Governing equations for transport phenomena

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(Created page with '*<b>Basics</b> :Lagrangian approach and Eulerian approach. *<b>Integral Formulation</b> ...')
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*<b>[[Integral Formulation of Governing Equations|Integral Formulation]]</b>
*<b>[[Integral Formulation of Governing Equations|Integral Formulation]]</b>
:[[Transformation formula]], [[Integral Continuity Equation|continuity]], [[Integral Momentum Equation|momentum]], [[Integral Energy Equation|energy]], [[Integral Entropy Equation|entropy]], and [[Integral Conservation of Mass Species Equation|conservation of mass species]] equations.
:[[Transformation formula]], [[Integral Continuity Equation|continuity]], [[Integral Momentum Equation|momentum]], [[Integral Energy Equation|energy]], [[Integral Entropy Equation|entropy]], and [[Integral Conservation of Mass Species Equation|conservation of mass species]] equations.
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*<b>[[Differential Formulation of Governing Equations|Differential Formulation]]</b>
*<b>[[Differential Formulation of Governing Equations|Differential Formulation]]</b>
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[[Continuity Equation|Continuity]], [[Momentum Equation|momentum]], [[Energy Equation|energy]], [[Entropy Equation|entropy]], and [[Conservation of Mass Species Equation|conservation of mass species]] equations.
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, and [[Jump Conditions at Interface|jump conditions]].
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*<b>[[Jump Conditions at Interface|Jump Conditions]]</b>
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:Conservation of [[mass]], [[momentum]], [[energy]], and [[mass species]]; and [[Supplementary Conditions|supplementary Conditions]

Revision as of 22:07, 10 April 2009

Lagrangian approach and Eulerian approach.
Transformation formula, continuity, momentum, energy, entropy, and conservation of mass species equations.

Continuity, momentum, energy, entropy, and conservation of mass species equations.

Conservation of mass, momentum, energy, and mass species; and [[Supplementary Conditions|supplementary Conditions]