A kinetic study to recover valuables from hazardous ISF slag

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A kinetic study to recover valuables from hazardous ISF slag. / Leuchtenmüller, Manuel; Schatzmann, Walter; Steinlechner, Stefan.
In: Journal of environmental chemical engineering, Vol. 8.2020, No. 4, 103976, 21.04.2020.

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@article{ea12b94d22e147ccb0b00e259f9ff1f9,
title = "A kinetic study to recover valuables from hazardous ISF slag",
abstract = "The present paper investigates a reduction process using a carbon-saturated iron melt to treat an imerpial smelting furnace (ISF) slag. The process allows for the removal of heavy metals that are known to negatively impact the surrounding environment (Zn, Pb and As). The work includes a short characterization of the slag, describes the reductive metal bath process itself and finally, investigates the reaction kinetics of the process. Experiments show an almost complete removal of harmful elements from the slag and the possibility of the generation of marketable materials: A Zn- and Pb-rich flue dust, a utilizable slag, and an iron alloy. The produced flue dust has a similar composition as double washed Waelz oxide. The concentration of Zn, Pb, and As in the final slag phase was below 100 ppm corresponding to a recovery rate of > 99.9 % A kinetic model was developed describing the reaction rates of the carbothermic reduction reaction for FeO and ZnO. The temperature dependency of the reaction rate was found to follow the Arrhenius equation, the activation energies were determined to be 216 kJ/mol for ZnO and 191 kJ/mol for the FeO reduction reaction. Finally, mass transfer coefficients were calculated and visualized for both reactions.",
keywords = "kinetic models, ISF slag, zinc, iron,",
author = "Manuel Leuchtenm{\"u}ller and Walter Schatzmann and Stefan Steinlechner",
year = "2020",
month = apr,
day = "21",
doi = "10.1016/j.jece.2020.103976",
language = "English",
volume = "8.2020",
journal = "Journal of environmental chemical engineering",
issn = "2213-3437",
publisher = "Elsevier",
number = "4",

}

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TY - JOUR

T1 - A kinetic study to recover valuables from hazardous ISF slag

AU - Leuchtenmüller, Manuel

AU - Schatzmann, Walter

AU - Steinlechner, Stefan

PY - 2020/4/21

Y1 - 2020/4/21

N2 - The present paper investigates a reduction process using a carbon-saturated iron melt to treat an imerpial smelting furnace (ISF) slag. The process allows for the removal of heavy metals that are known to negatively impact the surrounding environment (Zn, Pb and As). The work includes a short characterization of the slag, describes the reductive metal bath process itself and finally, investigates the reaction kinetics of the process. Experiments show an almost complete removal of harmful elements from the slag and the possibility of the generation of marketable materials: A Zn- and Pb-rich flue dust, a utilizable slag, and an iron alloy. The produced flue dust has a similar composition as double washed Waelz oxide. The concentration of Zn, Pb, and As in the final slag phase was below 100 ppm corresponding to a recovery rate of > 99.9 % A kinetic model was developed describing the reaction rates of the carbothermic reduction reaction for FeO and ZnO. The temperature dependency of the reaction rate was found to follow the Arrhenius equation, the activation energies were determined to be 216 kJ/mol for ZnO and 191 kJ/mol for the FeO reduction reaction. Finally, mass transfer coefficients were calculated and visualized for both reactions.

AB - The present paper investigates a reduction process using a carbon-saturated iron melt to treat an imerpial smelting furnace (ISF) slag. The process allows for the removal of heavy metals that are known to negatively impact the surrounding environment (Zn, Pb and As). The work includes a short characterization of the slag, describes the reductive metal bath process itself and finally, investigates the reaction kinetics of the process. Experiments show an almost complete removal of harmful elements from the slag and the possibility of the generation of marketable materials: A Zn- and Pb-rich flue dust, a utilizable slag, and an iron alloy. The produced flue dust has a similar composition as double washed Waelz oxide. The concentration of Zn, Pb, and As in the final slag phase was below 100 ppm corresponding to a recovery rate of > 99.9 % A kinetic model was developed describing the reaction rates of the carbothermic reduction reaction for FeO and ZnO. The temperature dependency of the reaction rate was found to follow the Arrhenius equation, the activation energies were determined to be 216 kJ/mol for ZnO and 191 kJ/mol for the FeO reduction reaction. Finally, mass transfer coefficients were calculated and visualized for both reactions.

KW - kinetic models, ISF slag, zinc, iron,

UR - http://www.scopus.com/inward/record.url?scp=85093364635&partnerID=8YFLogxK

U2 - 10.1016/j.jece.2020.103976

DO - 10.1016/j.jece.2020.103976

M3 - Article

VL - 8.2020

JO - Journal of environmental chemical engineering

JF - Journal of environmental chemical engineering

SN - 2213-3437

IS - 4

M1 - 103976

ER -