摘要
为探究室内可吸入颗粒物的运动特性,使用格子Boltzmann方法,在颗粒物运动概率模型的基础上考虑布朗力对颗粒物的作用,利用改良的LB-CA(Lattice Boltzmann-cellular automata)模型,模拟了Re数分别为400、1 000和2 000时粒径为0.01μm、0.1μm和1μm的颗粒物在上送上回和上送侧回两种回风形式中的运动特性.结果显示:颗粒物的空间分布范围随着Re数的增大而增大,小粒径的颗粒物受到气流湍动和扩散作用的影响更明显;颗粒物的均方位移(mean square displacement,MSD)与Re数、颗粒物粒径的大小成反比,而同样的Re数下,颗粒物在上送侧回的回风形式中其MSD较大.总体上看上送侧回的回风形式具有较低的悬浮颗粒数和更高的室内空气品质.
To explore motion characteristics of indoor respirable particles, Brownian force on particles is considered in motion probability model. Motion characteristics of 0?01μm, 0?1μm and 1μm particles under conditions of up supply with up return and up supply with side return air forms were simulated with lattice Boltzmann method taking Re as 400, 1 000 and 2 000, respectively. It shows that range of particle spacial distribution increases with Re, and smaller particles affected more obvious by air turbulence and diffusion effect. Mean square displacement ( MSD) of particles is inversely proportional to Re and diameter of particles. At same Re, MSD of particles is greater under up supply with side return air form, thus lower suspended particles and higher indoor air quality appears in up supply with side return air form.
作者
鄢仁樵
陈丽萍
周斌
YAN Renqiao CHEN Liping ZHOU Bin(College of Urban Construction, Nanjing University of Technology, Nanjing 210009, China)
出处
《计算物理》
CSCD
北大核心
2016年第6期698-706,共9页
Chinese Journal of Computational Physics
基金
江苏省自然科学基金(BK20130946)
江苏省高等学校青蓝工程资助项目
