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Heat transfer between a solid and a moving fluid is called convection. This is a short tutorial about convective heat transfer
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Heat energy transferred between a surface and a moving fluid at different temperatures is known as convection.
In reality this is a combination of diffusion and bulk motion of molecules. Near the surface the fluid velocity is low, and diffusion dominates. Away from the surface, bulk motion increase the influence and dominates.
Convective heat transfer may take the form of either
Forced convection occurs when a fluid flow is induced by an external force, such as a pump, fan or a mixer.
Natural convection is caused by buoyancy forces due to density differences caused by
temperature variations in the fluid. At heating the density change in the boundary layer will
cause the fluid to rise and be replaced by cooler fluid that also will heat and rise. This
continues phenomena is called free or natural convection.
Boiling or condensing processes are also referred as a convective heat transfer processes.
The equation for convection can be expressed as:
q = k A dT (1)
where
q = heat transferred per unit time (W)
A = heat transfer area of the surface (mo)
k = convection heat transfer coefficient of the process (W/m2.K or W/m2.oC)
dT = temperature difference between the surface and the bulk fluid (K or oC)
The convection heat transfer coefficient - k - is dependent on the type of media, gas or liquid, the flow properties such as velocity, viscosity and other flow and temperature dependent properties.
In general the convective heat transfer coefficient for some common fluids is within the ranges:
- Air 10-100 (W/m2.K)
- Water 500-10,000 (W/m2.K)
A fluid flows over a plane surface 1 m by 1 m with a bulk temperature of 50oC. The temperature of the surface is 20oC. The convective heat transfer coefficient is 2,000 W/m2.oC.
q = (2,000 W/m2.oC) ((1 m) (1 m)) ((50oC) - (20oC))
= 60,000 (W) = 60 (kW)
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