Title of article
Precipitation particle charge distribution and evolution of East Asian rainbands
Author/Authors
Takahashi، نويسنده , , Tsutomu، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
20
From page
304
To page
323
Abstract
Numerous videosondes, balloon-borne surveyors of precipitation particle morphology and charge, have been launched into cloud systems in many, disparate locations in East Asia. Reported here are videosonde-based observations of early summer, Baiu rainbands at Tanegashima in southern Japan and of summer rainbands at Chiang Rai in northern Thailand. Precipitation particles are mapped by type and charge over the course of cloud development, allowing particle and charge evolution to be derived. The basic charge distribution as observed in Hokuriku winter thunderclouds at different cloud life stages was seen at different locations characterized by vertical velocity profiles in the cloud.
arge structure of the rainbands in both locations was a basic tripole. The major charge carriers were graupel and ice crystals. As graupel and ice crystal concentrations increased, not only did space charge increase, but per-particle charge also increased. Increased lightning activity was associated with higher particle space charge and lower cloud-top temperature. The particle charge evolution of these systems includes several fundamental features: a. active negative charging of graupel in an intense updraft, b. descent of negative graupel along the edge of an updraft column, c. merging of negative graupel with positively charged raindrops falling in the central cloud, and d. extended distribution of positive ice crystals in the stratiform cloud. The observations suggest that riming electrification was the main charge separation mechanism.
Keywords
Precipitation particle charge , Videosonde charge measurement , Electric activity of East Asian rainband , Riming electrification mechanism , Rain accumulation in rainband , Rainband charge distribution and evolution
Journal title
Atmospheric Research
Serial Year
2012
Journal title
Atmospheric Research
Record number
2247542
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