화학공학소재연구정보센터
Journal of Aerosol Science, Vol.66, 123-138, 2013
Modeling particle collision processes in high Reynolds number flow
Shearing and inertial collision frequency functions are derived for spherical particles with motivation to high-speed flows where compressibility effects are present. Orthokinetic collision is considered under laminar flow where the radial component of relative velocity between two colliding particles is a source of collision. For a general laminar movement of flow, contraction and dilatation effects in compressible flow on shearing collision are assessed. The newly derived shearing collision frequency function consists of compressible and incompressible parts and is obtained from first principles using the local strainrate tensor. It is shown that the contraction and dilatation of a fluid element significantly effects shearing collisions. The new shearing collision frequency function is compared with inertial collision frequency under laminar flow and the laminar total collision frequency is compared with the total collision frequency function for turbulent flow. (C) 2013 Elsevier Ltd. All rights reserved.