Influence of Ice Nuclei Parameterization Schemes on the Hail Process

Ice nuclei are very important factors as they significantly affect the development and evolvement of convective clouds such as hail clouds. In this study, numerical simulations of hail processes in the Zhejiang Province were conducted using a mesoscale numerical model (WRF v3.4). The effects of six...

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Main Authors: Xiaoli Liu, Ye Fu, Zhibin Cao, Shuanglong Jin
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Advances in Meteorology
Online Access:http://dx.doi.org/10.1155/2018/4204137
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spelling doaj-d56d8d86160f4f62bc34f48c23fb16782020-11-24T21:15:19ZengHindawi LimitedAdvances in Meteorology1687-93091687-93172018-01-01201810.1155/2018/42041374204137Influence of Ice Nuclei Parameterization Schemes on the Hail ProcessXiaoli Liu0Ye Fu1Zhibin Cao2Shuanglong Jin3Key Laboratory of Meteorological Disaster of Ministry of Education, Nanjing University of Information Science and Technology, Nanjing 210044, ChinaXianyang Meteorology Bureau, Xianyang 712000, ChinaPurple Mountain Observatory, Nanjing 210008, ChinaState Key Laboratory of Operation and Control of Renewable Energy & Storage Systems, China Electric Power Research Institute, Beijing 100192, ChinaIce nuclei are very important factors as they significantly affect the development and evolvement of convective clouds such as hail clouds. In this study, numerical simulations of hail processes in the Zhejiang Province were conducted using a mesoscale numerical model (WRF v3.4). The effects of six ice nuclei parameterization schemes on the macroscopic and microscopic structures of hail clouds were compared. The effect of the ice nuclei concentration on ground hailfall is stronger than that on ground rainfall. There were significant spatiotemporal, intensity, and distribution differences in hailfall. Changes in the ice nuclei concentration caused different changes in hydrometeors and directly affected the ice crystals, and, hence, the spatiotemporal distribution of other hydrometeors and the thermodynamic structure of clouds. An increased ice nuclei concentration raises the initial concentration of ice crystals with higher mixing ratio. In the developing and early maturation stages of hail cloud, a larger number of ice crystals competed for water vapor with increasing ice nuclei concentration. This effect prevents ice crystals from maturing into snow particles and inhibits the formation and growth of hail embryos. During later maturation stages, updraft in the cloud intensified and more supercooled water was transported above the 0°C level, benefitting the production and growth of hail particles. An increased ice nuclei concentration therefore favors the formation of hail.http://dx.doi.org/10.1155/2018/4204137
collection DOAJ
language English
format Article
sources DOAJ
author Xiaoli Liu
Ye Fu
Zhibin Cao
Shuanglong Jin
spellingShingle Xiaoli Liu
Ye Fu
Zhibin Cao
Shuanglong Jin
Influence of Ice Nuclei Parameterization Schemes on the Hail Process
Advances in Meteorology
author_facet Xiaoli Liu
Ye Fu
Zhibin Cao
Shuanglong Jin
author_sort Xiaoli Liu
title Influence of Ice Nuclei Parameterization Schemes on the Hail Process
title_short Influence of Ice Nuclei Parameterization Schemes on the Hail Process
title_full Influence of Ice Nuclei Parameterization Schemes on the Hail Process
title_fullStr Influence of Ice Nuclei Parameterization Schemes on the Hail Process
title_full_unstemmed Influence of Ice Nuclei Parameterization Schemes on the Hail Process
title_sort influence of ice nuclei parameterization schemes on the hail process
publisher Hindawi Limited
series Advances in Meteorology
issn 1687-9309
1687-9317
publishDate 2018-01-01
description Ice nuclei are very important factors as they significantly affect the development and evolvement of convective clouds such as hail clouds. In this study, numerical simulations of hail processes in the Zhejiang Province were conducted using a mesoscale numerical model (WRF v3.4). The effects of six ice nuclei parameterization schemes on the macroscopic and microscopic structures of hail clouds were compared. The effect of the ice nuclei concentration on ground hailfall is stronger than that on ground rainfall. There were significant spatiotemporal, intensity, and distribution differences in hailfall. Changes in the ice nuclei concentration caused different changes in hydrometeors and directly affected the ice crystals, and, hence, the spatiotemporal distribution of other hydrometeors and the thermodynamic structure of clouds. An increased ice nuclei concentration raises the initial concentration of ice crystals with higher mixing ratio. In the developing and early maturation stages of hail cloud, a larger number of ice crystals competed for water vapor with increasing ice nuclei concentration. This effect prevents ice crystals from maturing into snow particles and inhibits the formation and growth of hail embryos. During later maturation stages, updraft in the cloud intensified and more supercooled water was transported above the 0°C level, benefitting the production and growth of hail particles. An increased ice nuclei concentration therefore favors the formation of hail.
url http://dx.doi.org/10.1155/2018/4204137
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AT shuanglongjin influenceoficenucleiparameterizationschemesonthehailprocess
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