Investigation of Electrification Mechanisms and Relationship between the Electrical Discharge Frequency and Radar Characteristics of the Thunderstorm in China

Investigation of Electrification Mechanisms and Relationship between the Electrical Discharge Frequency and Radar Characteristics of the Thunderstorm in China

The development of a thunderstorm cell in the Beijing area according to the results of numerical modeling and field observations is considered. Based on the numerical simulation, it is shown that the most intense electrification process is the separation of charges as a result of collisions of hails...

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Veröffentlicht in:Russian meteorology and hydrology 2020-10, Vol.45 (10), p.712-719
Hauptverfasser: Dovgalyuk, Yu. A., Veremei, N. E., Sin’kevich, A. А., Mikhailovskii, Yu. P., Toropova, M. L., Popov, V. B., Lu, J., Yang, J.
Format: Artikel
Sprache:eng
Schlagworte:
Atmospheric Sciences
Clouds
Correlation
Crystals
Discharge
Discharge frequency
Earth and Environmental Science
Earth Sciences
Electrification
Hail
Hailstones
Mathematical models
Meteorology
Numerical simulations
Radar
Thunderstorms
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container_end_page 719
container_issue 10
container_start_page 712
container_title Russian meteorology and hydrology
container_volume 45
creator Dovgalyuk, Yu. A.
Veremei, N. E.
Sin’kevich, A. А.
Mikhailovskii, Yu. P.
Toropova, M. L.
Popov, V. B.
Lu, J.
Yang, J.
description The development of a thunderstorm cell in the Beijing area according to the results of numerical modeling and field observations is considered. Based on the numerical simulation, it is shown that the most intense electrification process is the separation of charges as a result of collisions of hailstones and cloud crystals. Using the field observations, the relationship between the electrical and radar characteristics of the cloud was investigated. It is demonstrated that the highest positive correlation is observed between the frequency of discharges and the volume of the supercooled part of the cloud above the 0°C isotherm, and the highest negative correlation is revealed between the frequency of discharges and the maximum current in a discharge.
doi_str_mv 10.3103/S1068373920100052
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subjects Atmospheric Sciences
Clouds
Correlation
Crystals
Discharge
Discharge frequency
Earth and Environmental Science
Earth Sciences
Electrification
Hail
Hailstones
Mathematical models
Meteorology
Numerical simulations
Radar
Thunderstorms
title Investigation of Electrification Mechanisms and Relationship between the Electrical Discharge Frequency and Radar Characteristics of the Thunderstorm in China
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