Classical vortex generators, known for their efficiency in delaying or even inhibiting boundary layer separation, are here shown to be hot devices for transition to turbulence delay. The present devices are miniature with respect to classical vortex generators but are tremendously powerful in modulating the laminar boundary layer in the direction orthogonal to the base flow and parallel to the surface. The modulation generates an additional term in the perturbation energy equation, which counteracts the wall-normal production term, and hence stabilizes the flow. Our experimental results show that these devices are really effective in delaying transition but we also reveal their Achilles’ heel.
Shahinfar S., Sattarzadeh S.S., Fransson J.H.M., Talamelli A. (2012). Revival of classical vortex generators now for transition delay. PHYSICAL REVIEW LETTERS, 109(7), 1-5 [10.1103/PhysRevLett.109.074501].
Revival of classical vortex generators now for transition delay
TALAMELLI, ALESSANDRO
2012
Abstract
Classical vortex generators, known for their efficiency in delaying or even inhibiting boundary layer separation, are here shown to be hot devices for transition to turbulence delay. The present devices are miniature with respect to classical vortex generators but are tremendously powerful in modulating the laminar boundary layer in the direction orthogonal to the base flow and parallel to the surface. The modulation generates an additional term in the perturbation energy equation, which counteracts the wall-normal production term, and hence stabilizes the flow. Our experimental results show that these devices are really effective in delaying transition but we also reveal their Achilles’ heel.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
