The effects of slip velocity on a micropolar fluid through a porous channel with expanding or contracting walls

Si Xinhui; Zheng Liancun; Chen Xuehui; Zhang Xinxin; Cao Limei; Li Min

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The effects of slip velocity on a micropolar fluid through a porous channel with expanding or contracting walls

机译：滑动速度对具有扩张或收缩壁的多孔通道对微极性流体的影响

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摘要

In this paper, a simple mathematical model depicting blood flow in the deforming porous channel is developed with an emphasis on the permeability property of the blood vessel and slip boundary based on Beavers and Joseph slip condition. In this study, the blood is represented by a micropolar fluid. With such an ideal model, the governing equations are reduced to ordinary ones by introducing suitable similar transformations. Homotopy analysis method is employed to obtain the expressions for velocity and microrotation fields. Graphs are sketched for some values of parameters such as slip coefficient and expansion ratio, and the associated dynamic characteristics are analysed in detail.

机译：本文建立了一个简单的数学模型，描述了在变形的多孔通道中的血流，并重点研究了基于海狸和约瑟夫滑移条件的血管渗透性和滑移边界。在这项研究中，血液以微极性液体为代表。通过这种理想模型，通过引入合适的相似变换，控制方程可以简化为普通方程。采用同伦分析法获得速度场和微旋转场的表达式。绘制一些参数值的图表，如滑移系数和膨胀比，并详细分析相关的动态特性。

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来源
《Computer methods in biomechanics and biomedical engineering》 |2014年第4期|423-432|共10页
作者
Si Xinhui; Zheng Liancun; Chen Xuehui; Zhang Xinxin; Cao Limei; Li Min;
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作者单位

School of Mathematics and Physics, University of Science and Technology, Beijing 100083, P.R. China;

School of Mathematics and Physics, University of Science and Technology, Beijing 100083, P.R. China;

School of Mathematics and Physics, University of Science and Technology, Beijing 100083, P.R. China;

Department of Mechanical Engineering, University of Science and Technology, Beijing 100083, P.R. China;

School of Mathematics and Physics, University of Science and Technology, Beijing 100083, P.R. China;

Department of Mechanical Engineering, University of Science and Technology, Beijing 100083, P.R. China;

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正文语种 eng
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关键词
homotopy analysis method; micropolar fluid; expanding or contracting walls; porous channel; slip boundary condition;

机译：同质分析方法;微极性流体扩大或缩小墙壁;多孔通道滑移边界条件;

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1. NUMERICAL STUDY OF SLIP EFFECTS ON UNSTEADY ASYMMETRIC BIOCONVECTIVE NANOFLUID FLOW IN A POROUS MICROCHANNEL WITH AN EXPANDING/CONTRACTING UPPER WALL USING BUONGIORNO'S MODEL [J] . Beg O. Anwar, Basir Md. Faisal Md., Uddin M. J., Journal of mechanics in medicine and biology . 2017,第3期

机译：使用Buongiorno模型的膨胀/收缩上壁在多孔微通道中非定常态不对称生物无纳流体流动的数值研究
2. The solutions for the flow of micropolar fluid through an expanding or contracting channel with porous walls [J] . Xinhui Si, Mingyang Pan, Liancun Zheng, Boundary value problems . 2016,第1期

机译：微极性流体通过具有多孔壁的膨胀或收缩通道流动的解决方案
3. Numerical investigation of the flow of a micropolar fluid through a porous channel with expanding or contracting walls [J] . M.T. Darvishi, F. Khani, F.G. Awad, Propulsion and Power Research . 2014,第3期

机译：微极性流体通过壁膨胀或收缩的多孔通道流动的数值研究
4. Adomian method solution for flow of a viscoelastic fluid through a porous channel with expanding or contracting walls [C] . Yuying Chen, Xinhui Si, Bingyu Shen 2011 International Conference on Multimedia Technology . 2011

机译：Adomian方法解决方案，用于使粘弹性流体流经具有膨胀或收缩壁的多孔通道
5. Measurement of slip velocity and lift coefficient for laterally focused particles in an inertial flow through a spiral microfluidic channel [D] . Deshpande, Saurabh Satish. 2016

机译：通过螺旋微流体通道测量横向聚焦粒子的滑移速度和升力系数
6. Unsteady Heat and Mass Transfer of Chemically Reacting Micropolar Fluid in a Porous Channel with Hall and Ion Slip Currents [O] . Odelu Ojjela, N. Naresh Kumar 2014

机译：具有霍尔和离子滑移电流的多孔通道中化学反应微极性流体的非稳态传热和传质
7. Numerical study of slip effects on unsteady aysmmetric bioconvective nanofluid flow in a porous microchannel with an expanding/ contracting upper wall using Buongiorno’s model [O] . Beg, OA, Basir, MFM, Uddin, MJ, 2016

机译：使用Buongiorno模型对上壁膨胀/收缩的微通道中非稳态非对称生物对流纳米流体流动的滑移效应进行数值研究

The effects of slip velocity on a micropolar fluid through a porous channel with expanding or contracting walls

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