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ABSTRACT
In this study, the authors endeavored to develop an effective framework for improving local urban air quality on meso-micro scales in cities in China that are experiencing rapid urbanization. Within this framework, the integrated Weather Research and Forecasting (WRF)/CALPUFF modeling system was applied to simulate the concentration distributions of typical pollutants (particulate matter with an aerodynamic diameter <10 μm [PM10], sulfur dioxide [SO2], and nitrogen oxides [NOx]) in the urban area of Benxi. Statistical analyses were performed to verify the credibility of this simulation, including the meteorological fields and concentration fields. The sources were then categorized using two different classification methods (the district-based and type-based methods), and the contributions to the pollutant concentrations from each source category were computed to provide a basis for appropriate control measures. The statistical indexes showed that CALMET had sufficient ability to predict the meteorological conditions, such as the wind fields and temperatures, which provided meteorological data for the subsequent CALPUFF run. The simulated concentrations from CALPUFF showed considerable agreement with the observed values but were generally underestimated. The spatial-temporal concentration pattern revealed that the maximum concentrations tended to appear in the urban centers and during the winter. In terms of their contributions to pollutant concentrations, the districts of Xihu, Pingshan, and Mingshan all affected the urban air quality to different degrees. According to the type-based classification, which categorized the pollution sources as belonging to the Bengang Group, large point sources, small point sources, and area sources, the source apportionment showed that the Bengang Group, the large point sources, and the area sources had considerable impacts on urban air quality. Finally, combined with the industrial characteristics, detailed control measures were proposed with which local policy makers could improve the urban air quality in Benxi. In summary, the results of this study showed that this framework has credibility for effectively improving urban air quality, based on the source apportionment of atmospheric pollutants.
Implications: The authors endeavored to build up an effective framework based on the integrated WRF/CALPUFF to improve the air quality in many cities on meso-micro scales in China. Via this framework, the integrated modeling tool is accurately used to study the characteristics of meteorological fields, concentration fields, and source apportionments of pollutants in target area. The impacts of classified sources on air quality together with the industrial characteristics can provide more effective control measures for improving air quality.
Through the case study, the technical framework developed in this study, particularly the source apportionment, could provide important data and technical support for policy makers to assess air pollution on the scale of a city in China or even the world.
Additional information
Notes on contributors
Hao Wu
Hao Wu is a master graduate student of the Department of Environmental Science and Engineering at Fudan University, China. His research is mainly engaged in numerical simulation of atmospheric pollution in Environmental Science.
Yan Zhang
Yan Zhang is an associate professor of the Department of Environmental Science and Engineering at Fudan University, China. Her research interests include numerical simulation of meteorology and air quality, air pollution in water and land traffic, long distance transport of aerosol.
Qi Yu
Qi Yu is an associate professor of the Department of Environmental Science and Engineering at Fudan University, China. Her research is mainly engaged in the simulation and prediction of the migration and transformation of atmospheric environmental pollutants.
Weichun Ma
Weichun Ma is a professor of the Department of Environmental Science and Engineering at Fudan University, China. His research interests include environmental mathematical model, geographic information system, environmental planning and evaluation.