Diagnostic analysis of regional ozone pollution in Yangtze River Delta, China: A case study in summer 2020

A regional ozone (O-3) pollution event occurred in the Yangtze River Delta region during August 17-23,2020 (except on August 21). This study aims to understand the causes O-3 pollution during the event using an emission-based model (i.e., the Community Multistate Air Quality (CMAQ) model) and an observation-based model (OBM). The OBM was used to investigate O-3 sensitivity to its precursors during the O-3 pollution, concluding that O-3 formation was limited by volatile organic compounds (VOCs) on August 19, but was co-limited by VOCs and nitrogen oxides (NOx) on other polluted days. Aromatics and alkenes were the two main VOC groups contributing to the O-3 formation, with trans-2-butene and m/p-xylene as the key species among the VOCs measured at the Nanjing urban site. The source apportionment results estimated using the source-oriented CMAQ model suggest that the transportation and industry sources dominated the non-background O-3 production in Nanjing, which were responsible for 52% and 24.7%, respectively. The O-3 concentration attributed to NOx (similar to 70%) was significantly higher than that attributed to VOCs (approximately 30%). The process analysis revealed that vertical mixing increased the O-3 concentrations in the early morning, and photochemical reactions promoted O-3 formation and accumulation during the daytime within the planetary boundary layer. At night, outflow from horizontal transport and nocturnal chemistry jointly resulted the O-3 depletion. The contributions of inter-city transport during the O-3 pollution period in Nanjing were also estimated. The predicted O-3 concentration was largely recorded from long-distance regions, reaching 46%, followed by local sources (38%) and surrounding cities (16%). The results indicate that both NOx and VOCs contributed significantly to O-3 pollution during this event, and the emissions controls of NOx and the key VOC species of aromatics and alkenes from a cooperative regional perspective should be considered to mitigate O-3 pollution. (C) 2021 Elsevier B.V. All rights reserved.