BeggsCB.The airborne transmission of infection in hospital buildings: fact or fiction?Indoor Built Environ2003;
12: 9–18.
2.
LiYLeungGMTangJWYangXChaoCYHLinJZLuJWNielsenPVNiuJQianHSleighACSuH-JJSundellJWongTWYuenPL.Role of ventilation in airborne transmission of infectious agents in the built environment – a multidisciplinary systematic review. Indoor Air2007;
17: 2–18.
WangJZhangX.Analysis of conversion and characteristics of fresh air volume in high population density building. Refrig Air Condition2009;
9: 21–23. (in Chinese)
6.
XuCNielsenPVLiuLJensenRLGongG.Human exhalation characterization with the aid of Schlieren imaging technique. Build Environ2017;
112: 190–199.
7.
XuCNielsenPVLiuLJensenRLGongG.Impacts of airflow interactions with thermal boundary layer on performance of personalized ventilation. Build Environ2018;
135: 31–41.
8.
NielsenPV.Control of airborne infectious diseases in ventilated spaces. J R Soc Interface2009;
6: S747–S755.
9.
CermakRMelikovAK.Protection of occupants from exhaled infectious agents and floor material emissions in rooms with personalized and underfloor ventilation. HVAC&R Res2007;
13: 23–38.
10.
NielsenPVHylgaardCEMelikovAK.Personal exposure between people in a room ventilated by textile terminals – with and without personalized ventilation. HVAC&R Res2007;
13: 635–643.
11.
GaoNPNiuJL.Personalized ventilation for commercial aircraft cabins. J Aircraft2008;
45: 508–512.
12.
PantelicJSze-ToGNThamKWChaoCY andKhooYC.Personalized ventilation as a control measure for airborne transmissible disease spread. J R Soc Interface2009;
6: S715–S726.
13.
HabchiCGhaliKGhaddarNChakrounWAlotaibiS.Ceiling personalized ventilation combined with desk fans for reduced direct and indirect cross-contamination and efficient use of office space. Energ Convers Manage2016;
111: 158–173.
