Condensation
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Back to [[Multiphase systems]]. <br> | Back to [[Multiphase systems]]. <br> | ||
Back to [[Main Page|'''T'''hermal-'''F'''luids'''P'''edia Main Page]]. | Back to [[Main Page|'''T'''hermal-'''F'''luids'''P'''edia Main Page]]. | ||
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+ | ==References== | ||
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+ | Faghri, A., Zhang, Y., and Howell, J. R., 2010, ''Advanced Heat and Mass Transfer'', Global Digital Press, Columbia, MO. | ||
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+ | ==Further Reading== | ||
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+ | ==External Links== |
Revision as of 13:47, 5 August 2010
Condensation occurs when a saturated or superheated vapor – pure or multi-component – comes into contact with an object, such as a wall or other contaminant, that has a temperature below the saturation temperature.
- Dropwise condensation formation theories, critical droplet radius, thermal resistances, and heat transfer coefficient.
- Regimes, governing equations for a binary vapor mixture, stagnant pure vapor reservoir, effects of vapor motion, turbulent film condensation, other filmwise condensation configurations, cylinders and spheres, flooding or entrainment limit, and effects of noncondensable gas.
Back to Convective Heat Transfer.
Back to Heat and Mass Transfer.
Back to Multiphase systems.
Back to Thermal-FluidsPedia Main Page.
References
Faghri, A., Zhang, Y., and Howell, J. R., 2010, Advanced Heat and Mass Transfer, Global Digital Press, Columbia, MO.