Computational Fluid Dynamic Modeling of the Airflow Perturbation Device

机译：气流扰动装置的计算流体动力学建模

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Computational Fluid Dynamics (CFD) of Airflow through the airflow perturbation device during normal exhalation was performed to assess the effect of outlet blockage, temperature and turbulence on air flow and pressure patterns. Five models were analyzed with 0%, 30%, 50%, 70% and 90% outlet blockage. Maximum velocity increased with increasing outlet blockage percentage (from 0 to 90%) from 2.36 (m/s) to 16.31 (m/s) and maximum static pressure increased from 3.25 (Pa) to 200 (Pa). Turbulence did not show a significant effect. Density changed less than 1% when blockage percentage is more than 70%. Density ranged from 1.139 to 1.141 (kg.m3) in the model with 90% outlet blockage. Increasing the temperature from 25 to 37 ℃ did not affect the static pressure and velocity significantly.

机译：在正常呼气过程中，通过气流扰动装置的气流的计算流体动力学（CFD）进行了评估，以评估出口阻塞，温度和湍流对气流和压力模式的影响。分析了五个模型，其出口阻塞为0％，30％，50％，70％和90％。最大速度随出口堵塞百分比（从0到90％）从2.36（m / s）增加到16.31（m / s）而增加，最大静压力从3.25（Pa）增加到200（Pa）。湍流没有显示出明显的作用。当阻塞百分比大于70％时，密度变化小于1％。该型号的密度范围为1.139至1.141（kg.m3），出口堵塞率为90％。将温度从25℃升高到37℃不会显着影响静压力和速度。

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《26th Southern biomedical engineering conference》|2010年|p.397-400|共4页
会议地点 College Park MD(US);College Park MD(US)
作者
S. Majd; J. Vossoughi; A. Johnson;
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作者单位

ESRA, 3616 Martins Dairy Circle, Olney, MD 20832;

ESRA, 3616 Martins Dairy Circle, Olney, MD 20832,Fischell Department of Bioengineering, University of Maryland, College Park, MD 20742;

Fischell Department of Bioengineering, University of Maryland, College Park, MD 20742;

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原文格式 PDF
正文语种 eng
中图分类生物工程学（生物技术）;
关键词
airflow perturbation device; CFD; finite element; ANSYS, CFX;

机译：气流扰动装置；差价合约有限元; ANSYS，CFX;

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Computational Fluid Dynamic Modeling of the Airflow Perturbation Device

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