سلوك ارتشاح العناصر الثقيلة من مسحوق رماد الفحم المتطاير

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Brigden, K., Santillo. D., Heavy metal and metalloid content of fly ash collected from the Saul, Mauban and Masinloc coal-fired power plants in the Philippines, 2002. Department of Biological Sciences, University of Exeter, UK.

Bushell, A.J., The occurrence of trace elements in UK coal and their fate on gasification and disposal of residues, PhD Thesis, 1997, Department of Materials, Imperial College, London.

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Hassett, D, J., el at: Leaching of CCBs: observations from over 25 years of research, Fuel, 2005. Article in press.

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Hong, K., el at., Extraction of heavy metals from MSW incinerator fly ashes by chelating agents, 2000.75:p. 57-73.

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Iyer, R., The surface chemistry of leaching coal fly ash, Journal of Hazardous Materials, 2002. 93: p.321-329.

Otero-Rey, J., el at., Influence of several experimental parameters on As and Se leaching from coal fly ash samples. Fuel, 2005. Article in press.

Pelley, S and Cohen, H., Evaluation of the leaching potential of trace elements from coal ash to the (groundwater) Aquifer, 1999, International ash utilization symposium, centre for applied energy research, University of Kentucky.

Sahuquillo, A., el at., Overview of the use of leaching/extraction tests for risk assessment of trace metals in contaminated soils and sediments, Trace Trends in Analytical Chemistry, 2003. 22: p. 152- 159.

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Spears, D, A., Role of clay minerals in UK coal combustion, Applied Clay Science, 2000. 16: p. 87-95.

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Swaine, D, J., Why trace elements are important. Fuel Processing Technology, 2000. 65-66: p. 21-33.

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Zandi, M., Russell, N., Trace element leaching behaviour from pulverised coal fly ash. University of Sheffield, UK, 2004.