Nuclear Technology and Radiation Protection 2017 Volume 32, Issue 3, Pages: 261-266
https://doi.org/10.2298/NTRP1703261N
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Cited by
Physicochemical, mineralogical and radiological properties of red mud samples as secondary raw materials
Nenadović Snežana S. (Vinča Institute of Nuclear Sciences, Department of Materials Science, Belgrade)
Mucsi Gabor (University of Miskolc, Faculty of Earth Science and Engineering, Miskolc-Egyetemvaros, Hungary)
Kljajević Ljiljana M. (Vinča Institute of Nuclear Sciences, Department of Materials Science, Belgrade)
Mirković Miljana M. (Vinča Institute of Nuclear Sciences, Department of Materials Science, Belgrade)
Nenadović Miloš T. (Vinča Institute of Nuclear Sciences, Laboratory of Atomic Physics, Belgrade)
Kristaly Ferenc (University of Miskolc, Faculty of Earth Science and Engineering, Miskolc-Egyetemvaros, Hungary)
Vukanac Ivana S. (Vinča Institute of Nuclear Sciences, Laboratory for Nuclear and Plasma Physics, Belgrade)
The main goal of the presented research was the preliminary investigation of
possibility of red mud - Hungarian dump sites Almasfuzito (sample A) and Ajka
(sample B) - application as a pigment or as a raw material for use in the
construction materials industry. Also, the aim of this work was the
characterization of red mud as industrial waste generated by the Bayer
process in the aluminum industry - which may cause environmental problems if
appropriate treatment is not carried out. The main mineral phases of both red
mud are hematite (Fe2O3), calcite (CaCO3), gibbsite (Al(OH)3) and they
consists of particles of median particle size 2.1 mm (sample A) and 2.5 mm
(sample B) and have a characteristic red color, which was the reason for its
testing for use in the industry of building materials as a pigment for
standard concrete mixtures. The radionuclides content in the samples was
determined by gamma spectrometry, and the radiological hazards originating
from 238U, 232Th, 40K in the samples, were assessed through the radium
equivalent activity, and the external radiation hazard index. The absorbed
dose rate and the annual effective dose were calculated in accordance with
the UNSCEAR 2010 report and the results are presented in this paper.
Keywords: gamma-spectrometry, red mud, NORM, mineral composition, physicochemical property
Project
of the Serbian Ministry of Education, Science and Technological Development,
Grant no. III 45012 and Grant no. III 45005