Melting and solidification

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:[[Governing Equations of Melting and Solidification Problem|Governing equations]], [[Exact Solution of the One-Region Problems|one-region problem]], [[Exact Solution of the Two-Region Problems|two-region problem]].
:[[Governing Equations of Melting and Solidification Problem|Governing equations]], [[Exact Solution of the One-Region Problems|one-region problem]], [[Exact Solution of the Two-Region Problems|two-region problem]].
*<b>[[Integral Approximate Solution of Melting and Solidification Problems|Integral Approximate Solution]]
*<b>[[Integral Approximate Solution of Melting and Solidification Problems|Integral Approximate Solution]]
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:[[Heat Conduction in a Semi-Infinite Body|Description of integral solution]], [[Integral Solution of the One-Region Problems|one-region problem]], [[Integral Solution of the Two-Region Problems|two-region problem]], and [[Ablation under Constant Heat Flux Heating|ablation]].
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:[[Heat Conduction in a Semi-Infinite Body|Description of integral solution]], [[Integral Solution of the One-Region Problems|one-region problem]], [[Integral Solution of the Two-Region Problems|two-region problem]], [[Ablation under Constant Heat Flux Heating|ablation]], and [[Melting and Solidification in Cylindrical Coordinate Systems|melting and solidification in cylindrical coordinate systems]].
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*<b>[[Numerical Simulation of Melting and Solidification|Numerical Solution]]
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6.4.5 Solidification/Melting in Cylindrical Coordinate Systems
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[[Enthalpy Method|Enthalpy method]], [[Equivalent Heat Capacity Method|equivalent heat capacity method]], and [[Temperature-Transforming Model|temperature-transforming model]].  
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6.5 Numerical Simulation
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*<b>[[Solidification of a Binary Solution System]]</b>
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6.5.1 Overview
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:[[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]].
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6.5.2 Enthalpy Method
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6.5.3 Equivalent Heat Capacity Method
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6.5.4 Temperature-Transforming Model
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6.6 Solidification of a Binary Solution System
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6.6.1 Overview
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6.6.2 Integral Approximate Method
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6.6.3 Mixture Model
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6.6.4 Volume-Averaging Model
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6.7 Contact Melting
6.7 Contact Melting
6.7.1 Fixed Melting and Contact Melting
6.7.1 Fixed Melting and Contact Melting

Revision as of 21:13, 19 April 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, conduction and convection controlled melting and solidification.
Governing equations, one-region problem, two-region problem.
Description of integral solution, one-region problem, two-region problem, ablation, and melting and solidification in cylindrical coordinate systems.

Enthalpy method, equivalent heat capacity method, and temperature-transforming model.

Integral approximate method, mixture model and volume-averaging model.

6.7 Contact Melting 6.7.1 Fixed Melting and Contact Melting 6.7.2 Contact Melting in a Rectangular Cavity 6.8 Melting and Solidification in Porous Media 6.8.1 Convection-Controlled One-Region Melting Problem 6.8.2 An Enthalpy Model for Two-Region Melting/Solidification

,numerical solution, effect of natural cvonvection, and melting and solidification in porous media.