AI Article Synopsis
- This study analyzes the impact of the COVID-19 lockdown on air quality in Chengdu from January 23 to March 14, 2020, by measuring photochemical precursors and comparing them to data from the previous two years.
- The analysis shows that while concentrations of reactive species like OH, HO, and RO increased significantly due to reduced nitrogen oxides, the overall atmospheric oxidation capacity only saw a slight rise.
- The findings suggest that controlling alkene emissions is crucial to prevent secondary pollution, which may be relevant for other regions in China amidst the shift towards electric vehicles.
Article Abstract
This study presents the measurement of photochemical precursors during the lockdown period from January 23, 2020, to March 14, 2020, in Chengdu in response to the coronavirus (COVID-19) pandemic. To derive the lockdown impact on air quality, the observations are compared to the equivalent periods in the last 2 years. An observation-based model is used to investigate the atmospheric oxidation capacity change during lockdown. OH, HO, and RO concentrations are simulated, which are elevated by 42, 220, and 277%, respectively, during the lockdown period, mainly due to the reduction in nitrogen oxides (NO). However, the radical turnover rates, i.e., OH oxidation rate L(OH) and local ozone production rate P(O), which determine the secondary intermediates formation and O formation, only increase by 24 and 48%, respectively. Therefore, the oxidation capacity increases slightly during lockdown, which is partly attributed to unchanged alkene concentrations. During the lockdown, alkene ozonolysis seems to be a significant radical primary source due to the elevated O concentrations. This unique data set during the lockdown period highlights the importance of controlling alkene emission to mitigate secondary pollution formation in Chengdu and may also be applicable in other regions of China given an expected NO reduction due to the rapid transformation to electrified fleets in the future.
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| http://dx.doi.org/10.1021/acs.est.3c08761 | DOI Listing |
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