In the turbulent flow there exist not only dissipation effects (viscosity, conduction and diffusion), but also the fourth effect-dispersion. Just the dispersion effect of the turbulence could result in the inverse transport of energy, which was called the negative viscosity phenomena. The new Reynolds averaged equations which include both the dissipation and dispersion effects of the turbulence are presented.Materials Science, MultidisciplinaryMultidisciplinary SciencesSCI(E)EI2ARTICLE5629-631
Turbulence is a ubiquitous state for many flows in nature and engineering. As the flow velocity is i...
An analysis is presented of the shear dispersion in turbulent channel flow forced by a purely oscill...
A new theoretical model has been developed to predict the transport of atmospheric pollutants as the...
In this paper a set of new Reynolds averaged equations which contain both the dissipation and disper...
Abstract. A new formulation for the turbulence dissipa-tion rate ε occurring in meandering condition...
The influence of the spatio-temporal structure of turbulence on the dispersions of fluid elements an...
Turbulence is a fluid flow regime observed in a large number of natural and engineering systems invo...
A new equation for the dissipation rate of turbulent kinetic energy is derived exactly in conservati...
New Reynolds mean momentum equations including turbulent viscosity and dispersion are used to analyz...
The complex structure and dynamics of turbulence combined with computational limitations create a fu...
In this research, a volume averaged dissipation transport equation is developed for particle laden t...
This paper examines the evolution of closing the Reynolds-averaged Navier-Stokes equations by approx...
In this talk I will present a unified approach for the effect of fast rotation and dispersion as an ...
The effects of turbulent Reynolds number, Ret, on the transport of scalar dissipation rate of reacti...
It is trite to state that flow turbulence plays a critical role in many engineering applications and...
Turbulence is a ubiquitous state for many flows in nature and engineering. As the flow velocity is i...
An analysis is presented of the shear dispersion in turbulent channel flow forced by a purely oscill...
A new theoretical model has been developed to predict the transport of atmospheric pollutants as the...
In this paper a set of new Reynolds averaged equations which contain both the dissipation and disper...
Abstract. A new formulation for the turbulence dissipa-tion rate ε occurring in meandering condition...
The influence of the spatio-temporal structure of turbulence on the dispersions of fluid elements an...
Turbulence is a fluid flow regime observed in a large number of natural and engineering systems invo...
A new equation for the dissipation rate of turbulent kinetic energy is derived exactly in conservati...
New Reynolds mean momentum equations including turbulent viscosity and dispersion are used to analyz...
The complex structure and dynamics of turbulence combined with computational limitations create a fu...
In this research, a volume averaged dissipation transport equation is developed for particle laden t...
This paper examines the evolution of closing the Reynolds-averaged Navier-Stokes equations by approx...
In this talk I will present a unified approach for the effect of fast rotation and dispersion as an ...
The effects of turbulent Reynolds number, Ret, on the transport of scalar dissipation rate of reacti...
It is trite to state that flow turbulence plays a critical role in many engineering applications and...
Turbulence is a ubiquitous state for many flows in nature and engineering. As the flow velocity is i...
An analysis is presented of the shear dispersion in turbulent channel flow forced by a purely oscill...
A new theoretical model has been developed to predict the transport of atmospheric pollutants as the...