DOUBLE LAYERED COMPRESSIBLE MASKS

IF 0.9

The ANZIAM journal Pub Date : 2023-01-01 DOI:10.1017/S1446181123000056

N. Fowkes, D. P. Mason

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引用次数: 1

Abstract

Abstract Double-masking may be used to reduce the transmission of a virus. If additionally the masks are compressible, with different permeabilities and behaviour under compression, then it may be possible to design a mask that allows for easy breathing under normal breathing conditions, but is relatively impermeable under coughing or sneezing conditions. Such a mask could be both comfortable to wear and effective. We obtain analytical solutions for the steady-state flow-through behaviour of such a double mask under flow-out conditions. The results show that the reduction in permeability required to produce a relatively impermeable mask under high flux expulsion (sneezing) conditions could be achieved using either a single filter compressible mask or two filters with different poroelastic parameters. The parameters can be more easily adjusted using a double mask. For both single- and double-mask cases, there is an abrupt cut off, whereby through-flux levels reduce from a maximum value to zero as pressure drop levels increase beyond a critical value. Additionally, in the double-mask case, there exists a second steady-state solution for particular parameter ranges. This second solution is unlikely to occur under normal circumstances.

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双层可压缩面罩

双重掩蔽可用于减少病毒的传播。另外，如果口罩是可压缩的，在压缩下具有不同的渗透性和行为，那么可以设计一种允许在正常呼吸条件下轻松呼吸，但在咳嗽或打喷嚏条件下相对不透气的口罩。这样的口罩戴起来既舒适又有效。我们得到了这种双掩膜在流出条件下的稳态流动行为的解析解。结果表明，在高通量排出(打喷嚏)条件下，使用单过滤器可压缩面罩或具有不同孔隙弹性参数的两个过滤器都可以达到产生相对不透水面罩所需的渗透率降低。使用双掩模可以更容易地调整参数。对于单掩膜和双掩膜情况，都有一个突然的切断，即当压降水平增加到超过临界值时，通流水平从最大值降低到零。此外，在双掩模情况下，存在特定参数范围的第二稳态解。第二种解决方案在正常情况下不太可能发生。

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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The ANZIAM journal

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