Boundary layer effects on particle impaction and capture
Abstract
The inertial impaction and deposition of small particles on larger bodies with viscous boundary layers are considered theoretically, in a detailed comment on a paper by Menguturk et al. (1983). Topics addressed include cushion effects, the dimensionless groups corresponding to the diameter range (3-6 microns) examined by Menguturk et al. in a numerical example, analogous effects of particle-gas energy and mass exchange in boundary layers, and the combined effects of particle inertia and diffusion. It is argued that the inertial effects can be characterized in terms of a body, boundary-layer, or sublayer Stokes number. In a reply by Menguturk et al., the focus is on the application of the theoretical model to the erosion of blade surfaces in large gas turbines; the Stokes number is found to be of limited practical value in these cases, because the particle motion is not primarily normal to the blade surfaces.
- Publication:
-
ASME Journal of Fluids Engineering
- Pub Date:
- March 1984
- Bibcode:
- 1984ATJFE.106..113R
- Keywords:
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- Boundary Layer Flow;
- Erosive Burning;
- Inviscid Flow;
- Particle Laden Jets;
- Combustible Flow;
- Reynolds Number;
- Turbulent Boundary Layer;
- Fluid Mechanics and Heat Transfer