On grid-generated turbulence in the near- and far field regions
Por:
Isaza, Juan C., Salazar, Ricardo, Warhaft, Zellman
Publicada:
1 ago 2014
Resumen:
Using a conventional bi-planar turbulence-generating grid, we confirm the recent findings (Valente & Vassilicos, Phys. Rev. Lett., vol. 108, 2012, art. 214503) that show there is a turbulence decay region close to the generating grid that departs from the 'classical' turbulence decay (Comte-Bellot & Corrsin, J. Fluid Mech., vol. 25, 1966, pp. 657-682). In this 'near-field' region, the turbulence energy decays more rapidly than in the far-field and it exhibits unusual scaling properties. Based on the velocity decay laws, we show that for our conventional grid, the near-field extends from x/M ~ 6 to x/M ~ 12 where x is the downstream distance from the grid and M is the mesh size. This corresponds to 1.1 = x/x* = 2.3 where x* is the wake interaction length scale (Mazellier & Vassilicos, Phys. Fluids, vol. 22, 2010, art. 075101). However, other statistics (velocity derivatives and length-scale ratios) indicate that the extent of the initial period depends on the grid mesh Reynolds number, RM, extending further for higher values of RM. In the near-field the turbulence approaches isotropy both at the large and small scales but there still is inhomogeneity in the derivative statistics. The derivative skewness also departs from values observed at comparable Reynolds numbers in the far-field decay region, and in other turbulent flows at comparable Reynolds numbers. Two values of RM were studied: 42 × 103 and 76 × 103. © 2014 Cambridge University Press.
Filiaciones:
Isaza, Juan C.:
Univ Eafit, Dept Mech Engn, Medellin, Colombia
Salazar, Ricardo:
Univ Eafit, Dept Mech Engn, Medellin, Colombia
Warhaft, Zellman:
Cornell Univ, Dept Aerosp & Mech Engn, Ithaca, NY USA
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