Journal
BUILDING SIMULATION
Volume 9, Issue 5, Pages 597-606Publisher
TSINGHUA UNIV PRESS
DOI: 10.1007/s12273-016-0290-7
Keywords
computational fluid dynamics (CFD); droplet; protective isolation; cross transmission; indoor air
Categories
Funding
- National Natural Science Foundation of China [51178237]
Ask authors/readers for more resources
Person to person droplets/particles or contaminant cross transmission is an important issue in ventilated environment, especially in the unidirectional ventilated protective isolation room (UVPIR) where the patient's immune system is extremely low and easily infected. We simulated the dispersion process of the droplets with initial diameter of 100 mu m, 10 mu m and gaseous contaminant in unidirectional ventilated protective isolation room and studied the droplets dispersion and cross transmission with different sizes. The droplets with initial size of 100 mu m settle out of the coughing jet quickly after coming out from mouth and cannot be carried by the coughing jet to the human thermal plume affecting (HTPA) zone of the susceptible manikin. Hence, the larger droplets disperse mainly in the HTPA zone of the source manikin, and the droplets cross transmission between source manikin and susceptible manikin is very small. The droplets with initial size of 10 mu m and gaseous contaminant have similar dispersion but different removal process in the UVPIR. Part of the droplets with initial size of 10 mu m and gaseous contaminant that are carried by the higher velocity coughing airflow can enter the HTPA zone of the susceptible manikin and disperse around it. The other part cannot spread to the susceptible manikin's HTPA zone and mainly spread in the source manikin's HTPA zone. The results from this study would be useful for UVPIR usage and operation in order to minimize the risk of cross infection.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available