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Determination of Nickel and Vanadium in Crude Oil Using Wavelength Dispersive X-Ray Fluorescence Spectrometry and a Tight Standardization Method*

Published online by Cambridge University Press:  06 March 2019

S. Mansour
Affiliation:
Kuwait Institute for Scientific Research P.O. Box 24885, SafatKuwait
F. Abu-Dagga
Affiliation:
Kuwait Institute for Scientific Research P.O. Box 24885, SafatKuwait
R. Sabri
Affiliation:
Kuwait Institute for Scientific Research P.O. Box 24885, SafatKuwait
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Abstract

Metallic impurities present in crude oils lead to the rapid deactivation of catalysts used in refineries and a drop in the yield of oil products. The determination of these impurities is therefore of primary importance. The conventional and most widely used methods to determine trace metals in oils and petroleum products are chemical analysis methods such as atomic absorption spectrometry (AAS) and inductively coupled plasmaoptical emission spectrometry (ICP-OES). Sample preparation for these methods includes decomposition of the crude sample by dry ashing and combustion of the oil sample followed by chemical treatment of the dry ash residue (ASTM, 1983; Fassel et al., 1976). Major drawbacks of chemical analysis methods are the length of time required to prepare the sample and the possibility of losing trace metallorganic compounds in the form of volatile compounds.

Type
Research Article
Copyright
Copyright © International Centre for Diffraction Data 1985

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Footnotes

*

Kuwait Institute for Scientific Research Publication No. KISR-1835, Kuwait.

References

1. ASTM. 1983, Analysis of selected elements in waterborne oils, Water and Envir. Tech., Section II. 263.Google Scholar
2. Christensen, L.H., and Agerbo, A., 1981, Determination of sulfur and heavy metals in crude oil and petroleum products by energy dispersive x-ray fluorescence spectrometry and fundamental parameter approach, Anal. Chem., 53, 1788.Google Scholar
3. Fassel, V.A., Peterson, C.A., Abercrombie, F.N., and Kaiseley, R. 5(. 1976, Simultaneous determination of wear metals in lubricating oil by inductively coupled plasma atomic emission spectrometry, Anal. Chem., 48, 516.Google Scholar
4. Kubo, H., Bernthal, S., and Wildeman, T., 1978, Energy dispersive x-ray fluorescence spectrometric determination in trace elements in oil samples, Anal. Chem., 50, 899.Google Scholar
5. NBS. National Bureau of Standards), 1967, Standard reference materials 1052b and 1065b, U. S. Department of Commerce, Washington, D. C. 20234.Google Scholar
6. Sanders, R.W., Olson, K.B., Weinier, U.C., and Bielson, K.K., 1983, Multielement analysis of unweighed oil samples by x-ray fluorescence spectrometry with two excitation sources, Anal. Chem., 55, 1911.Google Scholar