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A Comparison of Several Sample Preparation Techniques for the Analysis of Fly Ash

Published online by Cambridge University Press:  06 March 2019

Scott Schlorholtz
Affiliation:
Engineering Research Institute - Materials Analysis and Research Laboratory Iowa State University, Ames, Iowa 50011
Turgut Demirel
Affiliation:
Engineering Research Institute - Materials Analysis and Research Laboratory Iowa State University, Ames, Iowa 50011
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Extract

Fly ash is a finely divided particulate material that is removed from the flue gases of pulverized coal burning power plants. Recent emphasis on the utilization of fossil fuel (i.e., coal) has created a serious waste disposal problem in that, of the 60 million tons of fly ash produced annually in the United States, only about 20% is being utilized [1], The remaining fly ash (about 48 million tons per year) must be disposed of in some environmentally safe manner.

Type
V. XRF Applications; Fuels and Lubricants, Metals and Alloys, Geological, Heavy Element, Other
Copyright
Copyright © International Centre for Diffraction Data 1986

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References

1. Adriano, D.C., “Trace Elements in the Terrestrial Environment”, Springer-Verlag, NewYork (1986).Google Scholar
2. American Society for Testing and Materials, “1985 Annual Book of ASTM. tandards”, Vol. 4.02, ASTM. Philadelphia (1985).Google Scholar
3. American Society for Testing and Materials, “1985 Annual Book of A. T. Standards”, Vol. 5.05, ASTM. Philadelphia (1985).Google Scholar
4. Kanare, H.M., Preparation and Characterization of Three New NBS. ly Ash Standard Reference Materials, in: “Fly Ash and Coal Conversion By-Products: Characterization, Utilization and Disposal II.” McCarthy, G.J., Glasser, F.P. and Roy, D.M., Vol. 65, Materials Research Society, Pittsburg (1986).Google Scholar
5. Norrish, K. and Hutton, J.T., “An Accurate X-ray Spectographic Method for the Analysis of a Wide Range of Geological Samples, Geochim, Cosmochiw. Acta, 33: 431 (1969).Google Scholar
6. American Society for Testing and Materials, “1985 Annual Book of ASTM. tandards”, Vol. 4.01, ASTM. Philadelphia (1985).Google Scholar