Visual analysis of flow and diffusion of hemolytic agents and hematomas

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摘要 The elimination of intracranial hematomas has received widespread attention and the interactions between hemolytic agents and hematomas have become a hot research topic.In this study,we used the Navier-Stokes equation to describe the flow control equation for hemolytic agents in a tube and used Fick’s law and the Maxwell-Stefan diffusion theory to describe the diffusion and mass transfer of hemolytic agents and hematomas.The physical fields and initial boundary conditions were set according to the parametric properties of the fluid and drainage tube.The COMSOL Multiphysics software was used to simulate the streamline distribution of hemolytic agents in a bifurcated drainage tube.Additionally,the diffusion behaviors of the hemolytic agents into hematomas were simulated and visual analysis of coupled multiphysics was performed to realize the digitization and visualization of engineering fluid problems and contribute to the field of medical engineering.

作者 Yafei Zhu Mengyao Bao Miaomiao Jiang Jincai Chang Jianzhong Cui

机构地区 College of Sciences Department of Neurosurgery

出处《Visual Computing for Industry,Biomedicine,and Art》 EI 2021年第1期9-21,共13页 工医艺的可视计算（英文）

基金 This research was funded by the National Science Foundation of China,Nos.51674121 and 61702184 the Returned Overseas Scholar Funding of Hebei Province,No.C2015005014 the Hebei Key Laboratory of Science and Application,and Tangshan Innovation Team Project,No.18130209B.

关键词 Flow diffusion Navier-stokes equation Tube flow Fick’s law Maxwell-Stefan diffusion equation VISUALIZATION

分类号 R651.1 [医药卫生—外科学]

作者简介 Correspondence:Jincai Chang,jincai@ncst.edu.cn。

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Visual analysis of flow and diffusion of hemolytic agents and hematomas

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