Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Variability of Mercury Content in Coal Matter From Coal Seams of The Upper Silesia Coal Basin

Variability of Mercury Content in Coal Matter From Coal Seams of The Upper Silesia Coal Basin ReferencesBP Statistical Review of World Energy, June 2014. bp.com/statisticalreview.Das T.B., Pal S.K., Gouricharan T., Sharma K.K., Choudhury A., 2013. Evaluation of Reduction Potential of Selected Heavy Metals from and Indian Coal by Conventional Coal Cleaning. International Journal of Coal Preparation and Utilization, 33, 300-312.Adams D.M.B., Carpenter A.M., Clarke L.B., Davidson R.M., Fernando R., Fukasawa K., Scott D.H., Smith I.M., Sloss L., Sound H.N., Takeshita M., Wu Z., 2006. SOx - emissions and Control. IEA Clean Coal Centre.Demir I., Ruch R.E., Damberger H.H., Harvey R.D., Steele J.D., Ho K.K., 1998. Environmentally critical elements in channel and cleaned samples of Illinois coals. Fuel, 77, 1/2, 95-107.Dziok T., Strugała A., Rozwadowski A. Górecki J., Ziomber S., 2014. Zmiany zawartości rtęci w węglu kamiennym w procesie jego wzbogacania. Polityka Energetyczna, 17, 4, 277-288, (in Polish).Economic Commission for Europe, 1998. Committee on Sustainable Energy. Interantional Classfication of in-Seam Coals. United Nations, New York and Geneva.Huggins F.E., Seidu L.B.A., Shah N., Huffman G.P., Honaker R.Q., Kyger J.R., Higgins B.L., 2009. Elemental modes of occurrence in an Illinois #6 coal and fractions prepared by physical separation techniques at a coal preparation plant. International Journal of Coal Geology, 78, 65-76.10.1016/j.coal.2008.10.002http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000264263200006&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3http://www.mercuryconvention.org/Convention/tabid/3426/Default.aspx. http://www.mos.gov.pl/artykul/7_archiwum/23417_polska_podpisala_konwencje_w_sprawie_rteci.html (in Polish).IEA Statistics, 2014a. Electricity Information. IEA/OECD.IEA Statistics, 2014b. Energy Balances of OECD Countries. 2014 Edition.Jureczka J., Krieger W., Wilk S., 2009. Zasoby perspektywiczne węgla kamiennego w Górnośląskim Zagłębiu Węglowym. XIX Konferencja z cyklu „Aktualia i perspektywy gospodarki surowcami mineralnymi”, 4-6.11.2009, PAN Instytut Gospodarki Surowcami Mineralnymi i Energią, Kraków, (In Polish with Englisch abstrakt.) Mastalerz M., Drobniak A., 2005. Vertical variations of mercury in Pennsylvanian coal beds from Indiana. International Journal of Coal Geology, 63, 36-57.10.1016/j.coal.2005.02.004Mercury Study Report to Congress, 1997. Volume V: Health Effects of Mercury and Mercury Compounds, EPA-452/R-97-007.Ozbayoglu G., 2011. Partitioning of major and trace elements of a Turkish lignite with size and density. Physicochem. Probl. Miner. Process., 4, 51-60.Ozbayoglu G., 2013. Removal of hazardous air pollutants based on commercial coal preparation data. Physicochem. Probl. Miner. Process., 49 (2), 621-629.Pavlish J.H., Sondreal E.A., Mann M.D., Olson E.S., Galbreath K.C., Laundal D.L., Benson S.A., 2003. Status review of mercury control options for coal-fired power plants. Fuel Processing Technology, 82, 89-165.PN-82/G-97002, 1982. Węgiel kamienny - Typy. The Polish Committee for Standardization (in Polish). PN-G-04502:2014-11, 2014. Węgiel kamienny i brunatny - Pobieranie i przygotowanie próbek do badań laboratoryjnych - Metody podstawowe. The Polish Committee for Standardization (in Polish).PN-ISO 1171:2002, 2002. Paliwa stałe - Oznaczanie popiołu. The Polish Committee for Standardization (in Polish).Pyka I., Wierzchowski K., 2010. Technological Conditions of Mercury Content Reduction in Hard Coal Based on the ROM Coal from Several Polish Collieries. Arch. Min. Sci., 55, 2, 349-371.Pyka I., Wierzchowski K., 2015. Możliwości oceny zanieczyszczenia handlowego węgla kamiennego rtęcią na podstawie analiz próbek pokładowych. Przegląd Górniczy, 6, 50-56, (in Polish).Quick W.J., Ironson R.M.A., 2002. Trace elements partitioning during the firing of washed and untreated power stations coals, Fuel, 81, 665-657.10.1016/S0016-2361(01)00197-1SC-1.PB.23, 2012. Oznaczanie zawartości Hg metodą absorpcyjnej spektrometrii atomowej z generowaniem zimnych par (CVAAS). Procedura GIG, (in Polish).Sloss L.L., 2012. Legislation, standards and methods for mercury emissions control. CCC/195. London, UK, IEA Clean Coal Centre, 43.Swaine D.J., 2000. Why trace elements are important. Fuel Processing Technology, 65-66, 21-33.Toole-O’Neil B., Tewalt S.J., Finkelman R.B., Akers D.J., 1999. Mercury concentration in coal - unraveling the puzzle. Fuel, 78, 47-54.10.1016/S0016-2361(98)00112-4UNEP, 2010. Process Optimization Guidance for Reducing Mercury Emissions from Coal Combustion in Power Plants. Division of Technology, Industry and Economics (DTIE) Chemicals Branch, Geneva, Switzerland.UNEP, 2013. Global Mercury Assessment 2013, Sources, Emissions, Releases and Environmental Transport. UNEP Chemicals Branch, Geneva, Switzerland.Wang W.F., Qin Y., Wang J., Li J., 2009. Partitioning of hazardous trace elements during coal preparation. Procedia Earth and Planetary Science, 1, 838-844.Wang W.F., Qin Y, Sang S., Jiang B., Guo Y., Zhu Y., Fu X., 2006a. Partitioning of minerals and elements Turing preparation of Taixi coal, China. Fuel, 85, 57-67.10.1016/j.fuel.2005.05.017Wang W., Qin Y., Wei C., Li Z., Guo Y., Zhu Y, 2006b. Partitioning of elements and macerals during preparation of Antaibao coal. International Journal of Coal Geology, 68, 223-232. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Archives of Mining Sciences de Gruyter

Variability of Mercury Content in Coal Matter From Coal Seams of The Upper Silesia Coal Basin

Loading next page...
 
/lp/de-gruyter/variability-of-mercury-content-in-coal-matter-from-coal-seams-of-the-fvQ0yFjw2z

References

References for this paper are not available at this time. We will be adding them shortly, thank you for your patience.

Publisher
de Gruyter
Copyright
© Archives of Mining Sciences
ISSN
1689-0469
eISSN
1689-0469
DOI
10.1515/amsc-2017-0058
Publisher site
See Article on Publisher Site

Abstract

ReferencesBP Statistical Review of World Energy, June 2014. bp.com/statisticalreview.Das T.B., Pal S.K., Gouricharan T., Sharma K.K., Choudhury A., 2013. Evaluation of Reduction Potential of Selected Heavy Metals from and Indian Coal by Conventional Coal Cleaning. International Journal of Coal Preparation and Utilization, 33, 300-312.Adams D.M.B., Carpenter A.M., Clarke L.B., Davidson R.M., Fernando R., Fukasawa K., Scott D.H., Smith I.M., Sloss L., Sound H.N., Takeshita M., Wu Z., 2006. SOx - emissions and Control. IEA Clean Coal Centre.Demir I., Ruch R.E., Damberger H.H., Harvey R.D., Steele J.D., Ho K.K., 1998. Environmentally critical elements in channel and cleaned samples of Illinois coals. Fuel, 77, 1/2, 95-107.Dziok T., Strugała A., Rozwadowski A. Górecki J., Ziomber S., 2014. Zmiany zawartości rtęci w węglu kamiennym w procesie jego wzbogacania. Polityka Energetyczna, 17, 4, 277-288, (in Polish).Economic Commission for Europe, 1998. Committee on Sustainable Energy. Interantional Classfication of in-Seam Coals. United Nations, New York and Geneva.Huggins F.E., Seidu L.B.A., Shah N., Huffman G.P., Honaker R.Q., Kyger J.R., Higgins B.L., 2009. Elemental modes of occurrence in an Illinois #6 coal and fractions prepared by physical separation techniques at a coal preparation plant. International Journal of Coal Geology, 78, 65-76.10.1016/j.coal.2008.10.002http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000264263200006&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=b7bc2757938ac7a7a821505f8243d9f3http://www.mercuryconvention.org/Convention/tabid/3426/Default.aspx. http://www.mos.gov.pl/artykul/7_archiwum/23417_polska_podpisala_konwencje_w_sprawie_rteci.html (in Polish).IEA Statistics, 2014a. Electricity Information. IEA/OECD.IEA Statistics, 2014b. Energy Balances of OECD Countries. 2014 Edition.Jureczka J., Krieger W., Wilk S., 2009. Zasoby perspektywiczne węgla kamiennego w Górnośląskim Zagłębiu Węglowym. XIX Konferencja z cyklu „Aktualia i perspektywy gospodarki surowcami mineralnymi”, 4-6.11.2009, PAN Instytut Gospodarki Surowcami Mineralnymi i Energią, Kraków, (In Polish with Englisch abstrakt.) Mastalerz M., Drobniak A., 2005. Vertical variations of mercury in Pennsylvanian coal beds from Indiana. International Journal of Coal Geology, 63, 36-57.10.1016/j.coal.2005.02.004Mercury Study Report to Congress, 1997. Volume V: Health Effects of Mercury and Mercury Compounds, EPA-452/R-97-007.Ozbayoglu G., 2011. Partitioning of major and trace elements of a Turkish lignite with size and density. Physicochem. Probl. Miner. Process., 4, 51-60.Ozbayoglu G., 2013. Removal of hazardous air pollutants based on commercial coal preparation data. Physicochem. Probl. Miner. Process., 49 (2), 621-629.Pavlish J.H., Sondreal E.A., Mann M.D., Olson E.S., Galbreath K.C., Laundal D.L., Benson S.A., 2003. Status review of mercury control options for coal-fired power plants. Fuel Processing Technology, 82, 89-165.PN-82/G-97002, 1982. Węgiel kamienny - Typy. The Polish Committee for Standardization (in Polish). PN-G-04502:2014-11, 2014. Węgiel kamienny i brunatny - Pobieranie i przygotowanie próbek do badań laboratoryjnych - Metody podstawowe. The Polish Committee for Standardization (in Polish).PN-ISO 1171:2002, 2002. Paliwa stałe - Oznaczanie popiołu. The Polish Committee for Standardization (in Polish).Pyka I., Wierzchowski K., 2010. Technological Conditions of Mercury Content Reduction in Hard Coal Based on the ROM Coal from Several Polish Collieries. Arch. Min. Sci., 55, 2, 349-371.Pyka I., Wierzchowski K., 2015. Możliwości oceny zanieczyszczenia handlowego węgla kamiennego rtęcią na podstawie analiz próbek pokładowych. Przegląd Górniczy, 6, 50-56, (in Polish).Quick W.J., Ironson R.M.A., 2002. Trace elements partitioning during the firing of washed and untreated power stations coals, Fuel, 81, 665-657.10.1016/S0016-2361(01)00197-1SC-1.PB.23, 2012. Oznaczanie zawartości Hg metodą absorpcyjnej spektrometrii atomowej z generowaniem zimnych par (CVAAS). Procedura GIG, (in Polish).Sloss L.L., 2012. Legislation, standards and methods for mercury emissions control. CCC/195. London, UK, IEA Clean Coal Centre, 43.Swaine D.J., 2000. Why trace elements are important. Fuel Processing Technology, 65-66, 21-33.Toole-O’Neil B., Tewalt S.J., Finkelman R.B., Akers D.J., 1999. Mercury concentration in coal - unraveling the puzzle. Fuel, 78, 47-54.10.1016/S0016-2361(98)00112-4UNEP, 2010. Process Optimization Guidance for Reducing Mercury Emissions from Coal Combustion in Power Plants. Division of Technology, Industry and Economics (DTIE) Chemicals Branch, Geneva, Switzerland.UNEP, 2013. Global Mercury Assessment 2013, Sources, Emissions, Releases and Environmental Transport. UNEP Chemicals Branch, Geneva, Switzerland.Wang W.F., Qin Y., Wang J., Li J., 2009. Partitioning of hazardous trace elements during coal preparation. Procedia Earth and Planetary Science, 1, 838-844.Wang W.F., Qin Y, Sang S., Jiang B., Guo Y., Zhu Y., Fu X., 2006a. Partitioning of minerals and elements Turing preparation of Taixi coal, China. Fuel, 85, 57-67.10.1016/j.fuel.2005.05.017Wang W., Qin Y., Wei C., Li Z., Guo Y., Zhu Y, 2006b. Partitioning of elements and macerals during preparation of Antaibao coal. International Journal of Coal Geology, 68, 223-232.

Journal

Archives of Mining Sciencesde Gruyter

Published: Dec 20, 2017

There are no references for this article.