磁场和Hall电流对狭窄动脉中血液流动的影响

doi:10.1007/s10483-008-0813-x

Applied Mathematics and Mechanics (English Edition) ›› 2008, Vol. 29 ›› Issue (8): 1093-1104 .doi: https://doi.org/10.1007/s10483-008-0813-x

磁场和Hall电流对狭窄动脉中血液流动的影响

Kh. S. 墨克黑沫¹; M. A. 艾尔科特²

1.阿扎大学理学院数学系，纳什城 11884，开罗，埃及；
2.苏伊士运河大学教育学院数学系，苏伊士，埃及

收稿日期:2007-03-22 修回日期:2008-06-06 出版日期:2008-08-18 发布日期:2008-08-18
通讯作者: Kh. S. Mekheimer

Influence of magnetic field and Hall currents on blood flow through a stenotic artery

Kh. S. Mekheimer¹; M. A. El Kot²

1. Department of Mathematics, Faculty of Science, Al-Azhar University, Nasr City 11884, Cairo, Egypt;
2. Department of Mathematics, Faculty of Education, Suez Canal University, Suez, Egypt

Received:2007-03-22 Revised:2008-06-06 Online:2008-08-18 Published:2008-08-18
Contact: Kh. S. Mekheimer

摘要/Abstract

摘要：

对一个水平向不对称、竖直向对称，带有轻微狭窄的动脉，提出了血液磁流体动力学流动的微极模型.为了估计狭窄形状的影响，几何上加以适当地考虑，通过选取不同的参数（称为形状参数），很方便地改变水平向的狭窄情况.在不同形状参数、Hartmann数和Hall参数下，计算了流动参数，例如流速、流动阻力（阻力阻抗）、狭窄区域血管壁面剪应力分布以及狭窄最大凸起高度位置处（狭窄喉部）的壁面剪应力大小.结果表明，流动阻力随着确定狭窄情况参数值和Hall参数值的增大而减小，并随着Hartmann数的增大而增大.对任意给定的Hartmann数和Hall参数，血管壁面剪切应力和血管狭窄部位凸起最大高度处的管壁剪应力，具有与流动阻力相反的特征，最后，给出了Hartmann数和Hall参数对水平速度的影响.

关键词: 血液磁流体动力学, Hartmann数, 狭窄动脉, Hall电流, 微极模型

Abstract:

A micropolar model for blood simulating magnetohydrodynamic flow through a horizontally nonsymmetric but vertically symmetric artery with a mild stenosis is presented. To estimate the effect of the stenosis shape, a suitable geometry has been considered such that the horizontal shape of the stenosis can easily be changed just by varying a parameter referred to as the shape parameter. Flow parameters, such as velocity, the resistance to flow (the resistance impedance), the wall shear stress distribution in the stenotic region, and its magnitude at the maximum height of the stenosis (stenosis throat), have been computed for different shape parameters, the Hartmann number and the Hall parameter. This shows that the resistance to flow decreases with the increasing values of the parameter determining the stenosis shape and the Hall parameter, while it increases with the increasing Hartmann number. The wall shear stress and the shearing stress on the wall at the maximum height of the stenosis possess an inverse characteristic to the resistance to flow with respect to any given value of the Hartmann number and the Hall parameter. Finally, the effect of the Hartmann number and the Hall parameter on the horizontal velocity is examined.

Key words: blood flow, stenotic artery, Hall currents

中图分类号:

Kh. S. 墨克黑沫;M. A. 艾尔科特. 磁场和Hall电流对狭窄动脉中血液流动的影响[J]. Applied Mathematics and Mechanics (English Edition), 2008, 29(8): 1093-1104 .

Kh. S. Mekheimer;M. A. El Kot. Influence of magnetic field and Hall currents on blood flow through a stenotic artery[J]. Applied Mathematics and Mechanics (English Edition), 2008, 29(8): 1093-1104 .

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磁场和Hall电流对狭窄动脉中血液流动的影响

Influence of magnetic field and Hall currents on blood flow through a stenotic artery

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