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首页> 外文期刊>Arabian Journal for Science and Engineering. Section A, Sciences >A Numerical Simulation for Transport of Hybrid Nanofluid
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A Numerical Simulation for Transport of Hybrid Nanofluid

机译:杂交纳米流体运输的数值模拟

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摘要

Hybrid nanofluids are used to enhance therapeutic effects and reduce the side effects in tumour therapy. These nanoparticles are transported nearest to the cancer’s tissues under the action of the peristaltic waves generated on the walls of the blood vessel. The motion of hybrid nanoparticles in non-uniform vertical channel having flexible boundaries is numerically elaborated in present study. Poisson equations are used on the basis of electro-osmotic theory to encounter the phenomena of applied electric field on the walls of the channel. Lubrication approach and Debye–Huckel linearization approximations are utilized to obtain the system of coupled ordinary differential equations from the basic conservation laws which are solved by using implicit finite difference scheme which is commonly known as Keller–Box method and MATLAB built in subroutine Bvp5c. The impact of electro-osmotic parameter on all features of flow of nanoparticles observed through several graphs and various tables. The current study is applicable and helpful in the design of micropumps and nanomedicine technologies.
机译:杂交纳米流体用于增强治疗效果并降低肿瘤治疗的副作用。这些纳米颗粒在血管壁上产生的蠕动波的作用下最接近癌症组织。在本研究中,数值阐述了具有柔性边界的非均匀垂直通道中的杂化纳米颗粒的运动。泊松方程基于电渗透理论使用,以遇到通道壁上的应用电场现象。利用润滑方法和Debye-Huckel线性化近似来获得通过使用隐含有限差分方案来解决的基本保守法的耦合常微分方程系统,这些规则是使用凯勒盒方法和Subroutine BVP5C内置的MATLAB而解决的。电渗透参数对通过几个图表和各种表观察到纳米粒子流动的所有特征的影响。目前的研究适用,有助于设计微泵和纳米医生技术。

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