - Asia Pub Date : 2019-09-04 DOI:10.2174/2210681208666180626162916

M. Parvathi, A. Leelaratanam, C. RajuM

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引用次数: 0

摘要

纳米流体中的对流传热和传质是当代科学和技术领域的一个重要课题。有鉴于此，在旋转参考系中，从理论上研究了非定常磁流体通过由具有恒定热源和对流边界条件的移动垂直半无限长可渗透平板束缚的多孔介质的非定常MHD自由对流。新颖之处在于考虑了旋转框架中的恒定热源和对流边界条件。假设沿板的速度，即滑移速度，以恒定频率在时间上振荡，因此边界层的解具有相同的振荡类型。本研究的无量纲控制方程采用小扰动近似进行解析求解。使用两种类型的纳米流体，即Cu水和Al2O3水。通过图表讨论了各种参数对流动、传热和传质特性的影响。对流参数和纳米颗粒体积分数的增加导致热边界层厚度的增加，但热量产生的效果相反。

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Heat and Mass Transfer Characteristics of Nanofluids in a Rotating System: A Convective Boundary Layer Flow

Convective heat and mass transfer in nanofluids is a topic of major contemporary interest in both science and technology. In view of this, an unsteady MHD free convective flow of nanofluids through a porous medium bound by a moving vertical semi-infinite permeable flat plate with a constant heat source and convective boundary condition in a rotating frame of reference is studied theoretically. The novelty is the consideration of constant heat source and convective boundary condition in a rotating frame. The velocity along the plate i.e., slip velocity is assumed to oscillate in time with constant frequency so that the solutions of the boundary layer are of the same oscillatory type. The dimensionless governing equations for this investigation are solved analytically using small perturbation approximation. Two types of nanofluids, namely Cu-water and Al2O3-water are used. The effects of various parameters on the flow, heat and mass transfer characteristics are discussed through graphs and tables. An increase in the convective parameter and nanoparticle volume fraction leads to increase the thermal boundary layer thickness but opposite effect occurs for heat generation.

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来源期刊

Nanoscience and Nanotechnology - Asia Engineering-Engineering (all)

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： Nanoscience & Nanotechnology-Asia publishes expert reviews, original research articles, letters and guest edited issues on all the most recent advances in nanoscience and nanotechnology with an emphasis on research in Asia and Japan. All aspects of the field are represented including chemistry, physics, materials science, biology and engineering mainly covering the following; synthesis, characterization, assembly, theory, and simulation of nanostructures (nanomaterials and assemblies, nanodevices, nano-bubbles, nano-droplets, nanofluidics, and self-assembled structures), nanofabrication, nanobiotechnology, nanomedicine and methods and tools for nanoscience and nanotechnology.