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A new convective adjustment scheme
TLDR
In this article, the authors proposed a parameterization scheme to ensure that the local vertical temperature and moisture structures, which in nature are strongly constrained by convection, be realistic in the large scale model.Abstract:
A marked divergence in philosophy is presented The primary objective of the proposed parameterization scheme is to ensure that the local vertical temperature and moisture structures, which in nature are strongly constrained by convection, be realistic in the large scale model The concept of a quasi-equilibrium between the cloud field and the large-scale forcing has been well established This means that convective regions have characteristic temperature and moisture structures that can be documented observationally and used as the basis of a convective adjustment procedure In the scheme proposed here, the temperature and moisture structures will be adjusted simultaneously toward observed quasi-equilibrium structures This ensures that on the grid scale a global model always maintains a realistic vertical temperature and moisture structure in the presence of convection The saturation point formulation of moist thermodynamics will be used to introduce the observational and theoretical basis of the proposed convective adjustment The scheme is then applied to a series of data sets from GATE, BOMEX, ATEX and an Arctic air-mass transformation to show the sensitivity of the scheme to different parameters and develop a parameter set suitable for both shallow and deep convection in a global modelread more
Citations
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A new convective adjustment scheme. Part II: Single column tests using GATE wave, BOMEX, ATEX and arctic air‐mass data sets
Alan K. Betts,M. J. Miller +1 more
TL;DR: In this article, the authors proposed two deep and shallow convection schemes for tropical field experiments (GATE, BOMEX, ATEX) and an arctic air-mass transformation.
Journal ArticleDOI
The land surface-atmosphere interaction: A review based on observational and global modeling perspectives
TL;DR: In this paper, a review of the land-surface-atmosphere interaction using observations from two North American field experiments (First International Satellite Land Surface Climatology Project Field Experiment (FIFE) and Boreal Ecosystem Atmosphere Study (BOREAS)) and the application of research data to the improvement of land surface and boundary layer parameterizations in the European Centre for Medium-Range Weather Forecast (ECMWF) global forecast model is presented.
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Simulating present-day climate with the INMCM4.0 coupled model of the atmospheric and oceanic general circulations
TL;DR: The INMCM3.0 climate model has formed the basis for the development of a new climate-model version as discussed by the authors, which is called the InMCM4.0. It differs from the previous version in that there is an increase in its spatial resolution and some changes in the formulation of coupled atmosphere-ocean general circulation models.
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Intercomparison of the climatological variations of Asian summer monsoon precipitation simulated by 10 GCMs
In-Sik Kang,K. Jin,Bin Wang,K.-M. Lau,Jagadish Shukla,V. Krishnamurthy,Siegfried D. Schubert,D. E. Wailser,W. Stern,A. Kitoh,Gerald A. Meehl,Masao Kanamitsu,V. Y. Galin,V. Satyan,Chung-Kyu Park,Y. Liu +15 more
TL;DR: In this article, the overall performance of state-of-the-art atmospheric GCMs in simulating the climatological variations of summer monsoon rainfall over the Asian-western Pacific region and the systematic errors that are common to a group of GCMs were assessed.
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Meteorological modeling for air-quality assessments
TL;DR: In this paper, the authors present a state-of-the-art analysis of the current state of dynamical models used as meteorological pre-processors, showing that useful simulations for real cases are feasible for scales at least as fine as 1.
References
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Journal ArticleDOI
Interaction of a Cumulus Cloud Ensemble with the Large-Scale Environment, Part I
Akio Arakawa,Wayne H. Schubert +1 more
TL;DR: In this paper, large-scale modification of the environment by cumulus clouds is discussed in terms of entrainment, detraining, evaporation, and subsidence, and budget equations for mass, static energy, water vapor, and liquid water are considered.
Journal ArticleDOI
Determination of Bulk Properties of Tropical Cloud Clusters from Large-Scale Heat and Moisture Budgets
TL;DR: The bulk properties of tropical cloud clusters, such as the vertical mass flux, the excess temperature, and moisture and the liquid water content of the clouds, are determined from a combination of the observed large-scale heat and moisture budgets over an area covering the cloud cluster, and a model of a cumulus ensemble which exchanges mass, heat, water vapor and liquid water with the environment through entrainment and detrainment.
Journal ArticleDOI
Further Studies of the Parameterization of the Influence of Cumulus Convection on Large-Scale Flow
TL;DR: In this paper, a more rigorous derivation of the parameterization scheme for both deep cumulus convection and shallow convection has been given and a comparison between the calculated results and the observational data of Reed and Recker for the composite easterly wave show that they are in good agreement in the regions of low-level convergence.
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Simulated climatology of a general circulation model with a hydrologic cycle
TL;DR: The results of a numerical time integration of a hemispheric general circulation model of the atmosphere with moist processes and a uniform earth's surface has already been published by Manabe, Smagorinsky, and Strickler as discussed by the authors.
Journal ArticleDOI
On Formation and Intensification of Tropical Cyclones Through Latent Heat Release by Cumulus Convection
TL;DR: In this paper, the effect of latent heat release by deep cumulus convection in a conditionally unstable atmosphere is investigated and a method devised to include this effect directly in the equations for large scale flow is then applied to the hurricane formation problem by incorporating it into timedependent, circular symmetric dynamic hurricane models, either in gradient-wind balance or unbalanced.