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Oldroyd-B 流体在旋转盘上的流动,考虑热和质量通量的 Cattaneo-Christov 理论。

Flow of Oldroyd-B fluid over a rotating disk with Cattaneo-Christov theory for heat and mass fluxes.

机构信息

Department of Mathematics, Quaid-i-Azam University, Islamabad 44000, Pakistan.

Department of Mathematics, Quaid-i-Azam University, Islamabad 44000, Pakistan.

出版信息

Comput Methods Programs Biomed. 2020 Jul;191:105374. doi: 10.1016/j.cmpb.2020.105374. Epub 2020 Feb 14.

DOI:10.1016/j.cmpb.2020.105374
PMID:32114417
Abstract

BACKGROUND

In general, heat transfer describes the flow of heat (thermal energy) due to temperature differences. The phenomenon of transfer of heat from one body to another body or in same type bodies occurs because of the temperature difference. As heat transfer is a natural phenomenon, therefore much attentions have developed among the researchers to observe the heat transfer mechanism in the systems. To examine the heat and mass transport mechanism in the fluid, the Cattaneo-Christov theory is adopted instead of classical Fourier's and Fick's laws in the current study. Further, the stagnation point flow of Oldroyd-B fluid is explored. Here the flow is generated by a rotation of the disk. Additionally, the porous disk is considered here. The von Karman similarity variables are used to transform the partial differential equations (PDEs) into ordinary differential equations (ODEs).

METHOD

To handle the system of non-linear equations, we use a built-in technique (BVP Midrich) in Maple software to acquire numerical solution.

RESULTS

The solution of the governing system of equations are presented graphically in the form of velocity fields, temperature and concentration distributions. It is noted that the higher values of thermal and solutal relaxation time parameters reduce the thermal and concentration distributions, respectively. Moreover, the comparison tables are presented to assure the validity of our numerical results with the past outcomes.

摘要

背景

一般来说,传热描述了由于温差而引起的热(热能)的流动。由于温度差,热量从一个物体传递到另一个物体或同种类型的物体的现象发生。由于传热是一种自然现象,因此研究人员非常关注观察系统中的传热机制。为了研究流体中的热和物质输运机制,本研究采用 Cattaneo-Christov 理论代替经典的 Fourier 和 Fick 定律。此外,还研究了 Oldroyd-B 流体的驻点流动。这里的流动是由圆盘的旋转产生的。此外,这里还考虑了多孔圆盘。von Karman 相似变量用于将偏微分方程(PDE)转换为常微分方程(ODE)。

方法

为了处理非线性方程组,我们使用 Maple 软件中的内置技术(BVP Midrich)来获取数值解。

结果

以速度场、温度和浓度分布的形式图形化地呈现了控制方程组的解。可以注意到,热松弛时间和溶质松弛时间参数的较高值分别减小了热分布和浓度分布。此外,还给出了比较表,以确保我们的数值结果与过去的结果的有效性。

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