Clarkson University
The CAMP building
Of Interest
CRCD Home
ME 537 Home
Syllabus
Assignments
Downloads
Site Map
Course Notes
Engineering Mathematics
Review of Viscous Flows
Review of Computational Fluid Mechanics

Particle Adhesion
Simulation Methods
Experimental Techniques
Applications
Search Powered by Google

The National Science Foundation
ME 537 The National Science Foundation
 Aerosols
Introduction to Aerosols | Drag, Lift Forces | Aerosol Kinetics | Virtual Mass, Basset Forces & BBO Equation | Nonspherical Particles | Brownian Motions | Particle Deposition Mechanisms | Electrodynamics | Aerosol Coagulation |

Coagulation of Particles

Shear Flows

The collision frequency function due to shear flow is given as

(28)

For ,

Calculation Model

Collision Frequency

Collision Frequency

(29)

Turbulence

Saffman and Turner suggested that

(30)

where  is the kinematic viscosity. For pipe flows (core region),

(31)

where R is the pipe radius. Average dissipation rate for the pipe is given as

(32)

Differential Motion by Gravitational Force

For particles falling according to Stokes settling velocity, the collision frequency function is given by

(33)

where  

Dr. Goodarz Ahmadi | Turbulence & Multiphase Fluid Flow Laboratory | Department of Mechanical & Aeronautical Engineering
Copyright © 2002-2005 Dr. Goodarz Ahmadi. All rights reserved.
Potsdam, New York, 13699
ahmadi@clarkson.edu