Derivation of a pdf kinetic equation for the transport of particles in turbulent flows

In this paper a new particle-finite-volume hybrid algorithm for the joint velocityfrequency-composition PDF method for turbulent reactive flows is presented. This method is a combination of a finite-volume scheme and a particle method. The finitevolume scheme is used to solve the Reynolds averaged N

The paper describes a new hybrid finite-volume (FV)/particle method developed for the solution of the PDF equations for statistically stationary turbulent reactive flows. In this approach, the conservation equations for mean mass, momentum, and energy conservation are solved by a FV method while a p

The spatial and temporal evolution of the charge distribution on aerosol particles undergoing bipolar charging due to small ions in the presence of electric fields is generally described by a charging equation set up in charge-position space. Being a phenomenological description, this requires to be