Los puntos clave no están disponibles para este artículo en este momento.
Abstract A review of previous derivations of particle collision rates in turbulent fluid flow shows that these are applicable only to limited cases. A more general derivation is given, taking into account the effects of the inertia of the particles and the difference in densities of the fluid and the particles. A universal solution for the relative velocity of two particles due to turbulent accelerations in a gaseous or liquid system is presented. In gaseous systems the acceleration mechanism becomes predominant at particle sizes far below the Kolmogorov microscale of turbulence. In liquid systems, the particle inertial and added mass effects become important above the Kolmogorov microscale. Here the particle collision rate cannot be estimated from the fluid turbulent velocity fluctuations only. Keywords: Collision rateturbulencerelative velocityparticles Additional informationNotes on contributorsF. E. KRUIS Present address: Prozeβ- und AerosolmeβJtechnik, Gerhard-Mercator-Universitat Gesamt-hochschule Duisburg, Bismarckstr. 81,47057 Duisburg, Germany.
Kruis et al. (Tue,) studied this question.