Incompressible Rayleigh–Taylor Turbulence

• Guido Boffetta ^[1] ; Andrea Mazzino ^[2]
  1. [1] Department of Physics, University of Torino, Italy
  2. [2] Department of Civil, Chemical, and Environmental Engineering, University of Genova, Italy
• Localización: Annual review of fluid mechanics, ISSN 0066-4189, Nº. 49, 2017, págs. 119-143
• Idioma: inglés
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• Resumen

  • Basic fluid equations are the main ingredient in the development of theories of Rayleigh–Taylor buoyancy-induced instability. Turbulence arises in the late stage of the instability evolution as a result of the proliferation of active scales of motion. Fluctuations are maintained by the unceasing conversion of potential energy into kinetic energy. Although the dynamics of turbulent fluctuations is ruled by the same equations controlling the Rayleigh–Taylor instability, here only phenomenological theories are currently available. The present review provides an overview of the most relevant (and often contrasting) theoretical approaches to Rayleigh–Taylor turbulence together with numerical and experimental evidence for their support. Although the focus is mainly on the classical Boussinesq Rayleigh–Taylor turbulence of miscible fluids, the review extends to other fluid systems with viscoelastic behavior, affected by rotation of the reference frame, and, finally, in the presence of reactions.