Turbulence Equations for a Continuous Phase

Chapter
First Online:
Part of the Fluid Mechanics and Its Applications book series (FMIA, volume 114)

Abstract

A complete derivation of the turbulence equations for a continuous phase is given in the present chapter. We first recall the derivation of the turbulence equations for a single phase flow. Then these equations are extended to the continuous phase of a two-phase flow. In each case, the derived equations are the equations for the mean motion (mass and momentum), for the Reynolds stress tensor, the turbulent kinetic energy, the turbulence dissipation rate and the turbulence equations governing a passive scalar like the temperature or a species concentration. We end this chapter by summarizing the closure issues in the single phase case as well as in the two-phase one.

Keywords

Turbulent Kinetic Energy Dissipation Rate Reynolds Stress Turbulent Flux Single Phase Flow 
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References

  1. Kataoka I, Serizawa A (1989) Basic equations of turbulence in gas-liquid two-phase flow. Int J Multiph Flow 15(5):843–855CrossRefGoogle Scholar
  2. Lance M (1979) Contribution à l’étude de la turbulence dans la phase liquide des écoulements à bulles. Université Claude Bernard, Lyon, Thèse de DoctoratGoogle Scholar
  3. Lance M. Marié JL, Bataille J (1984) Modélisation de la turbulence de la phase liquide dans un écoulement à bulles, La Houille Blanche, No. ¾Google Scholar
  4. Lance M (1986) Etude de la turbulence dans les écoulements diphasiques dispersés. Université Claude Bernard, Lyon, Thèse d’EtatGoogle Scholar
  5. Morel C (1995) An order of magnitude analysis of the two-phase K-ε model. Int J Fluid Mech Res 22(3&4):21–44MathSciNetCrossRefGoogle Scholar
  6. Pope SB (2000) Turbulent flows, Cambridge EdGoogle Scholar
  7. Schiestel R (1993) Modélisation et simulation des écoulements turbulents, Eds HermèsGoogle Scholar
  8. Simonin O (1991), Modélisation numérique des écoulements turbulents diphasiques à inclusions dispersés. Ecole de Printemps CNRS de Mécanique des Fluides Numérique, AussoisGoogle Scholar

Copyright information

© Springer International Publishing Switzerland 2015

Authors and Affiliations

  1. 1.DRT/LITEN/DTNM/SERE/LRVMCommissariat à l’Energie AtomiqueGrenobleFrance

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