Hsing-Wei Chu scite author profile

Abstract. East Asia contributes to nearly 50% of the global anthropogenic mercury emissions into the atmosphere. Recently, there have been concerns about the long-range transport of mercury from East Asia, which may lead to enhanced dry and wet depositions in other regions. In this study, we performed four monthly simulations (January, April, July and October in 2005) using CMAQ-Hg v4.6 for a number of emission inventory scenarios in an East Asian model domain. Coupled with mass balance analyses, the chemical transport of mercury in East Asia and the resulted mercury emission outflow were investigated. The total annual mercury deposition in the region was estimated to be 821 Mg, with 396 Mg contributed by wet deposition and 425 Mg by dry deposition. Anthropogenic emissions were responsible for most of the estimated deposition (75%). The deposition caused by emissions from natural sources was less important (25%). Regional mercury transport budgets showed strong seasonal variability, with a net removal of RGM (7-15 Mg month −1 ) and PHg (13-21 Mg month −1 ) in the domain, and a net export of GEM (60-130 Mg month −1 ) from the domain. The outflow caused by East Asian emissions (anthropogenic plus natural) was estimated to be in the range of 1369-1671 Mg yr −1 , of which 50-60% was caused by emissions from natural sources. The emission outflow repCorrespondence to: C.-J. Lin (jerry.lin@lamar.edu) resented about 75% of the total mercury emissions in the region, and would contribute to 20-30% of mercury deposition in remote receptors.

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Scientific uncertainties in atmospheric mercury models III: Boundary and initial conditions, model grid resolution, and Hg(II) reduction mechanism

Pongprueksa

Lin

Lindberg

et al. 2008

Atmospheric Environment

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Estimating mercury emission outflow from East Asia using CMAQ-Hg

Lin¹,

Pan²,

Streets³

et al. 2009

Preprint

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Abstract. East Asia contributes nearly 50% of the global anthropogenic mercury emissions into the atmosphere. Recently, there are concerns for the long-range transport of mercury from East Asia to North America, which may lead to enhanced dry and wet depositions in North America. In this study, we performed four monthly simulations (January, April, July and October in 2005) using CMAQ-Hg v4.6 in an East Asian model domain. Coupled with a mass balance analysis and a number of emission inventory scenarios, the chemical transport of atmospheric mercury, the seasonal mercury transport budgets and mercury emission outflow from the East Asian region were investigated. The total annual mercury deposition in the region for the modeling year is estimated to be 821 Mg, with 396 Mg contributed by wet deposition and 425 Mg contributed by dry deposition. Regional mercury transport budgets show strong seasonal variability, with a net removal of RGM (7~5 Mg mo−1) and PHg (13~21 Mg mo−1), and a net export of GEM (60~130 Mg mo−1) from the study domain. The annual outflow caused by the East Asian emission is estimated to be in the range of 1369~1671 Mg yr−1, primarily in the form of GEM. This represents about 75% of the total mercury emissions (anthropogenic and natural) in the region. The emission outflow from this source region would contribute to 20~30% of mercury deposition in areas remote from anthropogenic emission sources.

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Study of atmospheric mercury budget in East Asia using STEM-Hg modeling system

Pan¹,

Lin²,

Carmichael³

et al. 2010

Science of The Total Environment

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Metal volatilization and separation during incineration

Chu

Hopper

1993

Waste Management

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Hsing-Wei Chu

Estimating mercury emission outflow from East Asia using CMAQ-Hg

Scientific uncertainties in atmospheric mercury models III: Boundary and initial conditions, model grid resolution, and Hg(II) reduction mechanism

Estimating mercury emission outflow from East Asia using CMAQ-Hg

Study of atmospheric mercury budget in East Asia using STEM-Hg modeling system

Metal volatilization and separation during incineration

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