Statistical Physics, Information Theory and Cloud Droplet Size Distributions
نویسندگان
چکیده
Specification of cloud droplet size distributions is essential for the calculation of radiation transfer in clouds and cloud-climate interactions, and for remote sensing of cloud properties. Despite the effort and progress made over the last few decades, a number of vital issues remain unsolved. For example, 1) It is well known that observed droplet size distributions are generally much broader than those predicted by the classical uniform model (Howell 1949). This so-called spectral broadening issue has puzzled many generations of cloud physicists. 2) An increasing amount of observational evidence has shown that the Weibull distribution best describes observed droplet size distributions (Liu et al. 1995; Costa et al. 2000; Liu and Daum 2000; Daum and Liu 2001). The physical reason for this is not clear. 3) It has been found that droplet size distributions depend on the scale over which they are sampled or simulated (Liu and Hallett 1998; Miles et al. 2000).
منابع مشابه
Transport Theory and Statistical Physics, 20(2&3), 139-175 (1991) Statistical Radlative Transport in One-dimensional Media and Its Application to the Terrestrial Atmosphere
This paper describes radiative transfer through a single cloud layer that is horizontally uniform but statistically distributed in the vertical and compares the radiative transfer in such a statistical cloud to its deterministic counterpart. Specific examples of the derivation of the probability density functions of cloud reflection and transmission by single cloud layers are described for give...
متن کاملParameterization of cloud droplet size distributions: Comparison with parcel models and observations
[1] This work examines the efficacy of various physically based approaches derived from one-dimensional adiabatic parcel model frameworks (a numerical model and a simplified parameterization) to parameterize the cloud droplet distribution characteristics for computing cloud effective radius and autoconversion rate in regional/global atmospheric models. Evaluations are carried out for integratio...
متن کاملAnalytic formulation and parametrization of the kinetic potential theory for drizzle formation.
The kinetic potential of nucleation theory is extended to describe cloud droplet growth processes that can lead to drizzle formation. In this model drizzle formation is identified as a statistical barrier crossing phenomenon that transforms cloud droplets to much larger drizzle size with a rate dependent on turbulent diffusion, droplet collection efficiency, and properties of the underlying clo...
متن کاملEvaluating the cloud droplet number from particle size distribution measurements: A comparison of evaluated and measured cloud droplet number concentrations
While a large number of field investigations on aerosol CCN activity and cloud microphysics have been performed, very little information on the activation characteristics of the smallest aerosol particles (those close to or below 0.1 μm in diameter) is available. Here we approach the problem in a slightly different way to traditional methods by measuring simultaneously the cloud interstitial pa...
متن کاملParameterization of cloud droplet size distributions : 1 comparison with parcel models and observations
This work examines the efficacy of various physically-based 3 approaches derived from 1-D adiabatic parcel model frameworks (a numer-4 ical model and a simplified parameterization) to parameterize the cloud droplet 5 distribution characteristics for computing cloud effective radius and auto-conversion rate in regional/global atmospheric models. Evaluations are car-7 ried out for integrations wi...
متن کامل