Please use this identifier to cite or link to this item: https://physrep.ff.bg.ac.rs/handle/123456789/413
Title: Precipitation sensitivity to the mean radius of drop spectra: Comparison of single-and double-moment bulk microphysical schemes
Authors: Kovačević, Nemanja
Ćurić, Mladjen
Keywords: Bulk microphysical scheme;Cloud-resolving model;Convective clouds;Size distribution function;Surface precipitation
Issue Date: 1-Jan-2015
Journal: Atmosphere
Abstract: 
In this study, two bulk microphysical schemes were compared across mean radius values of the entire drop spectra. A cloud-resolving mesoscale model was used to analyze surface precipitation characteristics. The model included the following microphysical categories: water vapour, cloud droplets, raindrops, ice crystals, snow, graupel, frozen raindrops and hail. Two bulk schemes were used: a single-moment scheme in which the mean radius was specified as a parameter and a double-moment scheme in which the mean radius of drops was calculated diagnostically with a fixed value for the cloud droplet number concentration. Experiments were conducted out for three values of the mean radius (in the single-moment scheme) and two cloud droplet number concentrations (in the double-moment scheme). There were large differences in the surface precipitation for the two schemes, the simulated precipitation generated by the double-moment scheme had a higher sensitivity. The single-moment scheme generated an unrealistic collection rate of cloud droplets by raindrops and hail as well as unrealistic evaporation of rain and melting of solid hydrometeors; these processes led to inaccurate timing and amounts of surface precipitation.
URI: https://physrep.ff.bg.ac.rs/handle/123456789/413
DOI: 10.3390/atmos6040451
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