Scaling Of Diffusion-driven Displacing Patterns In Porous Media

Scaling Of Diffusion-driven Displacing Patterns In Porous Media

We present visualization experiments in etched-glass micromodels to identify micromechanics of drying processes. We develop a scaling theory which shows that above a certain critical length, the front dynamics change from those corresponding to invasion percolation to those of self-affine growth. Th...

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Veröffentlicht in:WIT Transactions on Ecology and the Environment 1998-01, Vol.23
Hauptverfasser: Yortsos, Y C, I. Tsimpanogiannis S. Poulou, Stubos, A S, Kanellopoulos, N K
Format: Artikel
Sprache:eng
Schlagworte:
Drying
Micromechanics
Percolation
Porous media
Scaling
Self-similarity
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Zusammenfassung:We present visualization experiments in etched-glass micromodels to identify micromechanics of drying processes. We develop a scaling theory which shows that above a certain critical length, the front dynamics change from those corresponding to invasion percolation to those of self-affine growth. The latter is characterized by gradient percolation in a stabilizing gradient, which predicts a front width that scales with the (appropriately modified) capillary number of the process. The drying pattern is thus self-similar only within a finite region (the front width) but remains compact further downstrea
ISSN:1746-448X
1743-3541
DOI:10.2495/CMWR980571