Title of article
A Theoretical Model for Deposition of Aerosols in Rising Spherical Bubbles due to Diffusion, Convection, and Inertia
Author/Authors
Ghiaasiaan، نويسنده , , S. M، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1997
Pages
13
From page
141
To page
153
Abstract
A novel approximate theoretical analysis is proposed whereby the
deposition of aerosols in expanding and shrinking spherical bubbles rising in
stagnant liquid due to the combined effects of molecular diffusion, convection, and
inertia is modeled. The bubble internal circulation is assumed to be similar to Hillʹs
vortex flow.
Using the new method, parametric calculations representing conditions where
bubbles remain spherical and nonoscillating, and diffusion, convection, and inertia
are the dominant aerosol removal mechanisms, are performed, and the contribution
of the inertial transport mechanism is discussed. It is also suggested that the
common practice of using Fuchsʹs methodology, where aerosol fluxes resulting from
different mechanisms are separately calculated using simple models and added
together to find the total aerosol flux, is inadequate
Journal title
Aerosol Science and Technology
Serial Year
1997
Journal title
Aerosol Science and Technology
Record number
430356
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