On thermodynamics of turbulence: Development of first order closure models and critical evaluation of existing models
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Publication:1585920
DOI10.1515/JNETDY.2000.009zbMath0982.76054OpenAlexW1970498918MaRDI QIDQ1585920
Kolumban Hutter, Amsini Sadiki
Publication date: 8 April 2002
Published in: Journal of Non-Equilibrium Thermodynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1515/jnetdy.2000.009
entropy principleanisotropic modelnonlinear eddy-viscosity modelaveraged entropy inequalitydissipation rate of turbulent kinetic energyrealizability constraintthermodynamically consistent rate-dependent turbulence model
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Cites Work
- Extended thermodynamics of classical and degenerate ideal gases
- Thermodynamics of multi-temperature fluids with applications to turbulence modelling
- Objectivity, kinetic theory, and extended irreversible thermodynamics
- Renormalization group analysis of turbulence. I: Basic theory
- Thermodynamically consistent k-Z models for compressible turbulent flows
- A two-equation turbulence model for compressible flows based on the second law of thermodynamics
- The thermodynamics of elastic materials with heat conduction and viscosity
- A thermodynamically consistent rate-dependent model for turbulence. I: Formulation
- Thermodynamics, stability, and boundedness of fluids of complexity 2 and fluids of second grade
- An amendment to the second law
- On the frame dependence and form invariance of the transport equations for the Reynolds stress tensor and the turbulence heat flux vector: Its consequences on closure models in turbulence modelling
- A thermodynamically consistent rate-dependent model for turbulent two-phase flows
- Some constitutive equations for liquid crystals
- Modelling the pressure–strain correlation of turbulence: an invariant dynamical systems approach
- Rheological properties of dilute polymer solutions: An extended thermodynamic approach
- A critical comparison of turbulence models for homogeneous shear flows in a rotating frame
- Nonlinear Reynolds stress models and the renormalization group
- A statistically derived system of equations for turbulent shear flows
- Statistical analysis of the deviation of the Reynolds stress from its eddy-viscosity representation
- On material frame-indifference of turbulence closure models
- On nonlinear K-l and K-ε models of turbulence
- Computational Modeling of Turbulent Flows
- Progress in the development of a Reynolds-stress turbulence closure
- A more general effective-viscosity hypothesis
- Realizability of Reynolds-stress turbulence models
- A thermodynamical theory of turbulence. I. Basic developments
- On explicit algebraic stress models for complex turbulent flows
- New time scale based k-epsilon model for near-wall turbulence
- Analysis and modelling of anisotropies in the dissipation rate of turbulence
- Non-isotropic dissipation in non-homogeneous turbulence
- Frame-indifferent and positive-definite Reynolds stress–strain relation
- Turbulence Modeling for Time-Dependent RANS and VLES: A Review
- Turbulent channel and Couette flows using an anisotropic k-epsilon model
