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Turbulent Diffusion and Scaling

  • Oleg G. Bakunin
Part of the Springer Series in Synergetics book series (SSSYN)

Keywords

Dissipation Rate Turbulent Diffusion Fourier Component Inertial Range Inertial Subrange 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Further Reading

Hydrodynamics and Scaling

  1. Barenblatt, G.I. (1994). Scaling Phenomena in Fluid Mechanics. Cambridge University Press, Cambridge, U.K.zbMATHGoogle Scholar
  2. Doering, C.R. and Gibbon, J.D. (1995). Applied Analysis of the Navier-Stokes Equations. Cambridge University Press, Cambridge, U.K.zbMATHCrossRefGoogle Scholar
  3. Golitsyn, G.S. (1995). Convection in Rotating Fluids. Springer-Verlag, Berlin.zbMATHGoogle Scholar
  4. Majda, A.J. and Bertozzi, A.L. (2002). Vorticity and Incompressible Flow. Cambridge University Press, Cambridge, U.K.zbMATHGoogle Scholar

Turbulence

  1. Berge, P., Pomeau, Y., and Vidal, C. (1988). L’ordre dans le chaos. Hermann, Editeurs des sciences et des arts.Google Scholar
  2. Bohr, T., Jensen, M.H., Giovanni, P., and Vulpiani, A. (2003). Dynamical Systems Approach to Turbulence. Cambridge University Press, Cambridge, U.K.Google Scholar
  3. Davidson, P.A. (2004). Turbulence: An Introduction for Scientists and Engineers. Oxford University Press, Oxford.zbMATHGoogle Scholar
  4. Frisch, U. (1995). Turbulence: The Legacy of A. N. Kolmogorov. Cambridge University Press, Cambridge, U.K.zbMATHGoogle Scholar
  5. Frost, W. and Moulden, T.H., eds. (1977). Handbook of Turbulence. Plenum Press, New York.Google Scholar
  6. Gibson, C.H. (1996). Applied Mechanics Reviews, 49, 299.CrossRefGoogle Scholar
  7. Herring, J.R. and McWilliams, J.C. (1987). Lecture Notes on Turbulence. World Scientific, Singapore.Google Scholar
  8. Lesieur, M. (1997). Turbulence in Fluids. Kluwer Academic, Dordrecht.zbMATHGoogle Scholar
  9. McComb, W.D. (1994). The Physics of Fluid Turbulence. Clarendon Press, Oxford.Google Scholar
  10. Pope, S.B. (2000). Turbulent Flows. Cambridge University Press, Cambridge, U.K.zbMATHGoogle Scholar
  11. Sreenivasan, K.R. (1999). Reviews of Modern Physics, 71, S 383.CrossRefADSGoogle Scholar
  12. Tabeling, P. and Cardoso, O. (1994). Turbulence A Tentative Dictionary. Plenum Press, New York.zbMATHGoogle Scholar

Turbulence and Correlation Effects

  1. Falkovich, G., Gawedzki, K., and Vergassola, M. (2001). Reviews of Modern Physics, 73, 913.CrossRefADSMathSciNetGoogle Scholar
  2. Hunt, J.C.R. (1985). Annual Reviews of Fluid Mechanics, 17, 447.CrossRefADSGoogle Scholar
  3. Moffatt, H.K. (1983). Reports on Progress in Physics, 621, 3.Google Scholar
  4. Tsinober A., (2004). An Informal Introduction to Turbulence. Kluwer Academic, Dordrecht.Google Scholar
  5. Vassilicos, J.C., ed. (2001). Intermittency in Turbulent Flows. Cambridge University Press, Cambridge, U.K.zbMATHGoogle Scholar
  6. Warhaft, Z. (2000). Annual Reviews of Fluid Mechanics, 32, 203.CrossRefADSMathSciNetGoogle Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2008

Authors and Affiliations

  • Oleg G. Bakunin
    • 1
  1. 1.Kurchatov Institute Nuclear Fusion InstituteRussia

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