纳米流体在多孔对称锥形纤毛通道内的电渗透流动

Ali Imran, Mazhar Abbas, Saeed Ehsan Awan, Muhammad Shoaib, Muhammad Asif Zahoor Raja
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引用次数: 0

摘要

在这项研究中,对通过锥形纤毛对称多孔通道的电渗透流进行了全面研究。流动是在纤毛的元周期动力学作用下开始的。研究采用了轴向电场,并通过对流条件仔细研究了热辐射现象。通过利用低雷诺数和长波长近似值,对处理流动的方程进行了非尺寸化和简化。对著名的 Poissson 方程和轴向速度进行了分析求解。而横向速度、温度和纳米流体浓度剖面则在 MATHEMATICA 中进行了数值检验。新出现的关键参数对速度剖面、温度和浓度剖面、压力梯度、每波长压力上升以及微纤毛器内部速度分布的影响,都借助图形加以显示。值得一提的是,在锥形通道中,横向速度对流动的影响也很大,而在对称和非对称通道中,横向速度的影响微乎其微。纤毛锥形通道中纳米流体的温度会随着渗透和热辐射现象而升高,并可通过亥姆霍兹-斯摩鲁霍夫斯基速度和电渗参数进行控制。泵送现象会随着亥姆霍兹-斯莫卢霍夫斯基速度和渗透率的增加而受到影响。报告中的研究涵盖了对生物流体系统的信息洞察,可能有益于理解人类生殖道流经传出导管的流动,因为它假定纤毛负责将精子从睾丸输送到附睾,也有价值用于纤毛设计的生物传感器和某些药物输送系统。
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Electro osmotic flow of nanofluids within a porous symmetric tapered ciliated channel
In this investigation, a comprehensive study has been made to reveal electro osmosis flow through a tapered ciliated symmetric porous channel. The flow is initiated due to metachronal dynamics of cilia. Axial electric field is deployed and thermal radiation phenomenon is scrutinised by applying convective conditions. The equations tackling the flow are non dimensionalized and simplified by capitalizing the low Reynolds number and long wave length approximations. Analytical solution is presented for well reputed Poissson equation and the axial velocity. Whereas, traverse velocity, temperature and nanofluids concentration profiles are examined numerically in MATHEMATICA. Variation of emerging crucial parameters on the velocity profile, temperature and concentration profiles, pressure gradient, pressure rise per wavelength, and on the velocity distribution inside the micro ciliated are exhibited with the aid of graphical deliberations. It worth to mention in this work that in case of tapered channel transverse velocity also has significant contribution in the flow, which is observed trivial in symmetric and non‐symmetric channel flows. Temperature of the nanofluid in the ciliated tapered channel is raised with permeability and thermal radiations phenomena and can be controlled with Helmholtz Smoluchowski velocity, and electroosmotic parameter. Pumping phenomena is affected with increase in Helmholtz Smoluchowski velocity and permeability. Reported investigation cover a informative insight about biological fluid system, may be beneficial for the understanding the flow through ductus efferentes of human reproductive tract since it assumed that cilia are responsible for the transport of sperm from rete testis to the epididymis, also have worth in cilia designed bio‐sensors and in certain drug delivery systems.
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