Influence of electrostatic collection on scavenging of submicron-sized aerosols by cloud droplets and raindrops

IF 2.8 4区 环境科学与生态学 Q2 ENGINEERING, CHEMICAL
V. Vučković, D. Vujović, Darko Savić
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Abstract

Abstract We explicitly calculate the efficiency with which submicron-sized aerosol particles (APs) with a diameter smaller than 0.2 collide with cloud droplets and raindrops in air due to individual and combined, simultaneous action of all ice nucleation and all collection mechanisms, including electrostatic forces caused by electric charges on the cloud drops and APs. Brownian diffusion is a predominant collection mechanism up to the critical diameter of APs, which depends on the value of the coefficient of electrostatic collection For larger APs, electroscavenging (ES) is the dominant collection mechanism. When ice nucleation is added to all collection processes, at some moments a larger value of results in a lower mass of APs in rainwater, but only for and Ice nucleation lowers the relative AP precipitation mass (RAPM) compared with a numerical experiment when all collection processes are included for almost 7% at the end of integration for while for all other values of RAPM increases. affects the mass more than the number of APs in cloud water when ice nucleation and all collection processes act simultaneously. The greatest scavenging in the air occurs for the largest ES significantly affects the mass of APs in precipitation at the end of the integration period, while its influence on the number of APs is not that important. The influence of APs charge distribution and an image charge on RAPM and RAPN is significant. For the RAPN the influence of APs distribution compared to an image charge is more significant. The addition of image force to Coulomb force and APs bipolar charge distribution contributes to RAPM for 3.9% and RAPN for 1.6%. Copyright © 2023 American Association for Aerosol Research
静电收集对云滴和雨滴清除亚微米气溶胶的影响
摘要:本文明确计算了直径小于0.2的亚微米气溶胶粒子(APs)与空气中的云滴和雨滴碰撞的效率,这是由于所有冰核和所有收集机制(包括云滴和APs上的电荷引起的静电力)的单独和联合同时作用。在ap临界直径范围内,布朗扩散是主要的收集机制,这取决于静电收集系数的值。对于较大的ap,电清除(ES)是主要的收集机制。当所有收集过程都加入冰成核时,在某些时刻,较大的冰成核值导致雨水中AP质量降低,但与数值实验相比,当所有收集过程在积分结束时几乎占7%时,冰成核降低了相对AP降水质量(RAPM),而所有其他RAPM值都增加。当冰成核和所有收集过程同时发生时,对云水中ap质量的影响大于对ap数量的影响。空气中最大的清除发生在最大的ES上,显著影响了积分期末降水中APs的质量,而对APs数量的影响不是那么重要。ap电荷分布和图像电荷对RAPM和RAPN的影响是显著的。相对于像电荷,ap分布对RAPN的影响更为显著。在库仑力和APs双极电荷分布的基础上加入像力对RAPM和RAPN的贡献分别为3.9%和1.6%。版权所有©2023美国气溶胶研究协会
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Aerosol Science and Technology
Aerosol Science and Technology 环境科学-工程:化工
CiteScore
8.40
自引率
7.70%
发文量
73
审稿时长
3 months
期刊介绍: Aerosol Science and Technology publishes theoretical, numerical and experimental investigations papers that advance knowledge of aerosols and facilitate its application. Articles on either basic or applied work are suitable. Examples of topics include instrumentation for the measurement of aerosol physical, optical, chemical and biological properties; aerosol dynamics and transport phenomena; numerical modeling; charging; nucleation; nanoparticles and nanotechnology; lung deposition and health effects; filtration; and aerosol generation. Consistent with the criteria given above, papers that deal with the atmosphere, climate change, indoor and workplace environments, homeland security, pharmaceutical aerosols, combustion sources, aerosol synthesis reactors, and contamination control in semiconductor manufacturing will be considered. AST normally does not consider papers that describe routine measurements or models for aerosol air quality assessment.
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