Determination of local traffic emission and non-local background source contribution to on-road air pollution using fixed-route mobile air sensor network
Traffic-related air pollutants are major contributors to deteriorating urban air quality and pose a serious threat to pedestrians. From both a scientific and a regulatory standpoint, it is important and challenging to understand the contributions of local and non-local sources to accurately apportio...
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Veröffentlicht in: | Environmental pollution (1987) 2021-12, Vol.290, p.118055-118055, Article 118055 |
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Sprache: | eng |
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Zusammenfassung: | Traffic-related air pollutants are major contributors to deteriorating urban air quality and pose a serious threat to pedestrians. From both a scientific and a regulatory standpoint, it is important and challenging to understand the contributions of local and non-local sources to accurately apportion specific sources such as traffic emissions contribution to on-road and near-road microenvironment air quality. In this study, we deployed mobile sensors on-board buses to monitor NO, NO2, CO and PM2.5 along ten important routes in Hong Kong. The measurements include two seasons: April 2017 and July 2017. Two types of baseline extraction methods were evaluated and applied to separate local and background concentrations. The results show NO and NO2 are locally dominated air pollutants in spring, constituting 72%–84% and 58%–71%, respectively, with large inter-road variation. PM2.5 and CO largely arise from background sources, which contribute 55%–65% and 73%–79% respectively. PM2.5 displays a homogeneous spatial pattern, and the contributions show seasonal change, decreasing during summer. Regional transport pollution is the primary contributor during high pollution episodes. Isolated vehicle plumes show highly skewed concentration distributions. There are characteristic polluted segments on routes and they are most evident at rush hours. The most polluted road segments (top 10%) cluster at tunnel entrances and congested points. Some of these polluted locations were observed in Hong Kong's Low Emission Zones and suggest limitations to the existing control strategies, which only address larger buses. Our work gives new insights in the importance of regional cooperation to improve background air pollution combined with local control strategies to improve roadside air quality in Hong Kong.
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•Pollutant background was extracted from on-board sensor baseline along bus routes.•Background contributions show distinct seasonal variations between pollutants.•Local vehicle contributions cluster in certain polluted road environments.•The clusters suggest effective control policy could target characteristic road segments. |
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ISSN: | 0269-7491 1873-6424 |
DOI: | 10.1016/j.envpol.2021.118055 |