<p>Turbulent dissipation rate and Kolmogorov microscale in different levels of rotation speed estimated by the CFD hydrodynamic model.</p
The variation of S, the velocity derivative skewness, with the Taylor microscale Reynolds number Re<...
Using results from previous direct numerical simulations and experiments in the outer region of spat...
Abstract. A new formulation for the turbulence dissipa-tion rate ε occurring in meandering condition...
The statistics describing variations of turbulent motions within the so called inertial range of len...
This paper revisits values of the normalized energy dissipation rate (Cεe) in different flows (two-d...
Typescript (photocopy).This study discusses the derivation and assessment of a new two-scale dissipa...
An investigation of the turbulent fluctuating kinetic energy dissipation in low Reynolds number chan...
The dissipation rate of turbulent kinetic energy is a key parameter to quantify the level of turbule...
Estimation of the turbulent dissipation rate in a boundary layer is a very involved process. Experim...
The scaling of turbulence characteristics such as turbulent fluctuation velocity, turbulent kinetic ...
The dissipation rate transport equation remains the most uncertain part of turbulence modeling. The ...
In Kolmogorov’s phenomenological theory of turbulence, the energy spectrum in the inertial range sca...
Non-dimensional parameters for the mean energy and scalar dissipation rates C<sub>ε</sub> and C<sub>...
Using volumetric velocity data from a turbulent laboratory water flow and numerical simulations of h...
Abstract. As part of a more general program of developing multiple-scale models of turbulence, Schi-...
The variation of S, the velocity derivative skewness, with the Taylor microscale Reynolds number Re<...
Using results from previous direct numerical simulations and experiments in the outer region of spat...
Abstract. A new formulation for the turbulence dissipa-tion rate ε occurring in meandering condition...
The statistics describing variations of turbulent motions within the so called inertial range of len...
This paper revisits values of the normalized energy dissipation rate (Cεe) in different flows (two-d...
Typescript (photocopy).This study discusses the derivation and assessment of a new two-scale dissipa...
An investigation of the turbulent fluctuating kinetic energy dissipation in low Reynolds number chan...
The dissipation rate of turbulent kinetic energy is a key parameter to quantify the level of turbule...
Estimation of the turbulent dissipation rate in a boundary layer is a very involved process. Experim...
The scaling of turbulence characteristics such as turbulent fluctuation velocity, turbulent kinetic ...
The dissipation rate transport equation remains the most uncertain part of turbulence modeling. The ...
In Kolmogorov’s phenomenological theory of turbulence, the energy spectrum in the inertial range sca...
Non-dimensional parameters for the mean energy and scalar dissipation rates C<sub>ε</sub> and C<sub>...
Using volumetric velocity data from a turbulent laboratory water flow and numerical simulations of h...
Abstract. As part of a more general program of developing multiple-scale models of turbulence, Schi-...
The variation of S, the velocity derivative skewness, with the Taylor microscale Reynolds number Re<...
Using results from previous direct numerical simulations and experiments in the outer region of spat...
Abstract. A new formulation for the turbulence dissipa-tion rate ε occurring in meandering condition...