The self-preserving particle size distribution for Brownian coagulation in the free-molecule regime

Time evolution of particle size distribution of fractal agglomerates undergoing Brownian coagulation in the free-molecule regime was investigated. A simple analytical solution for the size distribution change was obtained by using the assumption that the size distribution during the coagulation proc

In this paper, the self-preserving theory of coagulating aerosols is presented in a new way: the logarithmic volume (or mass) distribution of an aerosol undergoing coagulation stays invariant in shape at long times. This is shown for both the free molecular and continuum regime collision frequency f

calculating the discretized size distribution of the particles An analytical solution to the Brownian coagulation of aerosol of an aerosol which undergoes coagulation. He also found particles in the low Knudsen number regime is presented which an analytical expression for an early coagulation stage

Coalescence of oil-in-water emulsion droplets in a simple shear flow produced by a Couette device is considered. A phase Doppler anemometer was used to measure the droplet size distribution as a function of time for shear rates ranging from 55 to 213 s-1 and for sodium chloride salt concentrations f