publication . Article . Review . 2015

Control of mercury emissions: policies, technologies, and future trends

Seung-Whee Rhee;
Open Access
  • Published: 21 Dec 2015 Journal: Energy and Emission Control Technologies (eissn: 2253-2218, Copyright policy)
  • Publisher: Informa UK Limited
Seung-Whee Rhee Department of Environmental Engineering, Kyonggi University, Suwon, Republic of Korea Abstract: Owing to the Minamata Convention on Mercury and the Global Mercury Partnership, policies and regulations on mercury management in advanced countries were intensified by a mercury phaseout program in the mercury control strategy. In developing countries, the legislative or regulatory frameworks on mercury emissions are not established specifically, but mercury management is designed to prevent the emission of mercury. Nevertheless, the scenarios from global mercury observation system reported that mercury emissions from selected anthropogenic sources co...
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free text keywords: Energy and Emission Control Technologies, Environmental science, Mercury (element), chemistry.chemical_element, chemistry, Environmental protection
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109 references, page 1 of 8

1. United Nations Environmental Programme. The global atmospheric mercury assessment: sources, emissions, and transport. Geneva, Switzerland: United Nations Environmental Programme, Division of Technology, Industry and Economics (DTIE), Chemicals Branch; 2008.

2. Technical background report for the global mercury assessment. Geneva, Switzerland: Arctic Monitoring and Assessment Programme, United Nations Environmental Programme; 2013.

3. Jarvis A, Maag J. Study on EU implementation of the Minamata convention on mercury. Bipro, Garrigues. June 30, 2014.

4. Mishima A, Brown LR. Bitter Sea: The Human Cost of Minamata Disease. Tokyo, Japan: Kosei Publishing; 1992.

5. Jesty J. Making mercury visible: the Minamata documentaries of Tsuchimoto Noriaki. In: Zuber SL, Newman MC, editors. Mercury Pollution: A Transdisciplinary Treatment. 1st ed. Boca Raton, FL: CRC Press; 2011.

6. Lessons from Minamata disease and mercury management in Japan. Ministry of the Environment, Japan; 2013.

7. Basel convention technical guidelines. United Nations Environmental Programme, Basel Convention; 2011.

8. Authenticated United States Government Information. Public law 110-414 - Oct 2008;154(110-477).

9. Emmott N, Slayne M. Legislation and policy concerning mercury in the European Union. In: Pirrone N, Mahaffey KR, editors. Dynamics of Mercury Pollution on Regional and Global Scales. Berlin, Germany: Springer; 2005:65-80.

10. European Commission. Regulation (EC) No 244/2009 implementing directive 2005/32/EC of the European Parliament and of the Council with regard to ecodesign requirements for non-directional household lamps. Official Journal of the European Union . March 18, 2009.

11. Ziegler O. Waste electrical and electronic equipment. In: EU Regulatory Decision Making and the Role of the United States. Berlin, Germany: Springer; 2013:93-141.

12. Guide for negotiators of multilateral environmental agreements. United Nations Environmental Programme. 2007. Available from: http://www. Accessed August 27, 2014.

13. United Nations Environmental Programme. Study on mercury sources and emissions, and analysis of cost and effectiveness of control measures “UNEP Paragraph 29 study”. Geneva, Switzerland: UNEP, Division of Technology, Industry and Economics (DTIE), Chemicals Branch; Nov 2010.

14. Pirrone N, Cinnirella S, Feng X, et al. Global mercury emissions to the atmosphere from anthropogenic and natural sources. Atmospheric Chemistry and Physics. 2010;10:5951-5964.

15. Mason RP. Mercury emissions from natural processes and their importance in the global mercury cycle. In: Mason R, Pirrone N, editors. Mercury Fate and Transport in the Global Atmosphere. Berlin, Germany: Springer; 2009:173-191.

109 references, page 1 of 8
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