Journal article

Evaporation and dispersion of respiratory droplets from coughing

L Liu, J Wei, Y Li, A Ooi

Indoor Air | WILEY-HINDAWI | Published : 2017

Open access

Abstract

Understanding how respiratory droplets become droplet nuclei and their dispersion is essential for understanding the mechanisms and control of disease transmission via droplet-borne and airborne routes. A theoretical model was developed to estimate the size of droplet nuclei and their dispersion as a function of the ambient humidity and droplet composition. The model-predicted dried droplet nuclei size was 32% of the original diameter, which agrees with the maximum residue size in the classic study by Duguid, 1946, Edinburg Med. J., 52, 335 and the validation experiment in this study, but is smaller than the 50% size predicted by Nicas et al., 2005, J. Occup. Environ. Hyg., 2, 143. The dropl..

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University of Melbourne Researchers

Grants

Awarded by National Natural Science Foundation of China


Funding Acknowledgements

We are grateful for the financial support received from the RGC (HKU7142/12) and NSFC (Grant numbers 51278440 and 51378415). We are also grateful to Professor William Nazaroff of the University of California at Berkeley for his first suggestion of the balance experiment of droplets for validation.