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COAL ASH CHARACTERISTICS TO ASSESS ITS POSSIBLE USES
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References34
Carlsson C.L & Adriano D.C. Environmental impacts of coal combustion residues. J Environ Qual., vol.22, pp 227–247, 1993.
Popescu L. G., Gorun A., Racoceanu C. & Cruceru M., Enviromental impact of ash and slag deposit Ceplea Valey of energetic centre Turceni, 12th Int. Multidisciplinary Sintering Melting GeoConference on Energy and Clean Technologies Scientific GeoConference, SGEM2012 Conf. Proc., Albena, Bulgaria, June 17-23, 2012, vol.5, pp 345 – 352.
Bocaccini A.R, Kopf M & Stunpfe W. Glass-ceramics from filter dusts from waste incinerator. Ceramic International, vol. 21, pp 231–235, 1995.
Kara A, Kurama H, Kara Y. & Kurama S. Utilization of coal combustion fly ash in terracotta bodies, Key Engineering Material, pp 2513-2516, 2004.
Schiopu E.C. Cirtina D. Racoceanu C. & Predeanu G. Researches regarding heavy metals determination (Zn, Pb, Cu, Ni, Cd, As, Cr) from steam power plant slag and ash deposited in the decantation pond from Ceplea Valley, in order to determine their use opportunity as raw materials in building materials industry, 12th Int. Multidisciplinary Scientific GeoConference, SGEM2012 Conf. Proc., June 17-23,2012, vol.5, pp 723-728
Queralt I, Querol X, Lopez-Soler A. & Plana F. Use of coal fly ash for ceramics: A case study for a large Spanish power station. Fuel, vol. 76, pp 787-791, 1997.
Zimmer A. & Bergmann C. P. Fly ash of mineral coal as ceramic tiles raw material. Waste Management, vol.27, pp 59-66, 2007.
Predeanu G., Volceanov E., Abagiu T.A. & Popescu L.G. Evaluation of ash utilization as a reuse material for the ceramic industry, 2nd WSEAS Int. Conference on Energy and Environment Technologies and Equipment (EEETE’13), Brasov, Romania, June 1-3, 2013, in press
Gheorghe M, Saca N, Ghecef C, Pintoi R & Radu L. Self compacted concrete with fly ash addition, Romanian Journal of Materials, vol.41, issue 3, pp 201-210, 2011.
Duan R. G, Liang K. M. & Gu S.R. Effect of changing TiO2 content on structure and crystallization of CaO –Al2O3–SiO2 system glasses. J. Eur. Ceram. Soc.,vol.18 , pp 1729–1735, 1998.
Khater G .A. The use of Saudi slag for the production of glass ceramic materials. Ceramic International, vol. 28, pp 59–67, 2002.
Leroy C, Ferro M.C, Monteiro R.C.C & Fernandes M. H.V. Production of glass - ceramics from coal ashes. J. Eur. Ceram. Soc., vol. 21, pp 195–202, 2001.
Barbier i L. Ferrari AM, Lancellotti I. & Leonelli C. Crystallization of (Na 2O– MgO)–CaO–Al2O3–SiO2 glassy systems formulated from waste products. J. Am. Ceram. Soc., vol. 83, issue 10, pp 2515–2520, 2000.
Cioffi R, Pernice P, Aronne A, Catauro M. & Quattroni G. Glass-ceramic from fly ash added MgO and TiO2. J. Eur. Ceram. Soc., vol. 14, pp 517–521, 1994.
Erol Küçükbayrak M.S. & Ersoy-Meriçboyu A. Comparison of the properties of glass, glass –ceramic and ceramic materials produced from coal fly ash, Journal of Hazardous Materials, vol.153, pp 418–425, 2008.
Predeanu G. & Panaitescu C. Petrographical evaluation of xylite activated carbon. Int. J. of Coal Geology, vol. 71, pp 542-553, 2007.
Volceanov E. Development of new composite materials for building purposes based on proposed wastes through the phase relationship in the targeted ceramic systems. In: Inception Report on Project LIFE 10 ENV/RO/729, March 2012.
Carlsson C.L & Adriano D.C. Environmental impacts of coal combustion residues. J Environ Qual., vol.22, pp 227–247, 1993.
Popescu L. G., Gorun A., Racoceanu C. & Cruceru M., Enviromental impact of ash and slag deposit Ceplea Valey of energetic centre Turceni, 12th Int. Multidisciplinary Sintering Melting GeoConference on Energy and Clean Technologies Scientific GeoConference, SGEM2012 Conf. Proc., Albena, Bulgaria, June 17-23, 2012, vol.5, pp 345 – 352.
Bocaccini A.R, Kopf M & Stunpfe W. Glass-ceramics from filter dusts from waste incinerator. Ceramic International, vol. 21, pp 231–235, 1995.
Kara A, Kurama H, Kara Y. & Kurama S. Utilization of coal combustion fly ash in terracotta bodies, Key Engineering Material, pp 2513-2516, 2004.
Schiopu E.C. Cirtina D. Racoceanu C. & Predeanu G. Researches regarding heavy metals determination (Zn, Pb, Cu, Ni, Cd, As, Cr) from steam power plant slag and ash deposited in the decantation pond from Ceplea Valley, in order to determine their use opportunity as raw materials in building materials industry, 12th Int. Multidisciplinary Scientific GeoConference, SGEM2012 Conf. Proc., June 17-23,2012, vol.5, pp 723-728
Queralt I, Querol X, Lopez-Soler A. & Plana F. Use of coal fly ash for ceramics: A case study for a large Spanish power station. Fuel, vol. 76, pp 787-791, 1997.
Zimmer A. & Bergmann C. P. Fly ash of mineral coal as ceramic tiles raw material. Waste Management, vol.27, pp 59-66, 2007.
Predeanu G., Volceanov E., Abagiu T.A. & Popescu L.G. Evaluation of ash utilization as a reuse material for the ceramic industry, 2nd WSEAS Int. Conference on Energy and Environment Technologies and Equipment (EEETE’13), Brasov, Romania, June 1-3, 2013, in press
Gheorghe M, Saca N, Ghecef C, Pintoi R & Radu L. Self compacted concrete with fly ash addition, Romanian Journal of Materials, vol.41, issue 3, pp 201-210, 2011.
Duan R. G, Liang K. M. & Gu S.R. Effect of changing TiO2 content on structure and crystallization of CaO –Al2O3–SiO2 system glasses. J. Eur. Ceram. Soc.,vol.18 , pp 1729–1735, 1998.
Khater G .A. The use of Saudi slag for the production of glass ceramic materials. Ceramic International, vol. 28, pp 59–67, 2002.
Leroy C, Ferro M.C, Monteiro R.C.C & Fernandes M. H.V. Production of glass - ceramics from coal ashes. J. Eur. Ceram. Soc., vol. 21, pp 195–202, 2001.
Barbier i L. Ferrari AM, Lancellotti I. & Leonelli C. Crystallization of (Na 2O– MgO)–CaO–Al2O3–SiO2 glassy systems formulated from waste products. J. Am. Ceram. Soc., vol. 83, issue 10, pp 2515–2520, 2000.
Cioffi R, Pernice P, Aronne A, Catauro M. & Quattroni G. Glass-ceramic from fly ash added MgO and TiO2. J. Eur. Ceram. Soc., vol. 14, pp 517–521, 1994.
Erol Küçükbayrak M.S. & Ersoy-Meriçboyu A. Comparison of the properties of glass, glass –ceramic and ceramic materials produced from coal fly ash, Journal of Hazardous Materials, vol.153, pp 418–425, 2008.
Predeanu G. & Panaitescu C. Petrographical evaluation of xylite activated carbon. Int. J. of Coal Geology, vol. 71, pp 542-553, 2007.
Volceanov E. Development of new composite materials for building purposes based on proposed wastes through the phase relationship in the targeted ceramic systems. In: Inception Report on Project LIFE 10 ENV/RO/729, March 2012.
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