J Shanghai Jiaotong Univ Sci ›› 2023, Vol. 28 ›› Issue (4): 450-.doi: 10.1007/s12204-022-2512-8

• • 上一篇    

三种不同血液粘度模型中分叉血流的数值研究

吴辉,富荣昌,杨晓玉,李现政,王召耀   

  1. (新疆大学 机械工程学院,乌鲁木齐 830000)
  • 收稿日期:2022-05-07 接受日期:2022-05-22 出版日期:2023-07-28 发布日期:2023-07-31

Numerical Study of Bifurcated Blood Flow in Three Different Blood Viscosity Models

WU Hui(吴 辉), FU Rongchang* (富荣昌), YANG Xiaoyu (杨晓玉), LI Xianzheng (李现政), WANG Zhaoyao (王召耀)   

  1. (School of Mechanical Engineering, Xinjiang University, Urumqi 830000, China)
  • Received:2022-05-07 Accepted:2022-05-22 Online:2023-07-28 Published:2023-07-31

摘要: 本研究旨在分析不同血液黏度模型分叉血管的血流动力学影响。基于CT图像构建腘动脉分叉血管三维模型,通过计算流体力学(CFD)方法计算牛顿模型、Casson模型和两相模型的血流动力学参数。血液流经腘动脉分叉血管后血液流速发生改变,胫前动脉血液流速加快;分叉血管外侧产生低速涡流区并伴随低壁面切应力(WSS)区域。在心动周期内局部非牛顿重要性系数IL > 1,心动初期和心动末期 IL > 1.75。与Casson模型和两相模型相比,牛顿模型的涡流区更大,WSS更低。分叉血管的低速涡流区和低壁面切应力区可能会导致动脉粥样硬化的产生。血液在分叉血管表现为非牛顿流体特性(IL > 1),在心动初期和心动末期非牛顿特性影响显著(IL > 1.75)。牛顿模型预测的动脉粥样硬化形成的风险更高;血流动力学研究中,应考虑血液非牛顿特性的影响。

关键词: 血流动力学,计算流体力学,非牛顿流体,非牛顿重要性系数

Abstract: This study aimed to analyze the hemodynamic effects of bifurcated vessels using different bloodviscosity models. Three-dimensional models of bifurcated vessels in the popliteal artery were constructed basedon CT images, and hemodynamic parameters of the Newtonian, Casson, and two-phase models were calculatedby the computational fluid dynamics method. Blood flowed through the popliteal artery. Blood flow velocitychanged after the bifurcated vessel, with accelerated blood flow velocity in the anterior tibial artery. A lowvelocity vortex region with a region of low wall shear stress (WSS) was generated outside the bifurcated vessel.Local non-Newtonian importance factors of great than 1 (i.e., IL > 1) occurred during the cardiac cycle, andIL > 1.75 occurred at the beginning and end of the cycle. Compared with the Casson and two-phase models, theNewtonian model has a larger vortex region and lower WSS. Low-velocity vortex regions and low WSS regionsin the bifurcated vessels may contribute to the development of atherosclerosis. Blood exhibited non-Newtonianfluid properties in bifurcated vessels (IL > 1), and the effect of non-Newtonian properties was more pronouncedat the beginning and end of heartbeats (IL > 1.75). The Newtonian model predicts a higher risk of atherosclerosisformation and the effect of non-Newtonian properties of blood should be considered in hemodynamic studies.

Key words: hemodynamics, computational fluid dynamics, non-Newtonian fluid, non-Newtonian importance factor

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