AMAP, 2010. Updating Historical Global Inventories of Anthropogenic Mercury Emissions to Air. AMAP Technical report No 3 (2010), Arctic Monitoring and Assessment programme (AMAP), Oslo, Norway.
Chang, R., Dombrowski, K., Senior, C. (2008). Near and Long Term Options for Controlling Mercury Emissions from Power Plants, The MEGA Symposium, Baltimore, MD, 2008.
CURS (2007) Coal utility environmental cost (CUECost) workbook user’s manual. Version 4.0. Chapel Hill, NC, USA, CURS- Center for Urban and Regional Studies, University of North Carolina at Chapel Hill, 28 pp (Feb 2007) BETA VERSION
MEPC in prep., 2010. Reducing mercury emissions from coal combustion in the energy sector. Prepared by: Department of Environmental Science and Engineering, Tsinghua University, Beijing, 100084, China, for the Ministry of Environment Protection of China, and for UNEP Chemicals. September 17, 2010
EC 2001a. IPPC Reference Document on Best Available Techniques in the Non Ferrous Metals Industries, European Commission, December 2001.
EC 2006a. IPPC Reference Document on Best Available Techniques for Waste Incineration, European Commission, August 2006. ftp://ftp.jrc.es/pub/eippcb/doc/wi_bref_0806.pdf
EC, 2006b. IPPC Reference Document on Best Available Techniques for Large Combustion Plants. July 2006. ftp://ftp.jrc.es/pub/eippcb/doc/lcp_bref_0706.pdf
EC 2010. IPPC Reference Document on best Available Techniques in the Cement, Lime and Magnesium Oxide Manufacturing Industries. May 2010. ftp://ftp.jrc.es/pub/eippcb/doc/clm_bref_0510.pdf
EMEP/EEA air pollutant emission inventory guidebook — 2009. EEA Technical report No 6/2009. http://www.eea.europa.eu/publications/emep-eea-emission-inventory-guidebook-2009
EPA 2005. United States Environmental Protection Agency. Multipollutant Emission Control Technlogy Options for Coal- fired Power Plants. EPA-600/R-05/034. March 2005.
EPA 2009. National Emission Standards for Hazardous Air Pollutants From the Portland Cement Manufacturing Industry Federal Register/Vol. 74, No. 86/Wednesday, May 6, 2009.
EPA. 2010. National Emission Standards for Hazardous Air Pollutants from the Portland Cement Manufacturing Industry and Standards of Performance for Portland Cement Plants; Final Rule.
ESPREME- INTEGRATED ASSESSMENT OF HEAVY METAL RELEASES IN EUROPE. European research program aimed at developing methods and to identify strategies to support EU environmental policy-making for reducing the emissions and thus the harmful impacts of heavy metals (HMs). More information available at: http://espreme.ier.uni-stuttgart.de/
Feeley T.J. III, Brickett L.A., O’Palko A., Jones A.P. 2008, DOE/NETL’s Mercury Control Technology R&D Program Taking Technology from Concept to Commercial Reality, Presented at the MEGA Symposium, Baltimore, August 2008.
GAO 2009. Mercury control technologies at coal-fired powerplants have acheived substantial emissions reductions. Report to the Chauirman, subcommittee on Clean Air and Nuclear safety, Committe on Environment and Public Works, US Senate. GAO -10-47
Government of Chile, 2008. "Pilot Project on Strengthening Inventory Development and Risk Management-Decision Making for Mercury: A Contribution to the Global mercury Partnership. December 2008.
Hageman, S. et al 2010. Technical and economic criteria for processing mercury-containing tailings. Report to UNEP February, 2010.
HEIMTSA - Health and Environment Integrated Methodology and Toolbox for Scenario Assessment. European research project in support of the Environment and Health Action Plan (EHAP) by extending health impact assessment (HIA) and cost benefit analysis (CBA) methods and tools so that environment and health impacts of policy scenarios in key sectors can be evaluated reliably at the European level. More information at: http://www.heimtsa.eu/
Hylander, L.D., Herbert, R.B. 2008. Global Emissions and Production of Mercury during the Pyrometallurgical Extraction of Nonferrous Sulfide Ores. Env.Sci Technol. 2008, 42, 5971-5977.
IEA Clean Coal Centre, Coal online, http://www.coalonline.org/site/coalonline/content/home
IPCC, 2006. 2006 IPCC Guidelines for National Greenhouse Gas Inventories. http://www.ipcc-nggip.iges.or.jp/public/2006gl/index.html
Kim, J.-H., Park, J.-M., Lee, S.-B.,Pudasainee, D., Seo, T.-C. 2010. Anthropogenic mercury emission inventory with emission factors and total emissions in Korea. Atmospheric Environment 44 (2010) 2714-2721.
Kumari, R. 2010. Emission Estimate of Passport-Free Heavy Metal Mercury from Indian Thermal Power Plants and Non-Ferrous Smelters. By Toxic Link, supported by the European Environmental Bureau - Zero Mercury Campaign.
Li, G., Feng, X., Li, Z., Qiu, G., Shang, L., Liang, P., Wang, D., Yang, Y. Mercury emission to the atmosphere from primary Zn production in China. Science of the Total Environment 408 (2010) 4607–4612.
Masekoameng, K. M., Leaner, J., Dabrowski, J. 2010. Trends in anthropogenic mercury emissions estimated for South Africa during 2000-2006. Atmospheric Environment (2010), doi:10.1016j.atmosenv.2010.05.006
Ministerio de Medio Ambiente y Recursos Naturales, the Dominican Republic, 2010. “ANÁLISIS SITUACIONAL SOBRE LA GESTIÓN DEL MERCURIO EN LA REPÚBLICA DOMINICANA E INVENTARIO NACIONAL DE EMISIONES DE MERCURIO. INFORME PRELIMINAR
Ministerio del Ambiente, Ecuador, 2008. Pilot Project on Strengthening Inventory Development and Risk Management-Decision Making for Mercury: A Contribution to the Global Alliance on Mercury. Final report.
Mukherjee, A.B., Bhattacharya, P., Sarkar, A., Zevenhoven, R. 2009. Mercury Emissions from Industrial Sources in India and its Effects in the Environment. Chapter 4 in N. Pirrone and R. Mason (eds.), Mercury Fate and Transport in the Global Atmosphere, DOI:10.1007/978-0-387-93958-2_4. Springer Science + Business Media, LLC 2009.
National Environmental Authority, Department of Environmental Quality Protection, Panama, 2009. Pilot Project on Strengthening the Development of an Inventory and Risk Management in Making Decisions on Mercury. “National Emissions Inventory of Mercury in Panama”, Summary of the Final Report. January 2009.
Nelson, P. F., Nguyen, H., Morrison, A. L., Malfoy, H. Cope, M. E., Hibberd, M. F., Lee, S., McGregor, J. L., Meyer, M. 2009. Mercury Sources, Transportation and Fate in Australia. Final Report to the Department of Environment, Water, Heritage & the Arts, RFT 100/0607. December 2009.
NESCAUM (2010). Technologies for Control and Measurement of Mercury Emissions from Coal-Fired Power Plants in the United States: A 2010 Status Report. Northeast States for Coordinated Air Use Management (NESCAUM).
Pacyna, E.G. and J.M. Pacyna, 2002. Global emission of mercury from anthropogenic sources in 1995. Water, Air and Soil Pollution, 137: 149-165.
Pacyna, J.M. and E.G. Pacyna, 2005. Anthropogenic sources and global inventory of mercury emissions. In: Parsons, M.B. and J.B. Percival (eds.), Mercury: Sources, Measurements, Cycles, and Effects. Mineralogical Association of Canada, Short Course Series Volume No. 32.
Pacyna, J. M., Sundseth, K., Pacyna, E. G., and Jozewich, W., 2009. An Assessment of costs and Benefits Associated with Mercury Emission Reductions from Major Anthropogenic Sources. Journal of Air and Waste Management Association (Accepted).
Pacyna, J. M., Sundseth, K., Pacyna, E. G., and Jozewich, W., 2010. An Assessment of costs and Benefits Associated with Mercury Emission Reductions from Major Anthropogenic Sources. Journal of Air and Waste Management Association60:302-315
Pavlish J H, Sondreal E A, Mann M D, Olson E S, Galbreath K C, Laudal D, Benson S A (2003) Status review of mercury control options at coal-fired power plants. Fuel Processing Technology; 82 (2-3); 89-165 (Aug 2003)
Pirrone, N., Cinnirella, S., feng, X., Finkelman, R. B., Friedli, H. R., leaner, J., Mason, R., Mukherjee, A. B., Stracher, G. B., Streets, D. G., Telmer, K. (2010). Global mercury emissions to the atmosphere from anthropogenic and natural sources. Atmos. Chem. Phys., 10, 5951-5964, 2010.
Pudasainee, D., Kim, J.-H., Seo, Y.-C. 2009. Mercury emission trend influenced by stringent air pollutants regulation for coal fired power plants in Korea. Atmospheric Environment 43 (2009) 6254-6259.
Renzoni, R., Ullrich, C., Belboom, S., German, A. (2010) Mercury in the Cement Industry. Université de Liège. Independently commissioned by CEMBUREAU - CSI.
Rini, M.J., Vosteen, B.W. (2009). Full-Scale Test Results from a 600 MW PRB-fired Unit Using Alstom’s KNX Technology for Mercury Control, MEC-6 Conference, Ljubljana, Slovenia, April 2009.
Rokke, N., 2006. The Energy Outlook of Norway. Plenary session presentation of the Polish-Norwegian Energy Supply and Environmental Impact Thematic Seminar 18 October 2006. PowerPoint presentation.
Schreiber, R. J., Kellett, P. E., Kellett, C. D. 2009. Compilation of mercury emissions data. Portland Cement Association. PCA R&D Serial No. SN3091.
Senior, C. (2010) Mercury Emissions Reduction from Portland Cement Kilns using Wet Scrubbers. Paper-2010-A-1419. Presented at the Air & Waste Management Association Annual Meeting and Exhibition, Calgary, Alberta, Canada, June 22-25, 2010.
Srivastava R K, Hutson N, Martin B, Princiotta F, Staudt J (2006) Control of mercury emissions from coal- fired utility boilers. Environmental Science and Technology; 40 (5); 1385-1393 (Mar 2006)
Streets, D. G., Hao, J., Wang, S., Wu, Y. 2009. Mercury emissions from coal combustion in China. Chapter 2 in N. Pirrone and R. Mason (eds.), Mercury Fate and Transport in the Global Atmosphere, DOI:10.1007/978-0-387-93958-2_2. Springer Science + Business Media, LLC 2009.
Takaoka M, Takeda N, Fujiwara T, Kurata M, Kimura T. 2002. Control of mercury emissions from a municipal solid waste incinerator in Japan. J Air Waste Manag Assoc. 2002 Aug;52(8):931-40.
UNEP, 2006. Guide for Reducing Major Uses and Releases of Mercury. June 2006. http://www.unep.org/hazardoussubstances/Mercury/MercuryPublications/GuidanceTrainingMaterialToolkits/tabid/3609/language/en-US/Default.aspx
UNEP, 2005. Toolkit for identification and quantification of mercury releases. UNEP chemicals branch, mercury programme. http://www.chem.unep.ch/mercury/Toolkit/default.htm
UNEP, 2010. Toolkit for Identification and Quantification of Mercury Releases http://www.unep.org/hazardoussubstances/Mercury/MercuryPublications/GuidanceTrainingMaterialToolkits/MercuryToolkit/tabid/4566/language/en-US/Default.aspx
UNEP/AMAP, 2008. Technical Background Report to the Global Atmospheric Mercury Assessment. Arctic Monitoring and Assessment Programme/UNEP Chemicals Branch. 159 pp. (http://www.chem.unep.ch/mercury/Atmospheric_Emissions/Technical_background_report.pdf)
UNEP, 2008. UNEP Report on A general qualitative assessment of the potential costs and benefits associated with each of the strategic objectives set out in Annex 1 of the report of the first meeting of the Open Ended Working Group, UNEP Chemicals Branch, UNEP-CBA report. http://www.chem.unep.ch/mercury/OEWG2/documents/e52)/English/OEWG_2_5_add_1.pdf
UNEP Chemicals Branch, 2008. The Global Atmospheric Mercury Assessment: Sources, Emissions and Transport. UNEP-Chemicals, Geneva. 42 pp. (http://www.chem.unep.ch/mercury/Atmospheric_Emissions/UNEP%20SUMMARY%20REPORT%20-%20final%20for%20WEB%20Dec%202008.pdf)
UNEP , in prep. (2010). Process Optimization Guidance Document for Reducing Mercury Emissions from Coal Combustion in Power Plants. Report to UNEP Chemical Branch, January 2010. Available at_ http://hqweb.unep.org/hazardoussubstances/Mercury/PrioritiesforAction/Coalcombustion/ProcessOptimizationGuidanceDocument/tabid/4873/language/en-US/Default.aspx
US DOE, 2006. DOE/NETL`s Phase II Mercury Control Technology Field Testing Program. Preliminary Economic Analysis of Activated Carbon Injection. Prepared by Jones, A.P., Hoffman, J.W., Smith, D.N., Felley, T.J., Murphy, J.T. 2006.
Wang, S. X., Song, J. X., Li, G. H., Wu, Y., Zhang, L., Wan, Q., Streets, D. G., Chin, C. K., Hao, J. M., 2010. Estimating mercury emissions from a zinc smelter in relation to China´s mercury control policies. Environmental Pollution 158 (2010) 3347-3353.
Wang, S. X., Zhang, L., Li, G. H., Wu, Y., Hao, J. M., Pirrone, N., Sprovieri, F., Ancora, M. P. (2010). Mercury emission and speciation of caol-fired power plants in China. Atmospheric Chemistry and Physics, 10, 1183-1192, 2010.
Weem, A.P., 2010. Reduction of mercury emissions from coal fired power plants. Convention on Long-range Transboundary Air Pollution. Working Group on Strategies and Review, 47th session, Informal document No 6, August 3,2010.
Wirling, J., Schiffer, H.-P., Merzbach, F. (2000). Adsorptive Waste Gas Cleaning During the Co-Combustion of Sewage Sludge in a Lignite-Fired Industrial Power Plant; VGB-Power Tech., December 2000.
Visschedijk A.J.H., Denier van der Gon H.A.C., van het Bolscher M. and P.Y.J. Zandveld, 2006. Study to the effectiveness of the UN ECE Heavy Metals (HM) Protocol and cost of additional measures. TNO report No. 2006-A-R0087/B, Apeldorn, the Netherlands.
Wu, Y., Wang, S., Streets, D. G., Hao, J., Chan, M., Jiang, J. 2006. Trends in anthropogenic mercury emissions in China from 1995 to 2003. Environ. Sci. technol. 2006, 40, 5312-5318.