Short-range airborne route dominates exposure of respiratory infection during close contact

被引:268
作者
Chen, Wenzhao [1 ]
Zhang, Nan [1 ]
Wei, Jianjian [3 ]
Yen, Hui-Ling [2 ]
Li, Yuguo [1 ,2 ]
机构
[1] Univ Hong Kong, Dept Mech Engn, Pokfulam Rd, Hong Kong, Peoples R China
[2] Univ Hong Kong, Sch Publ Hlth, Pokfulam, 7 Sassoon Rd, Hong Kong, Peoples R China
[3] Zhejiang Univ, Key Lab Refrigerat & Cryogen Technol Zhejiang Pro, Inst Refrigerat & Cryogen, Hangzhou, Peoples R China
关键词
Exposure; Disease transmission; Close contact; Short-range airborne; Large droplet; ASPIRATION EFFICIENCIES; EXHALED BREATH; ISOLATION PRECAUTIONS; AEROSOL INHALABILITY; EXPIRATORY DROPLETS; HUMAN HEAD; TRANSMISSION; PARTICLES; DEPOSITION; MODEL;
D O I
10.1016/j.buildenv.2020.106859
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
A susceptible person experiences the highest exposure risk of respiratory infection when he or she is in close proximity with an infected person. The large droplet route has been commonly believed to be dominant for most respiratory infections since the early 20th century, and the associated droplet precaution is widely known and practiced in hospitals and in the community. The mechanism of exposure to droplets expired at close contact, however, remains surprisingly unexplored. In this study, the exposure to exhaled droplets during close contact (<2 m) via both the short-range airborne and large droplet sub-routes is studied using a simple mathematical model of expired flows and droplet dispersion/deposition/inhalation, which enables the calculation of exposure due to both deposition and inhalation. The short-range airborne route is found to dominate at most distances studied during both talking and coughing. The large droplet route only dominates when the droplets are larger than 100 mu m and when the subjects are within 0.2 m while talking or 0.5 m while coughing. The smaller the exhaled droplets, the more important the short-range airborne route. The large droplet mute contributes less than 10% of exposure when the droplets are smaller than 50 mu m and when the subjects are more than 0.3 m apart, even while coughing.
引用
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页数:16
相关论文
共 66 条
[1]   Aerosol inhalability in low air movement environments [J].
Aitken, RJ ;
Baldwin, PEJ ;
Beaumont, GC ;
Kenny, LC ;
Maynard, AD .
JOURNAL OF AEROSOL SCIENCE, 1999, 30 (05) :613-626
[2]  
[Anonymous], 2012, TURBULENT JETS PLUME
[3]   Computational fluid dynamics investigation of particle inhalability [J].
Anthony, T. Renee ;
Flynn, Michael R. .
JOURNAL OF AEROSOL SCIENCE, 2006, 37 (06) :750-765
[5]   INVESTIGATIONS INTO DEFINING INHALABLE DUST [J].
ARMBRUSTER, L ;
BREUER, H .
ANNALS OF OCCUPATIONAL HYGIENE, 1982, 26 (1-4) :21-&
[6]   Quantifying the routes of transmission for pandemic influenza [J].
Atkinson, Michael P. ;
Wein, Lawrence M. .
BULLETIN OF MATHEMATICAL BIOLOGY, 2008, 70 (03) :820-867
[7]  
Baturin V., 1972, Fundamentals of industrial ventilation
[8]   Influenza Virus Infectivity and Virulence following Ocular-Only Aerosol Inoculation of Ferrets [J].
Belser, Jessica A. ;
Gustin, Kortney M. ;
Katz, Jacqueline M. ;
Maines, Taronna R. ;
Tumpey, Terrence M. .
JOURNAL OF VIROLOGY, 2014, 88 (17) :9647-9654
[9]   Experimental evaluation of thermal comfort, ventilation performance indices and exposure to airborne contaminant in an airborne infection isolation room equipped with a displacement air distribution system [J].
Berlanga, F. A. ;
Ruiz de Adana, M. ;
Olmedo, I. ;
Villafruela, J. M. ;
San Jose, J. F. ;
Castro, F. .
ENERGY AND BUILDINGS, 2018, 158 :209-221
[10]  
Bezemer GFG., 2009, Particle deposition and clearance from the respiratory tract