Funct. Mater. 2014; 21 (3): 356-359.

http://dx.doi.org/10.15407/fm21.03.356

X-ray method for determination of mineral constituent in solid fuel

I.F.Mikhailov, A.A.Baturin, A.I.Mikhailov

National Technical University "Kharkiv Polytechnic Institute", 21 Frunze Str., 61002 Kharkiv, Ukraine

Abstract: 

The method for determination of mineral constituent in solid fuel by the intensity ratio of Compton and Raleigh X-ray scattering peaks is proposed. The solid fuel is considered as a quasi-triple system of main phases C-SiO2-Fe2O3 with evaluating the effect of accompanying admixtures on the analysis results. Measurements of mineral constituent have been carried out using coal standard samples prepared as powders with dispersion 60 μm. The method is intended for studying the systems of phases strongly different by average atomic number and requires no precision measurements of light element fluorescence.

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References: 

1. D.Wissmann, J. ASTM Intern., 2, 125 (2005).

2. K.Chassapis, M.Roulia, Intern. J. Coal Geology, 75, 185 (2008).

3. I.F.Mikhailov, O.V.Sobol, OTTOM Proc.s, 4, 340 (2003).

4. L.I.Mirkin, Reference-Book on X-Ray Structure Analysis of Polycrystals, GIFML, Moscow, (1961) (in Russian).

5. I.F.Mikhailov, A.A.Baturin, A.I.Mikhailov, S.S.Borisova, Functional Materials, 18, 150 (2011).

1. D.Wissmann, J. ASTM Intern., 2, 125 (2005). http://dx.doi.org/10.1520/JAI12975

2. K.Chassapis, M.Roulia, Intern. J. Coal Geology, 75, 185 (2008). http://dx.doi.org/10.1016/j.coal.2008.04.006

3. I.F.Mikhailov, O.V.Sobol, OTTOM Proc.s, 4, 340 (2003).

4. L.I.Mirkin, Reference-Book on X-Ray Structure Analysis of Polycrystals, GIFML, Moscow, (1961) (in Russian).

5. I.F.Mikhailov, A.A.Baturin, A.I.Mikhailov, S.S.Borisova, Functional Materials, 18, 150 (2011).

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