2021
DOI: 10.1038/s41598-021-84245-2
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Airborne dispersion of droplets during coughing: a physical model of viral transmission

Abstract: The Covid-19 pandemic has focused attention on airborne transmission of viruses. Using realistic air flow simulation, we model droplet dispersion from coughing and study the transmission risk related to SARS-CoV-2. Although this model defines most airborne droplets as 8–16 µm in diameter, we infer that larger droplets of 32–40 µm in diameter may potentially be more infectious due to higher viral content. Use of face masks is therefore recommended for both personal and social protection. We found social distanc… Show more

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Cited by 57 publications
(41 citation statements)
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“…3 shows the specific setup of barrier heights and locations. In addition, it was assumed that an infected person considered as source of COVID, who produced droplets or aerosols containing viruses (with a coughing speed of 13m/s downwards at 27.5°) (Kwon et al 2012, Li et al 2021. Three typical positions for pollution source (infected person) of A, B and C are selected representing alternative horizontal distances between personnel and air diffusers, as demonstrated in Fig.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…3 shows the specific setup of barrier heights and locations. In addition, it was assumed that an infected person considered as source of COVID, who produced droplets or aerosols containing viruses (with a coughing speed of 13m/s downwards at 27.5°) (Kwon et al 2012, Li et al 2021. Three typical positions for pollution source (infected person) of A, B and C are selected representing alternative horizontal distances between personnel and air diffusers, as demonstrated in Fig.…”
Section: Methodsmentioning
confidence: 99%
“…The parameters of pollutant source location and barrier height are further explored in simulation cases 5-19 under modified ventilation mode. A single pollutant source is considered, assuming an infected personnel with continuous coughing that produces viruses (with an airflow velocity of 13m/s at the mouth downwards at 27.5°)(Kwon et al 2012, Li et al 2021) considering an airflow temperature of mouth as 36 o C (breathing rate for remaining personnel is assumed negligible). In each simulation case, the single pollutant source is placed in positions A, B or C, and the source intensity is set as 1E-04 (quantum/m 3 ).…”
mentioning
confidence: 99%
“…it restricts the height of both the swabber and patients” Could not swab sitting/wheelchair patients [ 6 ] “it is not wheelchair or elderly friendly.” Cubicle too small or short [ 2 ] “however, the top of the booth is too low for Caucasian patients” “For a ladies [ sic ] frame it’s a good fit but not for the larger built guys” Dimensions [ 19 ] Too bulky/wanted foldable [ 10 ] “Try to design a foldable one.” “no need to be so bulky and tall” Patient cubicle dimensions [ 3 ] “Too far for patient. Patient can move away during swab.” Too heavy [ 3 ] “heavy to push in and out of the clinic after every session” Miscellaneous [ 19 ] Want it more enclosed [ 6 ] “There is no “door” to total close patient in so to ensure the aerosol particles are contain within the booth…” Enhance places to put things [ 5 ] “Put a ledge on patients’ side so the things less likely to drop” “compartments to put disinfectants and swabbing materal [ sic ]” Others [ 8 ] – 2 or fewer comments per theme “Difficult for patient to hear me while swabbing - I bought a mic and speaker set to overcome this” …”
Section: Resultsmentioning
confidence: 99%
“…However, it is reasonable to assume that the transmission risk to swabber is high, as during swabbing the potentially infectious patient stands less than a metre away, his face is exposed, and he may cough. These three factors multiply the risk to many times that of a typical interaction with masks worn, more than a metre apart and without coughing [ 7 , 8 ]. Furthermore, as SARS-CoV-2 transmission is via droplets, aerosols and fomites, and transmission risk is greater in confined spaces [ 9 ], there may be risks to other users of the space, raising the issue of disinfection.…”
Section: Introductionmentioning
confidence: 99%
“…Respiratory infections can be transmitted through droplets (> 5µm) and droplet nuclei (< 5µm) [1][2][3] . According to the World Health Organization (WHO) report 2 COVID-19 in particular, is primarily transmitted through droplets and contact [4][5][6] .…”
Section: Introductionmentioning
confidence: 99%