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Analytical and numerical investigation of the airflow in face masks used for protection against COVID-19 virus : implications for mask design and usage
Citation Link: https://doi.org/10.15480/882.2775.2
Publikationstyp
Journal Article
Date Issued
2020
Sprache
English
Author(s)
Institut
TORE-DOI
Volume
13
Issue
6
Start Page
1911
End Page
1923
Citation
Journal of Applied Fluid Mechanics, Vol. 13, No. 6, pp. 1911-1923, 2020
Publisher DOI
Scopus ID
Publisher
Physical Society of Iran
The use of face masks for the general public has been suggested in literature as a means to decrease virus transmission during the global COVID-19 pandemic. However, literature findings indicate that most mask designs do not provide reliable protection. This paper investigates the hypothesis that the impaired protection is mainly due to imperfect fitting of the masks, so that airflow, which contains virus-transporting droplets, can leak through gaps into or out of the mask. The fluid dynamics of face masks are investigated via analytical and numerical computations. The results demonstrate that the flow can be satisfactorily predicted by simplified analytical 1D-flow models, by efficient 2D-flow simulations and by 3D-flow simulations. The present results show that already gap heights larger than 0.1mm can result in the mask not fulfilling FFP2 or FFP3 standards, and for gap heights of ca. 1mm most of the airflow and droplets may pass through the gap. The implications of these findings are discussed and improvements to existing mask designs are suggested.
Subjects
Computational Fluid Dynamics (CFD)
Filtering Face Piece (FFP) masks
respirators
airflow
self-made masks
surgical masks
leakage
virus transmission
COVID-19
DDC Class
530: Physik
600: Technik
610: Medizin
620: Ingenieurwissenschaften
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Peric_Airflow_in_Face_Masks.pdf
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