Coughing Intensity and Wind Direction Effects on the Transmission of Respiratory Droplets: A Computation with Euler-Lagrange Method

ABSTRACT

Studies on droplet transmission are needed to understand the infection mechanism of SARS-CoV-2. This research investigated the effects of coughing intensity and wind direction on respiratory droplets transportation using the Euler-Lagrange method. The results revealed that both coughing intensity and wind conditions considerably influence the transmission of small and medium droplets but had little effect on large droplets. A stronger coughing intensity resulted in small and medium droplets traveling farther in a calm wind and spreading widely and rapidly in a windy environment. The droplets do not travel far in the absence of ambient wind, even with stronger coughing. Medium droplets spread in clusters, and small droplets drifted out of the domain in the band area in different wind conditions except for 60 degrees and 90 degrees wind directions, in which cases, the droplets were blown directly downstream. In 0 degrees wind direction, many droplets were deposited on the human body. The fast and upward movement of particles in 60 degrees and 90 degrees directions could cause infection risk with short exposure. In 180 degrees wind direction, droplets spread widely and traveled slowly because of the reverse flow downstream, prolonged exposure can result in a high risk of infection.