戴口罩对呼出空气动力学的影响。

Q3 Engineering Journal of Medical Engineering and Technology Pub Date : 2022-04-01 Epub Date: 2022-02-18 DOI:10.1080/03091902.2022.2026507
Jens Kerl, Amayu W Gena, Hayder Alsaad, Conrad Voelker, Dominic Dellweg
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引用次数: 2

摘要

由于气溶胶吸入是COVID-19感染最常见的机制,因此呼吸防护装置(rpd)在个人防护中至关重要。本研究的目的是通过纹影成像技术的距离测量来评估10种不同的rpd在缩短呼出空气旅行距离方面的效率。当一个人以坐姿休息时佩戴RPD,过期空气不会超过人体对流边界层(CBL)。相反,CBL将过期的气溶胶垂直向上提升。因此,它们在周围空气中的传播时间较长,并且由于病毒含量的几种衰变机制而变得不那么有害。咳嗽和呼气阀可以通过向不同方向打开泄漏气道走廊,造成远达呼气云水平穿过人体CBL。通过测量过期空气的范围,FFP2面罩在所有测试条件下都提供了高安全性。带有两个病毒过滤器的无通气全面口罩表现更好,因为它的密封性和在吸气和呼气时病毒过滤器的出色过滤能力,甚至在咳嗽动作期间。
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Influence of wearing masks on exhaled air aerodynamics.

Since aerosol inhalation is the most common mechanism for COVID-19 infection, the respiratory protective devices (RPDs) have the highest importance in personal protection. The aim of this study was to assess the efficiency of 10 different RPDs in shortening the travelling distance of exhaled air by range measurement using the schlieren imaging technique. When a RPD is worn by a person resting in a seated position, the expired air does not exceed the human convective boundary layer (CBL). Instead, the CBL lifts the expired aerosols vertically up. Thus, they have a prolonged travelling time in the surrounding air and become less harmful by several mechanisms of virus content decay. Coughing as well as expiration valves can cause far reaching expiration air clouds that cross horizontally the human CBL by opening leakage airway corridors into different directions. Measured by the range of expired air an FFP2 mask provided high security under all conditions tested. A non-vented full-face mask with two viral filters performed even better because of its airtight fit and the excellent filtering capacity of the viral filters during inspiration and expiration, even during cough manoeuvres.

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来源期刊
Journal of Medical Engineering and Technology
Journal of Medical Engineering and Technology Engineering-Biomedical Engineering
CiteScore
4.60
自引率
0.00%
发文量
77
期刊介绍: The Journal of Medical Engineering & Technology is an international, independent, multidisciplinary, bimonthly journal promoting an understanding of the physiological processes underlying disease processes and the appropriate application of technology. Features include authoritative review papers, the reporting of original research, and evaluation reports on new and existing techniques and devices. Each issue of the journal contains a comprehensive information service which provides news relevant to the world of medical technology, details of new products, book reviews, and selected contents of related journals.
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