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K-ϵ-L model in turbulent superfluid helium

Author

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  • Sciacca, Michele
  • Jou, David
  • Mongiovì, Maria Stella

Abstract

We generalize the K−ϵ model of classical turbulence to superfluid helium. In a classical viscous fluid the phenomenological eddy viscosity characterizing the effects of turbulence depends on the turbulent kinetic energy K and the dissipation function ϵ, which are mainly related to the fluctuations of the velocity field and of its gradient. In superfluid helium, instead, we consider the necessary coefficients for describing the effects of classical and quantum turbulence, involving fluctuations of the velocity, the heat flux, and the vortex line density of the quantized vortex lines. By splitting the several fields into a time-average part and a fluctuating part, some expressions involving the second moments of the turbulent fluctuations appear in the evolution equations for the average quantities. As in the K−ϵ model, a practical way of closing such equations is to tentatively express such fluctuating terms as a function of the average quantities. In this context we propose how the turbulent coefficients so introduced could depend on the second moments of the fluctuations of v, q and L (respectively denoted as K, Kq and KL), and on their respective dissipation functions (related to the second moments of their gradients) ϵ, ϵq and ϵL.

Suggested Citation

  • Sciacca, Michele & Jou, David & Mongiovì, Maria Stella, 2020. "K-ϵ-L model in turbulent superfluid helium," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 548(C).
    • Handle: RePEc:eee:phsmap:v:548:y:2020:i:c:s0378437119321570
    DOI: 10.1016/j.physa.2019.123885
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    References listed on IDEAS

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    1. Christopher M. Teixeira, 1998. "Incorporating Turbulence Models into the Lattice-Boltzmann Method," International Journal of Modern Physics C (IJMPC), World Scientific Publishing Co. Pte. Ltd., vol. 9(08), pages 1159-1175.
    2. Sancho, P. & Llebot, J.E., 1994. "Thermodynamic entropy and turbulence," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 205(4), pages 623-633.
    3. Ansumali, Santosh & Karlin, Iliya V. & Succi, Sauro, 2004. "Kinetic theory of turbulence modeling: smallness parameter, scaling and microscopic derivation of Smagorinsky model," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 338(3), pages 379-394.
    4. Saluto, L. & Jou, D. & Mongiovì, M.S., 2014. "Thermodynamic approach to vortex production and diffusion in inhomogeneous superfluid turbulence," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 406(C), pages 272-280.
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