Governing equations for transport phenomena

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*'''[[Transport phenomena in combustion|Combustion]]'''
*'''[[Transport phenomena in combustion|Combustion]]'''
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*<b>[[Averaging formulation of governing equations|Averaging Formulation ]]</b>
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*<b>[[Averaging formulation of governing equations|Averaging Formulation]]</b>
:[[Averaging approaches]], [[multi-fluid model]], [[homogeneous model]], and [[Governing Equations for Porous Media|porous media]].
:[[Averaging approaches]], [[multi-fluid model]], [[homogeneous model]], and [[Governing Equations for Porous Media|porous media]].
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*<b>[[Fundamentals of turbulence]]</b>
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:[[ Description of turbulence]], and [[time-averaged governing equations for turbulence]].
*<b>[[Related topics in governing equations|Related Topics]]</b>
*<b>[[Related topics in governing equations|Related Topics]]</b>

Revision as of 07:48, 29 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.
Averaging approaches, multi-fluid model, homogeneous model, and porous media.
Description of turbulence, and time-averaged governing equations for turbulence.


Back to Heat and Mass Transfer.
Back to Multiphase Systems.
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