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- Title
Modeling the impact of heterogeneous reactions of chlorine on summertime nitrate formation in Beijing, China.
- Authors
Xionghui Qiu; Qi Ying; Shuxiao Wang; Lei Duan; Jian Zhao; Jia Xing; Dian Ding; Yele Sun; Baoxian Liu; Aijun Shi; Xiao Yan; Qingcheng Xu; Jiming Hao
- Abstract
A comprehensive chlorine heterogeneous chemistry is incorporated into the Community Multiscale Air Quality (CMAQ) model to evaluate the impact of chlorine-related heterogeneous reaction on diurnal and nocturnal nitrate formation and quantify the nitrate formation from gas-to-particle partitioning of HNO3 and from different heterogeneous pathways. The results show that these heterogeneous reactions increase the atmospheric Cl2 and ClNO2 level, leading to an increase of the nitrate concentration by ~ 10% in the daytime. However, these reactions also lead to a decrease the nocturnal nitrate by ~ 20%. Sensitivity analyses of uptake coefficients show that the empirical uptake coefficient for the O3 heterogeneous reaction with chlorinated particles may lead to the large uncertainties in the predicted Cl2 and nitrate concentrations. The N2O5 uptake coefficient with particulate Cl- concentration dependence performs better to capture the concentration of ClNO2 and nocturnal nitrate concentration. The reaction rate of OH and NO2 in daytime increases by ~ 15% when the heterogeneous chlorine chemistry is incorporated, resulting more nitrate formation from HNO3 gas-to-particle partitioning. By contrast, the contribution of the heterogeneous reaction of N2O5 to nitrate concentrations decreases by about 27% in the nighttime when its reactions with chloriated particles are considered. However, the generated gas-phase ClNO2 from the heterogeneous reaction of N2O5 and chlorine-containing particles further decompose to increase the nitrate by 6%. In general, this study highlights the potential of significant underestimation of daytime and overestimation of nighttime nitrate concentrations for chemical transport models without proper chlorine chemistry in the gas and particle phases.
- Subjects
BEIJING (China); AIR quality; NITRATES &; the environment; ATMOSPHERIC chlorine; ATMOSPHERIC transport
- Publication
Atmospheric Chemistry & Physics Discussions, 2018, p1
- ISSN
1680-7367
- Publication type
Article
- DOI
10.5194/acp-2018-1270