The Molecular Diffusion of Ice Crystals of Various Shapes

Details The Molecular Diffusion of Ice Crystals of Various Shapes The Molecular Diffusion of Ice Crystals of Various Shapes

2004-04-20

arxiv.org/abs/physics/0404094v1

Proceedings of 14th International Conference on Clouds and Precipitation (2004)

Physics

Atmospheric and Oceanic Physics

4 pages, 3 figures, to be published in proceedings of "14th International Conference on Clouds and Precipitation"

Scientific paper

The growth by molecular diffusion (Reynold's number (Re) = 0) of ice crystals of different shapes, represented by the Sherwood number (Sh) is calculated using an electrical analog which relates capacity (C) to Sh. Although experimental data on dependence of Sh on Re for various ice crystals of interest in cloud physics have been previously obtained, extrapolation of the data to smaller particles for Re=0 has been unreliable. We present a simple computational algorithm for computing Sh at Re=0 for various crystals of interest, which will allow proper coverage over the whole Re range applicable to ice crystals. The method we present can be applied to any crystal of rectilinear shape. The approach was as follows: the model crystal is positioned in a box and an electric field is applied between the crystal and the box, simulating the initial growth stage of ice crystals. Using a finite Cartesian grid system of variable lattice separations, the corners of ice crystal are assigned to particular lattice points, thereby defining the geometry of the crystal. A discrete version of Gauss' flux law is developed and used for this lattice system. Sh (at Re=0) is obtained for hexagonal plates, hexagonal columns, broad branched crystals, stellar crystals, and capped columns. Our calculations reveal that our simple computational algorithm provides the values of Sh for these shapes to within 5% error from the values obtained through estimates in previous studies.

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