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武汉市空气质量状况与气象条件的关系

Air quality condition in Wuhan and its relationship to meteorological factors

  • 摘要: 基于2013年武汉市环境监测数据和气象要素资料, 分析该市空气质量状况与气象条件的关系。结果表明, 武汉市全年平均空气质量指数(AQI)为135, 良和轻度污染所占比例分别为35%和30%。雾天、霾天、晴天、雨天四种天气条件下, 6种污染物(SO2、NO2、CO、O3、PM2.5和PM10)浓度值基本上为雾天最高、霾天次之、晴天再次之、雨天最低, 雾天00-08时污染物浓度明显高于其他天气条件; PM2.5浓度与降水量的相关性较差, 中雨量级时, 降水对污染物的清除作用显著, PM2.5浓度下降明显, 当日降水量小于1 mm时, PM2.5浓度略有上升, 平均上升1.3 μg·m-3左右, 这与微量降水的大气增湿作用有关; PM2.5浓度变化与相对湿度(RH)和风速的关系较明显, 其相关系数分别为0.87和-0.72, 当RH>70%且每增加10%时, PM2.5浓度增加10 μg·m-3左右; 静风和风速很大时, 污染物浓度相对较高, 东南风影响下PM2.5浓度在四季均较高, 而秋、冬季在西北风影响下PM2.5浓度最高; PM2.5浓度主要增长阶段以正变温、负变压为主。

     

    Abstract: Based on environmental monitoring and meteorological data in Wuhan in 2013, we have analyzed the air quality conditions in Wuhan and their influencing meteorological factors.The results indicate that annual mean Air Quality Index (AQI) is 135 in Wuhan, and days of the good quality and mild contamination account for 35% and 30% of the total days, respectively.Under four different weather conditions, the concentration value of the six pollutants (SO2, NO2, CO, O3, PM2.5 and PM10) is basically the highest in fog weather, followed by haze and sunshine weather, and last in rain weather.The pollutants concentration is much higher at 00 a.m.and 08 a.m.in fog weather than that in other weather.The concentration of PM2.5 has a weak linear correlation with precipitation, and shows a significant decrease at moderate rain weather due to the cleansing effect of precipitation on pollutants.The concentration of PM2.5 shows a weak increase (1.3 μg·m-3 or so on average) when daily precipitation is less than 1 mm, which is related to the humidity-increasing effect of trace precipitation on air.The PM2.5 concentration has a strong linear correlation with the relative humidity (RH) and the wind speed, with a correlation coefficient of 0.87 and-0.72, respectively.For every 10% increase of RH from 70%, the PM2.5 concentration increases by about 10 μg·m-3.When it is calm or very high wind, the pollutants concentration is relatively high.Under southeast wind, the concentration of PM2.5 is high in all four seasons of the year, although the highest value occurs in autumn and winter under northwest wind.The positive 24-hourly temperature difference and the negative 24-hourly pressure difference predominate during the main increasing stage of PM2.5 concentration.

     

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