In a barotropic atmosphere, new Reynolds mean momentum equations including turbulent viscosity, dispersion, and instability are used not only to derive the KdV-Burgers-Kuramoto equation but also to analyze the physical mechanism of the cascades of energy and enstrophy. It shows that it is the effects of dispersion and instability that result in the inverse cascade. Then based on the conservation laws of the energy and enstrophy, a cascade model is put forward and the processes of the cascades are described.Meteorology & Atmospheric SciencesSCI(E)中国科学引文数据库(CSCD)3ARTICLE134-402
The atmospheric energy spectrum as a function of horizontal wavenumber over the range from a few kil...
International audienceAtmospheric motions are governed by turbulent motions associated to non-trivi...
New Reynolds' mean momentum equations including both turbulent viscosity and dispersion are use...
In this paper a set of new Reynolds averaged equations which contain both the dissipation and disper...
The idea, suggested by Gao Ge in 1985, that KdV-Burgers equation can be regarded as the normal equat...
Understanding the physical mechanism maintaining fluid turbulence remains a fundamental theoretical ...
The mean state of the atmosphere and ocean is set through a balance between external forcing (radiat...
In a qualitative way, the physical mechanisms which generate fluxes of heat, momentum, and turbulenc...
From the controlling equations of atmosphere motion, Prandtl's mixing length theory is used to ...
In this paper, KdV-Burgers equation can be regarded as the normal equation of atmospheric turbulence...
The exchanges of momentum, water vapor, and heat between the earth surface and the atmosphere play a...
International audienceIn spite of the unprecedented quantity and quality of meteorological data and ...
Abstract. A new formulation for the turbulence dissipa-tion rate ε occurring in meandering condition...
Abstract: A turbulent scalar transport model is proposed which is based on the analytical framework ...
The classical theory of 2d and quasi-geostrophic turbulence deals withhighly idealized systems and p...
The atmospheric energy spectrum as a function of horizontal wavenumber over the range from a few kil...
International audienceAtmospheric motions are governed by turbulent motions associated to non-trivi...
New Reynolds' mean momentum equations including both turbulent viscosity and dispersion are use...
In this paper a set of new Reynolds averaged equations which contain both the dissipation and disper...
The idea, suggested by Gao Ge in 1985, that KdV-Burgers equation can be regarded as the normal equat...
Understanding the physical mechanism maintaining fluid turbulence remains a fundamental theoretical ...
The mean state of the atmosphere and ocean is set through a balance between external forcing (radiat...
In a qualitative way, the physical mechanisms which generate fluxes of heat, momentum, and turbulenc...
From the controlling equations of atmosphere motion, Prandtl's mixing length theory is used to ...
In this paper, KdV-Burgers equation can be regarded as the normal equation of atmospheric turbulence...
The exchanges of momentum, water vapor, and heat between the earth surface and the atmosphere play a...
International audienceIn spite of the unprecedented quantity and quality of meteorological data and ...
Abstract. A new formulation for the turbulence dissipa-tion rate ε occurring in meandering condition...
Abstract: A turbulent scalar transport model is proposed which is based on the analytical framework ...
The classical theory of 2d and quasi-geostrophic turbulence deals withhighly idealized systems and p...
The atmospheric energy spectrum as a function of horizontal wavenumber over the range from a few kil...
International audienceAtmospheric motions are governed by turbulent motions associated to non-trivi...
New Reynolds' mean momentum equations including both turbulent viscosity and dispersion are use...