Geostatistical Modelling and Mapping of the Concentration of Gaseous Pollutants

J. S. Okpoko, H. Audu
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引用次数: 1

Abstract

In this study, the prediction of the concentration of gaseous pollutants around Ughelli West gas flow station in Delta State of Nigeria was carried out using Geostatistical technique in GIS environment. Since air pollutants negatively affect quality of air, lives and the environment, there is therefore the need to frequently monitor air quality, have thorough understanding of the pollutants’ concentration and their spatial distribution in an environment. The gaseous pollutants data of volatile organic compounds (VOCs), methane (CH4), nitrogen dioxide (NO2), sulphur dioxide (SO2) and ozone (O3), were obtained using Multi-parameter gas monitor while that of fine particulate matter (PM2.5) was obtained with SPM meter for a period of three months. Thermo Anemometer was used to obtain the values of wind speed, ambient temperature, atmospheric pressure and relative humidity. Artificial Neural Network designer software (Pythia) was used to validate the acquired field data; predict the concentration of the gaseous pollutants at selected distances from the flow station. The geospatial coordinates of the flow station were obtained using Global Navigation Satellite System (GNSS) receivers; the geospatial modelling and analysis were performed with ArcGIS software and ordinary kriging method of Geostatistical techniques. The results of the maximum concentration for the gaseous pollutants in the study area were 28.17 µg/m3, 19.44 µg/m3, 0.37 µg/m3, 49.81 µg/m3, 0.061 µg/m3 and 0.047µg/m3 for VOCs, CH4, NO2, PM2.5, O3 and SO2 respectively. The root mean square error for the concentration of the gaseous pollutants, ozone and sulphur (IV) oxide in the study area were 0.01618 and 0.008417 indicating a good interpolation model, while their root mean square standard errors, which show the reliability of the predicted values, were 0.70513551 and 0.8459251 respectively. These results conform with the report of other researchers that a better kriging method yields a smaller root mean square and a standard root mean square closer to one. The developed prediction maps for the gaseous pollutants in this study revealed that the study area will experience lower concentration of gaseous pollutants at a distance of 400 m and above.
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气态污染物浓度的地质统计模拟和制图
本研究利用GIS环境下的地质统计学技术对尼日利亚三角洲州Ughelli West气站周边气体污染物浓度进行了预测。由于空气污染物对空气质量、生活质量和环境都有负面影响,因此需要经常监测空气质量,全面了解环境中污染物的浓度和空间分布。采用多参数气体监测仪采集了3个月的挥发性有机物(VOCs)、甲烷(CH4)、二氧化氮(NO2)、二氧化硫(SO2)和臭氧(O3)等气体污染物的数据,并采用SPM仪采集了细颗粒物(PM2.5)的数据。利用热风速计测量风速、环境温度、大气压力和相对湿度。采用人工神经网络设计软件(Pythia)对采集的现场数据进行验证;预测气体污染物在离流量站选定距离处的浓度。利用全球卫星导航系统(GNSS)接收机获取流量站地理空间坐标;利用ArcGIS软件和地质统计技术中的普通克里格方法进行地理空间建模和分析。研究区气态污染物最大浓度VOCs、CH4、NO2、PM2.5、O3和SO2分别为28.17µg/m3、19.44µg/m3、0.37µg/m3、49.81µg/m3、0.061µg/m3和0.047µg/m3。研究区气体污染物、臭氧和硫(IV)氧化物浓度的均方根误差分别为0.01618和0.008417,表明插值模型良好,其均方根标准误差分别为0.70513551和0.8459251,表明预测值的可靠性。这些结果与其他研究人员的报告一致,即更好的克里格方法产生更小的均方根和更接近1的标准均方根。本研究开发的气体污染物预测图显示,研究区在400 m及以上距离处气体污染物浓度较低。
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