基于流量的呼吸计中叶片几何对呼吸空气混合影响的理论研究

Mohammadreza Chimerad
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引用次数: 0

摘要

鉴于流量式肺活量计与其他肺活量计相比,具有易于使用和校准等诸多优点,在本研究中,我们尝试通过改变叶片的几何形状来设计最佳涡轮,以提高流量式肺活量计的效率。实际上,研究的目的是设计和模拟不同类型的叶片,以增加呼吸空气的混合,减少呼吸阻力。为了达到这一目的,研究了不同剪切角的叶片,并报道了最合适的叶片。关键词:肺活计,基于流量,涡轮,仿真DOI: 10.7176/APTA/80-01出版日期:2019年10月31日
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theoretical Investigation of Geometrical Effects of Blades on Mixing of Breathing Air in a Flow-Based Spirometer
According to the fact that, in comparison with the other spirometers, a flow-based spirometer benefits from a wide range of advantages such as being easy to use and calibrate, in this study, we make an attempt to design the optimum turbine just by changing the geometry of blades in order to increase the efficiency of a flow-based spirometer. In fact, the aim of the study is to design and simulate different types of blades in order to increase the mixing of breathing air and decrease resistance to breathing. To reach this aim, blades with different shear angles have been investigated and the most appropriate one has been reported. Keywords: Spirometer, Flow-based, Turbine, Simulation DOI : 10.7176/APTA/80-01 Publication date :October 31 st 2019
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