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]], as well as the thermal-fluids aspects of [[Combustion]]<br>
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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>
      
      

Revision as of 22:04, 11 April 2009

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.


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.
Overview of Averaging, volume averaging, area averaging, and Boltzmann statistical averaging.