Parameterization of below-cloud scavenging for polydisperse fine mode aerosols as a function of rain intensity  

作　　者：Chang Hoon Jung Hyung-Min Lee Dasom Park Young Jun Yoon Yongjoo Choi Junshik Um Seoung Soo Lee Ji Yi Lee Yong Pyo Kim 

机构地区：[1]Department of Health Management,Kyungin Women’s University,Incheon 21041,Korea [2]Department of Environmental Science and Engineering,Ewha Woman’s University,Seoul,Korea [3]Department of Environmental Engineering,Konkuk University,Seoul,Korea [4]Korea Polar Research Institute,Incheon,Korea [5]Department of Environment,Hankuk University of Foreign Studies,Yongin,Korea [6]Department of Atmospheric Sciences,Pusan National University,Busan,Korea [7]Earth System Science Interdisciplinary Center,University of Maryland,College Park,MD,USA [8]Research Center for Climate Sciences,Pusan National University,Busan,Korea [9]Department of Chemical Engineering and Materials Science,Ewha Womans University,Seoul,Korea

出　　处：《Journal of Environmental Sciences》2023年第10期43-55,共13页环境科学学报（英文版）

基　　金：supported by the FRIEND(Fine Particle Research Initiative in East Asia Considering National Differences)Project through the National Research Foundation of Korea(NRF)funded by the Ministry of Science and ICT(No.2020M3G1A1114617);the Technology Development Program to Solve Climate Changes through the National Research Foundation of Korea(NRF)funded by the Ministry of Science,ICT(No.2019M1A2A2103953);the National Research Foundation of Korea Grant from the Korean Government(MSIT)(Nos.NRF2021M1A5A1065672/PN22011,NRF2021R1F1A1046878,and NRF2020R1A2C1003215);This research was also supported by Basic Science Research Program through the National Research Foundation of Korea(NRF)funded by the Ministry of Education(No.2020R1A6A1A03044834).

摘　　要：The below-cloud aerosol scavenging process by precipitation is one of the most important mechanisms to remove aerosols from the atmosphere.Due to its complexity and dependence on both aerosol and raindrop sizes,wet scavenging process has been poorly treated,especially during the removal of fine particles.This makes the numerical simulation of below-cloud scavenging in large-scale aerosolmodels unrealistic.To consider the slip effects of submicron particles,a simplified expression for the diffusion scavenging was developed by approximating the Cunningham slip correction factor.The derived analytic solution was parameterized as a simple power function of rain intensity under the assumption of the lognormal size distribution of particles.The resultant approximated expression was compared to the observed data and the results of previous studies including a 3D atmospheric chemical transport model simulation.Compared with the default GEOS-Chem coefficient of 0.00106R0.61 and the observation-based coefficient of 0.0144R0.9268,the coefficient of a and b in∧m=aRb spread in the range of 0.0002-0.1959 for a and 0.3261-0.525 for b over a size distribution of GSD of 1.3–2.5 and a geometric mean diameter of 0.01-2.5μm.Overall,this study showed that the scavenging coefficient varies widely by orders of magnitude according to the size distribution of particles and rain intensity.This study also demonstrated that the obtained simplified expression could consider the theoretical approach of aerosol polydispersity.Our proposed analytic approach showed that results can be effectively applied for reduced computational burden in atmospheric modeling.

关 键 词：Below-cloud scavenging Polydisperse aerosol PARAMETERIZATION Cunningham correction factor Scavenging coefficient 

分 类 号：X513[环境科学与工程—环境工程]