ZHOU Ying,XIANG Wei-guo.Analysis of the Characteristics of the Height of Atmospheric Mixed Layers in Sichuan Basin and its Correlation with AQI[J].Journal of Chengdu University of Information Technology,2018,(05):562-571.[doi:10.16836/j.cnki.jcuit.2018.05.014]
四川盆地大气混合层高度特征及其与AQI的相关性分析
- Title:
- Analysis of the Characteristics of the Height of Atmospheric Mixed Layers in Sichuan Basin and its Correlation with AQI
- 文章编号:
- 2096-1618(2018)05-0562-10
- Keywords:
- atmospheric science; atmospheric environment; mixed layer height; change characteristics; upward trend; AQI; correlation
- 分类号:
- P404
- 文献标志码:
- A
- 摘要:
- 针对不同气象条件和天气过程对污染物扩散条件的影响,利用2011-2017年4月四川盆地6个城市每天8个时次的地面观测资料,运用国标法、罗氏法和联合频率法计算了大气混合层的高度,并分析了混合层高度的变化特征; 同时结合国家环保部数据中心2014-2017年4月的AQI日平均资料,对混合层高度与AQI做了相关性分析。研究结果如下:混合层高度的3种计算方法中联合频率法具有更好的精确性和代表性,更能反映实际情况; 四川盆地的混合层年平均高度为587.2 m,变化范围在530~660 m,并呈抬高趋势; 月平均高度为591.26 m,变化范围在440~770 m,最低值出现在秋、冬两季,最高值出现在春、夏两季,说明春、夏两季大气的扩散条件比秋、冬两季要好; 近年来冬季的混合层高度大致上也呈现抬高的趋势,表明冬季的扩散条件有所转好; 一天之中混合层高度在午后14时达到最高,夜间02时最低。混合层高度与AQI总体来说表现为负相关,其中达州混合层高度与AQI的相关性最好,相关系数为-0.22,但其相关性根据季节的变化而存在波动,一般在冬季混合层高度与AQI为显著的负相关,而在春、夏两季则出现正相关。
- Abstract:
- In view of the impact of different meteorological conditions and weather processes on the diffusion conditions of pollutants, the ground observation data of 8 times per day in 6 cities in the Sichuan Basin from April 2011 to April 2017 were used to calculate the atmosphere by using the national standard method, the Roche method and the joint frequency method. The height of the mixed layer was analyzed and the characteristics of the height of the mixed layer were analyzed by combining with the AQI daily average data from the data center of the Ministry of Environmental Protection from April 2014 to April 2017. The correlation between the height of the mixed layer and the AQI was analyzed. The results are as follows: The joint frequency method has better accuracy and represent ativeness in the three calculation methods of mixed layer height, and it can reflect the actual situation more effectively; The annual average height of the mixed layer in the Sichuan Basin is 587.2 m, and the change range is between 530 and 660 m. There is a trend of elevation; The monthly average height is 591.26 m, and the change range is between 440 and 770 m. The lowest value occurs in autumn and winter, and the highest value occurs in spring and summer. This shows that the diffusion conditions of the atmosphere in spring and summer are better than those in autumn and winter. In recent years, the height of the mixed layer in winter has also shown a tendency of elevation. This indicates that the diffusion conditions in winter have improved. In one day, the height of the mixing layer reaches the highest at 14:00 and the lowest at 02:00. The mixed layer height is negatively correlated with the overall AQI. The correlation between the height of the mixed layer in Dazhou and the AQI is the best, and the correlation coefficient is -0.22, but the correlation fluctuates according to the seasons, generally in the mixed layer height in winter. There was a significant negative correlation with AQI and a positive correlation in the spring and summer.
参考文献/References:
[1] 刘北平.确定大气混合层高度方法的研究[J].环境科学研究,1990,3(1):8-12.
[2] 马福建.用常规地面气象资料估算大气混合层深度的一种方法[J].环境科学,1990,5(1):11-14.
[3] 童志权.大气环境影响评价[M].北京:中国环境科学出版社,1988:29-32.
[4] 周颖.贵阳市混合层高度的研究[J].贵州环保科技,1997,3(4):37-40.
[5] 程水源,席德立,张宝宁,等.大气混合层高度的确定与计算方法研究[J].中国环境科学, 1997,17(6):512-516.
[6] 沈鹰.混合层高度的季节变化[J].环境科学导刊,1990(1):30-33.
[7] 徐芙蓉,施介宽.混合层高度变化趋势及其代表值的探讨[J].东华大学学报,2003,29(4):99-102.
[8] 杨勇杰,谈建国,郑有飞,等.上海市近15a大气稳定度和混合层厚度的研究[J].气象科学,2006,26(5):536-541.
[9] 杨静,李霞,李秦,等.乌鲁木齐近30a大气稳定度和混合层高度变化特征及与空气污染的关系[J].干旱区地理,2011,34(5):747-752.
[10] 叶堤,王飞,陈德蓉. 重庆市多年大气混合层厚度变化特征及其对空气质量的影响分析[J].气象与环境学报.2008,24(4):41-44.
[11] 张建忠,孙瑾,王冠岚,安林昌,王维和.北京地区空气质量指数时空分布特征及其与气象条件的关系[J].气象与环境科学,2014,37(1):33-38.
[12] 李梦,唐贵谦,黄俊,等.京津冀冬季大气混合层高度与大气污染的关系[J].环境科学,2015,36(6):1935-1943.
[13] 毛维薇,张甫仁.大气混合层高度对通风及污染物扩散的影响[J].重庆工商大学学报,2016,33(6):105-112.
[14] GB/T13201-91,制定地方大气污染物排放标准的技术方法[S].北京:标准出版社,1992.
[15] 尤焕苓,刘伟东,潭江瑞.北京地区平均最大混合层厚度的时间变化特征[J].气象,2010,36(5):51-55.
[16] 于庚康,王博妮,陈鹏,等.2013年初江苏连续性雾-霾天气的特征分析[J].气象,2015,41(5):622-629.
[17] 朱宽广,谢旻,霍云怡,等.南京城市下垫面变化对夏季臭氧浓度的影响研究[J].中国环境科学,2015,35(11):3217-3226.
[18] 安俊琳,王跃思,李昕.北京大气中NO、NO2和O3浓度变化的相关分析[J].环境科学,2007,28(4):706-711.
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备注/Memo
收稿日期:2018-02-27 基金项目:四川省环境保护科学研究院资助项目(2017H032)