A criterion to detect line plumes from velocity fields in turbulent convection

Abstract

We present a simple, new criterion to extract line plumes from the velocity fields, without using the temperature field, in a horizontal plane close to the plate in turbulent convection. The existing coherent structure detection criteria from velocity fields, proposed for shear driven wall turbulence, are first shown to be inadequate for turbulent convection. Based on physical arguments, we then propose that the negative values of ∇H·u, the horizontal divergence of the horizontal velocity field extracts the plume regions from the velocity field. The ∇H·u criterion is then shown to predict the total length of plumes correctly over a Rayleigh number range of 7.7× 105 Raw 1.43× 109 and a Prandtl number range of 3.96 Pr 5.3. The thickness of the plume region predicted by the present criterion is approximately same as that obtained by a threshold of RMS temperature fluctuations, T'2=0.2 T, where T is the temperature drop across the fluid layer.