人类呼吸道上17代气流的计算模型。

Computational model of airflow in upper 17 generations of human respiratory tract.

作者信息

Gemci T, Ponyavin V, Chen Y, Chen H, Collins R

机构信息

University of Nevada, Las Vegas, NV 89154, USA.

出版信息

J Biomech. 2008;41(9):2047-54. doi: 10.1016/j.jbiomech.2007.12.019. Epub 2008 May 22.

DOI:10.1016/j.jbiomech.2007.12.019

PMID:18501360

Abstract

Computational fluid dynamics (CFD) studies of airflow in a digital reference model of the 17-generation airway (bronchial tree) were accomplished using the FLUENT computational code, based on the anatomical model by Schmidt et al. [2004. A digital reference model of the human bronchial tree. Computerized Medical Imaging and Graphics 28, 203-211]. The lung model consists of 6.744 x 10(6) unstructured tetrahedral computational cells. A steady-state airflow rate of 28.3L/min was used to simulate the transient turbulent flow regime using a large eddy simulation (LES) turbulence model. This CFD mesh represents the anatomically realistic asymmetrical branching pattern of the larger airways. It is demonstrated that the nature of the secondary vortical flows, which develop in such asymmetric airways, varies with the specific anatomical characteristics of the branching conduits.

摘要

基于施密特等人[2004年。人类支气管树的数字参考模型。《计算机医学成像与图形学》28卷，203 - 211页]的解剖模型，使用FLUENT计算代码完成了对17代气道（支气管树）数字参考模型中气流的计算流体动力学（CFD）研究。肺模型由6.744×10⁶个非结构化四面体计算单元组成。使用大涡模拟（LES）湍流模型，以28.3L/min的稳态气流速率模拟瞬态湍流状态。该CFD网格代表了较大气道在解剖学上实际的不对称分支模式。结果表明，在这种不对称气道中形成的二次涡流的性质，会随着分支管道的特定解剖特征而变化。

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人类呼吸道上17代气流的计算模型。

Computational model of airflow in upper 17 generations of human respiratory tract.

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