Application of principal component analysis in air quality
assessment of Hefei City

doi:10.3969/j.issn.1673-6141.2024.04.008

Abstract

Abstract: Based on the daily average concentration monitoring data of important pollutants and the meteorological data at ground national control stations from January 1, 2019 to December 31, 2020, a comprehensive assessment of urban air quality in Hefei City, China, was conducted using the principal component analysis method. The pollutant data includes daily values of important atmospheric pollutants such as fine particulate matter (PM2.5), inhalable particulate matter (PM10), nitrogen dioxide (NO2), sulfur dioxide (SO2), carbon monoxide (CO), and ozone (O3), and the corresponding daily mean meteorological parameters include temperature, wind speed, sunshine duration, precipitation, atmospheric pressure, and relative humidity. Firstly, the indicators that have a significant impact onthe air quality were selected through stepwise regression, and then these significant indicators were reduced to a lower dimension through the principal component analysis. According to the theory of principal component analysis, two principal components were extracted from five significant impact indicators, and the cumulative variance contribution rate of the two extracted principal components reached 82.9%. The first principal component was characterized by high loadings of PM2.5, CO, and PM10 concentrations, implying the significant impact of these parameters on the air quality of Hefei. The second principal component was characterized by high loadings of O3 concentration and sunshine duration, demonstrating their important role on the air quality of Hefei. Overall, good correlation was observed between the results from principal component analysis and the air quality index with a correlation coefficient of 0.78. In addition, it is found that the proposed method is more suitable to assess the air quality in winter and under good air quality conditions. These findings highlight the good performance of principal component analysis method on the assessment of urban air quality.

Key words: principal component analysis, stepwise regression, air quality index, air quality assessment; Hefei City

CLC Number:

X831

ZHOU Chuang , ZHANG Qijin , GUO Yingying , MOU Fusheng , LI Suwen , . Application of principal component analysis in air quality assessment of Hefei City[J]. Journal of Atmospheric and Environmental Optics, 2024, 19(4): 479-488.

References

[1] RazaviTermeh Seyed Vahid,SadeghiNiaraki Abolghasem,Choi SooMi. Effects of air pollution in Spatio-temporal modeling of asthma-prone areas using a machine learning model[J]. Environmental research,2021,200.
[2] Lu Kejian, Duan Panpan, Dufei. Primary Exploration of the General Ecological Security for City [J]. Safety and Environmental Engineering,2006,13(3):83-86.
吕科建,段盼盼,杜菲.广义城市生态安全研究[J].安全与环境工程,2006,13(3):83-86.
[3]Liu Aiming. Research on the Pollution Property of Atmospheric Particulates in City Region[J]. Safety and Environmental Engineering,2009,16(6):15-20.
刘爱明.城市区域大气颗粒物的污染特征研究[J].安全与环境工程,2009,16(6):15-20.
[4] Wang Guanghui, Liu Qiumei. Air Quality Evaluation of Caofeidian District by Fuzzy Comprehensive Evaluation Method [J]. Environment and Sustainable Development, 2018,43 (05): 42-44.
王光辉,刘秋梅.基于模糊综合评判的曹妃甸区环境空气质量评价[J].环境与可持续发展,2018,43(05):42-44.
[5] Pu Yingjuan, Wang Linbang. Discussion on the evaluation method of the comprehensive index of ambient air quality [J] Environmental Science Survey, 2010,29 (02): 93-94.
普映娟,王琳邦.环境空气质量综合指数评价方法探讨[J].环境科学导刊,2010,29(02):93-94.
[6] Hu Jun, Xu Lizhong, Zhang Jiangshan. Modified Grey Clustering Model on Air Quality Assessment [J]. Journal of Fujian Normal University(Natural Science Edition), 2012,28 (01): 49-54.
胡军,许丽忠,张江山.基于改进灰色聚类法的大气环境质量综合评价[J].福建师范大学学报(自然科学版),2012,28(01):49-54.
[7] O. C. Vaidya,G. D. Howell,D. A. Leger. Evaluation of the Distribution of Mercury in Lakes in Nova Scotia and Newfoundland (Canada)[J].Water,Air,and Soil Pollution,2000,117(1-4).
[8] M Statheropoulos,N Vassiliadis,A Pappa.Principal component and canonical correlation analysis for examining air pollution and meteorological data[J].Atmospheric Environment,1998,32(6).
[9] Sabah A.Abdul-Wahab,Charles S.Bakheit,Saleh M. Al-Alawi.Principal component and multiple regression analysis in modelling of ground-level ozone and factors affecting its concentrations[J].Environmental Modelling and Software,2004,20(10).
[10] Liu Ping. Research on air quality evaluation method based on principal component analysis [J] . Environmental Protection and Circular Economy, 2018,38 (07): 46-52.
刘萍.基于主成分分析的空气质量评价方法研究[J].环境保护与循环经济,2018,38(07):46-52.
[11] Zhang Ru, Zhang xueyang, Lu Hongguang, et al. Urban Air Quality Evaluation by Analytic Hierarchy Process and Principal Component Analysis -- A Case Study of Xuzhou City [J]. Safety and Environmental Engineering, 2017,24 (03): 103-107.
张茹,张学杨,陆洪光,等.基于层次分析和主成分分析的城市空气质量评价——以徐州市为例[J].安全与环境工程,2017,24(03):103-107.
[12] A. Astel,S.Tsakovski,P.Barbieri,V.Simeonov.Comparison of self-organizing maps classification approach with cluster and principal components analysis for large environmental data sets[J]. Water Research,2007,41(19).
[13] Zhu Xinming, Li Li, Lu Sheng, et al. Air Quality Evaluation from 2014 to 2018 in Tongxiang [J] Environmental Science and Management, 2020,45 (05): 179-183.
祝新明,李莉,吕升, 等.2014年-2018年桐乡市环境空气质量评价研究[J].环境科学与管理,2020,45(05):179-183.
[14] He Shushen, Zhao bingtao, Yu Zhiyuan. Development and Comparison of National Ambient Air Quality Standards in China [J] .Environmental Monitoring in China, 2014,30 (04): 50-55.
何书申,赵兵涛,俞致远.环境空气质量国家标准的演变与比较[J].中国环境监测,2014,30(04):50-55.
[15] Duan Fengkui, he Kebin, Liu Xiande. Concentration characteristics and sources of organic acids in PM2.5 in Beijing[J] Acta Scientiae Circumstantiae, 2009,29 (06): 1139-1145.
段凤魁,贺克斌,刘咸德.北京PM_(2.5)中有机酸的污染特征及来源[J].环境科学学报,2009,29(06):1139-1145.
[16]Tong Yaoqing, Yin Yan, Qian Ling, et al. Analysis of the characteristics of hazy phenomena in Nanjing area [J] .China Environmental Science, 2007 (05): 584-588.
童尧青,银燕,钱凌, 等.南京地区霾天气特征分析[J].中国环境科学,2007(05):584-588.
[17] An Junlin, Wang yuesi, Zhu bin.Principal component and multiple regression analysis predicting ozone concentrations—Case study in summer in Beijing[J]. Acta Scientiae Circumstantiae, 2010,30 (06): 1286-1294.
安俊琳,王跃思,朱彬.主成分和回归分析方法在大气臭氧预报的应用——以北京夏季为例[J].环境科学学报,2010,30(06):1286-1294.
[18] Li Cheng, Li Haibo, Gao Dandan, et al. Application of principal component analysis in the evaluation of urban atmospheric environment quality[J]. Journal of Hubei University(Natural Science), 2016,38 (06): 567-571.
李成,李海波,高丹丹,等．主成分分析在城市大气环境质量评价中的应用[J]．湖北大学学报（自然科学版）,2016,38(06):567-571.

Application of principal component analysis in air quality assessment of Hefei City

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 8

Recommended Articles

Metrics

Comments

[1]	HU Yang , GAO Wei , YANG Jie. Evaluation of eco-environmental quality in central urban areas of Tianjin City based on multi-temporal remote sensing images [J]. Journal of Atmospheric and Environmental Optics, 2023, 18(2): 168-180.
[2]	ZHANG Qijin , , GUO Yingying , , LI Suwen , ∗ , MOU Fusheng , ∗. Prediction of SO2 concentration by RBF neural network based on principal component analysis [J]. Journal of Atmospheric and Environmental Optics, 2022, 17(5): 550-557.
[3]	GUO Yingying, QI Hexiang, LI Suwen∗, MOU Fusheng∗. Application of BP neural network based on particle swarm optimization in atmospheric NO2 concentration prediction [J]. Journal of Atmospheric and Environmental Optics, 2022, 17(2): 230-240.
[4]	. Application of Principal Component Analysis Combined Fisher\\[0.2cm] Discrimination in Water Quality Detection by UV-Vis Spectroscopy [J]. Journal of Atmospheric and Environmental Optics, 2018, 13(6): 436-.
[5]	CAO Jing-Hao, KANG Meng, ZOUU Xue, ZHOU Wen-Zhao, LU Yan, SHEN Cheng-Yin, HUANG Chao-Qun, CHU Yan-Nan. Characteristics and Source Apportionment of Volatile Organic Compounds in Hefei Science Dongpu Reservoir [J]. Journal of Atmospheric and Environmental Optics, 2017, 12(5): 362-370.
[6]	SANG Hao, WANG Xian-Hua, XIE Han-Han, JIANG Yun. Statistic Retrieval Method of Carbon Dioxide Based on Principal Component Analysis [J]. Journal of Atmospheric and Environmental Optics, 2017, 12(3): 202-209.
[7]	LIU Miao, GU Ji-Lin, LIU Li-Juan, WANG Zhen, HUANG Shan-Li, LIU Ying-Bo, DUAN Wan-Ling, FENG Qiu-Shi. Air Quality Analysis of Dalian in the Summer Based on the Data of AQI [J]. Journal of Atmospheric and Environmental Optics, 2016, 11(2): 111-117.
[8]	ZHOU Yan, LIU Zhi-Shen. Direct Inversion Method of Shallow-Water Bathymetry from Hyperion Data [J]. Journal of Atmospheric and Environmental Optics, 2011, 6(2): 112-.