用PIV方法对气溶胶湍流热扩散过程在大气层环境和实验室环境下的研究
We discuss a new phenomenon of turbulent thermal diffusion associated with turbulent transport of aerosols in the atmosphere and in laboratory experiments. The essence of this phenomenon is the appearance of a nondiffusive mean flux of particles in the direction of the mean heat flux, which results in the formation of large-scale inhomogeneities in the spatial distribution of aerosols that accumulate in regions of minimum mean temperature of thesurrounding fluid. This effect of turbulent thermal diffusionwas detected experimentally. In experiments turbulence wasgenerated by two oscillating grids in two directions of the imposedvertical mean temperature gradient. We used Particle Image Velocimetry(PIV) to determine the turbulent velocity field, and an Image Processing Technique based on an analysis of the intensity of Mie scattering to determine the spatial distribution of aerosols. Analysis of the intensity of laser light Mie scattering by aerosols showed that aerosols accumulate in the vicinity of the minimum mean temperature due to the effect of turbulent thermal diffusion.