Ozone Pollution in the North China Plain during the 2016 Air Chemistry Research in Asia (ARIAs) Campaign: Observations and a Modeling Study

Air Pub Date : 2024-06-05 DOI:10.3390/air2020011
Hao He, Zhanqing Li, Russell R. Dickerson
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Abstract

To study air pollution in the North China Plain (NCP), the Air Chemistry Research in Asia (ARIAs) campaign conducted airborne measurements of air pollutants in spring 2016. High pollutant concentrations, with O3 > 100 ppbv, CO > 500 ppbv, and NO2 > 10 ppbv, were observed. CMAQ simulations with the 2010 EDGAR emissions capture the spatial and temporal variations in ozone and its major precursors such as NO2 and VOCs, with significant underestimation. Differences between CMAQ simulations and satellite observations reflect changes in anthropogenic emissions, decreased NOx emissions in megacities such as Beijing, but slight increases in other cities and rural areas. CMAQ also underestimates HCHO and CO, suggesting adjustments of the 2010 EDGAR emissions are necessary. HCHO/NO2 column ratios derived from OMI measurements and CMAQ simulations show that VOC-sensitive chemistry dominates the ozone photochemical production in eastern China, suggesting the importance of tightening regulations on anthropogenic VOC emissions. After adjusting emissions based on satellite observations, better model performance was achieved. Because of the VOC-sensitive environment in ozone chemistry over the NCP, the underestimation of anthropogenic emissions could be important for CMAQ simulations, while future study and regulations should focus on VOC emissions with continuous controls on NOx emissions in China.
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2016 年亚洲空气化学研究(ARIAs)活动期间华北平原的臭氧污染:观测和模拟研究
为了研究华北平原(NCP)的空气污染情况,亚洲空气化学研究(ARIAs)活动于 2016 年春季对空气污染物进行了空中测量。观测到污染物浓度较高,O3 > 100 ppbv,CO > 500 ppbv,NO2 > 10 ppbv。利用 2010 年 EDGAR 排放量进行的 CMAQ 模拟捕捉到了臭氧及其主要前体物(如二氧化氮和挥发性有机化合物)的时空变化,但存在明显的低估。CMAQ 模拟结果与卫星观测结果之间的差异反映了人为排放的变化,北京等特大城市的氮氧化物排放量减少,但其他城市和农村地区的氮氧化物排放量略有增加。CMAQ 还低估了 HCHO 和 CO,这表明有必要对 2010 年 EDGAR 排放量进行调整。通过 OMI 测量和 CMAQ 模拟得出的 HCHO/NO2 柱比率表明,VOC 敏感化学在华东地区的臭氧光化学生成中占主导地位,这表明加强对人为 VOC 排放监管的重要性。根据卫星观测结果调整排放后,模型性能得到改善。由于国家臭氧中心上空的臭氧化学环境对挥发性有机化合物敏感,人为排放的低估可能会对 CMAQ 模拟产生重要影响,而未来的研究和法规应侧重于挥发性有机化合物的排放,并持续控制中国的氮氧化物排放。
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