A Simple And General Subgrid Model Suitable Both For Surface Layer And Free-Stream Turbulence   总被引：1，自引：1，他引：1  

J. L. Redelsperger  F. Mahé  P. Carlotti 《Boundary-Layer Meteorology》2001,101(3):375-408

A new and general approach is presented to allow standard subgrid schemes to besuitable both for surface layer and free-stream turbulence. Simple modificationsto subgrid schemes are proposed and derived for any vertical stabilityconditions. They are simple to implement in models and are suitable for morecomplicated simulations such as large-eddy simulation with inhomogeneoussurface conditions or complex topography. They are also applicable to mesoscaleand large-scale models. These modifications are physically justified by recentmeasurements of spectra close to the ground. The spectral analysis presentedshows how the energy deficit of blocked turbulence for a given dissipation(`anomalous dissipation') dramatically affects the coefficients to be used insubgrid schemes. As shown for neutral and convective cases with wind shear,these changes allow us to substantially improve the prediction of profiles for themean quantities in the surface layer. Agreement with similarity laws in the unstablecase is found up to about 0.2z_i, for simulated shear, stabilityprofiles and dissipation rates of turbulent kinetic energy.  相似文献   

Negative water vapour skewness and dry tongues in the convective boundary layer: observations and large-eddy simulation budget analysis     

F. Couvreux  F. Guichard  V. Masson  J.-L. Redelsperger 《Boundary-Layer Meteorology》2007,123(2):269-294

This study focuses on the intrusion of dry air into the convective boundary layer (CBL) originating from the top of the CBL. Aircraft in-situ measurements from the IHOP_2002 field campaign indicate a prevalence of negative skewness of the water vapour distribution within the growing daytime CBL over land. This negative skewness is interpreted according to large-eddy simulations (LES) as the result of descending dry downdrafts originating from above the mixed layer. LES are used to determine the statistical properties of these intrusions: their size and thermodynamical characteristics. A conditional sampling analysis demonstrates their significance in the retrieval of moisture variances and fluxes. The rapid CBL growth explains why greater negative skewness is observed during the growing phase: the large amounts of dry air that are quickly incorporated into the CBL prevent a full homogenisation by turbulent mixing. The boundary-layer warming in this phase also plays a role in the acquisition of negative buoyancy for these dry tongues, and thus possibly explains their kinematics in the lower CBL. Budget analysis helps to identify the processes responsible for the negative skewness. This budget study underlines the main role of turbulent transport, which distributes the skewness produced at the top or the bottom of the CBL into the interior of the CBL. The dry tongues contribute significantly to this turbulent transport.  相似文献   

A study of a fair weather boundary layer in TOGA-COARE: Parameterization of surface fluxes in large scale and regional models for light wind conditions   总被引：1，自引：0，他引：1  

S. Mondon  J.L. Redelsperger 《Boundary-Layer Meteorology》1998,88(1):47-76

The study focuses on a way to parameterize the effect of subgrid scale convective motions on surface fluxes in large scale and regional models for the case of light surface winds. As previously proposed, these subgrid effects are assumed to scale with the convection intensity through the relationship: where is the mean velocity of the wind, U₀ the velocity of the mean wind, w_* the free convection velocity, and an empirical coefficient to be determined. Both observations and numerical simulation are presently used to determine the free convection coefficient .Large eddy simulation of a fair weather convective boundary layer case observed during TOGA-COARE is performed. Comparisons between observations and the simulation of surface properties and vertical profiles in the planetary boundary layer are presented. The simulated vertical turbulent fluxes of heat, moisture and buoyancy range well within estimates from aircraft measurements.The most important result is that the true free convection coefficient , directly estimated from simulation, leads to a value of 0.65, smaller than the ones estimated from temporal and spatial variances. Using observations and simulation, estimates of from temporal and spatial variances are obtained with similar values 0.8. From both theoretical derivations and numerical computations, it is shown that estimates of the true from variances are possible but only after applying a correction factor equal to 0.8. If this correction is not used, is overestimated by about 25%. The time and space sampling problem is also addressed in using numerical simulations.  相似文献   

Methode de representation de la turbulence associee aux precipitations dans un modele tri-dimensionnel de convection nuageuse     

J. L. Redelsperger  G. Sommeria 《Boundary-Layer Meteorology》1982,24(2):231-252

A method is presented for the parameterization of subgrid-scale processes in the framework of a three-dimensional micro-scale model which simulates the initiation of precipitation in the planetary boundary layer. The method uses truncated second-order moment equations which involve combinations of dynamical, thermodynamical and water variables; the water variables include water vapor, cloud droplets and rain water, with the hypothesis of a Marshall-Palmer raindrop distribution.The method is applied to the case of a trade-wind cumulus layer where water vapor content is artificially increased. As some approximations concerning the water variables are not easy to verify by experimental methods, results should be considered only as indicative; they show the extent to which a more complete parameterization of subgrid-scale processes may compensate for the inevitable lack of spatial resolution in an atmospheric boundary-layer model.  相似文献   

Relative current effect on short wave growth     

Guimarães  Pedro Veras  Ardhuin  Fabrice  Perignon  Yves  Benetazzo  Alvise  Bouin  Marie-Noëlle  Garnier  Valerie  Redelsperger  Jean-Luc  Accensi  Mickael  Thomson  Jim 《Ocean Dynamics》2022,72(8):621-639

Ocean Dynamics - Short waves growth is characterized by nonlinear and dynamic processes that couple ocean and atmosphere. Ocean surface currents can have a strong impact on short wave steepness and...  相似文献   

The Meso-NH Atmospheric Simulation System. Part I: adiabatic formulation and control simulations     

J. P. Lafore  J. Stein  N. Asencio  P. Bougeault  V. Ducrocq  J. Duron  C. Fischer  P. Héreil  P. Mascart  V. Masson  J. P. Pinty  J. L. Redelsperger  E. Richard  J. Vilà-Guerau de Arellano 《Annales Geophysicae》1997,16(1):90-109

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Methode de representation de la turbulence d'echelle inferieure a la maille pour un modele tri-dimensionnel de convection nuageuse     

J. L. Redelsperger  G. Sommeria 《Boundary-Layer Meteorology》1981,21(4):509-530

Significant improvements are occurring in the representation of physical processes in atmospheric convection models. They should go along with parallel improvements in the parameterization of subgrid scale turbulent processes. This problem appears to be particularly delicate in the presence of clouds, due to the local release of latent heat.Two important points are the choice of adequate turbulent thermodynamic variables and of the method for truncating the statistical moment equations. These topics are discussed here within the framework of the three-dimensional convection model under development at the Laboratoire de Météorologie Dynamique. Assuming the need for at least a simplified second-order closure, two improvements are tested on a numerical simulation of the Porto Rico experiment conducted by the National Center for Atmospheric Research (U.S.A.) in 1972. They concern the use of a rate equation for sub-grid scale turbulent kinetic energy and of specific variables which are approximately conserved in the condensation process.  相似文献