TY - JOUR
T1 - Boundary-layer stress instabilities in neutral, rotating turbulent flows
AU - Ferrero, Enrico
AU - Mortarini, Luca
AU - Manfrin, Massimigliano
AU - Longhetto, Arnaldo
AU - Genovese, Rita
AU - Forza, Renato
PY - 2009
Y1 - 2009
N2 - Boundary-layer instabilities are studied by analyzing the results of laboratory simulations of wall turbulence in a shear-driven rotating flow. The experiments were carried out in the Turin University Laboratory rotating water tank, where a circular flow was generated by either increasing (spin-up) or decreasing (spin-down) the rotation speed of the platform. The flow was measured using a Particle Image Velocimetry technique and the developed turbulence analyzed. Two cases were accounted for, in the former the measurements were performed over a smooth surface (bottom of the tank), while in the latter a rough-to-smooth transition was considered. The turbulent boundary layer developed inside the tank is analyzed by means of vertical profiles of mean and turbulent quantities and on the basis of drag coefficients. Then turbulent structures developed in the different cases are shown and discussed in terms of the vorticity fields. Finally, an analysis based on the concept of swirling strength was carried out to select among the vortex extremes those associated with a coherent structure.
AB - Boundary-layer instabilities are studied by analyzing the results of laboratory simulations of wall turbulence in a shear-driven rotating flow. The experiments were carried out in the Turin University Laboratory rotating water tank, where a circular flow was generated by either increasing (spin-up) or decreasing (spin-down) the rotation speed of the platform. The flow was measured using a Particle Image Velocimetry technique and the developed turbulence analyzed. Two cases were accounted for, in the former the measurements were performed over a smooth surface (bottom of the tank), while in the latter a rough-to-smooth transition was considered. The turbulent boundary layer developed inside the tank is analyzed by means of vertical profiles of mean and turbulent quantities and on the basis of drag coefficients. Then turbulent structures developed in the different cases are shown and discussed in terms of the vorticity fields. Finally, an analysis based on the concept of swirling strength was carried out to select among the vortex extremes those associated with a coherent structure.
KW - Laboratory simulation
KW - Neutral boundary layer
KW - Roughness transition
KW - Wall turbulence
UR - http://www.scopus.com/inward/record.url?scp=60649117111&partnerID=8YFLogxK
U2 - 10.1007/s10546-009-9353-y
DO - 10.1007/s10546-009-9353-y
M3 - Article
SN - 0006-8314
VL - 130
SP - 347
EP - 363
JO - Boundary-Layer Meteorology
JF - Boundary-Layer Meteorology
IS - 3
ER -