呼吸道二维和三维模型的计算分析

2018 Fourth International Conference on Biosignals, Images and Instrumentation (ICBSII) Pub Date : 2018-03-01 DOI:10.1109/ICBSII.2018.8524688

S. Umarani, P. Archana

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引用次数: 0

摘要

人体最独特的系统之一是呼吸系统。为了适应整个呼吸表面气体交换的任务，人体肺部的各个方面在确保这一过程有效和高效地进行方面起着相互关联的作用。呼吸系统的主要功能是将氧气吸入体内并将二氧化碳排出体外。空气进入鼻腔的通道经过气管，支气管，细支气管，最后到达肺泡。呼吸道分析是研究吸气和呼气力学过程的重要手段。此分析可以提供有关在吸气和呼气过程中涉及的输入和输出参数的见解。在计算研究的帮助下，可以对呼吸道分析的这些细节进行详细的研究。层流粘性模型被用来描述实时场景。对压力和速度参数进行了分析，得到了结果。

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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Computational Analysis of Respiratory Tract with 2D and 3D Models

One of the most unique systems in the human body is human respiratory system. Being suited with the task of gas exchange across the respiratory surface, each aspect of the human lungs plays an interconnected role in ensuring that this process is carried out effectively and efficiently. The primary function of the respiratory system entails the intake of oxygen into the body and the expulsion of carbon dioxide from the body. The pathway by which the air enters to the nasal cavity passes to the trachea to the bronchi then to the bronchioles and finally to alveolus. Analysis of respiratory tract is important to study the mechanical process during inspiration and expiration. This analysis can provide an insight about the input and output parameters involved during Inspiration and Expiration. With the help of computational studies such details about the analysis of respiratory tract can be investigated in detail. Laminar viscous model has been used to depict the real time scenario. The pressure and velocity parameters were analysed to get the results.

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2018 Fourth International Conference on Biosignals, Images and Instrumentation (ICBSII)

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