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Three-dimensional non-isothermal numerical model for predicting semi-volatile organic compound transport process in a room
Indoor Air ( IF 5.8 ) Pub Date : 2021-05-10 , DOI: 10.1111/ina.12849
Fan Bai 1 , Hao Ding 1 , Yu-Tong Mu 2 , Yan-Jun Dai 1 , Yin-Ping Zhang 3 , Wen-Quan Tao 1
Affiliation  

In this paper, a three-dimensional non-isothermal computational model for predicting indoor SVOC distribution is proposed, considering the effects of turbulence diffusion and suspended particles. The realizable k-ε model is introduced for turbulent flow simulation in a room. The Euler-Euler method is adopted to deal with the gas-particle two-phase flow coupled problem. Inertia slip velocity and irreversible first-order absorption boundary are employed for more accurate prediction of particle motion. The simulated curve of outlet gas-phase di-2-ethylhexyl phthalate (DEHP) concentration with emission time is verified by available experimental data. The emission process of DEHP in a 15 m2 room in Beijing during 100 days with or without air cleaner is simulated by the developed model considering air leak through window and door gaps. It is found that if the air cleaner keeps on all the time during 100 days the gas-phase DEHP concentration in the room will tend to be uniform, while the emission process is far from equilibrium without an air cleaner even the emission lasts 100 days. Results also suggest that floor heating, decrease of particle concentration, weaken of heat transfer, enhancement of mass transfer, and air infiltration in window gap contribute to decrease DEHP concentration.
更新日期:2021-05-10
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