成都夏季臭氧光化学反应控制气象因子的概率分布特征

doi:10.19741/j.issn.1673-4831.2021.0450

Abstract

Abstract: Solar radiation, relative humidity, and ambient temperature are three key meteorological controlling factors for the photochemical reaction of ground-level ozone (O₃). Their distribution forms play an extremely important role in the nonlinear evolution of O₃. The hourly O₃ concentration data and corresponding meteorological data in the same period from 2016 to 2019 during summer in Chengdu were collected and Maximum Likelihood Estimation method was used to estimate parameters for probability distribution functions. At the same time, Kolmogorov-Smirnov test statistics (K-S test), root-mean-square-error (RMSE), Akaike Information Criterion (AIC), and Bayesian Information Criterion (BIC) were further combined to analyze the goodness of fit of multiple probability distribution functions of the three meteorological controlling factors for O₃ photochemical reaction,respectively. The results indicate that:(1) Johnson SB distribution function had the best fitting effect for both solar radiation and relative humidity. Additionally, under different O₃ concentration levels, the probability distribution of solar radiation and relative humidity kept obey Johnson SB distribution at significant level of α=0.05 in K-S test. (2) However, Johnson SU distribution function had the best fitting effect for ambient temperature. Moreover, the probability distributions of ambient temperature obey Johnson SU distribution under different O₃ concentration levels at significant level of α=0.05 in K-S test. (3) The probability distribution characteristics of the three meteorological controlling factors vary significantly and regularly with the changing of O₃ concentration level. These research results mentioned above could provide technical supports for the construction of O₃ pollution potential model during summer in Chengdu.

Key words: ozone, photochemical reaction, controlling meteorological factor, probability distribution, Chengdu

CLC Number:

X515

REN Zhi-han, NI Chang-jian, HUA Rui-yang, DU Yun-song. Probability Distribution Characteristics of Meteorological Factors Controlling the Photochemical Reaction of Ozone during Summer in Chengdu[J]. Journal of Ecology and Rural Environment, 2022, 38(3): 334-342.

References

[1] 严刚,薛文博,雷宇,等.我国臭氧污染形势分析及防控对策建议[J].环境保护,2020,48(15):15-19.[YAN Gang,XUE Wen-bo,LEI Yu,et al.Situation and Control Measures of Ozone Pollution in China[J].Environmental Protection,2020,48(15):15-19.]
[2] 姜华,常宏咪.我国臭氧污染形势分析及成因初探[J].环境科学研究,2021,34(7):1576-1582.[JIANG Hua,CHANG Hong-mi.Analysis of China's Ozone Pollution Situation,Preliminary Investigation of Causes and Prevention and Control Recommendations[J].Research of Environmental Sciences,2021,34(7):1576-1582.]
[3] 严茹莎,王红丽,黄成,等.上海市夏季臭氧污染特征及削峰方案[J].环境科学,2021,42(8):3577-3584.[YAN Ru-sha,WANG Hong-li,HUANG Cheng,et al.Characteristics and Control Strategies on Summertime Peak Ozone Concentration in Shanghai[J].Environmental Science,2021,42(8):3577-3584.]
[4] ZHANG Z Y,ZHANG X L,GONG D Y,et al.Evolution of Surface O₃ and PM_2.5 Concentrations and Their Relationships with Meteorological Conditions over the Last Decade in Beijing[J].Atmospheric Environment,2015,108:67-75.
[5] 刘建,吴兑,范绍佳,等.前体物与气象因子对珠江三角洲臭氧污染的影响[J].中国环境科学,2017,37(3):813-820.[LIU Jian,WU Dui,FAN Shao-jia,et al.Impacts of Precursors and Meteorological Factors on Ozone Pollution in Pearl River Delta[J].China Environmental Science,2017,37(3):813-820.]
[6] LI T T,YAN M L,MA W J,et al.Short-term Effects of Multiple Ozone Metrics on Daily Mortality in a Megacity of China[J].Environmental Science and Pollution Research,2015,22(11):8738-8746.
[7] XIE B,ZHANG H,WANG Z L,et al.A Modeling Study of Effective Radiative Forcing and Climate Response Due to Tropospheric Ozone[J].Advances in Atmospheric Sciences,2016,33(7):819-828.
[8] 李红,彭良,毕方,等.我国PM_2.5与臭氧污染协同控制策略研究[J].环境科学研究,2019,32(10):1763-1778.[LI Hong,PENG Liang,BI Fang,et al.Strategy of Coordinated Control of PM_2.5 and Ozone in China[J].Research of Environmental Sciences,2019,32(10):1763-1778.]
[9] 于瑞新,刘旻霞,李亮,等.长三角地区近15年大气臭氧柱浓度时空变化及影响因素[J].环境科学学报,2021,41(3):770-784.[YU Rui-xin,LIU Min-xia,LI Liang,et al.Spatial and Temporal Variation of Atmospheric Ozone Column Concentration and Influencing Factors in the Yangtze River Delta Region in Recent 15 Years[J].Acta Scientiae Circumstantiae,2021,41(3):770-784.]
[10] 刘芷君,谢小训,谢旻,等.长江三角洲地区臭氧污染时空分布特征[J].生态与农村环境学报,2016,32(3):445-450.[LIU Zhi-jun,XIE Xiao-xun,XIE Min,et al.Spatio-temporal Distribution of Ozone Pollution over Yangtze River Delta Region[J].Journal of Ecology and Rural Environment,2016,32(3):445-450.]
[11] 王玫,郑有飞,柳艳菊,等.京津冀臭氧变化特征及与气象要素的关系[J].中国环境科学,2019,39(7):2689-2698.[WANG Mei,ZHENG You-fei,LIU Yan-ju,et al.Characteristics of Ozone and Its Relationship with Meteorological Factors in Beijing-Tianjin-Hebei Region[J].China Environmental Science,2019,39(7):2689-2698.]
[12] 唐孝炎,张远航,邵敏.大气环境化学[M].北京:高等教育出版社,2006:272-273.[TANG Xiao-yan,ZHANG Yuan-hang,SHAO Min,et al.Environmental Chemistry of Atmosphere[M].Beijing:Higher Education Press,2006:272-273.]
[13] 符传博,周航.中国城市臭氧的形成机理及污染影响因素研究进展[J].中国环境监测,2021,37(2):33-43.[FU Chuan-bo,ZHOU Hang.Research Progress on the Formation Mechanism and Impact Factors of Urban Ozone Pollution in China[J].Environmental Monitoring in China,2021,37(2):33-43.]
[14] 朱蓉,张存杰,梅梅.大气自净能力指数的气候特征与应用研究[J].中国环境科学,2018,38(10):3601-3610.[ZHU Rong,ZHANG Cun-jie,MEI Mei.The Climate Characteristics of Atmospheric Self-cleaning Ability Index and Its Application in China[J].China Environmental Science,2018,38(10):3601-3610.]
[15] 钱骏,徐晨曦,陈军辉,等.2020年成都市典型臭氧污染过程特征及敏感性[J].环境科学,2021,42(12):5736-5746.[QIAN Jun,XU Chen-xi,CHEN Jun-hui,et al.Chemical Characteristics and Contaminant Sensitivity during Typical Ozone Pollution Processes of Chengdu in 2020[J].Environmental Science,2021,42(12):5736-5746.]
[16] 宋佳颖,刘旻霞,孙瑞弟,等.基于OMI数据的东南沿海大气臭氧浓度时空分布特征研究[J].环境科学学报,2020,40(2):438-449.[SONG Jia-ying,LIU Min-xia,SUN Rui-di,et al.Temporal and Spatial Distribution Characteristics of Atmospheric Ozone Concentration in Southeast Coast Based on OMI Data[J].Acta Scientiae Circumstantiae,2020,40(2):438-449.]
[17] 卫佩茹,邵天杰,黄小刚,等.2015-2018年东北地区臭氧浓度时空变化特征及其驱动因素研究[J].生态与农村环境学报,2020,36(8):988-997.[WEI Pei-ru,SHAO Tian-jie,HUANG Xiao-gang,et al.Study of Spatio-temporal Variation and the Influencing Factors of Ozone in Northeast China during 2015-2018[J].Journal of Ecology and Rural Environment,2020,36(8):988-997.]
[18] 曹晓云,祁栋林,肖建设,等.基于卫星观测的青海高原对流层臭氧时空分布特征研究[J].环境科学学报,2021,41(5):1640-1648.[CAO Xiao-yun,QI Dong-lin,XIAO Jian-she,et al.Temporal and Spatial Distribution Characteristics of Tropospheric Ozone in Qinghai Plateau Based on Satellite Observations[J].Acta Scientiae Circumstantiae,2021,41(5):1640-1648.]
[19] 韩丽,陈军辉,姜涛,等.成都市春季O₃污染特征及关键前体物识别[J].环境科学,2021,42(10):4611-4620.[HAN Li,CHEN Jun-hui,JIANG Tao,et al.Pollution Characteristics of O₃ and the Key Precursors in Chengdu During Spring[J].Environmental Science,2021,42(10):4611-4620.]
[20] 张瑞欣,陈强,夏佳琦,等.乌海市夏季臭氧污染特征及基于过程分析的成因探究[J].环境科学,2021,42(9):4180-4190.[ZHANG Rui-xin,CHEN Qiang,XIA Jia-qi,et al.Exploring Characteristics and Causes of Summer Ozone Pollution Based on Process Analysis in Wuhai[J].Environmental Scienc,2021,42(9):4180-4190.]
[21] 董昊,程龙,王含月,等.安徽省臭氧污染特征及气象影响因素分析[J].中国环境监测,2021,37(1):58-68.[DONG Hao,CHENG Long,WANG Han-yue,et al.Analysis of Ozone Pollution Characteristics and Meteorological Factors in Anhui Province[J].Environmental Monitoring in China,2021,37(1):58-68.]
[22] 王磊,刘端阳,韩桂荣,等.南京地区近地面臭氧浓度与气象条件关系研究[J].环境科学学报,2018,38(4):1285-1296.[WANG Lei,LIU Duan-yang,HAN Gui-rong,et al.Study on the Relationship between Surface Ozone Concentrations and Meteorological Conditions in Nanjing,China[J].Acta Scientiae Circumstantiae,2018,38(4):1285-1296.]
[23] 张淼,丁椿,李彦,等.山东省O₃时空分布及影响因素分析[J].环境科学,2021,42(12):5723-5735.[ZHANG Miao,DING Chun,LI Yan,et al.Spatial and Temporal Distribution of Ozone and Influencing Factors in Shandong Province[J].Environmental Science,2021,42(12):5723-5735.]
[24] 徐锟,刘志红,何沐全,等.成都市夏季近地面臭氧污染气象特征[J].中国环境监测,2018,34(5):36-45.[XU Kun,LIU Zhi-hong,HE Mu-quan,et al.Meteorological Characteristics of O₃ Pollution near the Ground in Summer of Chengdu[J].Environmental Monitoring in China,2018,34(5):36-45.]
[25] 杨云芸,胡燕,肖童觉,等.湖南省长株潭城市群臭氧分布特征研究及分析[J].灾害学,2021,36(2):97-103.[YANG Yun-yun,HU Yan,XIAO Tong-jue,et al.Distribution Characteristics of Ozone in Chang-Zhu-Tan Urban Agglomeration of Hunan Province[J].Journal of Catastrophology,2021,36(2):97-103.]
[26] 严晓瑜,缑晓辉,杨婧,等.中国典型城市臭氧变化特征及其与气象条件的关系[J].高原气象,2020,39(2):416-430.[YAN Xiao-yu,GOU Xiao-hui,YANG Jing,et al.The Variety of Ozone and Its Relationship with Meteorological Conditions in Typical Cities in China[J].Plateau Meteorology,2020,39(2):416-430.]
[27] 任至涵,倪长健,花瑞阳,等.成都O₃逐日污染潜势关键时段优选的GAM模型[J].中国环境科学,2021,41(11):5079-5085.[REN Zhi-han,NI Chang-jian,HUA Rui-yang,et al.Optimization of the Key Period of Daily Ozone Pollution Potential in Chengdu Based on Generalized Additive Model[J].China Environmental Science,2021,41(11):5079-5085.]
[28] HU J,LI Y C,ZHAO T L,et al.An Important Mechanism of Regional O₃ Transport for Summer Smog over the Yangtze River Delta in Eastern China[J].Atmospheric Chemistry and Physics,2018,18(22):16239-16251.
[29] 郑丽英,许婷婷,陈志安,等.成都市夏季臭氧污染特征及影响因素[J].气象与环境学报,2019,35(5):78-84.[ZHENG Li-ying,XU Ting-ting,CHEN Zhi-an,et al.Characteristics and Influencing Factors of Ozone Pollution in Summer in Chengdu[J].Journal of Meteorology and Environment,2019,35(5):78-84.]
[30] 杨景朝,赵晓莉,陶勇,等.2016-2019年夏半年成都市区臭氧污染天气特征分析[J].环境科学研究,2021,34(2):254-262.[YANG Jing-chao,ZHAO Xiao-li,TAO Yong,et al.Characteristics of Ozone Weather in Chengdu during Summer of 2016-2019[J].Research of Environmental Sciences,2021,34(2):254-262.]
[31] JI Z H,LIU X Q.Comparative Analysis of PM_2.5 Pollution Risk in China Using Three-dimensional Archimedean Copula Method[J].Geomatics,Natural Hazards and Risk,2019,10(1):2368-2386.
[32] 宋松柏,蔡焕杰,金菊良,等.Copulas函数及其在水文中的应用[M].北京:科学出版社,2012:112-113.
[33] 胡成媛,康平,吴锴,等.基于GAM模型的四川盆地臭氧时空分布特征及影响因素研究[J].环境科学学报,2019,39(3):809-820.[HU Cheng-yuan,KANG Ping,WU Kai,et al.Study of the Spatial and Temporal Distribution of Ozone and Its Influence Factors over Sichuan Basin Based on Generalized Additive Model[J].Acta Scientiae Circumstantiae,2019,39(3):809-820.]
[34] 陈永恒,熊帅,白乔文,等.快速路入口匝道车辆汇入位置的分布特征分析[J].华南理工大学学报(自然科学版),2018,46(11):125-131.[CHEN Yong-heng,XIONG Shuai,BAI Qiao-wen,et al.Analysis of Merging Position Distribution Characteristics of On-ramp Vehicles at Urban Expressway[J].Journal of South China University of Technology (Natural Science Edition),2018,46(11):125-131.]
[35] 彭伟.我国股票市场风险价值研究:基于时变条件Johnson Su密度的分析[J].武汉金融,2013(9):18-20.
[36] 李腊生,孙春花.样本数据正态性转换时变VaR[J].统计研究,2012,29(5):88-93.[LI La-sheng,SUN Chun-hua.VaR of Time-varying about Normality Transition of Sample Data[J].Statistical Research,2012,29(5):88-93.]

Probability Distribution Characteristics of Meteorological Factors Controlling the Photochemical Reaction of Ozone during Summer in Chengdu

RichHTML

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 10

Recommended Articles

Metrics

Comments

[1]	WANG Jun-xiu, MU Feng-yun, TIAN Tian, CHEN Lin, LI Qiu-yan. Spatial-temporal Differentiation of Black Carbon Aerosol in Chengdu-Chongqing Urban Agglomeration and Its Relationship with Land Use and Cover Change [J]. Journal of Ecology and Rural Environment, 2021, 37(6): 724-732.
[2]	WANG Zhi-chao, HE Xin-hua. Assessments of Ecological Quality in Jinjiang District of Chengdu City Using the FVC and RSEI Models [J]. Journal of Ecology and Rural Environment, 2021, 37(4): 492-500.
[3]	WEI Pei-ru, SHAO Tian-jie, HUANG Xiao-gang, ZHANG Zhong-di. Study of Spatio-Temporal Variation and the Influencing Factors of Ozone in Northeast China During 2015-2018 [J]. Journal of Ecology and Rural Environment, 2020, 36(8): 988-997.
[4]	HUO Qing-lin, XIAO Hui, WANG Jun-jie, DONG Yuan-yuan, ZHANG Yu-hao, WANG Dan, CHENG Zhang, ZHANG Shi-rong, XU Xiao-xun. Risk Assessments and Partition Characteristics of Heavy Metals in Water and Sediments of Freshwater Polyculture Ponds in Partial Area of Chengdu City [J]. Journal of Ecology and Rural Environment, 2019, 35(2): 180-188.
[5]	LIU Zhi-jun, XIE Xiao-xun, XIE Min, WANG Ti-jian, ZHU Xin-sheng, OUYANG Yan, FENG Wen, ZHU Kuan-guang, SHU Lei. Spatio-Temporal Distribution of Ozone Pollution Over Yangtze River Delta Region. [J]. Journal of Ecology and Rural Environment, 2016, 32(3): 445-450.
[6]	TANG Chuan-Dong, ZHANG Yu-Feng, WANG Wei-Min, LI Wei-Xin, WU Zhi-Lin, ZHAO Yi. Removal of Chlorophyll-a From Aquaculture Water Wwith Hydrodynamic Cavitation-Assisted Ozonation Method [J]. Journal of Ecology and Rural Environment, 2014, 30(4): 505-508.
[7]	ZHANG Xiao-Hong, YUAN Hong-Mei, JIANG Wen-Ju. CO₂ and N₂O Emission From the Rape Field and Their Controlling Factors [J]. Journal of Ecology and Rural Environment, 2007, 23(3): 5-8.
[8]	LU Sheng-Min, Oü Yang-Xiao-Kun , YING Min, LIU Qing-Mei. Mechanism of ozone degrading dimethoate [J]. Journal of Ecology and Rural Environment, 2004, 20(3): 70-72,76.
[9]	GAO Ji-Xi, ZHANG Lin-Bo, SHU Jian-Min, CAO Hong-Fa. Effects of Ozone on Plant Metabolism [J]. Journal of Ecology and Rural Environment, 1996, 12(4): 42-46.
[10]	WU Zhi-Lin, XU Yi-Gang. Primary study of ozone formation in NO₂-SO₂-rice-airsystems [J]. Journal of Ecology and Rural Environment, 1994, 10(3): 44-47.