IEEE Open Journal of Engineering in Medicine and Biology (Jan 2021)

Face Coverings, Aerosol Dispersion and Mitigation of Virus Transmission Risk

  • Ignazio Maria Viola,
  • Brian Peterson,
  • Gabriele Pisetta,
  • Geethanjali Pavar,
  • Hibbah Akhtar,
  • Filippo Menoloascina,
  • Enzo Mangano,
  • Katherine E. Dunn,
  • Roman Gabl,
  • Alex Nila,
  • Emanuela Molinari,
  • Cathal Cummins,
  • Gerard Thompson,
  • Tsz-Yan Milly Lo,
  • Fiona C. Denison,
  • Paul Digard,
  • Omair Malik,
  • Mark J. G. Dunn,
  • Catherine M. McDougall,
  • Felicity V. Mehendale

DOI
https://doi.org/10.1109/OJEMB.2021.3053215
Journal volume & issue
Vol. 2
pp. 26 – 35

Abstract

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The SARS-CoV-2 virus is primarily transmitted through virus-laden fluid particles ejected from the mouth of infected people. Face covers can mitigate the risk of virus transmission but their outward effectiveness is not fully ascertained. Objective: by using a background oriented schlieren technique, we aim to investigate the air flow ejected by a person while quietly and heavily breathing, while coughing, and with different face covers. Results: we found that all face covers without an outlet valve reduce the front flow through by at least 63% and perhaps as high as 86% if the unfiltered cough jet distance was resolved to the anticipated maximum distance of 2-3 m. However, surgical and handmade masks, and face shields, generate significant leakage jets that may present major hazards. Conclusions: the effectiveness of the masks should mostly be considered based on the generation of secondary jets rather than on the ability to mitigate the front throughflow.

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