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Begar, Abdelhakim; Begar, Narimane (2024) Study of the Process of Zinc Sulfide Dissolution in the Presence of Oxygen. Russian Journal of Non-Ferrous Metals, 65 (4). doi:10.1134/s1067821224600406

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Reference TypeJournal (article/letter/editorial)
TitleStudy of the Process of Zinc Sulfide Dissolution in the Presence of Oxygen
JournalRussian Journal of Non-Ferrous Metals
AuthorsBegar, AbdelhakimAuthor
Begar, NarimaneAuthor
Year2024 (August)Volume65
Issue4
PublisherPleiades Publishing Ltd
DOIdoi:10.1134/s1067821224600406Search in ResearchGate
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Mindat Ref. ID18312412Long-form Identifiermindat:1:5:18312412:2
GUID0
Full ReferenceBegar, Abdelhakim; Begar, Narimane (2024) Study of the Process of Zinc Sulfide Dissolution in the Presence of Oxygen. Russian Journal of Non-Ferrous Metals, 65 (4). doi:10.1134/s1067821224600406
Plain TextBegar, Abdelhakim; Begar, Narimane (2024) Study of the Process of Zinc Sulfide Dissolution in the Presence of Oxygen. Russian Journal of Non-Ferrous Metals, 65 (4). doi:10.1134/s1067821224600406
In(2024, August) Russian Journal of Non-Ferrous Metals Vol. 65 (4). Allerton Press

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

Mubarok, M.Z. et al., Direct sulfuric acid leaching of zinc sulfide concentrate using ozone as oxidant under atmospheric pressure, Min., Metall. Explor., 2018, vol. 35, pp. 133–140.
XU, Zhi-feng, JIANG, Qing-zheng, WANG, Cheng-yan (2013) Atmospheric oxygen-rich direct leaching behavior of zinc sulphide concentrate. Transactions of Nonferrous Metals Society of China, 23 (12). 3780-3787 doi:10.1016/s1003-6326(13)62929-5
Lü, G., Kinetic research on rich-oxygen leaching of zinc sulfide concentrate, J. Cent. South Univ. (Sci. Technol.), 2014, vol. 45, no. 12, pp. 4116–4122.
Stanojevic, D., Toskovic, D., Rajkovic, M.B. (2005) Intensification of zinc dissolution process in sulphuric acid. Journal of Mining and Metallurgy, Section B: Metallurgy, 41 (1). 47-66 doi:10.2298/jmmb0501047s
Not Yet Imported: - journal-article : 10.1016/j.cep.2003.10.001

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Acero, Patricia, Cama, Jordi, Ayora, Carlos (2007) Sphalerite dissolution kinetics in acidic environment. Applied Geochemistry, 22 (9) 1872-1883 doi:10.1016/j.apgeochem.2007.03.051
Begar, Abdelhakim, Djeghlal, M., Ould hamou, M. (2015) Study of the reaction of dissolution of sphalerite in the absence of oxygen. Russian Journal of Non-Ferrous Metals, 56. 493-499 doi:10.3103/s106782121505003x
Lampinen, Matti, Laari, Arto, Turunen, Ilkka (2015) Kinetic model for direct leaching of zinc sulfide concentrates at high slurry and solute concentration. Hydrometallurgy, 153. 160-169 doi:10.1016/j.hydromet.2015.02.012
Not Yet Imported: - journal-article : 10.3390/su141811285

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Narasagoudar, Ram A., Johnson, James W., O'Keefe, Thomas J. (1982) The anodic dissolution of ZnS electrodes in sulfuric acid solutions. Hydrometallurgy, 9 (1). 37-55 doi:10.1016/0304-386x(82)90052-4
Not Yet Imported: - book-chapter : 10.1007/978-3-642-38279-6_26

If you would like this item imported into the Digital Library, please contact us quoting Book ID 9783642382789
Solovyeva, G. V., Kolmachikhina, E. B., Mamyachenkov, S. V. (2020) Thermodynamic Analysis of Zinc Sulfide Dissolution Stoichiometry in Sulfuric Acid Solution with Oxygen Participation. Russian Journal of Non-Ferrous Metals, 61 (5) 482-487 doi:10.3103/s1067821220050132
Not Yet Imported: - journal-article : 10.1016/j.cherd.2016.12.004

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Guler, E., Pressure acid leaching of sphalerite concentrate. Modeling and optimization by response surface methodology, Physicochem. Probl. Miner. Process., 2016, vol. 52, no. 1, pp. 479–496.
Not Yet Imported: Journal of Industrial and Engineering Chemistry - journal-article : 10.1016/j.jiec.2013.07.021

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GU, Yan, ZHANG, Ting-an, LIU, Yan, MU, Wang-zhong, ZHANG, Wei-guang, DOU, Zhi-he, JIANG, Xiao-li (2010) Pressure acid leaching of zinc sulfide concentrate. Transactions of Nonferrous Metals Society of China, 20. doi:10.1016/s1003-6326(10)60028-3
Halfyard, J.E., Hawboldt, K. (2011) Separation of elemental sulfur from hydrometallurgical residue: A review. Hydrometallurgy, 109 (1). 80-89 doi:10.1016/j.hydromet.2011.05.012
Picazo-Rodríguez, Nallely G., Soria-Aguilar, Ma. de Jesus, Martínez-Luévanos, Antonia, Almaguer-Guzmán, Isaias, Chaidez-Félix, Josue, Carrillo-Pedroza, Francisco Raul (2020) Direct Acid Leaching of Sphalerite: An Approach Comparative and Kinetics Analysis. Minerals, 10 (4) 359 doi:10.3390/min10040359
Not Yet Imported: Metallurgical and Materials Data - journal-article : 10.30544/MMD8

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Abraitis, P. K., D. Pattrick, R. A., Kelsall, G. H., Vaughan, D. J. (2004) Acid leaching and dissolution of major sulphide ore minerals: processes and galvanic effects in complex systems. Mineralogical Magazine, 68 (2) 343-351 doi:10.1180/0026461046820191
Begar, A., Cherif, S., and Chebbah, M., Use of Pitzer’s model to calculate thermodynamic properties of aqueous electrolyte solutions of sulfuric acid, J. Turk. Chem. Soc., Sect. A, 2023, vol. 10, no. 2, pp. 521–528.
Not Yet Imported: - journal-article : 10.17073/0021-3438-2020-4-22-28

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Vigdorchik, E.M. et al., Investigation of one- and two-stage schemes for autoclave leaching of zinc concentrates by means of mathematical modeling method, Tsvetn. Met. (Moscow, Russ. Fed.), 2004, no. 12, pp. 136–142.

See Also

These are possibly similar items as determined by title/reference text matching only.

Begar, Abdelhakim, Djeghlal, M., Ould hamou, M. (2015) Study of the reaction of dissolution of sphalerite in the absence of oxygen. Russian Journal of Non-Ferrous Metals, 56. 493-499 doi:10.3103/s106782121505003x
Solovyeva, G. V., Kolmachikhina, E. B., Mamyachenkov, S. V. (2020) Thermodynamic Analysis of Zinc Sulfide Dissolution Stoichiometry in Sulfuric Acid Solution with Oxygen Participation. Russian Journal of Non-Ferrous Metals, 61 (5) 482-487 doi:10.3103/s1067821220050132
Kniss, S. V., Naboichenko, S. S., Zhukov, V. P. (2012) Simulation of the kinetics of the autoclave dissolution of iron sulfides of nickel ore in the presence of oxygen. Russian Journal of Non-Ferrous Metals, 53. 218-222 doi:10.3103/s1067821212030121
Kniss, S. V., Naboichenko, S. S., Zhukov, V. P. (2013) Simulation of the kinetics of the autoclave dissolution of copper and nickel sulfides in the presence of oxygen. Russian Journal of Non-Ferrous Metals, 54. 443-445 doi:10.3103/s1067821213060102
Djeghlal M., Begar A. (2012): Recovery process of the mineral sphalerite of Chaabet El Hamra’s deposit (Algeria). EPJ Web of Conferences 29, 00006.
Kolmachikhina, E. B., Lugovitskaya, T. N., Tret’yak, M. A., Naumov, K. D. (2021) Physicochemical Regularities of the Pressure Leaching of a Zinc Sulfide Concentrate in the Presence of Lignosulfonate. Russian Journal of Non-Ferrous Metals, 62 (6) 637-647 doi:10.3103/s1067821221060122
Nemchinova, N. V., Zaitseva, A. A. (2024) Improving the Quality of Metallurgical-Grade Silicon by Acid Leaching. Russian Journal of Non-Ferrous Metals, 65 (1). doi:10.1134/s1067821224700044
Gunderov, D. V.; Gunderova, S. D.; Magomedova, D. K. (2024) True Fracture Stress of UFG Samples of Al-6101 Alloy. Russian Journal of Non-Ferrous Metals, 65 (4). doi:10.1134/s1067821225600103
Wang, Libo; You, Zhiyong; Li, Bing; Zhang, Mengjun; Zhang, Yunguan (2024) Study on the Combined Modification Mechanism of Pand Spand Microstructure Control in Hypereutectic Al–Si Alloys. Russian Journal of Non-Ferrous Metals, 65 (6). doi:10.1134/s1067821225600036
Li, Shiju, Wang, Haibei, Wang, Shengdong, Xie, Feng, Sun, Xudong (2024) Kinetics and Mechanism of Indium Leaching from Zinc Oxide Dust in Sulfuric Acid Media and Solvent Extraction. Russian Journal of Non-Ferrous Metals, 65 (2). doi:10.1134/s1067821224600248
Sun, Qirui, Wang, Wei (2024) Effect of Microalloying on Hot Deformation Behavior of 8021 Aluminum Alloy. Russian Journal of Non-Ferrous Metals, 65 (2). doi:10.1134/s106782122460073x
 
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