人体上呼吸道内气溶胶沉积的数值仿真研究
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Numerical simulation of aerosol deposition in human upper respiratory tract
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    摘要:

    目的 研究人体上呼吸道内气溶胶沉积规律,分析呼吸模式对气溶胶沉积规律的影响。方法 建立人体上呼吸道计算机数值仿真模型,采用计算流体动力学方法对人体上呼吸道内的气溶胶沉积进行数值仿真,分析气溶胶在上呼吸道内的沉积规律。结果 人体上呼吸道内不同部位气溶胶沉积率随惯性参数的增加而增加,人体上呼吸道内的呼吸流量和气溶胶性质对气溶胶在上呼吸道内的沉积模式影响较小,受到惯性碰撞和湍流扩散的影响致使在喉部气溶胶沉积最多。人体循环吸气模式下,气溶胶在人体上呼吸道内的沉积率高于稳态吸气模式下的气溶胶的沉积率。循环吸气模式下远大于循环呼气模式下气溶胶沉积率。结论 惯性碰撞对于微尺度气溶胶沉积而言是主要的沉积机制,而湍流扩散、二次气流运动和环流气流运动对气溶胶在人体呼吸道内沉积同样具有重要的影响。

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    Objective To study the rule of aerosol deposition in human upper respiratory tract and analyze the impact of respiratory pattern on aerosol deposition. Methods A computer model of human upper respiratory tract was established first. CFD (computational fluid dynamics) method was then used to numerically simulate the aerosol deposition within the human upper respiratory tract and the rule of aerosol deposition was analyzed. Results The efficiency of aerosol deposition in human upper respiratory tract was improved with the increase of inertial parameter. The breathing intensity and aerosol property had little impact on the pattern of aerosol deposition, which was at most in larynx due to the inertial impact and turbulent dispersion. Under the mode of cyclic inhalation, the aerosol deposition efficiency was higher at unsteady respiratory than that at steady respiratory, at cyclic inhalation than at cyclic exhalation. Conclusions Inertial impact is the main key deposition mechanism for micro aerosol, while turbulent dispersion, secondary flow and recirculation flow have an equally important impact on aerosol deposition in human respiratory tract.

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赵秀国,徐新喜,孙栋,刘亚军,谭树林,高振海.人体上呼吸道内气溶胶沉积的数值仿真研究[J].医用生物力学,2012,27(1):90-95

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  • 收稿日期:2011-04-12
  • 最后修改日期:2011-08-15
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