Governing equations for transport phenomena

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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]].<br>
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]].<br>
      
      
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*<b>[[Basics of governing equations|Basics]]</b>
*<b>[[Basics of governing equations|Basics]]</b>
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:[[Lagrangian approach]] and [[Eulerian approach]].
 
*<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.

Revision as of 01:17, 27 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.
Elliptic, parabolic and hyperbolic PDEs and classification of boundary conditions.
Conservation of mass, momentum, energy, mass species, supplementary conditions and Combustion.
Overview, volume averaging, area averaging, and Boltzmann statistical averaging.


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