A Study on Recovery of Iron from Red Mud by Solid State Reduction Followed by Magnetic Separation

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Date

2020

Authors

Keskinkılıç, Ender

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Springer international Publishing Ag

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Metallurgical and Materials Engineering
(2004)
The main fields of operation for Metallurgical and Materials Engineering are production of engineering materials, defining and improving their features, as well as developing new materials to meet the expectations at every aspect of life and the users from these aspects. Founded in 2004 and graduated its 10th-semester alumni in 2018, our Department also obtained MÜDEK accreditation in the latter year. Offering the opportunity to hold an internationally valid diploma through the accreditation in question, our Department has highly qualified and experienced Academic Staff. Many of the courses offered at our Department are supported with various practice sessions, and internship studies in summer. This way, we help our students become better-equipped engineers for their future professional lives. With the Cooperative Education curriculum that entered into effect in 2019, students may volunteer to work at contracted companies for a period of six months with no extensions to their period of study.

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Abstract

Red mud is a waste material of the Bayer process for alumina production from bauxite ore. Red mud is generally pumped to disposal in an artificial pond which is accompanied by great land occupation and environmental issues. Many researches in different fields have been carried out to evaluate the red mud. Of these, researches on recovering valuable metals from red mud are the most successful. In this study, recovery of iron, which is the most abundant metal in red mud, was investigated. A red mud sample with 34% Fe2O3 was used. Solid state carbothermic reduction followed by wet magnetic separation was performed to recover iron. Reduction was carried out at temperatures 1000-1200 degrees C. Reduced samples were ground and subjected to wet magnetic separation. The effect of reduction temperature and grinding time were investigated on the metallization of iron and the iron content of the final concentrate.

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TOPKAYA, YAVUZ/0009-0009-3671-3655; Eray, Said/0000-0001-7310-9726
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TOPKAYA, YAVUZ ORCID logo
Eray, Said ORCID logo

Keywords

Red mud, Iron recovery, Reduction, Magnetic separation

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Citation

1

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Q4

Source

11th International Symposium on High-Temperature Metallurgical Processing -- FEB 23-27, 2020 -- San Diego, CA

Volume

Issue

Start Page

393

End Page

403

URI

https://doi.org/10.1007/978-3-030-36540-0_35
 https://hdl.handle.net/20.500.14411/3446

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