On the correlation between enstrophy and energy dissipation rate in a turbulent wake

Y. Zhu; R. A. Antonia

doi:10.1007/bf02506068

journal article Sep 01, 1996

On the correlation between enstrophy and energy dissipation rate in a turbulent wake

Y. Zhu

R. A. Antonia

Applied Scientific Research Vol. 57 No. 3-4 pp. 337-347 · Springer Science and Business Media LLC

View at Publisher Save 10.1007/bf02506068

Topics

No keywords indexed for this article. Browse by subject →

References

40

[1]

Antonia, R.A. and Kim, J., A numerical study of local isotropy of turbulence.Phys. Fluids A 6 (1994) 834–841. 10.1063/1.868321

[2]

Antonia, R.A., Browne, L.W.B. and Shah, D.A., Characteristics of vorticity fluctuations in a turbulent wake.J. Fluid Mech. 189 (1988) 349–365. 10.1017/s0022112088001053

[3]

Antonia, R.A., Shah, D.A. and Browne, L.W.B., Dissipation and vorticity spectra in a turbulent wake.Phys. Fluids 31 (1988) 1805–1807. 10.1063/1.866671

[4]

Antonia, R.A., Kim, J. and Browne, L.W.B., Some characteristics of small scale turbulence in a turbulent duct flow.J. Fluid Mech. 233 (1991) 369–388. 10.1017/s0022112091000526

[5]

Antonia, R.A., Zhu, Y. and Shafi, H.S., Lateral vorticity measurements in a turbulent wake.J. Fluid Mech. 323 (1996) 173–200. 10.1017/s0022112096000882

[6]

Ashurst, W.T., Kerstein, A.R., Kerr, R.M. and Gibson, C.H., Alignment of vorticity and scalar gradient with strain rate in simulated Navier-Stokes turbulence.Phys. Fluids 30 (1987) 2343–2353. 10.1063/1.866513

[7]

Balint, J.-L., Wallace, J.M. and Vukoslavčević, P., The velocity and vorticity vector fields of a turbulent boundary layer. Part 2. Statistical properties.J. Fluid Mech. 228 (1991) 53–86.

[8]

Bershadskii, A., Kit, E. and Tsinober, A., On universality of geometrical invariants in turbulence-experimental results.Phys. Fluids A 5 (1993) 1523–1525. 10.1063/1.858590

[9]

Browne, L.W.B. and Antonia, R.A., Reynolds shear stress and heat flux measurements in a cylinder wake.Phys. Fluids 29 (1986) 709–713. 10.1063/1.865923

[10]

Browne, L.W.B., Antonia, R.A. and Chua, L.P., Calibration of X-probes for turbulent flow measurements.Expts. in Fluids 7 (1989) 201–208. 10.1007/bf02332985

[11]

Browne, L.W.B., Antonia, R.A. and Shah, D.A., Turbulent energy dissipation in a wake,J. Fluid Mech. 179 (1987) 307–326. 10.1017/s002211208700154x

[12]

Corrsin, S. 1953. Remarks on turbulent heat transfer: An account of some features of the phenomenon in fully turbulent regions. In:Proc. The Iowa Thermodyn. Sym., University of Iowa (1953) pp. 5–30.

[13]

Corrsin, S. and Kistler, A.L., Free-stream boundaries of turbulent flows, Technical Report 1244, NACA (1955).

[14]

Freytag, C., Statistical properties of energy dissipation.Boundary-Layer Meteorol. 14 (1978) 183–198. 10.1007/bf00122618

[15]

Gibson, C.H. and Masiello, P.J., Observations of the variability of dissipation rates of turbulent velocity and temperature fields. In: Ehlers, J., Hepp, K. and Weidenmuller, H.A. (eds),Statistical Models and Turbulence, Lecture Notes in Physics, Vol. 12 (1972), pp. 427–453. 10.1007/3-540-05716-1_24

[16]

Kerr, R.M., High-order derivative correlations and the alignments of small-scale structures in isotropic numerical turbulence.J. Fluid Mech. 153 (1985) 31–58. 10.1017/s0022112085001136

[17]

Kim, J., Moin, P. and Moser, R., Turbulent statistics in fully developed channel flow at low Reynolds number.J. Fluid Mech. 177 (1987) 133–166. 10.1017/s0022112087000892

[18]

Kit, E., Tsinober, A. and Dracos, T., Velocity gradients in a turbulent jet flow. In: Nieuwstadt, F.T.M. (ed.),Advances in Turbulence IV, Kluwer Academic Publishers, Dordrecht (1993) pp. 185–190. 10.1007/978-94-011-1689-3_31

[19]

Lemonis, G.C., An experimental study of the vector fields of velocity and vorticity in turbulent flows, Ph.D. Thesis, Swiss Federal Institute of Technology, Zurich (1995).

[20]

Marasli, B., Nguyen, P. and Wallace, J.M., A calibration technique for multiple-sensor hot-wire probes and its application to vorticity measurements in the wake of a circular cylinder.Expts. in Fluids 15 (1993) 209–218. 10.1007/bf00189888

[21]

Meneveau, C., Sreenivasan, K.R., Kailasnath, P. and Fan, M., Joint multifractal measures: Theory and applications to turbulence.Phys. Rev. A 41 (1990) 894–913. 10.1103/physreva.41.894

[22]

Mi, J. and Antonia, R.A., Vorticity characteristics of the turbulent intermediate wake.Expts. in Fluids 20 (1996) 383–392. 10.1007/bf00191020

[23]

Owen, R.G., An analytical turbulent transport model applied to nonisothermal fully-developed duct flows, Ph.D. Thesis, Pennsylvania State University (1973).

[24]

Park, S.R. and Wallace, J.M., The influence of instantaneous velocity gradients on turbulence properties measured with multi-sensor hot-wire probes.Expts. in Fluids 16 (1993) 17–26. 10.1007/bf00188501

[25]

Perry, A.E., Lim, K.L. and Henbest, S.M., An experimental study of the turbulence structure in smooth and rough-wall boundary layers.J. Fluid Mech. 177 (1987) 437–452. 10.1017/s0022112087001034

[26]

Rogers, M.M. and Moin, P., Helicity fluctuations in incompressible turbulent flows.Phys. Fluids 30 (1987) 2662–2671. 10.1063/1.866030

[27]

Ruetsch, G.R. and Maxey, M.R., Small-scale features of vorticity and passive scalar fields in homogeneous isotropic turbulence.Phys. Fluids A 3 (1991) 1587–1597. 10.1063/1.857938

[28]

Shafi, H.S., Zhu, Y. and Antonia, R.A., Intermittency of vorticity in a turbulent shear flow.Phys. Fluids 8 (1996) 2245–2247. 10.1063/1.868998

[29]

She, Z.-S., Jackson, E. and Orszag, S.A., Intermittent vortex structures in homogeneous isotropic turbulence.Nature 344 (1990) 226–228. 10.1038/344226a0

[30]

Spalart, P.R., Direct simulation of a turbulent boundary layer up to Rθ=1410.J. Fluid Mech. 187 (1988) 61–98. 10.1017/s0022112088000345

[31]

Tennekes, H. and Lumley, J.L.,A First Course in Turbulence. MIT Press, Cambridge, MA (1972). 10.7551/mitpress/3014.001.0001

[32]

Tsinober, A., On the property of Lamb vector in isotropic turbulent flow.Phys. Fluids A 2 (1990) 484–486. 10.1063/1.857747

[33]

Tsinober, A., How important are direct interactions between large and small scales in turbulent flows. In: Dracos, T. and Tsinober, A. (eds),New Approaches and Concepts in Turbulence. Basel, Birkhäuser Verlag (1993) pp. 141–150. 10.1007/978-3-0348-8585-0_10

[34]

Tsinober, A., Geometrical statistics in turbulence. In: Gavrilakis, S., Machiels, L. and Monkewitz, P.A. (eds),Advances in Turbulence VI, Kluwer Academic Publishers, Dordrecht (1996) pp. 263–266. 10.1007/978-94-009-0297-8_73

[35]

Tsinober, A., Kit, E. and Dracos, T., Experimental investigation of the field of velocity gradients in turbulent flows.J. Fluid Mech. 242 (1992) 169–192. 10.1017/s0022112092002325

[36]

Vukoslavčević, P., Wallace, J.M. and Balint, J.-L., The velocity and vorticity vector fields of a turbulent boundary layer. Part 1: Simultaneous measurement by hot-wire anemometry.J. Fluid Mech. 228 (1991) 25–51.

[37]

Wallace, J.M. and Foss, J.F., The measurement of vorticity in turbulent flows.Ann. Rev. Fluid Mech. 27 (1995) 467–514. 10.1146/annurev.fl.27.010195.002345

[38]

An experimental study of helicity density in turbulent flows

James M. Wallace, Jean-Louis Balint, Lawrence Ong

Physics of Fluids A: Fluid Dynamics 1992 10.1063/1.858371

[39]

Zhu, Y. and Antonia, R.A., Effect of wire separation on X-probe measurements in a turbulent flow.J. Fluid Mech. 287 (1995) 199–233. 10.1017/s0022112095000929

[40]

Zhu, Y. and Antonia, R.A., Spatial resolution of a 4-X-wire vorticity probe.Meas. Sci. & Technol. 7 (1996) 1492–1497. 10.1088/0957-0233/7/10/019

Metrics

18

Citations

40

References

Details

Published: Sep 01, 1996
Vol/Issue: 57(3-4)
Pages: 337-347
License: View

Authors

Cite This Article

Y. Zhu, R. A. Antonia (1996). On the correlation between enstrophy and energy dissipation rate in a turbulent wake. Applied Scientific Research, 57(3-4), 337-347. https://doi.org/10.1007/bf02506068

On the correlation between enstrophy and energy dissipation rate in a turbulent wake

You May Also Like