Evaporation
From Thermal-FluidsPedia
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*'''[[Evaporation inside microchannels]]''' | *'''[[Evaporation inside microchannels]]''' | ||
- | :Evaporation from cylindrical pore under [[Evaporation from Cylindrical Pore under Low to Moderate Heat Flux|low to moderate heat flux]] | + | :Evaporation from cylindrical pore under [[Evaporation from Cylindrical Pore under Low to Moderate Heat Flux|low to moderate heat flux]], [[Fluid Flow Effect in Pore/Slots during Evaporation|fluid flow effect in pore/slots during evaporation]], [[Evaporation from Cylindrical Pore under High Heat Flux|high heat flux]], and [[Evaporation in an Inclined Microchannel|evaporation in an inclined microchannel]]. |
*'''[[Evaporation in porous media]]''' | *'''[[Evaporation in porous media]]''' | ||
:[[Film Evaporation from Wedge or Cone in a Porous Medium|Wedge or cone in porous medium]], and [[Evaporation from Inverted Meniscus in Porous Media|inverted meniscus in porous media]]. | :[[Film Evaporation from Wedge or Cone in a Porous Medium|Wedge or cone in porous medium]], and [[Evaporation from Inverted Meniscus in Porous Media|inverted meniscus in porous media]]. |
Revision as of 17:45, 1 June 2010
Evaporation processes generally occur from liquid films, drops, and jets. Films may flow on a heated or adiabatic surface as a result of gravity or vapor shear. Drops may evaporate from a heated substrate, or they may be suspended in a gas mixture or immiscible fluid. Jets may be cylindrical in shape or elongated (ribbon-like).
- Adiabatic walls, classical nusselt evaporation, laminar falling film with surface waves, turbulent falling film, surface spray cooling and heated wall.
- Evaporation from cylindrical pore under low to moderate heat flux, fluid flow effect in pore/slots during evaporation, high heat flux, and evaporation in an inclined microchannel.
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