TY - GEN
T1 - The generation of packets of hairpins from pairs of counter-rotating vortices in shear flows
AU - Cohen, Jacob
AU - Karp, Michael
AU - Shukhman, Ilia
PY - 2011
Y1 - 2011
N2 - In the present work we follow the breakdown of pairs of counter-rotating vortices (CVP) and the consequence formation of packets of hairpins in uniform shear flows. We employ a recent developed method which is capable of following (numerically) the evolution of finite-amplitude localized vortical disturbances embedded in shear flows. The solution is carried out using Lagrangian variables in Fourier space which is convenient and enables fast computations on a regular PC. Streamwise variation of the CVP is required to generate concentrated spanwise vorticity which together with the lift-up by the induced velocity and shear of the base flow generates packets of hairpins. This scenario, obtained 'synthetically' with minimal simple elements seems to be universal and may explain similar observations both in fully developed wall-bounded shear flows as well as in wall-bounded transitional shear flows. This work has been motivated by our previous observation, based on experimental, numerical and theoretical results, that the formation and characteristics associated with the structure of a single hairpin, evolved from a dipole vortex, are very similar to the structures of those composing packets of hairpins in turbulent and transitional shear flows.
AB - In the present work we follow the breakdown of pairs of counter-rotating vortices (CVP) and the consequence formation of packets of hairpins in uniform shear flows. We employ a recent developed method which is capable of following (numerically) the evolution of finite-amplitude localized vortical disturbances embedded in shear flows. The solution is carried out using Lagrangian variables in Fourier space which is convenient and enables fast computations on a regular PC. Streamwise variation of the CVP is required to generate concentrated spanwise vorticity which together with the lift-up by the induced velocity and shear of the base flow generates packets of hairpins. This scenario, obtained 'synthetically' with minimal simple elements seems to be universal and may explain similar observations both in fully developed wall-bounded shear flows as well as in wall-bounded transitional shear flows. This work has been motivated by our previous observation, based on experimental, numerical and theoretical results, that the formation and characteristics associated with the structure of a single hairpin, evolved from a dipole vortex, are very similar to the structures of those composing packets of hairpins in turbulent and transitional shear flows.
UR - http://www.scopus.com/inward/record.url?scp=84866947351&partnerID=8YFLogxK
M3 - منشور من مؤتمر
SN - 9781617380839
T3 - 50th Israel Annual Conference on Aerospace Sciences 2010
SP - 1259
EP - 1272
BT - 50th Israel Annual Conference on Aerospace Sciences 2010
T2 - 50th Israel Annual Conference on Aerospace Sciences 2010
Y2 - 17 February 2010 through 18 February 2010
ER -