呼吸建模，气溶胶形式的药物沉淀，以及使用热氦氧混合物治疗冠状病毒感染

NUMERICAL METHODS FOR SOLVING PROBLEMS IN THE THEORY OF ELASTICITY AND PLASTICITY (EPPS 2021) Pub Date : 1900-01-01 DOI:10.1063/5.0073346

P. S. Gafurova, A. Medvedev

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引用次数: 0

摘要

本研究的目的是计算空气流动和模拟药物滴在人体肺部的沉淀。通过使用先前设计的人体支气管树的三维模型解决了这个问题。肺部的气体流动和气溶胶的沉淀是通过逐步计算支气管树的流动的方法来计算的，这种方法可以追踪所有支气管分支直到肺泡的空气流动和气溶胶滴的沉淀。通过使用热氦氧混合物固化COVID-19的例子模拟人类呼吸。结果表明，呼吸热氦氧混合物比呼吸空气所需的努力要小。被加热的吸入气体的温度与人体温度的平衡显示发生在支气管的上分支。©2021作者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Modeling of breathing, precipitation of medical drugs in aerosol form, and curing of Coronavirus infection by using a thermal helium-oxygen mixture

The study is aimed at calculating the air flow and modeling precipitation of droplets of medical drugs in human lungs. The problem is solved by using a previously designed three-dimensional model of the human bronchial tree. The gas flow in lungs and precipitation of aerosols are computed by the method of stage-by-stage calculation of the flow in the bronchial tree, which allows the air flow and precipitation of aerosol droplets to be traced over all bronchial branches up to alveoli. Human breathing is simulated by an example of COVID-19 curing with the use of a thermal helium-oxygen mixture. It is shown that breathing of the thermal helium-oxygen mixture requires less effort from the patient than breathing of air. Equalization of the temperature of the heated inhaled gas with the human body temperature is shown to occur in the upper branches of the bronchi. © 2021 Author(s).

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NUMERICAL METHODS FOR SOLVING PROBLEMS IN THE THEORY OF ELASTICITY AND PLASTICITY (EPPS 2021)

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