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Direct Observation of Sulfate Explosive Growth in Wet Plumes Emitted From Typical Coal‐Fired Stationary Sources

Xiang Ding, Qing Li, Di Wu, Xiaoyan Wang, Mei Li, Tao Wang, Lin Wang, Jianmin Chen

2021Geophysical Research Letters43 citationsDOIOpen Access PDF

Abstract

Abstract The origins of atmospheric sulfate production have previously been explained by focusing on air quality models and complex chemical reaction processes. Here, we first report direct observations of sulfate production in stack plumes discharged from coal‐fired power plants, industrial boilers, and sintering plants equipped with wet desulfurization systems. Less than one third of the particulate SO 4 2− in plumes is attributed to dust‐SO 4 2− and SO 3 measured in stacks. The SO 2 aqueous‐phase oxidation process is critical in explaining the unknown sulfate formation in plume droplets with pH values ranging from 2.3 to 2.8. When the rapidly formed sulfate in wet plumes is included, a notable amount of underestimated sulfate (∼0.24 Tg in 2017) is emitted from industrial stacks in China and can partially explain the “missing sulfate” on driving most particle pollution episodes. Policy‐making targeting particulate emissions is suggested to substantially reduce sulfate emissions for further air quality improvement.

Topics & Concepts

SulfateParticulatesPlumeCoalSulfate aerosolEnvironmental scienceAir quality indexFlue-gas desulfurizationAerosolEnvironmental chemistryPanacheExplosive materialStack (abstract data type)Air pollutionPollutionCoal combustion productsEnvironmental engineeringWaste managementChemistryMeteorologyMaterials scienceMetallurgyOrganic chemistryProgramming languagePhysicsEcologyBiologyComputer scienceEngineeringAtmospheric chemistry and aerosolsAir Quality and Health ImpactsAtmospheric aerosols and clouds
Direct Observation of Sulfate Explosive Growth in Wet Plumes Emitted From Typical Coal‐Fired Stationary Sources | Litcius