A Novel Technology for the Recovery and Separation of Cassiterite- and Iron-Containing Minerals from Tin-Containing Tailing

Tin-containing tailing is classified as a solid waste, but it possesses valuable resources such as tin and iron. Tin-containing tailing exhibits a fine distribution and compact symbiosis of cassiterite- and iron-containing minerals. Therefore, it is difficult to recover and separate cassiterite- and...

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Bibliographic Details
Published inMinerals (Basel) Vol. 14; no. 10; p. 1058
Main Authors Li, Yi, Lv, Jinfang, Li, Zhiyuan, Zhou, Yongcheng, Qin, Longwei
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 21.10.2024
Subjects
Cassiterite
Centrifuges
Concentration gradient
Dosage
Efficiency
Enrichment
Field strength
Food processing
Goethite
Gravity
Haematite
Hematite
Iron
Lignite
Magnetic field
Magnetic fields
Magnetic separation
Magnetite
Materials recovery
Metallurgy
Mine tailings
Mineral processing
Minerals
Recovery
Resource utilization
Roasting
Separation
Shake tables
Solid wastes
Symbiosis
Tailings
Temperature
Tin
Vibration
China
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Summary:Tin-containing tailing is classified as a solid waste, but it possesses valuable resources such as tin and iron. Tin-containing tailing exhibits a fine distribution and compact symbiosis of cassiterite- and iron-containing minerals. Therefore, it is difficult to recover and separate cassiterite- and iron-containing minerals using traditional mineral processing methods. The study proposed a novel technology involving pre-concentration, reduction roasting, and magnetic separation for the treatment of tin-containing tailings with a tin grade of 0.14% and an iron grade of 12.79%. The classification pre-concentration method was achieved using a combination of shaking tables, suspension vibration cone separators, and high-gradient magnetic separation with a magnetic field strength of 1.4 T. The discarded tailings ratio reached 73.56%. The gravity pre-enriched concentrates and magnetic pre-enriched concentrates underwent reduction roasting to facilitate the conversion of hematite and goethite into magnetite, respectively. The optimal conditions for reduction roasting of the gravity pre-enriched concentrate were a 10% lignite dosage, a roasting temperature of 650 °C, and a holding time of 80 min. The optimal conditions for reduction roasting of the magnetic pre-enriched concentrate were a 8% lignite dosage, a roasting temperature of 750 °C, and a holding time of 100 min. The reduction roasted products were treated using magnetic separation with a magnetic field strength of 0.16 T. Finally, a tin-rich middling with a tin grade of 2.93% and a recovery ratio of 70.88%, as well as an iron concentrate with an iron grade of 61.95% and a recovery ratio of 68.08% were obtained. The study achieved efficient recoveries of tin and iron from tin tailings, thereby presenting a novel approach for the utilization of resources in the tailing.
ISSN:2075-163X
2075-163X
DOI:10.3390/min14101058