The traditional ventilation aims to create a uniform indoor environment,which neglects the diverse thermal requirements of different locations within large-space building,resulting in significant energy waste.This stu...The traditional ventilation aims to create a uniform indoor environment,which neglects the diverse thermal requirements of different locations within large-space building,resulting in significant energy waste.This study proposes a method based on partition control using column attachment ventilation to create a non-uniform indoor environment under cooling conditions.The main factors influencing thermal environment differences among zones were identified through orthogonal experiments,and the effects of partition control on indoor convective heat transfer and thermal comfort were analyzed.A 1:4 scale model was used to conduct temperature field verification experiments.The results indicate that under the column attachment ventilation mode,partition control can create a non-uniform environment,enhancing indoor temperature non-uniformity by 3.67 times compared to uniform ventilation.The factors influencing zonal thermal environment differences are air supply temperature difference(ΔT_(s))>column shape>air supply velocity difference(ΔV_(s)).WhenΔT_(s)is 2°C,the sub-zone average temperature difference reaches up to 1.3°C.Additionally,the difference in the air supply temperature affects the distribution of convective heat transfer between zones.A dimensionless correlation for the Nusselt number in the enclosed large-space under square column attachment ventilation(S-CAV)was established with a 5.6%average absolute deviation.This study can enrich the research on non-uniform environment in large space buildings and promote its application in practical engineering.展开更多
基金funded by the National Natural Science Foundation of China(No.51408477)the Excellent Funding for Scientific and Technological Activities of Overseas Scholars in Shaanxi Province(No.2022-005)+1 种基金the Shaanxi Provincial Key R&D Program External Cooperation Project(2025GH-YBXM-013)the International Joint Research Center for Building Service Science and Underground Space Environment,Shaanxi(China).
文摘The traditional ventilation aims to create a uniform indoor environment,which neglects the diverse thermal requirements of different locations within large-space building,resulting in significant energy waste.This study proposes a method based on partition control using column attachment ventilation to create a non-uniform indoor environment under cooling conditions.The main factors influencing thermal environment differences among zones were identified through orthogonal experiments,and the effects of partition control on indoor convective heat transfer and thermal comfort were analyzed.A 1:4 scale model was used to conduct temperature field verification experiments.The results indicate that under the column attachment ventilation mode,partition control can create a non-uniform environment,enhancing indoor temperature non-uniformity by 3.67 times compared to uniform ventilation.The factors influencing zonal thermal environment differences are air supply temperature difference(ΔT_(s))>column shape>air supply velocity difference(ΔV_(s)).WhenΔT_(s)is 2°C,the sub-zone average temperature difference reaches up to 1.3°C.Additionally,the difference in the air supply temperature affects the distribution of convective heat transfer between zones.A dimensionless correlation for the Nusselt number in the enclosed large-space under square column attachment ventilation(S-CAV)was established with a 5.6%average absolute deviation.This study can enrich the research on non-uniform environment in large space buildings and promote its application in practical engineering.
