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A platform for research: civil engineering, architecture and urbanism
A city-level inventory for atmospheric mercury emissions from coal combustion in China
https://orcid.org/0000-0002-9619-5257
Abstract Cities are essential entities for dedicated mercury control policies. However, the city-level mercury emission inventory as the cornerstone of proper policy design is still in its infancy, due to data availability. For the first time, this study developed a comprehensive city-level atmospheric mercury emission inventory from coal combustion in China in 2010, by updating emission factors based on high-resolution information such as the plant-specific air pollution control devices (APCDs) in 182 cities. The estimated atmospheric mercury emissions from coal combustion were 202.3 tons (−51.7%,133.6%), over half of which were concentrated in 36 cities such as Chongqing (megacity) and Ordos (heavily coal-reliant city), implying mercury emissions were unevenly distributed. Mercury emitted from coal-fired power plants with the largest coal consumption was less than that from industrial coal combustion, because more efficient APCDs were installed in power plants. This study also took GDP, the proportion of coal in energy mix and cities’ population as the benchmark to classify cities into various groups. Energy production and heavy manufacturing cities had comparatively larger emissions. Moreover, optional mitigation policies were elaborated for specific cities, such as retrofit of APCDs for coal-reliant cities (e g., Nanyang and Sanmenxia) lack of enough efficient end-of-pipe mercury removal devices.
Graphical abstract Display Omitted
Highlights An inventory of mercury emissions from coal combustion in 182 Chinese cities was compiled. Plant-specific air pollution control devices installation rates in 182 cities were updated. 36 cities such as Chongqing and Ordos contributed over half of the total emissions. Industrial coal combustion was identified as the dominant source for city-level mercury emissions. Dedicated mercury control policies were elaborated for different types of cities.
A city-level inventory for atmospheric mercury emissions from coal combustion in China
https://orcid.org/0000-0002-9619-5257
Abstract Cities are essential entities for dedicated mercury control policies. However, the city-level mercury emission inventory as the cornerstone of proper policy design is still in its infancy, due to data availability. For the first time, this study developed a comprehensive city-level atmospheric mercury emission inventory from coal combustion in China in 2010, by updating emission factors based on high-resolution information such as the plant-specific air pollution control devices (APCDs) in 182 cities. The estimated atmospheric mercury emissions from coal combustion were 202.3 tons (−51.7%,133.6%), over half of which were concentrated in 36 cities such as Chongqing (megacity) and Ordos (heavily coal-reliant city), implying mercury emissions were unevenly distributed. Mercury emitted from coal-fired power plants with the largest coal consumption was less than that from industrial coal combustion, because more efficient APCDs were installed in power plants. This study also took GDP, the proportion of coal in energy mix and cities’ population as the benchmark to classify cities into various groups. Energy production and heavy manufacturing cities had comparatively larger emissions. Moreover, optional mitigation policies were elaborated for specific cities, such as retrofit of APCDs for coal-reliant cities (e g., Nanyang and Sanmenxia) lack of enough efficient end-of-pipe mercury removal devices.
Graphical abstract Display Omitted
Highlights An inventory of mercury emissions from coal combustion in 182 Chinese cities was compiled. Plant-specific air pollution control devices installation rates in 182 cities were updated. 36 cities such as Chongqing and Ordos contributed over half of the total emissions. Industrial coal combustion was identified as the dominant source for city-level mercury emissions. Dedicated mercury control policies were elaborated for different types of cities.
A city-level inventory for atmospheric mercury emissions from coal combustion in China
https://orcid.org/0000-0002-9619-5257
Abstract Cities are essential entities for dedicated mercury control policies. However, the city-level mercury emission inventory as the cornerstone of proper policy design is still in its infancy, due to data availability. For the first time, this study developed a comprehensive city-level atmospheric mercury emission inventory from coal combustion in China in 2010, by updating emission factors based on high-resolution information such as the plant-specific air pollution control devices (APCDs) in 182 cities. The estimated atmospheric mercury emissions from coal combustion were 202.3 tons (−51.7%,133.6%), over half of which were concentrated in 36 cities such as Chongqing (megacity) and Ordos (heavily coal-reliant city), implying mercury emissions were unevenly distributed. Mercury emitted from coal-fired power plants with the largest coal consumption was less than that from industrial coal combustion, because more efficient APCDs were installed in power plants. This study also took GDP, the proportion of coal in energy mix and cities’ population as the benchmark to classify cities into various groups. Energy production and heavy manufacturing cities had comparatively larger emissions. Moreover, optional mitigation policies were elaborated for specific cities, such as retrofit of APCDs for coal-reliant cities (e g., Nanyang and Sanmenxia) lack of enough efficient end-of-pipe mercury removal devices.
Graphical abstract Display Omitted
Highlights An inventory of mercury emissions from coal combustion in 182 Chinese cities was compiled. Plant-specific air pollution control devices installation rates in 182 cities were updated. 36 cities such as Chongqing and Ordos contributed over half of the total emissions. Industrial coal combustion was identified as the dominant source for city-level mercury emissions. Dedicated mercury control policies were elaborated for different types of cities.
A city-level inventory for atmospheric mercury emissions from coal combustion in China
Wu, Zhujuan (author) / Ye, Huafeng (author) / Shan, Yuli (author) / Chen, Bin (author) / Li, Jiashuo (author)
Atmospheric Environment ; 223
2019-12-23
Article (Journal)
Electronic Resource
English
Control strategies of atmospheric mercury emissions from coal-fired power plants in China
| Taylor & Francis Verlag | 2012