西北省农村地区SO2、NO2和O3的评估

Q3 Environmental Science

Clean Air Journal Pub Date : 2021-06-01 DOI:10.17159/caj/2021/31/1.9087

Morongoa Morongoa Ngoasheng, J. Beukes, P. V. van Zyl, J. Swartz, Victor Loate, Portia Krisjan, Sandile Mpambani, M. Kulmala, V. Vakkari, L. Laakso

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引用次数: 1

摘要

西北省西部和农村地区的空气质量一直缺乏监测。本文介绍了在10个地点用被动采样器监测的环境二氧化硫（SO2）、二氧化氮（NO2）和臭氧（O3）浓度。没有观察到广泛的SO2和NO2问题。然而，全省范围内可能出现常规O3标准超标现象。在寒冷和干燥的月份，SO2和NO2浓度明显增加。在较冷的月份，低水平排放的逆温层捕获和在较干燥的月份开放式生物质燃烧增加了地面污染物浓度。SO2和NO2的湿沉积，以及SO2向颗粒硫酸盐的转化增强，导致雨季浓度降低。O3浓度在5月至7月较低，在8月至3月较高。有三种现象促成了这一现象。首先，白天时间更短（光化学更少），其次，在寒冷的月份，生物挥发性有机化合物（O3前体）浓度更低。第三，冬末春初开放的生物质燃烧峰值导致一氧化碳（CO）浓度升高（也是O3的前体）。空间格局表明，主要由于工业排放，西部的二氧化硫浓度较高。NO2空间图显示了两个浓度较高的地区，即东部的巴蓬，主要是由于工业排放，以及人口密度较高的头。O3的空间图几乎与NO2相反。Taung周围较低的O3和较高的NO2表明O3在那里被滴定。此外，结果表明，NO2的非点源排放量高到足以导致O3标准限值的超标。叠加轨迹图显示，与西部相比，东部地区更频繁地受到普马兰加高地、瓦尔三角和约翰内斯堡-比勒陀利亚特大城市污染的影响。相反，较清洁的气团对西部地区的影响大于东部地区。

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Assessing SO2, NO2 and O3 in rural areas of the North West Province

Air quality monitoring has been lacking in the rural and western North West Province. Here ambient sulphur dioxide (SO2), nitrogen dioxide (NO2) and ozone (O3) concentrations, monitored with passive samplers at 10 sites, are presented. Widespread SO2 and NO2 problems weren’t observed. However, regular O3 standard limit exceedances are likely across the province. Increased SO2 and NO2 concentrations in the colder and drier months were evident. Inversion layer trapping of low-level emissions during the colder months and open biomass burning in the drier months increased ground level pollutant concentrations. Wet deposition of SO2 and NO2, and enhanced SO2 conversion to particulate sulphate, result in lower wet season concentrations. O3 concentrations were lower from May to July and higher from August to March. Three phenomena contributed to this. Firstly, shorter daylight hours (less photochemistry) and secondly, lower biogenic volatile organic compound (O3 precursors) concentrations during the colder months. Thirdly, the late winter/early spring open biomass burning peak lead to elevated carbon monoxide (CO) concentration (also an O3 precursor). Spatial patterns indicated higher SO2 concentrations in the west, due mainly to industrial emissions. The NO2 spatial map indicated two areas of higher concentration, i.e. Bapong in the east due mainly to industrial emissions, and Taung with its higher population density. The O3 spatial map was almost the inverse of NO2. The lower O3 and higher NO2 around Taung showed that O3 is titrated there. Additionally, the results indicate that non-point source emissions of NO2 are high enough to results in exceedances of the O3 standard limit. Overlay back trajectory maps showed that sites in the east are more frequently impacted by pollution transported from the Mpumalanga Highveld, Vaal Triangle and the Johannesburg-Pretoria megacity if compared to the west. Conversely, cleaner air masses impact the west more than sites in the east.

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来源期刊

Clean Air Journal Environmental Science-Management, Monitoring, Policy and Law

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： Clean Air Journal is the official publication of the National Association for Clean Air, a not-for-profit organisation. Clean Air Journal is a peer-reviewed journal for those interested in air quality, air quality management, and the impacts of air pollution relevant to Africa. The focus of the journal includes, but is not limited to: Impacts of human activities and natural processes on ambient air quality Air quality and climate change linkages Air pollution mitigation technologies and applications Matters of public policy regarding air quality management Measurement and analysis of ambient and indoor air pollution Atmospheric modelling application and development Atmospheric emissions Other topics on atmospheric physics or chemistry with particular relevance to Africa The scope of the journal is broad, but the core theme of the journal is air quality in Africa.