
Article Title
Air infiltration induced inter-unit dispersion and infectious risk assessment in a high-rise residential building
Keywords
air infiltration, inter-unit dispersion, infectious risk assessment, multi-zone modeling, wind tunnel experiment
Abstract
Identifying possible airborne transmission routes and assessing the associated infectious risks are essential for implementing effective control measures. This study focuses on the infiltration-induced inter-unit pollutant dispersion in a high-rise residential (HRR) building. The outdoor wind pressure distribution on the building facades was obtained from the wind tunnel experiments. And the inter-household infiltration and tracer gas transmission were simulated using multi-zone model. The risk levels along building height and under different wind directions were examined, and influence of component leakage area was analysed. It is found that, the cross-infection risk can be over 20% because of the low air infiltration rate below 0.7 ACH, which is significantly higher than the risk of 9% obtained in our previous on-site measurement with air change rate over 3 ACH. As the air infiltration rate increases along building height, cross-infection risk is generally higher on the lower floors. The effect of wind direction on inter-unit dispersion level is significant, and the presence of a contaminant source in the windward side results in the highest cross-infection risks in other adjacent units on the same floor. Properly improving internal components tightness and increasing air change via external components are beneficial to the control of internal inter-unit transmission induced by infiltration. However, this approach may increase the cross-infection via the external transmission, and effective control measures should be further explored considering multiple transmission routes.
Publisher
Tsinghua University Press
Recommended Citation
Yan Wu, Jianlei Niu, Xiaoping Liu. Air infiltration induced inter-unit dispersion and infectious risk assessment in a high-rise residential building. Build Simul, 2018, 11(1): 193–202.