在承受压力斜坡的单肺泡肺模型中呼出气流的数值模型。

A numerical model of expired flow in a monoalveolar lung model subjected to pressure ramps.

作者信息

Thiriet M, Bonis M, Adedjouma A S, Yvon J P

机构信息

Universite de technologie de Compiegne, France.

出版信息

J Biomech Eng. 1989 Feb;111(1):9-16. doi: 10.1115/1.3168349.

DOI:10.1115/1.3168349

PMID:2747239

Abstract

A numerical investigation of pulmonary flow properties was carried out in a monoalveolar model composed of a balloon and a compliant tube in series, subjected to pressure ramps. The flow is shown to become quickly limited by a wave-speed mechanism, occurring at the peak flow. The critical point then travels upstream, while the main part of the exit flow rate is provided by the tube collapse. After the critical flow period, the flow becomes subcritical and viscous effects are predominant in the deeply collapsed tube.

摘要

在一个由气球和顺应性管串联组成的单肺泡模型中，对肺血流特性进行了数值研究，该模型承受压力斜坡。结果表明，血流在峰值流量时迅速受到波速机制的限制。临界点随后向上游移动，而出口流量的主要部分由管腔塌陷提供。在临界血流期之后，血流变为亚临界，粘性效应在深度塌陷的管腔中占主导地位。

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在承受压力斜坡的单肺泡肺模型中呼出气流的数值模型。

A numerical model of expired flow in a monoalveolar lung model subjected to pressure ramps.

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