1. Dominant role of emission reduction in PM2.5 air quality improvement in Beijing during 2013–2017: a model-based decomposition analysis.
- Author
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Cheng, Jing, Su, Jingping, Cui, Tong, Li, Xiang, Dong, Xin, Sun, Feng, Yang, Yanyan, Tong, Dan, Zheng, Yixuan, Li, Yanshun, Li, Jinxiang, Zhang, Qiang, and He, Kebin
- Subjects
HAZE ,EMISSION inventories ,AIR quality ,AIR pollution prevention ,AIR pollution control ,EMISSION control ,DUST control - Abstract
In 2013, China's government published the Air Pollution Prevention and Control Action Plan (APPCAP) with a specific target for Beijing, which aims to reduce annual mean PM 2.5 concentrations in Beijing to 60 µ g m -3 in 2017. During 2013–2017, the air quality in Beijing was significantly improved following the implementation of various emission control measures locally and regionally, with the annual mean PM 2.5 concentration decreasing from 89.5 µ g m -3 in 2013 to 58 µ g m -3 in 2017. As meteorological conditions were more favourable to the reduction of air pollution in 2017 than in 2013 and 2016, the real effectiveness of emission control measures on the improvement of air quality in Beijing has frequently been questioned. In this work, by combining a detailed bottom-up emission inventory over Beijing, the MEIC regional emission inventory and the WRF-CMAQ (Weather Research and Forecasting Model and Community Multiscale Air Quality) model, we attribute the improvement in Beijing's PM 2.5 air quality in 2017 (compared to 2013 and 2016) to the following factors: changes in meteorological conditions, reduction of emissions from surrounding regions, and seven specific categories of local emission control measures in Beijing. We collect and summarize data related to 32 detailed control measures implemented during 2013–2017, quantify the emission reductions associated with each measure using the bottom-up local emission inventory in 2013, aggregate the measures into seven categories, and conduct a series of CMAQ simulations to quantify the contribution of different factors to the PM 2.5 changes. We found that, although changes in meteorological conditions partly explain the improved PM 2.5 air quality in Beijing in 2017 compared to 2013 (3.8 µ g m -3 , 12.1 % of total), the rapid decrease in PM 2.5 concentrations in Beijing during 2013–2017 was dominated by local (20.6 µ g m -3 , 65.4 %) and regional (7.1 µ g m -3 , 22.5 %) emission reductions. The seven categories of emission control measures, i.e. coal-fired boiler control , clean fuels in the residential sector , optimize industrial structure , fugitive dust control , vehicle emission control , improved end-of-pipe control , and integrated treatment of VOCs , reduced the PM 2.5 concentrations in Beijing by 5.9, 5.3, 3.2, 2.3, 1.9, 1.8, and 0.2 µ g m -3 , respectively, during 2013–2017. We also found that changes in meteorological conditions could explain roughly 30 % of total reduction in PM 2.5 concentration during 2016–2017 with more prominent contribution in winter months (November and December). If the meteorological conditions in 2017 had remained the same as those in 2016, the annual mean PM 2.5 concentrations would have increased from 58 to 63 µ g m -3 , exceeding the target established in the APPCAP. Despite the remarkable impacts from meteorological condition changes, local and regional emission reductions still played major roles in the PM 2.5 decrease in Beijing during 2016–2017, and clean fuels in the residential sector , coal-fired boiler control , and optimize industrial structure were the three most effective local measures (contributing reductions of 2.1, 1.9, and 1.5 µ g m -3 , respectively). Our study confirms the effectiveness of clean air actions in Beijing and its surrounding regions and reveals that a new generation of control measures and strengthened regional joint emission control measures should be implemented for continued air quality improvement in Beijing because the major emitting sources have changed since the implementation of the clean air actions. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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