An improved hourly-resolved atmospheric NOx emission inventory of industrial sources based on Continuous Emission Monitoring System data: Case of Jiangsu Province, China

Current emission inventories with low spatial and temporal resolutions, slow updates, and great uncertainty can no longer meet the new demands for the precise prevention and control of air pollution. This study considered industrial sources of Jiangsu province in 2018 as the research object and divi...

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Bibliographic Details
Published in:Journal of cleaner production 2023-09, Vol.419, p.138192, Article 138192
Main Authors: Sun, Chu, Li, Baojie, Chen, Lei, Gao, Yucheng, Jin, Jianbing, Gu, Xuan, Yang, Yang, Lou, Yuxiang, zhao, Yongqi, Liao, Hong
Format: Article
Language:English
Subjects:
Continuous emission monitoring system
Emission inventory
High-resolution
Industrial sources
NOx
WRF-Chem model
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Summary:Current emission inventories with low spatial and temporal resolutions, slow updates, and great uncertainty can no longer meet the new demands for the precise prevention and control of air pollution. This study considered industrial sources of Jiangsu province in 2018 as the research object and divided key industrial sources into 16 processes. Based on the continuous emission monitoring system (CEMS) data of key enterprises, millions of hourly scale monitoring data from 17842-point source enterprises at 169289 emission outlets were collected. An hourly scale high-resolution industrial source NOx emission inventory was constructed and compared with existing inventories. The total NOx emissions of power plants, industrial boilers, ferrous metal manufacturing, non-metallic mineral manufacturing, and chemical manufacturing industries in Jiangsu Province in 2018 were 55, 27, 64, 28, and 3 Gg, respectively. The total emissions from industrial sources were high in summer, reaching a peak of 17 Gg in July, and low in winter, reaching 11 Gg in February. The emission factors of the power plants, coking, and cement industries decreased by 15.95%, 29.03%, and 51.61%, respectively. Hourly scales showed that the power plants had the most considerable fluctuation in 24 h emissions at 5.94%, with high emissions occurring in the afternoon and at night. However, the 24 h emissions of ferrous metal manufacturing fluctuated slightly, at only 3.22%, and the high emissions mostly occurred at night. The WRF-Chem model was used for simulation validation. The NO2 simulation results based on this study's inventory were significantly better than those based on the Multi-resolution Emission Inventory for China (MEIC), with normalized mean biases (NMBs) of −7.1% and −10.7% for January and July, respectively, which were 22.0% and 74.6% of the NMBs of the MEIC. The hourly scale high-precision emission inventory established in this study is significant for formulating real-time differentiated precise prevention and control policies and improving the accuracy of air quality models. [Display omitted] •Millions of monitoring data was used to establish the NOx emission inventory.•Total NOx emissions were 177 Gg, ferrous metal manufacturing industry took first.•The NO2 simulation results from WRF-Chem model were improved by using our inventory.•The monthly, daily and hourly emission variations were identified.
ISSN:0959-6526
DOI:10.1016/j.jclepro.2023.138192