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Mechanically Induced Reactivity of ZnFe2O4

Vladimir Sepelák V. / K. Jancke / J. Richter-Mendau / Ursula Steinike / Doris-Christiane Uecker / A. Yu. Rogachev

ZnFe2O4 plays an important role as an adsorbent in the process of hot gas desulfurization. The influence of mechanical activation on the capacity S of ZnFe2O4 and on the following oxidation (regeneration) is investigated. The particle size is changed by mechanical activation in a characteristic way, and an inverse spinel structure is formed. With the mechanically induced degree of inversion the decomposition temperature of ZnFe2O4 is strongly diminished. The formation of the inverse spinel structure as well as the breakage of particle size lead to an essential increase of reactivity in the reaction with H2S. The following oxidation of the sulfurized zinc ferrite is also influenced by the primarily performed mechanical activation. For the investigations, ZnFe2O4 which had been treated in a planetary mill was used. The sulfurization was carried out with compressed powders. The characterization was performed mainly by X-ray diffraction (XRD), scanning electron microscopy (SEM), measurement of particle size and chemical analysis.

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Mechanically Induced Reactivity of ZnFe2O4

Vladimir Sepelák V. / K. Jancke / J. Richter-Mendau / Ursula Steinike / Doris-Christiane Uecker / A. Yu. Rogachev

ZnFe2O4 plays an important role as an adsorbent in the process of hot gas desulfurization. The influence of mechanical activation on the capacity S of ZnFe2O4 and on the following oxidation (regeneration) is investigated. The particle size is changed by mechanical activation in a characteristic way, and an inverse spinel structure is formed. With the mechanically induced degree of inversion the decomposition temperature of ZnFe2O4 is strongly diminished. The formation of the inverse spinel structure as well as the breakage of particle size lead to an essential increase of reactivity in the reaction with H2S. The following oxidation of the sulfurized zinc ferrite is also influenced by the primarily performed mechanical activation. For the investigations, ZnFe2O4 which had been treated in a planetary mill was used. The sulfurization was carried out with compressed powders. The characterization was performed mainly by X-ray diffraction (XRD), scanning electron microscopy (SEM), measurement of particle size and chemical analysis.

Mechanically Induced Reactivity of ZnFe2O4

Vladimir Sepelák V. / K. Jancke / J. Richter-Mendau / Ursula Steinike / Doris-Christiane Uecker / A. Yu. Rogachev

ZnFe2O4 plays an important role as an adsorbent in the process of hot gas desulfurization. The influence of mechanical activation on the capacity S of ZnFe2O4 and on the following oxidation (regeneration) is investigated. The particle size is changed by mechanical activation in a characteristic way, and an inverse spinel structure is formed. With the mechanically induced degree of inversion the decomposition temperature of ZnFe2O4 is strongly diminished. The formation of the inverse spinel structure as well as the breakage of particle size lead to an essential increase of reactivity in the reaction with H2S. The following oxidation of the sulfurized zinc ferrite is also influenced by the primarily performed mechanical activation. For the investigations, ZnFe2O4 which had been treated in a planetary mill was used. The sulfurization was carried out with compressed powders. The characterization was performed mainly by X-ray diffraction (XRD), scanning electron microscopy (SEM), measurement of particle size and chemical analysis.

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Title:

Mechanically Induced Reactivity of ZnFe2O4

Contributors:

Vladimir Sepelák V. (author) / K. Jancke (author) / J. Richter-Mendau (author) / Ursula Steinike (author) / Doris-Christiane Uecker (author) / A. Yu. Rogachev (author)

Published in:

KONA Powder and Particle Journal, Vol 12, Iss 0, Pp 87-94 (2014)

Publication date:

2014

ISSN:

0288-4534 , 2187-5537

DOI:

https://doi.org/10.14356/kona.1994015

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

Technology (General) , T1-995 , Nuclear and particle physics. Atomic energy. Radioactivity , QC770-798

Metadata by DOAJ is licensed under CC BY-SA 1.0

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