Characterization of aerosol plumes from singing and playing wind instruments associated with the risk of airborne virus transmission

dc.contributor.authorWang, Lingzhe
dc.contributor.authorLin, Tong
dc.contributor.authorDa Costa, Hevander
dc.contributor.authorZhu, Shengwei
dc.contributor.authorStockman, Tehya
dc.contributor.authorKumar, Abhishek
dc.contributor.authorWeaver, James
dc.contributor.authorSpede, Mark
dc.contributor.authorMilton, Donald K.
dc.contributor.authorHertzberg, Jean
dc.contributor.authorToohey, Darin W.
dc.contributor.authorVance, Marina E.
dc.contributor.authorMiller, Shelly L.
dc.contributor.authorSrebric, Jelena
dc.description.abstractThe exhalation of aerosols during musical performances or rehearsals posed a risk of airborne virus transmission in the COVID-19 pandemic. Previous research studied aerosol plumes by only focusing on one risk factor, either the source strength or convective transport capability. Furthermore, the source strength was characterized by the aerosol concentration and ignored the airflow rate needed for risk analysis in actual musical performances. This study characterizes aerosol plumes that account for both the source strength and convective transport capability by conducting experiments with 18 human subjects. The source strength was characterized by the source aerosol emission rate, defined as the source aerosol concentration multiplied by the source airflow rate (brass 383 particle/s, singing 408 particle/s, and woodwind 480 particle/s). The convective transport capability was characterized by the plume influence distance, defined as the sum of the horizontal jet length and horizontal instrument length (brass 0.6 m, singing 0.6 m and woodwind 0.8 m). Results indicate that woodwind instruments produced the highest risk with approximately 20% higher source aerosol emission rates and 30% higher plume influence distances compared with the average of the same risk indicators for singing and brass instruments. Interestingly, the clarinet performance produced moderate source aerosol concentrations at the instrument’s bell, but had the highest source aerosol emission rates due to high source airflow rates. Flute performance generated plumes with the lowest source aerosol emission rates but the highest plume influence distances due to the highest source airflow rate. Notably, these comprehensive results show that the source airflow is a critical component of the risk of airborne disease transmission. The effectiveness of masking and bell covering in reducing aerosol transmission is due to the mitigation of both source aerosol concentrations and plume influence distances. This study also found a musician who generated approximately five times more source aerosol concentrations than those of the other musicians who played the same instrument. Despite voice and brass instruments producing measurably lower average risk, it is possible to have an individual musician produce aerosol plumes with high source strength, resulting in enhanced transmission risk; however, our sample size was too small to make generalizable conclusions regarding the broad musician population.
dc.identifier.citationWang, L, Lin, T, Da Costa, H, et al. Characterization of aerosol plumes from singing and playing wind instruments associated with the risk of airborne virus transmission. Indoor Air. 2022; 32:e13064.
dc.relation.isAvailableAtA. James Clark School of Engineeringen_us
dc.relation.isAvailableAtMechanical Engineeringen_us
dc.relation.isAvailableAtDigital Repository at the University of Marylanden_us
dc.relation.isAvailableAtUniversity of Maryland (College Park, MD)en_us
dc.subjectaerosol plume
dc.subjectairborne disease transmission
dc.subjectflow visualization
dc.subjectparticle image velocimetry
dc.subjectwind instruments
dc.titleCharacterization of aerosol plumes from singing and playing wind instruments associated with the risk of airborne virus transmission


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