Effect of ventilation and wearing facemask in reducing indoor aerosol transmission

Auteurs

Clothilde Brochot, Institut de recherche Robert-Sauvé en santé et en sécurité du travail (IRSST)Follow
Ali Bahloul, IRSSTFollow

Type de document

Communications orales

Date de la conférence

2024-4

Langue

Anglais

Nom de la conférence

RoomVent 2024

Lieu de la conférence

Stockholm, Suède

Résumé

The COVID-19 pandemic has significantly disrupted research in respiratory protection and transmission routes. Indeed, the pandemic has highlighted a number of issues, including those related to the performance and use of respiratory protective equipment such as masks and ventilation. A plethora of commercial and homemade masks have widely appeared during the pandemic, although they are not yet fully regulated in performance and fit test. However, with regard to the source reduction process, testing facemasks not at the inhalation, but at the source (exhalation) offers a new perspective on how to prevent particle emissions. Different means of transmission reduction are measured and analysed here, and different conditions were compared: the ventilation environment, the type, filtration properties and fit (leaks) of three different facemasks. It was found that ventilation greatly helped reduce the wearer's emissions at source. Additionally, while some materials are certainly more effective than others at inhibiting particle penetration, an even more important factor is the amount of leakage emitted from a mask.

Mots-clés

COVID-19, SARS-CoV-2, Équipement de protection respiratoire, Respirator, Masque N95, N95 mask, Efficacité de filtration, Filtration efficiency, Prévention de la contagion, Infection control

Numéro de projet IRSST

n/a

Citation recommandée

Brochot C. et Bahloul A. (Avril 2024). Effect of ventilation and wearing facemask in reducing indoor aerosol transmission [Communication]. RoomVent 2024, Stockholm, Suède.