Melting and solidification
From Thermal-FluidsPedia
(Difference between revisions)
Line 12: | Line 12: | ||
:[[Integral approximate method for solidification of a binary solution system|Integral approximate method]], [[Mixture model for solidification of a binary solution system|mixture model]] and [[Volume-averaging model for solidification of a binary solution System|volume-averaging model]]. | :[[Integral approximate method for solidification of a binary solution system|Integral approximate method]], [[Mixture model for solidification of a binary solution system|mixture model]] and [[Volume-averaging model for solidification of a binary solution System|volume-averaging model]]. | ||
*<b>[[Melting and solidification in porous media|Melting and Solidification in Porous Media]]</b> | *<b>[[Melting and solidification in porous media|Melting and Solidification in Porous Media]]</b> | ||
- | :[[Convection-controlled melting in porous | + | :[[Convection-controlled melting in porous media|Convection-controlled melting problem]], and an [[enthalpy model for melting and solidification in porous media|enthalpy model for melting and solidification]]. |
<br> | <br> |
Revision as of 21:43, 30 August 2009
Melting and solidification find application in the geophysical sciences; industrial forming operations such as casting and laser drilling; latent heat energy storage systems; and food and pharmaceutical processing. Any manmade metal products must undergo liquid forms at some point during manufacturing processes and solidify to form intermediate or final products.
- One-Region, two-Region, and multi-region problems, convection controlled melting and solidification.
- Description of integral solution, one-region problem, two-region problem, ablation, and melting and solidification in cylindrical coordinate systems.
Back to Heat Conduction.
Back to Heat and Mass Transfer.
Back to Multiphase Systems.