A NUMERICAL STUDY OF THE EFFECTS OF AEROSOL ON ELECTRIFICATION AND LIGHTNING DISCHARGES IN THUNDERSTORMS

Chinese Journal of Geophysics Pub Date : 2018-02-06 DOI:10.1002/cjg2.30058

TAN Yong-Bo, MA Xiao, XIANG Chun-Yan, XIA Yan-Ling, ZHANG Xin

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引用次数: 1

Abstract

Based on existing three-dimensional (3-D) thunderstorm electrification and discharge model, this work coupled with a classical parameterization scheme of aerosol activation is used to simulate a case of tropical convection in Changchun. The study shows that the change of aerosol concentration has an important influence on the microphysics, electrification and discharge processes of thunderstorm clouds. The results show that: (1) As the aerosol concentration increases in the polluted thunderclouds, the increase of the number of cloud droplets and the updraft cause the increase of the number of ice crystal and graupel, but the decrease of the scale; (2) Compared to the clean thunderclouds, the non-induced electrification process is weak, while the induction electrification process is strong, and the duration of electrification become longer in polluted thunderclouds; (3) The first charge time of the polluted thunderclouds delays, but the total lightning frequency increases and duration is longer. Meanwhile, the frequency of the cloud-to-ground flash in the polluted thunderclouds increases, and the increase of the positive cloud-to-ground flash is more obvious.

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雷暴中气溶胶对带电和闪电放电影响的数值研究

本文基于已有的三维雷暴起电放电模式，结合气溶胶活化的经典参数化方案，对长春热带对流进行了数值模拟。研究表明，气溶胶浓度的变化对雷暴云的微物理过程、起电过程和放电过程都有重要影响。结果表明:(1)随着污染雷雨云中气溶胶浓度的增加，云滴数和上升气流的增加导致冰晶和霰的数量增加，但尺度减小;(2)与清洁雷云相比，污染雷云的非感应起电过程较弱，感应起电过程较强，且起电持续时间较长;(3)污染雷云初充时间延迟，但总闪电频率增加，持续时间延长。同时，污染雷雨云中云对地闪频率增加，且正云对地闪频率增加更为明显。

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Chinese Journal of Geophysics

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