中国激光, 2019, 46 (1): 0110003, 网络出版: 2019-02-21
合肥梅雨季节大气污染物分布特征的激光雷达探测 下载: 1165次
Distribution Characteristics of Atmospheric Pollutions in Meiyu Season Observed by Lidar over Hefei
大气光学 消光系数 激光雷达 气溶胶 臭氧 梅雨季节 atmospheric optics extinction coefficient lidar aerosol ozone Meiyu season
摘要
利用AML-2型车载测污激光雷达测得的合肥梅雨季节大气污染物的监测数据, 研究梅雨季节对流层大气气溶胶和臭氧的时空分布特征, 对比分析雨水对大气污染物消减的影响。结果表明:梅雨季节气溶胶的消光系数较小, 且随着高度增大呈递减的趋势, 在0.5 km高度处, 多天的消光系数为 0.1~0.18 km-1; 持续降水对气溶胶浓度具有显著的消减作用, 梅雨季节之前和梅雨季节气溶胶消光系数的均值分别为0.37 km-1和0.14 km-1; 梅雨季节臭氧的时空变化特征明显, 臭氧浓度随高度的增大而逐渐减小, 臭氧浓度的日差异较大, 2008年6月20日和24日, 0.4 km高度处臭氧质量浓度相差59.5 μg/m3; 与梅雨季节之前相比, 梅雨季节的臭氧浓度大幅减小, 相同高度处臭氧质量浓度均值的差值可达41.8 μg/m3。
Abstract
By analyzing monitoring data of atmospheric pollutions in Meiyu season measured by AML-2 mobile lidar, we study the temporal and spatial distribution characteristics of aerosol and ozone in troposphere over Hefei in Meiyu season, and analyze the effect of precipitation on pollution reduction. The results show that the aerosol extinction coefficient is small in Meiyu season and decreases with the increase of altitude on the whole. At 0.5 km, the extinction coefficient is from 0.1 km-1 to 0.18 km-1 in multiple days in Meiyu season. Continuous precipitation plays a significant role in reducing aerosol concentration, the mean aerosol extinction coefficient before Meiyu season and in Meiyu season is 0.37 km-1 and 0.14 km-1, respectively. The temporal and spatial variation characteristics of ozone are obvious in Meiyu season. The ozone concentration decreases with the increase of altitude and shows large daily variation. In June 20 and 24, 2008, the difference of mass concentration of ozone at 0.4 km is about 59.5 μg/m3. Compared with concentration of ozone before Meiyu season, the concentration in Meiyu season is greatly reduced with the maximum difference up to 41.8 μg/m3 at the same height.
方欣, 王敏, 胡顺星. 合肥梅雨季节大气污染物分布特征的激光雷达探测[J]. 中国激光, 2019, 46(1): 0110003. Fang Xin, Wang Min, Hu Shunxing. Distribution Characteristics of Atmospheric Pollutions in Meiyu Season Observed by Lidar over Hefei[J]. Chinese Journal of Lasers, 2019, 46(1): 0110003.