Publication: Theory of Surface Deposition from Boundary Layers
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2008-05
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Abstract
Heterogeneous condensation of vapours mixed with a carrier gas in the stagnation point boundary layer flow near a cold wall is considered in the presence of solid particles much larger than the mean free path of vapour particles. The supersaturated vapour condenses on the particles by diffusion, and particles and droplets are thermophoretically attracted to the wall. Assuming that the heat of vaporization large enough vapour condensation occurs in a condensation layer (CL). The CL width and characteristics depend on the parameters of the problem, and a parameter R yielding the rate of vapour scavenging by solid particles is particularly important.
Assuming that the CL is so narrow that temperature, particle density and velocity do not change appreciably inside it, an asymptotic theory is found that approximates very well the vapour and droplet profiles, the dew point shift and the deposition rates at the wall for wide ranges of the wall temperature and the scavenging parameter R. This theory breaks down for wall temperatures very close to the maximum temperature yielding non-zero droplet deposition rate. If the width of the CL is assumed to be zero, the vapour density reaches local equilibrium with the condensate immediately after it enters the dew surface. This theory yields appropriate profiles and deposition rates in the limit as R tends to infinity and also for any R, provided the wall temperature is very close to the above mentioned maximum temperature. Nonlinear multiple scales also improve this theory, providing good uniform approximations to the deposition rates and the profiles for large R or for moderate R. These findings are in contrast with observations for homogeneous nucleation.
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[1] J.C. Neu, A. Carpio, L.L. Bonilla,
Theory of surface deposition from boundary layers containing condensable vapour and particles, Journal of Fluid Mechanics 626, 183-210, 2009
[2] J.C. Neu, L.L. Bonilla, A. Carpio,
Igniting homogeneous nucleation, Physical Review E 71, 021601, 2005
[3] LL Bonilla, A. Carpio, Y. Farjoun, JC Neu,
Asymptotic and numerical studies of the Becker-Döring model for transient homogeneous nucleation, Markov processes and related fields, 12, 341-365, 2006