Wind velocity and dispersion/advection-diffusion of artificial droplets and droplet nuclei in a domed all-weather multi-purpose stadium.

Publication date: Nov 04, 2024

To evaluate the COVID-19 infection risk and the effectiveness of countermeasures at mass-gathering events, we measured the dispersion and advective diffusion of artificial droplets and artificial droplet nuclei at the Tokyo Dome, Japan (capacity 55,000 people). We also measured and evaluated the effectiveness of wearing masks and increasing the space between seating areas. If people were seated facing forward, artificial droplets did not reach the mouths of surrounding people, suggesting low risk of droplet transmission. For an artificially generated cough or sneeze, the volume of droplets deposited on the hair, back of the neck, and back of the human in front, and the backs of the seats in front, decreased by two to three orders of magnitude when a mask was worn, regardless of the type of mask. However, when the mask was worn with the nose out, the amount deposited on the back of the seat in front was reduced by only 17%. Even in seats with the highest particle concentration in the vicinity of the source, only 0. 097%-0. 24% of the generated droplet nuclei (1. 0-3. 0 μm) from the source were inhaled. Our results suggest that the infection risk at the Tokyo Dome via droplet and airborne transmission was low.

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Concepts Keywords
Countermeasures Coronavirus infection 2019 (COVID-19)
Seating Cough simulator
Sneeze Face mask
Tokyo Infection risk
Mass-gathering events (MGEs)
Transmission risk

Semantics

Type Source Name
drug DRUGBANK Dexketoprofen
disease MESH COVID-19
disease MESH infection
disease MESH Coronavirus infection
disease MESH infectious diseases
drug DRUGBANK Coenzyme M
drug DRUGBANK Sulpiride
drug DRUGBANK Medical air
drug DRUGBANK Urethane
drug DRUGBANK Glycerin
drug DRUGBANK Water
disease IDO facility
disease MESH uncertainty
drug DRUGBANK Helium
disease MESH viral load
disease IDO contact tracing
pathway REACTOME Influenza Infection
disease MESH measles
pathway KEGG Measles
disease IDO fomite
pathway REACTOME Reproduction

Original Article

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