Leaching of Metal-Containing Residues from the Battery Sector

Research output: Contribution to journalArticleResearchpeer-review

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Leaching of Metal-Containing Residues from the Battery Sector. / Gerold, Eva; Luidold, Stefan; Honner, Matthias et al.
In: World of metallurgy - Erzmetall : internationale Fachzeitschrift für Metallurgie, Vol. 72.2019, No. 5, 01.09.2019, p. 267-273.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Gerold, E, Luidold, S, Honner, M & Antrekowitsch, H 2019, 'Leaching of Metal-Containing Residues from the Battery Sector', World of metallurgy - Erzmetall : internationale Fachzeitschrift für Metallurgie, vol. 72.2019, no. 5, pp. 267-273.

APA

Gerold, E., Luidold, S., Honner, M., & Antrekowitsch, H. (2019). Leaching of Metal-Containing Residues from the Battery Sector. World of metallurgy - Erzmetall : internationale Fachzeitschrift für Metallurgie, 72.2019(5), 267-273.

Vancouver

Gerold E, Luidold S, Honner M, Antrekowitsch H. Leaching of Metal-Containing Residues from the Battery Sector. World of metallurgy - Erzmetall : internationale Fachzeitschrift für Metallurgie. 2019 Sept 1;72.2019(5):267-273.

Author

Gerold, Eva ; Luidold, Stefan ; Honner, Matthias et al. / Leaching of Metal-Containing Residues from the Battery Sector. In: World of metallurgy - Erzmetall : internationale Fachzeitschrift für Metallurgie. 2019 ; Vol. 72.2019, No. 5. pp. 267-273.

Bibtex - Download

@article{5715ce73b1034145af0b4814dc5c5b29,
title = "Leaching of Metal-Containing Residues from the Battery Sector",
abstract = "The ability of batteries to store energy is an indispensable feature for technical and consumer applications. Metal-containing residues from the battery industry can be processed in principle both pyro- and hydrometallurgical. However, in the pyrometallurgical route only the main metals are recovered, while valuable components such as e.g. rare earths get slagged. In hydrometallurgy, there are also ways to recover these, however, the processes are often relatively immature or provide contaminated products. For this reason, a process combination of leaching and precipitation should be tested in order to obtain pure products and improved leaching efficiencies. For this purpose, leaching with inorganic acids takes place in different modifications. In addition, optimized leaching parameters are determined using the MODDE12 statistical experimental design software.",
author = "Eva Gerold and Stefan Luidold and Matthias Honner and Helmut Antrekowitsch",
note = "Publisher Copyright: {\textcopyright} 2019 GDMB Gesellschaft fur Bergbau, Metallurgie, Rohstoff- und Umwelttechnik e.V.. All rights reserved.",
year = "2019",
month = sep,
day = "1",
language = "English",
volume = "72.2019",
pages = "267--273",
journal = "World of metallurgy - Erzmetall : internationale Fachzeitschrift f{\"u}r Metallurgie",
issn = "1613-2394",
publisher = "GDMB Informationsgesellschaft mbH",
number = "5",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Leaching of Metal-Containing Residues from the Battery Sector

AU - Gerold, Eva

AU - Luidold, Stefan

AU - Honner, Matthias

AU - Antrekowitsch, Helmut

N1 - Publisher Copyright: © 2019 GDMB Gesellschaft fur Bergbau, Metallurgie, Rohstoff- und Umwelttechnik e.V.. All rights reserved.

PY - 2019/9/1

Y1 - 2019/9/1

N2 - The ability of batteries to store energy is an indispensable feature for technical and consumer applications. Metal-containing residues from the battery industry can be processed in principle both pyro- and hydrometallurgical. However, in the pyrometallurgical route only the main metals are recovered, while valuable components such as e.g. rare earths get slagged. In hydrometallurgy, there are also ways to recover these, however, the processes are often relatively immature or provide contaminated products. For this reason, a process combination of leaching and precipitation should be tested in order to obtain pure products and improved leaching efficiencies. For this purpose, leaching with inorganic acids takes place in different modifications. In addition, optimized leaching parameters are determined using the MODDE12 statistical experimental design software.

AB - The ability of batteries to store energy is an indispensable feature for technical and consumer applications. Metal-containing residues from the battery industry can be processed in principle both pyro- and hydrometallurgical. However, in the pyrometallurgical route only the main metals are recovered, while valuable components such as e.g. rare earths get slagged. In hydrometallurgy, there are also ways to recover these, however, the processes are often relatively immature or provide contaminated products. For this reason, a process combination of leaching and precipitation should be tested in order to obtain pure products and improved leaching efficiencies. For this purpose, leaching with inorganic acids takes place in different modifications. In addition, optimized leaching parameters are determined using the MODDE12 statistical experimental design software.

UR - http://www.scopus.com/inward/record.url?scp=85074388012&partnerID=8YFLogxK

M3 - Article

VL - 72.2019

SP - 267

EP - 273

JO - World of metallurgy - Erzmetall : internationale Fachzeitschrift für Metallurgie

JF - World of metallurgy - Erzmetall : internationale Fachzeitschrift für Metallurgie

SN - 1613-2394

IS - 5

ER -

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