Tracing the origin of large respiratory droplets by their deposition characteristics inside the respiratory tract during speech

Abstract: Origin of differently sized respiratory droplets is fundamental for clarifying their viral loads and the sequential transmission mechanism of SARS-CoV-2 in indoor environments. Transient talking activities characterized by low (0.2 L/s), medium (0.9 L/s), and high (1.6 L/s) airflow rates of monosyllabic and successive syllabic vocalizations were investigated by computational fluid dynamics (CFD) simulations based on a real human airway model. SST k-ω model was chosen to predict the airflow field, and the discr… Show more

“…By applying a three-mode droplet size distribution coupled with a mode-dependent viral load, 23,32 we find that exhaled droplets with d 0 ≤ 10 μm play a more important role in airborne transmission than larger droplets. This observation aligns with recent findings presented by Y. Wang et al 44 The droplet size-dependent virus concentration in exhaled breath air is shown in Fig. 2.…”

Size dependent effectiveness of engineering and administrative control strategies for both short- and long-range airborne transmission control

“…By applying a three-mode droplet size distribution coupled with a mode-dependent viral load, 23,32 we find that exhaled droplets with d 0 ≤ 10 μm play a more important role in airborne transmission than larger droplets. This observation aligns with recent findings presented by Y. Wang et al 44 The droplet size-dependent virus concentration in exhaled breath air is shown in Fig. 2.…”

Size dependent effectiveness of engineering and administrative control strategies for both short- and long-range airborne transmission control

Beyond droplet deposition: Virus transport and deposition modeling in respiratory tract influenced by ambient environment and exhalation activities

A comprehensive approach to modeling aerosol emissions from electric toothbrushes and evaluating transmission risks in public restrooms