Liquid-phase continuity and solute concentration dynamics during evaporation from porous media: pore-scale processes near vaporization surface.

@article{Shokri2010LiquidphaseCA,
  title={Liquid-phase continuity and solute concentration dynamics during evaporation from porous media: pore-scale processes near vaporization surface.},
  author={Nima Shokri and Peter Lehmann and Dani Or},
  journal={Physical review. E, Statistical, nonlinear, and soft matter physics},
  year={2010},
  volume={81 4 Pt 2},
  pages={
          046308
        }
}
  • N. ShokriP. LehmannD. Or
  • Published 13 April 2010
  • Physics, Environmental Science
  • Physical review. E, Statistical, nonlinear, and soft matter physics
Evaporation from porous media involves complex pore scale transport processes affecting liquid phase distribution and fluxes. Often, the initial evaporation rate is nearly constant and supplied by capillary flow from wetted zones below to the surface. Sustaining constant flow against gravity hinges on an upward capillary gradient and on liquid phase continuity with hydraulic conductivity sufficient for supplying evaporative flux. The pore scale liquid phase adjustments during evaporative… 
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