Heat and mass transfer

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m (Protected "Heat and Mass Transfer" ([edit=sysop] (indefinite) [move=sysop] (indefinite)) [cascading])
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:[[Transport Phenomena in Micro- and Nanoscales|Transport phenomena in micro- and nanoscales]], [[Microscale Heat Conduction|microscale heat conduction]], [[Ultrafast Nonequilibrium Phase Change|ultrafast nonequilibrium phase change]], [[Convection in Mincrochannel|convection in microchannel]], and [[micro- and nanoscale radiation]].  
:[[Transport Phenomena in Micro- and Nanoscales|Transport phenomena in micro- and nanoscales]], [[Microscale Heat Conduction|microscale heat conduction]], [[Ultrafast Nonequilibrium Phase Change|ultrafast nonequilibrium phase change]], [[Convection in Mincrochannel|convection in microchannel]], and [[micro- and nanoscale radiation]].  
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*<b>[[Numerical Heat Transfer]]</B>
 
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:[[Basic of Numerical Heat Transfer|Basics]], [[Discretization Methods for Numerical Heat Transfer|discretization methods]], [[Conduction/Diffusion Problems|conduction/diffusion problems]], [[Convection-Diffusion Problems|convection-diffusion problems]], [[Solution of Flow Field|solution of flow field]], [[Turbulent Flow and Heat Transfer|turbulent flow and heat transfer]], [[Inverse Heat Transfer|inverse heat transfer]], [[Finite Element Method (FEM)]], and [[Boundary Element Method (BEM)]].
 
*<b>[[Related Topics of Heat and Mass Transfer|Related Topics]] </b>
*<b>[[Related Topics of Heat and Mass Transfer|Related Topics]] </b>

Revision as of 21:05, 28 June 2009

Heat transfer is a process whereby thermal energy is transferred in response to a temperature difference. There are three modes of heat transfer: conduction, convection, and radiation. When there is a species concentration difference in a multicomponent mixture, mass transfer occurs. There are two modes of mass transfer: diffusion and convection.

Physical concepts, molecular level representation, and fundamentals of transport phenomena.
Basics, integral formulation, differential formulation, claisfications of PDE and boundary conditions, boundary conditions at interfaces, and averaging formulation.
Basics, steady state heat conduction, unsteady state heat conduction, numerical solution of heat conduction, melting and solidification and microscale heat conduction.
External forced convection, internal forced convection, natural convection, condensation, evaporation, boiling, and two-phase flow.
Basics, mass diffusion, and convective mass transfer.
Basics, governing equations, multiphase transport, melting and solidification, condensation, eavporation, and boiling.
Basics, black body, real surface, configuration factor, enclosure, participating media and solar radiation.
Transport phenomena in micro- and nanoscales, microscale heat conduction, ultrafast nonequilibrium phase change, convection in microchannel, and micro- and nanoscale radiation.