Abstract
In the present work large eddy simulations of the flow past a rough cylinder are performed at a Reynolds number of Re = 4.2 × 105 and an equivalent sand-grain surface roughness height ks = 0.02D. In order to determine the effects of the surface roughness on the boundary layer transition and as a consequence on the wake topology, results are compared to those of the smooth cylinder. It is shown that surface roughness triggers the transition to turbulence in the boundary layer, thus leading to an early separation caused by the increased drag and momentum deficit. Thus, the drag coefficient increases up to CD ≈ 1.122 (if compared to the smooth cylinder it should be about CD ≈ 0.3 — 0.5). The wake topology also changes and resembles more the subcritical wake observed for the smooth cylinder at lower Reynolds numbers than the expected critical wake at this Reynolds number.
Highlights
The flow over smooth cylinders has been extensively studied; it is associated with various instabilities that involve the boundary layer, the separated shear layers and the wake
For the smooth cylinder at this Reynolds number the flow is in the critical regime, i.e. the boundary layer has transitioned to turbulence just after separation causing the reattachment of the flow and a further turbulent separation in the rear side of the cylinder, with a consequent decrease in the drag up to CD ≈ 0.3 [2, 9]
Flow parameters and wake topology A direct comparison of the wake statistics between the rough cylinder and the smooth cylinder is plotted in figures 6 and 7
Summary
The flow over smooth cylinders has been extensively studied; it is associated with various instabilities that involve the boundary layer, the separated shear layers and the wake. In the present work an issue to be addressed is how the changes in the boundary layer affect the transition to turbulence and, as a consequence, the flow conditions behind the cylinder.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
