Thermal diffusivity
In heat transfer analysis, thermal diffusivity (symbol: <math>\alpha\,</math>, but note that the symbols <math>\kappa</math>, <math>D</math>, and <math>k</math> are all commonly used) is the ratio of thermal conductivity to volumetric heat capacity.
- <math>\alpha = {k \over {\rho c_p}}</math>
where:
- <math>k\,</math> : thermal conductivity (SI units : W/(m K) )
- <math>\rho c_p\,</math> : volumetric heat capacity (SI units : J/(m3K) )
- <math>\rho\,</math> : density (SI units : kg/(m3) )
- <math>c_p\,</math> : specific heat capacity (SI units : J/(kg K) )
The SI units for thermal diffusivity is m2/s.
Substances with high thermal diffusivity rapidly adjust their temperature to that of their surroundings, because they conduct heat quickly in comparison to their thermal 'bulk'.
For common rock material, <math>\alpha\,</math> ~ 10-6 m2/s.
Thermal diffusivity of air at 300 K is 0.000024 m2/s.
For a plot of thermal diffusivity of air as a function of absolute temperature see James Ierardi's Fire Protection Engineering Site
See also
- Thermodiffusion
- Heat capacity
- Specific heat capacity
- Heat equation
- Thermal conductivity
- Thermal effusivity
- Thermal time constant
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