Journal
JOURNAL OF HAZARDOUS MATERIALS
Volume 458, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jhazmat.2023.131863
Keywords
Airborne transmission; Closed environment; Bioaerosols; Background particle concentration; Size distribution
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Airborne transmission is a common way of spreading infectious diseases, especially in closed environments. However, the impact of background particle concentration on bioaerosol characteristics has been overlooked in previous research. In this study, we compared the distributions of bioaerosols under heavily polluted and excellent background particle concentrations. The results showed a significant reduction in bioaerosol concentration and a higher decay rate under heavily polluted levels. The study also found differences in the size distribution of bioaerosols between the two levels of background particle concentration.
Airborne transmission is a well-established mode of dissemination for infectious diseases, particularly in closed environments. However, previous research has often overlooked the potential impact of background particle concentration on bioaerosol characteristics. We compared the spatial and temporal distributions of bioaerosols under two levels of background particle concentration: heavily polluted (150-250 mu g/m(3)) and excellent (0-35 mu g/m3) in a typical ward. Serratia marcescens bioaerosol was adopted as a bioaerosol tracer, and the bioaerosol concentrations were quantified using six-stage Andersen cascade impactors. The results showed a significant reduction (over at least 62.9%) in bioaerosol concentration under heavily polluted levels compared to excellent levels at all sampling points. The temporal analysis also revealed that the decay rate of bioaerosols was higher (at least 0.654 min(-1)) under heavily polluted levels compared to excellent levels. These findings suggest that background particles can facilitate bioaerosol removal, contradicting the assumption made in previous research that background particle has no effect on bioaerosol characteristics. Furthermore, we observed differences in the size distribution of bioaerosols between the two levels of background particle concentration. The average bioaerosols size under heavily polluted levels was found to be higher than that under excellent levels, and the average particle size under heavily polluted levels gradually increased with time. In conclusion, these results highlight the importance of considering background particle concentration in future research on bioaerosol characteristics.
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