Fast flow simulation is imperative in the design of pulsating ventilation,which is potentially efficient in indoor air contaminant removal.The execution of the conventional CFD method requires considerable amount of c...Fast flow simulation is imperative in the design of pulsating ventilation,which is potentially efficient in indoor air contaminant removal.The execution of the conventional CFD method requires considerable amount of computational resources.In this study,five different numerical schemes were proposed based on fast fluid dynamics(FFD)and fractional step(FS)methods,and were evaluated to achieve quick simulation of airflow/contaminant dispersion.One of these numerical schemes was identified with the best overall computing efficiency for investigating the performance of pulsating ventilation.With this numerical scheme at hand,the air contaminant removal effectiveness of different ventilation types was evaluated.Two kinds of pulsating ventilation and one kind of steady ventilation were tested upon a benchmark isothermal mixing chamber.The effect of adjusting supply velocity parameters on the ventilation performance was also investigated.CO_(2)concentration,airflow pattern,and vortex structure of different ventilation types were illustrated and analyzed.The results reveal that the FS method is more suitable for transient simulation of wall-bounded indoor airflow than the FFD method,and 34%–51%of computing time could be saved compared to the conventional CFD method.Regarding the choice of ventilation type,steady ventilation might result in short-circuit airflow and stagnant zones;alternatively,pulsating ventilation has greater potential in air contaminant removal due to its ever-changing vortex structure.展开更多
This study monitors the open/closed states of the windows in 16 residential apartments in representative cities of the hot summer and cold winter zone of China,along with outdoor air temperature,outdoor relative humid...This study monitors the open/closed states of the windows in 16 residential apartments in representative cities of the hot summer and cold winter zone of China,along with outdoor air temperature,outdoor relative humidity and outdoor PM2.5 concentration in 2017,to investigate the window opening/closing behavior.Three window opening models are developed.All the models are validated by modeling a typical residential apartment to compare the predicted indoor CO_(2)concentration with monitored data.It is found that the window opening probability is negatively correlated to both outdoor PM2.5 concentration and outdoor relative humidity,and the probability of window opening reaches the peak value when the outdoor air temperature is 23.7℃.In terms of season,the shortest window opening duration occurs in winter due to the cold outdoor air temperature and high outdoor PM2.5 concentration.Finally,by comparing the correlation between the measured date and simulation results of indoor CO_(2)concentration,this study provides an appropriate window opening model for reference.展开更多
基金supported by the National Natural Science Foundation of China under the grant number of 52278116.
文摘Fast flow simulation is imperative in the design of pulsating ventilation,which is potentially efficient in indoor air contaminant removal.The execution of the conventional CFD method requires considerable amount of computational resources.In this study,five different numerical schemes were proposed based on fast fluid dynamics(FFD)and fractional step(FS)methods,and were evaluated to achieve quick simulation of airflow/contaminant dispersion.One of these numerical schemes was identified with the best overall computing efficiency for investigating the performance of pulsating ventilation.With this numerical scheme at hand,the air contaminant removal effectiveness of different ventilation types was evaluated.Two kinds of pulsating ventilation and one kind of steady ventilation were tested upon a benchmark isothermal mixing chamber.The effect of adjusting supply velocity parameters on the ventilation performance was also investigated.CO_(2)concentration,airflow pattern,and vortex structure of different ventilation types were illustrated and analyzed.The results reveal that the FS method is more suitable for transient simulation of wall-bounded indoor airflow than the FFD method,and 34%–51%of computing time could be saved compared to the conventional CFD method.Regarding the choice of ventilation type,steady ventilation might result in short-circuit airflow and stagnant zones;alternatively,pulsating ventilation has greater potential in air contaminant removal due to its ever-changing vortex structure.
基金Part of the work is supported by National Science Foundation of China(51878408,51508326)the Key laboratory of healthy en-vironment and energy conservation for industrial large space building(2019SA-10-07)This work is supported by the national key project of the Ministry of Science and Technology,China,on“Green Buildings and Building Industrialization”through Grant No.2016YFC0700500.
文摘This study monitors the open/closed states of the windows in 16 residential apartments in representative cities of the hot summer and cold winter zone of China,along with outdoor air temperature,outdoor relative humidity and outdoor PM2.5 concentration in 2017,to investigate the window opening/closing behavior.Three window opening models are developed.All the models are validated by modeling a typical residential apartment to compare the predicted indoor CO_(2)concentration with monitored data.It is found that the window opening probability is negatively correlated to both outdoor PM2.5 concentration and outdoor relative humidity,and the probability of window opening reaches the peak value when the outdoor air temperature is 23.7℃.In terms of season,the shortest window opening duration occurs in winter due to the cold outdoor air temperature and high outdoor PM2.5 concentration.Finally,by comparing the correlation between the measured date and simulation results of indoor CO_(2)concentration,this study provides an appropriate window opening model for reference.
