Simulation of one-dimensional blood flow in networks of human vessels using a novel TVD scheme

Huang P. G.; Muller L. O.

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Simulation of one-dimensional blood flow in networks of human vessels using a novel TVD scheme

机译：使用新型TVD方案模拟人脉网络中的一维血流

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An extension of a total variation diminishing (TVD) scheme to solve one-dimensional (1D) blood flow for human circulation is proposed. This method is simple as it involves only a few modifications to existing shock-capturing TVD schemes. We have applied the method to a wide range of test cases including a complete simulation of the human vascular network. Excellent solutions have been demonstrated for problems involving varying and discontinuous mechanical properties of blood vessels. For 1D network simulations, the method has been shown to agree well with the reported computational results. Finally, the method has been demonstrated to compare favorably with in vivo experiments set up to study the impact of circle of Willis anomalies on flow patterns in the cerebral arterial system. Copyright (c) 2015 John Wiley & Sons, Ltd.

机译：提出了一种全变差递减（TVD）方案的扩展方案，以解决人体循环的一维（1D）血流问题。这种方法很简单，因为它仅涉及对现有的震荡捕获TVD方案的少量修改。我们已经将该方法应用到了广泛的测试案例中，包括对人体血管网络的完整模拟。对于涉及变化和不连续的血管机械特性的问题，已经证明了极好的解决方案。对于一维网络仿真，该方法已证明与报告的计算结果非常吻合。最后，已证明该方法与体内研究威利斯异常圆对脑动脉系统血流形态影响的体内实验相比具有优势。版权所有（c）2015 John Wiley＆Sons，Ltd.

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《Communications in Numerical Methods in Engineering》 |2015年第5期|e02701.1-e02701.24|共24页
作者
Huang P. G.; Muller L. O.;
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作者单位

Wright State Univ, Dept Mech & Mat Engn, Dayton, OH 45435 USA;

LNCC MCTI, Natl Lab Sci Comp, BR-25651070 Rio De Janeiro, RJ, Brazil;

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正文语种 eng
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关键词
CFD; human circulation; circle of Willis; TVD scheme; vascular network simulation;

机译：流体力学;人体循环;威利斯环;TVD方案;血管网络模拟;

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专利

1. Well-balanced high-order numerical schemes for one-dimensional blood flow in vessels with varying mechanical properties [J] . Müller L.O., Parés C., Toro E.F. Journal of Computational Physics . 2013,第Null期

机译：机械特性变化的一维血管中良好平衡的高阶数值方案
2. The improved surface gradient method for flows simulation in variable bed topography channel using TVD-MacCormack scheme [J] . Ming-Hseng Tseng International Journal for Numerical Methods in Fluids . 2003,第1期

机译：基于TVD-MacCormack方案的变床地形流模拟的改进表面梯度法
3. Lattice-Boltzmann simulation of blood flow in digitized vessel networks [J] . Chenghai Sun, Lance L. Munn Computers & mathematics with applications . 2008,第7期

机译：数字化血管网络中血流的Lattice-Boltzmann模拟
4. 3D Computer Simulations of Pulsatile Human Blood Flows in Vessels and in the Aortic Arch: Investigation of Non-Newtonian Characteristics of Human Blood [C] . Renat A. Sultanov, Dennis Guster, Brent Engelbrekt, IEEE International Conference on Computational Science and Engineering . 2008

机译：3D计算机模拟脉动人血流血管和主动脉弓：人类血液非牛顿特征的调查
5. Development of a CFD code using TVD schemes and advanced turbulence models for incompressible flow simulations. [D] . Chang, Yu-Li. 1997

机译：使用TVD方案和高级湍流模型开发CFD代码，用于不可压缩的流动模拟。
6. Lattice Boltzmann simulation of blood flow in digitized vessel networks [O] . Chenghai Sun, Lance L. Munn -1

机译：数字化血管网络中血流的格子Boltzmann模拟
7. 3D Computer Simulations of Pulsatile Human Blood Flows in Vessels and in the Aortic Arch: Investigation of Non-Newtonian Characteristics of Human Blood [O] . Renat A. Sultanov, Dennis Guster 2008

机译：血管和主动脉弓内脉动性人类血流的3D计算机模拟：人类血液的非牛顿特性研究

Simulation of one-dimensional blood flow in networks of human vessels using a novel TVD scheme

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