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Journal of Material Cycles and Waste Management

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19-03-2019 | ORIGINAL ARTICLE

Mercury distribution analyses and estimation of recoverable mercury amount from byproducts in primary metal production facilities using UNEP toolkit and on-site measurement

Authors: Seung-Ki Back, A. H. M. Mojammal, Jeong-Hun Kim, Young-Hee Kim, Kwang-Seol Seok, Yong-Chil Seo

Published in: Journal of Material Cycles and Waste Management | Issue 4/2019

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Abstract

Mass distribution of mercury (Hg) and estimation of recoverable Hg amount from primary metal production facilities (zinc, lead and copper) were investigated. According to UNEP Toolkit Level 2 for figuring out the contribution of Hg release from major source categories, the primary metal production industry was estimated as a main Hg source among whole industries in South Korea, which was accounted as a half of the total inflow and the amount was 178 ton-Hg/year. Four kinds of domestic primary metal production facilities (zinc, zinc and lead and copper smelters) were selected for conducting on-site measurements for mass distribution analysis of Hg. The total amount of Hg released into different phase media was estimated only as 20.68 ton-Hg/year on average. The highest share of Hg released was from zinc and lead production facilities as the same as seen in UNEP toolkit. However, the difference in the release amount of Hg between UNEP Toolkit and on-site measurement was found from large differences of Hg content data in input raw materials. Also, 18.21 ton-Hg/year was released as solid-phase byproducts such as wastewater sludge and slag, which are recoverable. The amount of Hg recoverable from zinc and lead production facility was estimated as 16.0 ton-Hg/year on average.

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UNEP (2013) Minamata Convention on Mercury text and annexes, GE.14–00280, UNEP/Chemicals/2014/1

Minamata Convention on Mercury (2018) http://www.mercuryconvention.org/DNNAdmin/AllENGLISHNewsEntry/tabid/3444/articleType/ArticleView/articleId/160102/language/en-US/The-Minamata-Convention-has-entered-into-force.aspx. Accessed 20 June 2018

Balogh SJ, Nollet YH (2008) Mercury mass balance at a wastewater treatment plant employing sludge incineration with offgas mercury control. Sci Total Environ 389:125–131CrossRef

Mlakar TL, Horvat M, Vuk T, Stergaršek A. Kotnik J, Tratnik J, Fajon V (2010) Mercury species, mass flows and processes in a cement plant. Fuel 89:1936–1945CrossRef

UNEP (2013) Global mercury assessment 2013: sources, emissions, releases, and environmental transport, DTI/1636/GE

Wang J, Wang W, Xu W, Wang X, Zhao S (2011) Mercury removals by existing pollutants control devices of four coal-fired power plants in China. J Environ Sci 23:1839–1844CrossRef

GRS GmbH (2011) Analysis of options for the environmentally sound management of surplus mercury in Asia and the Pacific. Gesellschaft für Anlagenund Reaktorsicherheit (GRS) GmbH, Germany

UNEP (2010) Report on activities undertaken within the UNEP Global Mercury Partnership A report of the UNEP Global Mercury Partnership Advisory Group UNEP Mercury Programme

The European Parliament and The Council of The European Union (2008) REGULATION (EC) No 1102/2008 OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 22 October 2008 on the banning of exports of metallic mercury and certain mercury compounds and mixtures and the safe storage of metallic mercury, Official Journal of the European Union

10.

US EPA (2008) An Act to prohibit the sale, distribution, transfer, and export of elemental mercury, and for other purposes, PUBLIC LAW 110-414-OCT. 14, 2008, Senate Environment and Public Works Committee

11.

US DOE (2011) Final long-term management and storage of elemental mercury environmental impact statement (Mercury Storage EIS) DOE/EIS-0423, US Department of Energy

12.

Cain A, Disch S, Twaroski C, Reindl J, Case CR (2007) Substance flow analysis of mercury intentionally used in products in the United States. J Ind Ecol 11(3):61–75CrossRef

13.

Sundseth K, Pacyna JM, Pacyna EG, Panasiuk D (2012) Substance flow analysis of mercury affecting water quality in the European Union. Water Air Soil Pollut 223(1):429–442CrossRef

14.

Chakraborty LB, Qureshi A, Vadenbo C, Hellweg S (2013) Anthropogenic mercury flows in India and impacts of emission controls. Environ Sci Technol 47(15):8105–8113

15.

Wu Q, Wang S, Zhang L, Hui M, Wang F, Hao J (2016) Flow analysis of the mercury associated with nonferrous ore concentrates: implications on mercury emissions and recovery in China. Environ Sci Technol 50(4):1796–1803CrossRef

16.

Hui M, Wu Q, Wang S, Liang S, Zhang L, Wang F, Lenzen M, Wang Y, Xu L, Lin Z, Yang H (2016) Mercury flows in China and global drivers. Environ Sci Technol 51(1):222–231CrossRef

17.

Lin Y, Wang S, Wu Q, Larssen T (2016) Material flow for the intentional use of mercury in China. Environ Sci Technol 50(5):2337–2344CrossRef

18.

Wu QR, Wang SX, Zhang L, Song JX, Yang H, Meng Y (2012) Update of mercury emissions from China’s primary zinc, lead and copper smelters, 2000–2010. Atmos Chem Phys 12:11153–11163CrossRef

19.

Chung D, Choi HH, Yoo HY, Lee JY, Shin SK, Park JM, Kim J (2017) Mercury flows in a zinc smelting facility in South Korea. J Mater Cycles Waste Manag 19:46–54CrossRef

20.

Zheng N, Wang Q, Zheng D (2007) Health risk of Hg, Pb, Cd, Zn, and Cu to the inhabitants around Huludao zinc plant in China via consumption of vegetables. Sci Total Environ 383:81–89CrossRef

21.

Zheng N, Liu J, Wang Q, Liang Z (2011) Mercury contamination due to zinc smelting and chlor-alkali production in NE China. Appl Geochem 26:188–193CrossRef

22.

Li G, Feng X, Qiu G, Bi X, Li Z, Zhang C, Wang D, Shang L, Guo Y (2008) Environmental mercury contamination of an artisanal zinc smelting area in Weining County, Guizhou, China. Environ Pollut 154:21–31CrossRef

23.

UNEP (2011) Toolkit for identification and quantification of mercury releases, Version 1.1, Reference Report Revised Inventory Level 2 Report Including Description of Mercury Source Characteristics, UNEP Chemicals

24.

Habuer YN, Takaoka M, Fujimori T, Oshita K, Sakai N, Syed Abd Kdir SA (2016) Substance flow analysis of mercury in Malaysia. Atmos Pollut Res 7(5):799–807CrossRef

25.

US EPA (1994) Mercury in liquid waste (manual cold-vapor technique) method 7470A

26.

US EPA (1994) Mercury in solid or semisolid waste (manual cold-vapor technique) method 7471A

27.

American Society for Testing and Materials (ASTM) (2008) D6784-02, Standard test method for elemental, oxidized, particle-bound and total mercury in flue gas generated from coal-fired stationary sources (Ontario Hydro Method, OHM)

28.

Korea National Statistical Office (2011) Domestic non-ferrous metal demand and supply status

29.

Pudasainee D, Seo YC, Kim JH, Hong JH, Park JM (2014) National inventory of mercury release into different phase media estimated by UNEP Toolkit in South Korea. Atmos Pollut Res 5:630–638CrossRef

Title: Mercury distribution analyses and estimation of recoverable mercury amount from byproducts in primary metal production facilities using UNEP toolkit and on-site measurement
Authors: Seung-Ki Back
A. H. M. Mojammal
Jeong-Hun Kim
Young-Hee Kim
Kwang-Seol Seok
Yong-Chil Seo
Publication date: 19-03-2019
Publisher: Springer Japan
Published in: Journal of Material Cycles and Waste Management / Issue 4/2019
Print ISSN: 1438-4957
Electronic ISSN: 1611-8227
DOI: https://doi.org/10.1007/s10163-019-00851-3

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