具有磁热传递的生物磁性血液卡雷奥流体通过狭窄动脉流动的建模与分析：一项瞬态研究。

Modeling and analysis of biomagnetic blood Carreau fluid flow through a stenosis artery with magnetic heat transfer: A transient study.

作者信息

Abdollahzadeh Jamalabadi Mohammad Yaghoub, Daqiqshirazi Mohammadreza, Nasiri Hossein, Safaei Mohammad Reza, Nguyen Truong Khang

机构信息

Department of Mechanical, Robotics and Energy Engineering, Dongguk University, Seoul, Republic of Korea.

School of Mechanical Engineering, College of Engineering, University of Tehran, Tehran, Iran.

出版信息

PLoS One. 2018 Feb 28;13(2):e0192138. doi: 10.1371/journal.pone.0192138. eCollection 2018.

DOI:10.1371/journal.pone.0192138

PMID:29489852

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5830309/

Abstract

We present a numerical investigation of tapered arteries that addresses the transient simulation of non-Newtonian bio-magnetic fluid dynamics (BFD) of blood through a stenosis artery in the presence of a transverse magnetic field. The current model is consistent with ferro-hydrodynamic (FHD) and magneto-hydrodynamic (MHD) principles. In the present work, blood in small arteries is analyzed using the Carreau-Yasuda model. The arterial wall is assumed to be fixed with cosine geometry for the stenosis. A parametric study was conducted to reveal the effects of the stenosis intensity and the Hartman number on a wide range of flow parameters, such as the flow velocity, temperature, and wall shear stress. Current findings are in a good agreement with recent findings in previous research studies. The results show that wall temperature control can keep the blood in its ideal blood temperature range (below 40°C) and that a severe pressure drop occurs for blockages of more than 60 percent. Additionally, with an increase in the Ha number, a velocity drop in the blood vessel is experienced.

摘要

我们对锥形动脉进行了数值研究，该研究涉及在横向磁场存在的情况下，通过狭窄动脉对血液的非牛顿生物磁流体动力学（BFD）进行瞬态模拟。当前模型符合铁磁流体动力学（FHD）和磁流体动力学（MHD）原理。在本研究中，使用卡罗厄 - 矢田模型分析小动脉中的血液。假设动脉壁对于狭窄部分采用余弦几何形状固定。进行了参数研究，以揭示狭窄强度和哈特曼数对各种流动参数的影响，如流速、温度和壁面剪应力。当前研究结果与先前研究中的近期发现高度一致。结果表明，壁温控制可使血液保持在理想体温范围内（低于40°C），并且当堵塞超过60%时会出现严重的压降。此外，随着哈特曼数的增加，血管中的速度会下降。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ad6b/5830309/a555779843fd/pone.0192138.g001.jpg

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具有磁热传递的生物磁性血液卡雷奥流体通过狭窄动脉流动的建模与分析：一项瞬态研究。

Modeling and analysis of biomagnetic blood Carreau fluid flow through a stenosis artery with magnetic heat transfer: A transient study.

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