Archimedes number

In viscous fluid dynamics, the Archimedes number (Ar) (not to be confused with Archimedes' constant, π), named after the ancient Greek scientist Archimedes is used to determine the motion of fluids due to density differences. It is a dimensionless number defined as the ratio of external forces to internal viscous forces[1] and has the form:

\mathrm{Ar} = \frac{g L^3 \rho_\ell (\rho - \rho_\ell)}{\mu^2}

where:

When analyzing potentially mixed heat convection of a liquid, the Archimedes number parametrizes the relative strength of free and forced convection. When Ar >> 1 natural convection dominates, i.e. less dense bodies rise and denser bodies sink, and when Ar << 1 forced convection dominates.

When the density difference is due to heat transfer (e.g. fluid being heated and causing a temperature difference between different parts of the fluid), then we may write

\frac{\rho - \rho_0}{\rho_0} = \beta \left( T_0 - T \right)

where:

Doing this gives the Grashof number, i.e. the Archimedes and Grashof numbers are equivalent but suited to describing situations where there is a material difference in density and heat transfer causes the density difference respectively. The Archimedes number is related to both the Richardson number and Reynolds number via

\mathrm{Ar} = \mathrm{Ri}\,\mathrm{Re}^2

See also

References

  1. "Eric Weisstein's World of Physics". Retrieved 9 November 2012.
This article is issued from Wikipedia - version of the Wednesday, August 19, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.