Governing equations for transport phenomena

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*<b>[[Jump and boundary conditions at interfaces]]</b>
*<b>[[Jump and boundary conditions at interfaces]]</b>
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:Conservation of [[Conservation of mass at interface|mass]], [[Conservation of momentum at interface|momentum]], [[Conservation of energy at interface|energy]], [[Conservation of mass species at interface|mass species]], [[Supplementary conditions at interfaces|supplementary conditions]] and [[An Extension: Combustion|Combustion]].
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:Conservation of [[Conservation of mass at interface|mass]], [[Conservation of momentum at interface|momentum]], [[Conservation of energy at interface|energy]], and [[Conservation of mass species at interface|mass species]].
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*'''[[Rarefied vapor self-diffusion model]]'''
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*'''[[An Extension: Combustion|Combustion]]'''
*<b>[[Averaging formulation of governing equations|Averaging Formulation ]]</b>
*<b>[[Averaging formulation of governing equations|Averaging Formulation ]]</b>

Revision as of 13:58, 28 June 2010

Transport phenomena, which represent transports of momentum, heat and mass, include fluid mechanics, heat and mass transfer. The discussions of governing equations in the links below can be applied to Fluid Mechanics, Heat and Mass Transfer, thermal-fluids aspects of Combustion, as well as Multiphase Systems.

Transformation formula, continuity, momentum, energy, entropy, and conservation of mass species equations.
Continuity, momentum, energy, entropy, and conservation of mass species equations.
Classification of PDEs and boundary conditions.
Conservation of mass, momentum, energy, and mass species.
Overview, volume averaging, area averaging, and Boltzmann statistical averaging.


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Back to Multiphase Systems.
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