Experimental and simulated evaluations of airborne contaminant exposure in a room with a modified localized laminar airflow system
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https://hdl.handle.net/10037/23630Date
2021-02-15Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
The traditional mixing ventilation is not an energy effective approach to remove indoor air pollutants, maintain breath zone air quality, and control the airborne transmission. This study investigated the potential of a localized laminar airflow ventilation system to alleviate human exposure to pollutants. Breathing thermal manikins with sitting posture and supine posture were used to simulate the human. N2O was used as the tracer gas to simulate the indoor pollutant emission. The contaminant exposure index (εexp) and intake fraction index (IF) were used to assess the risk of human pollutant exposure for various supply air velocities given different emission source positions. Enhanced pollutant removal efficiency (Eff) (from the result) showed the qualification and desirability of the localized laminar airflow ventilation system in improving the breath zone air quality. The results showed that the CFD results could fit well with the experimental data and found out the interaction between thermal plume and supply air. The results also indicated a low εexp and IF, with over 90%, all of which were highly correlated with the supply velocity. Human’s different breathing methods have little influence on the pollutant exposure so as to the location of the pollution source. This study found that localized laminar airflow ventilation system could efficiently provide fresh air to the breathing zone without sacrificing the thermal environment around human. It can be used for small region air quality control such as that in the bedroom and living room where desired air quality is favored.
Publisher
Springer NatureCitation
Cheng, Aganovic, Cao, Bu. Experimental and simulated evaluations of airborne contaminant exposure in a room with a modified localized laminar airflow system. Environmental science and pollution research international. 2021;28:30642-30663Metadata
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