Iron Recovery Technology from Copper Processing Plants

Saodat Mirzajonova; Matluba Muratova; Ulugkhoja Rakhmatov; Nargiza Lutfullayeva; Gulnoza Beknazarova; Zaynobiddin Matkarimov; Sokhibjon Matkarimov

doi:10.4028/p-kezXI8

Paper Titles

Ferrite (Fe) Doping in Strontium Titanate (SrTi_1-xFe_xO₃) to Improve Photocatalytic Activity
p.71

Synthesis of Nanoparticles from Bamboo Charcoal
p.77

Synthesis of Gold Nanoclusters Encapsulated by Human Serum Albumin and its Application as Glucose Detection Based on Fluorescence Technique
p.85

Thermal Beneficiation of a Nickel Laterite Ore from the Obi Island of North Maluku, Indonesia Using Corncob Char as Reductant
p.95

Iron Recovery Technology from Copper Processing Plants
p.103

Modification of Drag and Lift Balance at Analog Wind Tunnel for Identification of Aerodynamic Performance
p.113

The Role of Thermoelectric Materials in Improving the Performance of a Hybrid Solar Cell System
p.119

Increased Boiler Efficiency at Power Plant of Paiton Unit 8 with the Addition of a Sootblower to the Superheater Division Panel Area
p.125

Wear Failure Analysis of a Steel Bar Used in the Coal Screener
p.133

HomeAdvances in Science and TechnologyAdvances in Science and Technology Vol. 141Iron Recovery Technology from Copper Processing...

Iron Recovery Technology from Copper Processing Plants

Abstract:

The article provides information about the initial elements in the waste and tailings of the copper processing plant of the Almalyk Mining and Metallurgical Combine and theoretical solutions for the extraction of metals. According to chemical data, the amount of iron in the waste is high (52.6%), and the most effective solution for extracting iron from the waste is the reduction process. An increase in the amount of iron to 88.9% was formed using coal and lime as reducing agents.

You might also be interested in these eBooks

6th International Conference on Advanced Materials Science

View Preview

Info:

Periodical:

Advances in Science and Technology (Volume 141)

Pages:

103-109

DOI:

https://doi.org/10.4028/p-kezXI8

Citation:

Cite this paper

Online since:

March 2024

Authors:

Saodat Mirzajonova, Matluba Muratova, Ulugkhoja Rakhmatov, Nargiza Lutfullayeva, Gulnoza Beknazarova, Zaynobiddin Matkarimov, Sokhibjon Matkarimov*

Keywords:

Calcium Oxide, Carbon, Copper Processing Plant, Dumps, Hematite, Iron Oxides, Lime, Magnetic Separation, Magnetite, Reduction Process, Tailing

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] K.S. Sanakulov The scientific and technical basis for processing waste from mining and metallurgical production. - T.: FAN AN RUz, 2009, 405.

Google Scholar

[2] Sh.T. Khojiev, The technology for the reduction of metal oxides using waste polyethene materials. METAL 2020 - 29th International Conference on Metallurgy and Materials, Conference Proceedings, 971-978, 2020/

DOI: 10.37904/metal.2020.3592

Google Scholar

[3] S.B. Mirzajonova, B.U. Mirsoatov, Z.B. Osmanov. ТECHNOLOGY OF EXTRACTION OF IRON AND ALUMINUM METALS FROM WASTE (TAILS). Innovative research in the modern world: "Theory and practice" scientific, remote, online conference. (Tashkent, May 16, 2022). With. 104-106 (.

Google Scholar

[4] S.T. Matkarimov, A.A. Yusupkhodjayev, et al., International Journal of Advanced Science and Technology 29(3), 2020, 5633-5639.

Google Scholar

[5] B.T. Berdiyarov, et al., Low-Temperature Reduction Processing of Copper Slag. In: Geetha, K., Gonzalez-Longatt, F.M., Wee, HM. (eds) Recent Trends in Materials. Springer Proceedings in Materials, vol 18. Springer, Singapore, 2022

DOI: 10.1007/978-981-19-5395-8_15

Google Scholar

[6] D.B. Kholikulov, Materials Today: Proceedings 45, 2021, 4987-4992, doi:10.1016/ j.matpr.2021.01.419

Google Scholar

[7] B.T. Berdiyarov, et al., 2022. Low-temperature reduction processing of copper slag doi:10.1007/978-981-19-5395-8_15 Retrieved from www.scopus.com

Google Scholar

[8] S.T. Matkarimov, B.T. Berdiyarov Development of the Wasteless Technology of Processing of Steel-Smelting Slags, 2020, Lecture Notes in Networks and Systems, 128 LNNS, pp.305-313

DOI: 10.1007/978-3-030-46817-0_35

Google Scholar

[9] B. U. Mirsoatov, et. Al., Extraction of iron from the tailings of "Almalyk MMC". Innovative research in the modern world: "Theory and practice" scientific, remote, online conference. (Tashkent, May 16, 2022). - With. 107-109 (.

Google Scholar

[10] B.T. Berdiyarov, et al., Carbothermal Reduction of Copper Slag for Processing into Pig Iron. METAL 2022 Conference Proeedings, 2022, 632–638

DOI: 10.37904/metal.2022.4425

Google Scholar

[11] D.E. Aribjonova, N.K. Bokhodirova, G.B. Beknazarova. Technology of extraction of iron and aluminum from wastes (tailings) of copper processing plants// Universum: Technical sciences. (June 5-6, 2022, Moscow). №. 5(98). c. 278-290 (https://doi.org/10.32743/ UniTech.2022.98.5.13719)

DOI: 10.32743/unitech.2022.98.5.13719

Google Scholar