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北京与成都大气污染特征及空气质量改善效果评估
摘要点击 6778  全文点击 702  投稿时间:2020-12-14  修订日期:2021-02-08
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中文关键词  污染特征  变化趋势  减排贡献  静稳天气指数(SWI)  环境气象指数(EMI)  北京  成都
英文关键词  pollution characteristics  trend of change  contribution to PM2.5 decrease  stable weather index(SWI)  environmental meteorological index(EMI)  Beijing  Chengdu
作者单位E-mail
党莹 成都信息工程大学大气科学学院, 高原大气与环境四川省重点实验室, 成都 610225 229743738@qq.com 
张小玲 成都信息工程大学大气科学学院, 高原大气与环境四川省重点实验室, 成都 610225 xlzhang@ium.cn 
饶晓琴 中国气象局环境气象中心, 北京 100081  
康平 成都信息工程大学大气科学学院, 高原大气与环境四川省重点实验室, 成都 610225  
何建军 中国气象科学研究院, 北京 100081  
卢宁生 成都信息工程大学大气科学学院, 高原大气与环境四川省重点实验室, 成都 610225  
华明 成都市气象局, 成都 610072  
向卫国 成都信息工程大学大气科学学院, 高原大气与环境四川省重点实验室, 成都 610225  
中文摘要
      近年来我国空气质量持续改善,大气颗粒物浓度明显降低.为探究气象条件和减排措施对细颗粒物(PM2.5)浓度的相对贡献,选取两个典型代表城市——北京和成都,对比分析两城市所处的地理环境条件、污染排放以及气象扩散条件.结果表明,北京与成都2013~2018年重污染天数及污染过程显著减少,SO2和PM2.5浓度降幅明显,与2013年相比,两城市2018年SO2浓度的降幅分别为77.8%和70.9%,PM2.5浓度分别降低了42.7%和48.5%.冬季PM2.5浓度下降速率最大,每年分别以13.5μg·m-3和14.1μg·m-3的速率降低.2013~2018年成都较北京风速偏小,温度偏高约3℃,静小风日数偏多,冬季静小风频率高,混合层高度、大气容量指数以及通风系数明显偏小,大气扩散条件较差.综合静稳天气指数(SWI)和环境气象指数(EMI)结果表明北京大气扩散条件优于成都,但近几年的变化程度有所不同.2014~2018年两城市的EMI呈减小趋势,2018年成都地区EMI降幅最显著,气象条件明显好转.与2014年相比,2018年北京与成都全年大气污染减排对PM2.5浓度的贡献分别为33.5%和24.0%,气象条件的贡献分别为7.2%和11.1%;冬季减排贡献分别为31.7%和32.5%,气象条件的贡献比全年的大.
英文摘要
      In recent years, China's air quality has been improving, and the concentration of atmospheric particulate matter has decreased significantly. In this study, the pollution characteristics and trends of two typical representative cities (Beijing and Chengdu) were analyzed. The geographical locations, pollution emissions, and meteorological diffusion conditions of the two cities were compared, to evaluate the relative contribution of meteorological conditions and pollution reduction regulations in decreasing fine particulate matter (PM2.5) concentrations. The results showed that the number of heavily polluted days and pollution episodes in Beijing and Chengdu decreased significantly from 2013 to 2018, and the concentration of SO2 and PM2.5 decreased substantially. Compared to 2013, SO2 concentration in Beijing and Chengdu has decreased by 77.8% and 70.9%, whereas PM2.5 concentration has decreased by 42.7% and 48.5%, respectively. The largest reduction appeared in winter, when PM2.5 decreased at an annual rate of 13.5 μg ·m-3 for Beijing and 14.1 μg ·m-3 for Chengdu. During the study period, the wind speed in Chengdu was less than that in Beijing, temperature was approximately 3℃ higher, and static wind in winter was more frequent. A significantly lower mixed-layer height, atmospheric capacity index, and ventilation coefficient in Chengdu resulted in more unfavorable atmospheric diffusion conditions. The static and stable weather index and the environmental meteorological index (EMI) also showed that the atmospheric diffusion conditions were better in Beijing than in Chengdu. The EMI of the two cities showed a decreasing trend during the study period, and the decline in EMI in Chengdu was the most significant in 2018, indicating an evident improvement in meteorological conditions. In 2018, emission reductions are estimated to have contributed 33.5% and 24% to the decrease in PM2.5 in Beijing and Chengdu, respectively, and meteorological conditions contributed 7.2% and 11.1% to the reduction in these two cities. In winter, emission reductions respectively contributed 31.7% and 32.5% to reduction in Beijing and Chengdu, while meteorological conditions made a larger contribution.

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