非牛顿模型中三元混合纳米流体的热传输探索,垂直圆柱体诱导的同质异构化学反应

Syed Zahir Hussain Shah, Assad Ayub, Umair Khan, Adil Darvesh, El-Sayed M Sherif, I. Pop
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引用次数: 0

摘要

研究血流中对流与化学过程的结合可在理解生理过程、药物输送、生物医学设备和心血管疾病等方面产生重要应用,对各个领域的影响可促进开发新的治疗方法、设备和模型。本研究论文探讨了对流、异质-均质化学过程和剪切率对通过狭窄动脉的三元混合 Carreau 生物纳米流体的流动行为的综合影响。三元混合 Carreau 生物纳米流体由分散在 Carreau 流体模型中的三种不同类型的纳米粒子组成,模拟了血液的非牛顿行为。这项假设研究产生了一个 PDEs 系统,经过相似性转换处理后,将其转换为 ODEs。此外,还使用 bvp4c 对这些 ODEs 进行了求解。结果表明,对流、异质-均质化学过程和剪切率对生物纳米流体的流动行为和狭窄动脉的传热特性有显著影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal transport exploration of ternary hybrid nanofluid flow in a non-Newtonian model with homogeneous-heterogeneous chemical reactions induced by vertical cylinder
Studying the combination of convection and chemical processes in blood flow can have significant applications like understanding physiological processes, drug delivery, biomedical devices, and cardiovascular diseases, and implications for various fields can lead to developing new treatments, devices, and models. This research paper investigates the combined effect of convection, heterogeneous-homogeneous chemical processes, and shear rate on the flow behavior of a ternary hybrid Carreau bio-nanofluid passing through a stenosed artery. The ternary hybrid Carreau bio-nanofluid consists of three different types of nanoparticles dispersed in a Carreau fluid model, miming the non-Newtonian behavior of blood. This assumed study generates a system of PDEs that are processed with similarity transformation and converted into ODEs. Furthermore, these ODEs are solved with bvp4c. The results show that the convection, heterogeneous-homogeneous chemical processes, and shear rate significantly impact the bio-nano fluid’s flow behavior and the stenosed artery’s heat transfer characteristics.
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