A Non-isothermal Pore Network drying Model: Influence of Gravity
نویسندگان
چکیده
The concept of immiscible displacement as an invasion percolation (IP) process driven by heat and mass transfer is used in a pore network model for convective drying of capillary porous media. The coupling between heat and mass transfer occurs at the liquid-gas interface through temperature dependent equilibrium vapour pressure, surface tension and phase change enthalpy (in evaporation and condensation). The interfacial effects due to capillary forces and gravity are combined in an invasion potential Φ; viscous forces are neglected. Simulation results show stabilized invasion patterns and finite drying front width by the influence of gravity.
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