Xinbin Feng scite author profile

Abstract. This paper provides an up-to-date assessment of global mercury emissions from anthropogenic and natural sources. On an annual basis, natural sources account for 5207 Mg of mercury released to the global atmosphere, including the contribution from re-emission processes, which are emissions of previously deposited mercury originating from anthropogenic and natural sources, and primary emissions from natural reservoirs. Anthropogenic sources, which include a large number of industrial point sources, are estimated to account for 2320 Mg of mercury emitted annually. The major contributions are from fossil-fuel fired power plants (810 Mg yr−1), artisanal small scale gold mining (400 Mg yr−1), non-ferrous metals manufacturing (310 Mg yr−1), cement production (236 Mg yr−1), waste disposal (187 Mg yr−1) and caustic soda production (163 Mg yr−1). Therefore, our current estimate of global mercury emissions suggests that the overall contribution from natural sources (primary emissions+re-emissions) and anthropogenic sources is nearly 7527 Mg per year, the uncertainty associated with these estimates are related to the typology of emission sources and source regions.

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NOx Emission Reduction and Recovery during COVID-19 in East China

Zhang

et al. 2020

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Since its first confirmed case at the end of 2019, COVID-19 has become a global pandemic in three months with more than 1.4 million confirmed cases worldwide, as of early April 2020. Quantifying the changes of pollutant emissions due to COVID-19 and associated governmental control measures is crucial to understand its impacts on economy, air pollution, and society. We used the WRF-GC model and the tropospheric NO2 column observations retrieved by the TROPOMI instrument to derive the top-down NOx emission change estimation between the three periods: P1 (January 1st to January 22nd, 2020), P2 (January 23rd, Wuhan lockdown, to February 9th, 2020), and P3 (February 10th, back-to-work day, to March 12th, 2020). We found that NOx emissions in East China averaged during P2 decreased by 50% compared to those averaged during P1. The NOx emissions averaged during P3 increased by 26% compared to those during P2. Most provinces in East China gradually regained some of their NOx emissions after February 10, the official back-to-work day, but NOx emissions in most provinces have not yet to return to their previous levels in early January. NOx emissions in Wuhan, the first epicenter of COVID-19, had no sign of emission recovering by March 12. A few provinces, such as Zhejiang and Shanxi, have recovered fast, with their averaged NOx emissions during P3 almost back to pre-lockdown levels.

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A kinetic study of the gas-phase reaction between the hydroxyl radical and atomic mercury

Sommar

Gårdfeldt

Strömberg

et al. 2001

Atmospheric Environment

222

163

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Generalized hesitant fuzzy sets and their application in decision support system

Qian

Wang

Feng

2013

Knowledge-Based Systems

265

130

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Intercomparison of methods for sampling and analysis of atmospheric mercury species

Munthe

Wängberg

Pirrone

et al. 2001

Atmospheric Environment

163

121

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Xinbin Feng

Global mercury emissions to the atmosphere from anthropogenic and natural sources

NOx Emission Reduction and Recovery during COVID-19 in East China

A kinetic study of the gas-phase reaction between the hydroxyl radical and atomic mercury

Generalized hesitant fuzzy sets and their application in decision support system

Intercomparison of methods for sampling and analysis of atmospheric mercury species

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