Publication Date:
2019-06-28
Description:
The effects on microbursts of precipitation loading, and cooling of the downdraft due to graupel/hail melting and rain evaporation, were studied, using numerical models. The results for the microburst index indicate a low value for the weak microburst and a higher value for the strong microburst. The relative magnitude of the various terms indicate the importance of the microphysical processes. For the dry microburst the evaporation and loading effects are comparable (1.56 and 1.75 respectively) but 5 to 6 times the magnitude of the melting effect. For a wet, tropical microburst, the loading and melting terms are most important. The intermediate Denver case shows loading as the largest term, followed by evaporation and melting.
Keywords:
METEOROLOGY AND CLIMATOLOGY
Type:
Deutscher Wetterdienst, Annals from the German Meteorological Society. No. 25: 10th International Cloud Physics Conference Preprints, Volume 2; p 675-677
Format:
text
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