In-human nanofluidic air transport through respirators and masks

K.V. Chinmaya , Moumita Ghosh , G. Mohan Rao , Siddharth Ghosh
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Abstract

During the COVID-19 pandemic, the mandatory use of multiple surgical masks or N95 respirators in public raised concerns about potential health issues associated with the increased breathing force needed to maintain the breathing cycle. To address these concerns, we conducted a comprehensive study investigating the transportation and filtering mechanisms of heterogeneous nanoparticles and virus-like particles through surgical masks and N95 respirators. Our multifaceted approach combined in vitro experiments utilising aerosol spray paints containing nanoparticles and in vivo validation on human volunteer inhaling city air. We employed scanning electron microscopy and transmission electron microscopy to analyse the distribution of nanoparticles across various mask layers and pristine silicon substrates placed on human skin. In addition, we provide analytical insights into the pressure distribution and fluid velocity profiles within the complex polymer fibre network of the masks. Our findings remarkably revealed that both single surgical masks and N95 respirators exhibited similar nanofluidic performance in filtering colloidal and jet-stream nanoparticles in the air. These results have significant implications for policymakers in developing regulations to manage airborne pandemics and air pollution control, ultimately enhancing public health and safety during respiratory health crises.

通过呼吸器和面罩的人体内纳米流体空气传输
在 COVID-19 大流行期间,公众被强制使用多个外科口罩或 N95 呼吸器,这引起了人们对维持呼吸循环所需的呼吸力增加可能带来的健康问题的担忧。为了解决这些问题,我们开展了一项综合研究,调查异质纳米粒子和类病毒粒子通过外科口罩和 N95 呼吸器的传输和过滤机制。我们的研究方法是多方面的,既有利用含有纳米颗粒的气溶胶喷漆进行的体外实验,也有在吸入城市空气的人体志愿者身上进行的体内验证。我们利用扫描电子显微镜和透射电子显微镜分析了纳米颗粒在不同面罩层和置于人体皮肤上的原始硅基底上的分布情况。此外,我们还对口罩复杂聚合物纤维网络内的压力分布和流体速度曲线进行了分析。我们的研究结果表明,单个外科口罩和 N95 呼吸器在过滤空气中的胶体和喷射流纳米粒子方面表现出相似的纳米流体性能。这些结果对政策制定者制定管理空气传播流行病和空气污染控制的法规,最终在呼吸健康危机期间提高公众健康和安全具有重要意义。
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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