Measure-Specific Effectiveness of Air Pollution Control on China’s Atmospheric Mercury Concentration and Deposition during 2013–2017

Liu, Kaiyun; Wu, Qingru; Wang, Long; Liu, Tonghao; Ding, Dian; Tang, Yi; Li, Guoliang; Tian, Hezhong; Duan, Lei; Wang, Xun; Fu, Xuewu; Feng, Xinbin; Hao, Jiming

doi:10.1021/acs.est.9b02428

Cited by 106 publications

(169 citation statements)

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“…Air pollution has become a major threat of public health worldwide, causing up to 7 million premature deaths annually [16,17]. In recent years, the developing countries in Asia, such as India and China, have begun large-scale industrialization of urbanization process, so they have been struggling with serious air pollution [18][19][20]. Besides, Xi'an is located in the lowest part of Guanzhong Basin, which makes it di cult for pollutants to be discharged, just like a "garbage bags" [21,22].…”

Section: Discussionmentioning

confidence: 99%

The Effect of Air Pollution and Temperature on Pulmonary Function in Healthy People in Xi’an, China

Yao

Zhou

Tian

et al. 2020

Preprint

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Background: Temperature and air pollution has been reported to be associated with respiratory diseases. However, little is known about these effects on healthy people, and the potential interaction between the two factors is still uncertain. This study aims to estimate the effects of air pollution combined with temperature on lung function in healthy people. Methods: The lung function of 428 healthy people was measured in Xi’an, Shaanxi province of Northwest China in summer and winter. Meanwhile, the daily concentrations of air pollution and temperature were obtained from monitoring stations. Statistical analyses were assessed by generalized estimating equations (GEEs). Results: In winter, Every 10μg/m 3 increase of PM 2.5 concentration, PEF change amount is -0.015L/S(-0.028,-0.002), FEV1 is -0.007 L/S(-0.012,-0.001). The change is -0.022(-0.043,-0.001) and -0.010(-0.011,-0.009) after adjusting for SO 2 . In summer, PEF and FEV1 were were negatively correlated with the concontration of O3. We also found that temperature weaken the adverse effect of PM 2.5 on lung PEF in winter but aggravated effect of O3 on FEV1 in summer. Lag effects showed that Lag0 of FEV1, FEV1/FVC and FEF25-75% were more strongly associated with PM 2.5 . Conclusions: Our findings indicate that Lung function was significantly negative correlated with O3 in summer and PM 2.5 in winter, and a higher temperature has a greater impact on lung function in both summer and winter in Xi’an.

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Section: Discussionmentioning

confidence: 99%

The Effect of Air Pollution and Temperature on Pulmonary Function in Healthy People in Xi’an, China

Yao

Zhou

Tian

et al. 2020

Preprint

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“…These pollution control mandates (e.g., Emission Standard of Air Pollutants for Thermal Power Plants [GB13223‐2011]) have brought administrative strong incentives to measures such as expanding APCDs installation in coal‐fired power plants. For example, selective catalytic reduction is widely applied in pulverized coal boilers, and 65% of APCDs are equipped to meet the ultra‐low emission standard (Liu et al, ), both of which are able to largely remove the atmospheric mercury emissions from per unit coal burned. Thanks to the growing number of installed air pollution control devices in coal‐fired power plants, mercury emission factors of key coal‐dominated industries experienced obvious decline in most provincial regions during 2012–2017 (Table S4).…”

Section: Discussion and Policy Implicationsmentioning

confidence: 99%

“…For mercury emission inventory, this study uses Monte Carlo simulations to generate the probabilistic emissions by taking into account the probability distribution of key parameters, including activity level, mercury content in coal, and APCD combination removal efficiencies (Wu et al, , ). A normal distribution with a coefficient of variation is set to be 5% for energy consumption data (Liu et al, ), while mercury content of consumed coal is assumed to fit a log‐normal distribution curve (Wu et al, ; Zhang et al, ). In terms of APCD removal efficiencies, different types of APCD combinations are considered to fit normal distribution or Weibull distribution, and the average and coefficient of variation are collected from previous studies (Liu et al, , ; Wu et al, ; Zhang et al, ).…”

Section: Methodsmentioning

confidence: 99%

“…A normal distribution with a coefficient of variation is set to be 5% for energy consumption data (Liu et al, ), while mercury content of consumed coal is assumed to fit a log‐normal distribution curve (Wu et al, ; Zhang et al, ). In terms of APCD removal efficiencies, different types of APCD combinations are considered to fit normal distribution or Weibull distribution, and the average and coefficient of variation are collected from previous studies (Liu et al, , ; Wu et al, ; Zhang et al, ). To acquire the reliable statistic distribution results, we set the sampling number as 10,000.…”

Section: Methodsmentioning

confidence: 99%

“…Therefore, we update the emission factor of coal‐fired power plants and coal‐fired industrial boiler at provincial level in 2017 by referring to China Atmospheric Mercury Emission model (Zhang et al, ; details in Text S3). The provincial APCD installation rate of different type in 2017 is derived from the latest study (Liu et al, ). Other parameters such as provincial mercury content in consumed coal, mercury release rate of a certain type of boiler, removal efficiency of coal washing, and removal efficiency of a certain type of APCD combination are obtained based on various previous studies (Liu et al, ; Wu et al, ; Zhang et al, ).…”

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

How Green Transition of Energy System Impacts China's Mercury Emissions

Wei

Zhen

et al. 2019

Earth's Future

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China has long been committing to green transition of energy system to alleviate the heavy pollution; however, a quantitative analysis for its impact on air pollution has been lacking. To fill the knowledge gap, this study makes an initial attempt to reveal how green transition of energy system influences China's energy-related mercury emissions from both individual sector and supply chain perspectives, by using input-output (IO)-structural decomposition analysis and structural path analysis. Moreover, the aggregated power sector in the original IO tables are further disaggregated into seven types of power sectors to avoid the inherent huge uncertainty related to the aggregation. The results show that green transition in terms of emission factor control and energy mix adjustment has substantially benefited mercury reduction, while energy efficiency improvement has a much weaker effect. The largest consumption-based mercury reduction brought about by energy green transition happens in sector Construction, with an amount of 49.6 t. This study also finds that the green transition generally makes the production layers less mercury intensive, and the energy-related mercury emissions are more concentrated in the production layers. Policy suggestions for further enhancing energy green transition's mitigation effects for mercury emissions are comprehensively discussed. Plain Language SummaryChina is undergoing an unprecedented green transition towards a more renewable, more efficient, and less polluted energy system. An important question arises on how to quantify the impact of green transition on mercury emissions, a toxic global pollutant to both human health and ecosystem. To this end, an environment-economy integrated model is developed to link the mercury emissions with the production chain network in China. We find that green transition in terms of "less polluted" and "more renewable" has substantially benefited mercury reduction, while the effect of "more efficient" is much weaker. The green transition brings the largest mercury emission reduction along the upstream supply chains in sector Construction. This study also finds that the green transition generally makes the production layers less mercury intensive. By understanding the green transition's mitigation effects for mercury emissions, more targeted policies could be adopted for China to fulfill the commitment under Minamata Convention. Key Points:• We investigate how green transition of energy system impacts China's mercury emissions by using structural decomposition/path analysis • Green transition as emission factors and energy mix change have substantial benefits, while energy efficiency change has a weaker effect • Green transition makes production layers less mercury intensive, and mercury emissions are more concentrated in the production layers Supporting Information:• Supporting Information S1

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A Naphthalimide‐Based Fluorescent Probe for the Detection and Imaging of Mercury Ions in Living Cells

et al. 2021

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The selective and efficient monitoring of mercury (Hg 2 + ) contamination found in the environment and ecosystem has been carried out. Thus, a new 1,8-naphthalimide-based fluorescent probe NADP for the detection of Hg 2 + based on a fluorescence enhancement strategy has been designed and synthesized. The NADP probe can detect Hg 2 + with high selectivity and sensitivity and a low detection limit of 13 nm.The detection mechanism was based on a Hg 2 + -triggered deprotection reaction, resulting in a dramatic change in fluorescence from colorless to green at physiological pH. Most importantly, biological investigation has shown that the NADP probe can be successfully applied to the monitoring of Hg 2 + in living cells and zebrafish with low cytotoxicity.

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Measure-Specific Effectiveness of Air Pollution Control on China’s Atmospheric Mercury Concentration and Deposition during 2013–2017

Cited by 106 publications

References 48 publications

The Effect of Air Pollution and Temperature on Pulmonary Function in Healthy People in Xi’an, China

The Effect of Air Pollution and Temperature on Pulmonary Function in Healthy People in Xi’an, China

How Green Transition of Energy System Impacts China's Mercury Emissions

A Naphthalimide‐Based Fluorescent Probe for the Detection and Imaging of Mercury Ions in Living Cells

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