Investigation of biological mechanisms during flow of nano-Bingham–Papanastasiou fluid through a diseased curved artery

IF 4.2 Q2 NANOSCIENCE & NANOTECHNOLOGY
F. Sultan, N. A. Khan, M. I. Afridi
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引用次数: 8

Abstract

This study aims to explore the biological flow mechanisms in a diseased curved artery during the flow of nano-Bingham–Papanastasiou fluid. The occurrence of stenosis and aneurysm is common in the arterial system, caused by narrowing or dilation of arteries owing to the development of abnormal tissues such as atherosclerotic plaques. The growth of these cells into the lumen of the artery disturbs the flow through the artery. For the treatments of hematological diseases and manufacturing nanoscale biomedical devices, nanofluids are very effective and gaining a lot of attention. In this study, Buongiorno’s nanofluid model is used for nanoscale effects and Bingham–Papanastasiou fluid is employed to study the hemodynamic rheology. An appropriate geometric expression is formulated to project two diseased segments in a curved artery. The coupled nonlinear partial differential equations are formulated for the case of mild stenosis. To solve the governing equations, an explicit finite difference scheme is used. The biological flow mechanisms are depicted through graphs, and flow patterns are presented for important flow parameters.
纳米bingham - papanastasiou流体通过病变弯曲动脉的生物学机制研究
本研究旨在探讨纳米bingham - papanastasiou液体在病变弯曲动脉内流动的生物学机制。狭窄和动脉瘤的发生在动脉系统中很常见,这是由于动脉粥样硬化斑块等异常组织的发展导致动脉狭窄或扩张造成的。这些细胞在动脉腔内的生长扰乱了通过动脉的血流。在血液疾病的治疗和纳米生物医学器件的制造方面,纳米流体非常有效,受到了广泛的关注。本研究采用Buongiorno纳米流体模型研究纳米级效应,采用Bingham-Papanastasiou流体研究血流动力学流变学。一个适当的几何表达式是制定投影两个病变段在弯曲的动脉。在轻度狭窄情况下,建立了耦合非线性偏微分方程。为了求解控制方程,采用了显式有限差分格式。通过图形描述了生物流动机理,并给出了重要流动参数的流动模式。
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来源期刊
CiteScore
6.00
自引率
1.70%
发文量
24
期刊介绍: Proceedings of the Institution of Mechanical Engineers Part N-Journal of Nanomaterials Nanoengineering and Nanosystems is a peer-reviewed scientific journal published since 2004 by SAGE Publications on behalf of the Institution of Mechanical Engineers. The journal focuses on research in the field of nanoengineering, nanoscience and nanotechnology and aims to publish high quality academic papers in this field. In addition, the journal is indexed in several reputable academic databases and abstracting services, including Scopus, Compendex, and CSA's Advanced Polymers Abstracts, Composites Industry Abstracts, and Earthquake Engineering Abstracts.
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