RETRACTED ARTICLE: Hydrothermal analysis on MHD squeezing nanofluid flow in parallel plates by analytical method

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Mechanical and Materials Engineering Pub Date : 2018-02-26 DOI:10.1186/s40712-018-0089-7
Kh. Hosseinzadeh, M. Alizadeh, D. D. Ganji
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引用次数: 65

Abstract

In this paper, the heat and mass transfer of MHD nanofluid squeezing flow between two parallel plates are investigated. In squeezing flows, a material is compressed between two parallel plates and then squeezed out radially. The significance of this study is the hydrothermal investigation of MHD nanofluid during squeezing flow. The affecting parameters on the flow and heat transfer are Brownian motion, Thermophoresis parameter, Squeezing parameter and the magnetic field.

By applying the proper similarity parameters, the governing equations of the problem are converted to nondimensional forms and are solved analytically using the Homotopy Perturbation Method (HPM) and the Collocation Method (CM). Moreover, the analytical solution is compared with numerical Finite Element Method (FEM) and a good agreement is obtained.

The results indicated that increasing the Brownian motion parameter causes an increase in the temperature profile, while an inverse treatment is observed for the concentration profile. Also, it was found that enhancing the thermophoresis parameter results in decreasing the temperature profile and augmenting the concentration profile.

Effects of active parameters have been considered for the flow, heat and mass transfer. The results indicated that temperature boundary layer thickness will increases by augmentation of Brownian motion parameter and Thermophoresis parameter, while it decreases by raising the other active parameters.

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用解析法分析MHD压缩纳米流体在平行板中的流动
本文研究了MHD纳米流体在两个平行板间挤压流动的传热传质问题。在挤压流中,物质被压缩在两个平行板之间,然后径向挤压出来。本研究的意义在于热液对MHD纳米流体挤压流动过程的研究。影响流动和传热的参数有布朗运动、热泳参数、挤压参数和磁场。采用适当的相似参数,将问题的控制方程转化为无量纲形式,并采用同伦摄动法和配点法进行解析求解。并将解析解与数值有限元法(FEM)进行了比较,得到了较好的一致性。结果表明,增大布朗运动参数会引起温度曲线的升高,而浓度曲线则相反。同时发现,增大热泳参数可以减小温度分布,增大浓度分布。考虑了活性参数对流动、传热和传质的影响。结果表明,温度边界层厚度随着布朗运动参数和热泳运动参数的增大而增大,随着其他活动参数的增大而减小。
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CiteScore
8.60
自引率
0.00%
发文量
1
审稿时长
13 weeks
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