An investigation of the impact of the subgrid-scale variability of cloud liquid water on the autoconversion process as parameterized in a general circulation model is presented in this paper. For this purpose, a prognostic statistical probability density distribution (PDF) of the subgrid scale variability of cloud water is incorporated in a continuous autoconversion parameterization. Thus, the revised autoconversion rate is calculated by an integral of the autoconversion equation over the PDF of total water mixing ratio from the saturation vapor mixing ratio to the maximum of total water mixing ratio. An evaluation of the new autoconversion parameterization is carried out by means of one year simulations with the ECHAM5 climate model. The r...
In this study, we evaluate eight autoconversion parameterizations against integration of the Kinetic...
In a recent paper, Liu and Daum (2004, hereafter LD04) derive analytical expressions for the rate of...
Aerosols are known to significantly affect cloud and precipitation patterns and intensity, but these...
An investigation of the impact of the subgrid-scale variability of cloud liquid water on the autocon...
Existing Sundqvist-type parameterizations, which only consider dependence of the autoconversion rate...
This work is motivated by the question: how much complexity is appropriate for a cloud parameterizat...
In this study, we evaluate eight autoconversion parameterizations against integration of the Kinetic...
A parameterization for the horizontal subgrid-scale variability of water vapor and cloud condensate ...
This is the published version. © Copyright 2014 American Meteorological Society (AMS). Permission to...
We introduce a probability density function (PDF)-based scheme to parameterize cloud fraction, avera...
A key process that must be parameterized in atmospheric models of various scales (from large eddy si...
The impacts of representing cloud microphysical processes in a stochastic subcolumn framework are ...
In the current global climate models (GCMs), the nonlinearity effect of subgrid cloud variations on ...
The subgrid-scale spatial variability in cloud water content can be described by a parameter f calle...
Cloud-to-rain autoconversion process is an important player in aerosol loading, cloud morphology, an...
In this study, we evaluate eight autoconversion parameterizations against integration of the Kinetic...
In a recent paper, Liu and Daum (2004, hereafter LD04) derive analytical expressions for the rate of...
Aerosols are known to significantly affect cloud and precipitation patterns and intensity, but these...
An investigation of the impact of the subgrid-scale variability of cloud liquid water on the autocon...
Existing Sundqvist-type parameterizations, which only consider dependence of the autoconversion rate...
This work is motivated by the question: how much complexity is appropriate for a cloud parameterizat...
In this study, we evaluate eight autoconversion parameterizations against integration of the Kinetic...
A parameterization for the horizontal subgrid-scale variability of water vapor and cloud condensate ...
This is the published version. © Copyright 2014 American Meteorological Society (AMS). Permission to...
We introduce a probability density function (PDF)-based scheme to parameterize cloud fraction, avera...
A key process that must be parameterized in atmospheric models of various scales (from large eddy si...
The impacts of representing cloud microphysical processes in a stochastic subcolumn framework are ...
In the current global climate models (GCMs), the nonlinearity effect of subgrid cloud variations on ...
The subgrid-scale spatial variability in cloud water content can be described by a parameter f calle...
Cloud-to-rain autoconversion process is an important player in aerosol loading, cloud morphology, an...
In this study, we evaluate eight autoconversion parameterizations against integration of the Kinetic...
In a recent paper, Liu and Daum (2004, hereafter LD04) derive analytical expressions for the rate of...
Aerosols are known to significantly affect cloud and precipitation patterns and intensity, but these...