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    A combination of bioleaching and electromagnetic separation in the treatment of quartz sands

    Neue Suche nach: Lovás Michal
    Neue Suche nach: Štyriaková Iveta
    Neue Suche nach: Hredzák Slavomír

    This contribution deals with the treatment of Slovakian eolic quartz sands by bioleaching and magnetic separation with the aim to remove iron. The X-ray study of sand patterns confirms that quartz occurs as a dominant mineral. Accompanying minerals are represented by smectite and feldspars. As to the sample of unground sand, bacterial leaching resulted in a Fe2O3 reduction to the content of 0.13 %. Similarly, in case of ground sample, the Fe2O3 content was decreased to the value of 0.19 %. Thus, biological leaching removed 60 % of Fe and by following leaching by oxalic acid total the iron removal was 70.5 %. Finally, the application of magnetic separation resulted in the total iron removal of 93 % and, in such combined way, the prepared product contained 0.024 % of Fe2O3. Achieved results on the iron removal points to the fact that the combination of leaching and magnetic separation enables to obtain a product usable in glass industry.

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    A combination of bioleaching and electromagnetic separation in the treatment of quartz sands

    Neue Suche nach: Lovás Michal
    Neue Suche nach: Štyriaková Iveta
    Neue Suche nach: Hredzák Slavomír

    This contribution deals with the treatment of Slovakian eolic quartz sands by bioleaching and magnetic separation with the aim to remove iron. The X-ray study of sand patterns confirms that quartz occurs as a dominant mineral. Accompanying minerals are represented by smectite and feldspars. As to the sample of unground sand, bacterial leaching resulted in a Fe2O3 reduction to the content of 0.13 %. Similarly, in case of ground sample, the Fe2O3 content was decreased to the value of 0.19 %. Thus, biological leaching removed 60 % of Fe and by following leaching by oxalic acid total the iron removal was 70.5 %. Finally, the application of magnetic separation resulted in the total iron removal of 93 % and, in such combined way, the prepared product contained 0.024 % of Fe2O3. Achieved results on the iron removal points to the fact that the combination of leaching and magnetic separation enables to obtain a product usable in glass industry.

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    A combination of bioleaching and electromagnetic separation in the treatment of quartz sands

    Neue Suche nach: Lovás Michal
    Neue Suche nach: Štyriaková Iveta
    Neue Suche nach: Hredzák Slavomír

    This contribution deals with the treatment of Slovakian eolic quartz sands by bioleaching and magnetic separation with the aim to remove iron. The X-ray study of sand patterns confirms that quartz occurs as a dominant mineral. Accompanying minerals are represented by smectite and feldspars. As to the sample of unground sand, bacterial leaching resulted in a Fe2O3 reduction to the content of 0.13 %. Similarly, in case of ground sample, the Fe2O3 content was decreased to the value of 0.19 %. Thus, biological leaching removed 60 % of Fe and by following leaching by oxalic acid total the iron removal was 70.5 %. Finally, the application of magnetic separation resulted in the total iron removal of 93 % and, in such combined way, the prepared product contained 0.024 % of Fe2O3. Achieved results on the iron removal points to the fact that the combination of leaching and magnetic separation enables to obtain a product usable in glass industry.

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    Titel:

    A combination of bioleaching and electromagnetic separation in the treatment of quartz sands

    Beteiligte:

    Lovás Michal (Autor:in) / Štyriaková Iveta (Autor:in) / Hredzák Slavomír (Autor:in)

    Erschienen in:

    Acta Montanistica Slovaca, Vol 11, Iss special issue 2, Pp 384-387 (2006)

    Erscheinungsdatum:

    2006

    ISSN:

    1335-1788

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Unbekannt

    Schlagwörter:

    industrial minerals , bioleaching , Bacillus sp. , heterotrophic bacteria , iron , Mining engineering. Metallurgy , TN1-997 , Geology , QE1-996.5

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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