In this analysis, we explore a nanofluid model that represents the role of ciliary carpets in the transport of magnetohydrodynamic fluid in an electroosmotic channel. Hybrid nanofluid features are also taken into interpretation. The equations leading the flow analysis are converted into non-dimensional form by supposing long wavelength and low Reynolds number approximations. Analytical solutions for velocity distribution, pressure gradient and stream function are acquired and solved by a mathematic solver. The effects of the relevant physical parameters are graphically noted. The consequence of the present model has remarkable applications, which can be used in various areas of biological transport processes, artificial cilia design and in the operation of other mechanical devices.
本文建立了一个广义纳米流体流动模型, 研究磁流体中纤毛毯在通过电渗透通道时对其运输的 作用, 并对混合纳米流体的特性进行解释。通过假设长波长和低雷诺数估计, 将流体的流动分析方程 转换为无量纲形式; 用数学解法得到速度分布、压力梯度和流函数的解析解; 用图表表明相关物理参 数的影响。该模型具有重要的应用价值, 可应用于生物运输过程、人工纤毛设计和其他机械装置的操 作等领域。.
Keywords: ciliated boundaries; electroosmosis consequence; hybrid nanofluid phenomena; radiation impact.
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