Large eddy simulation of wake vortices in the convective boundary layer

The behavior of wake vortices in a convective boundary layer is investigated using a validated large eddy simulation model. Our results show that the vortices are largely deformed due to strong turbulent eddy motion while a sinusoidal Crow instability develops. Vortex rising is found to be caused by the updrafts (thermals) during daytime convective conditions and increases with increasing nondimen-sional turbulence intensity η. In the downdraft region of the convective boundary layer, vortex sinking is found to be accelerated proportioned to increasing η, with faster speed than that in an ideal line vortex pair in an inviscid fluid. Wake vortices axe also shown to be laterally transported over a significant distance due to large turbulent eddy motion. On the other hand, the decay rate of the vortices in the convective boundary layer that increases with increasing η, is larger in the updraft region than in the downdraft region because of stronger turbulence in the updraft region.