External forced convection

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*[[Integral solution]]
*[[Integral solution]]
*[[Computational methodologies for forced convection]]  
*[[Computational methodologies for forced convection]]  
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:[[One-Dimensional Steady-State Convection and Diffusion|One-dimensional steady-state convection and diffusion]], [[Multidimensional Convection and Diffusion Problems|multidimensional convection and diffusion problems]], [[Numerical Solution of Flow Field|numerical solution of flow field]], [[Numerical Simulation of Interfaces and Free Surfaces|numerical simulation of interfaces and free surfaces]], [[Application of Computational Methods|application of computational methods]]
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:[[One-Dimensional Steady-State Convection and Diffusion|One-dimensional steady-state convection and diffusion]], [[Multidimensional Convection and Diffusion Problems|multidimensional convection and diffusion problems]], [[Numerical Solution of Flow Field|numerical solution of flow field]], [[Numerical Simulation of Interfaces and Free Surfaces|numerical simulation of interfaces and free surfaces]], and [[Application of Computational Methods|application of computational methods]]
*[[Analogies and differences in different transport phenomena]]  
*[[Analogies and differences in different transport phenomena]]  
*[[External turbulent flow/heat transfer]]
*[[External turbulent flow/heat transfer]]
:[[Turbulent Boundary Layer Equations|Turbulent boundary layer equations]],[[Algebraic Models for Eddy Diffusivity|algebraic models for eddy diffusivity]], [[k-epsilon Model|k-ε model]], and [[Momentum and Heat Transfer over a Flat Plate|momentum and heat transfer over a flat plate]].
:[[Turbulent Boundary Layer Equations|Turbulent boundary layer equations]],[[Algebraic Models for Eddy Diffusivity|algebraic models for eddy diffusivity]], [[k-epsilon Model|k-ε model]], and [[Momentum and Heat Transfer over a Flat Plate|momentum and heat transfer over a flat plate]].

Revision as of 08:30, 30 June 2010

Convective heat and mass transfer is the process of heat and mass transport through fluid flow. Understanding the fundamentals of fluid mechanisms is an important part of predicting and modeling convective transfer problems. In external forced convection, the fluid has at least one side that is not bounded by a solid surface. Flow over a flat plate is a classic example of external flow. The temperature of the fluid far away from the surface as well as a condition on the surface such as temperature, heat flux, or a combination are usually known.

One-dimensional steady-state convection and diffusion, multidimensional convection and diffusion problems, numerical solution of flow field, numerical simulation of interfaces and free surfaces, and application of computational methods
Turbulent boundary layer equations,algebraic models for eddy diffusivity, k-ε model, and momentum and heat transfer over a flat plate.