ArticleName |
Improvement of concentration technology for gold-bearing ore (Natalkinskoe deposit) |
ArticleAuthorData |
JSC “Matrosov mine”, Matrosovo, Magadan region, Russia: A. A. Solodenko, Chief Engineer of Experimental Gold-Mining Factory, phone: +7 (4212) 794-006
North-Caucasian Mining and Metallurgical Institute, Vladikavkaz, Russia: A. B. Solodenko, Professor of a Chair of Mineral Dressing |
Abstract |
Assessment of the possibility of increasing of gold extraction from Natalkinskoe deposit ore by gravitation and flotation methods carried out the complex of technological investigations and industrial testings using modern flotation agents and centrifugal separators. Results of flotation of ore, containing 1.59 g/t of gold, are given. During the application of import collectors and depressors (PAX, DTR, AERO 208 and AERO 3477, AEROFROTH 6), the concentrate yield was 2.3% with 63.9 g/t of gold and extraction of 92.7%. Efficiency of release of free gold in gravitation concentrates was investigated by centrifugal concentration, using separator Falcon SB 750 on experimental-industrial gold-mining factory (Matrosov mine). At the same time, three control experiments with the product of semi-self-grinding mill discharge were carried out. The optimal mode of separator operation was carried out: centrifugal acceleration 80g; fluidizing water pressure 89.57 kPa; time of concentrate cumulation 90 min. The quality of gravioconcentrate was stable: ~683 g/t. Having the concentration grade ~565 units, gold extraction in concentrates of centrifugal separator was 55–56%. According to this, there were obtained rather high indicators, which agree with the results of laboratory investigations, which confirms the reasonability of technological use of gravitation concentration ore processing in centrifugal concentrates. This article was written according to the results, obtained during the fulfillment of the subsidiary agreement No. 14.577.21.0142 (28.11.2014), unique identifier of applied scientific investigations and experimental developments (project) RFMEFI57714X0142. |
References |
1. Evdokimov S. I. Improvement of process flowsheets of jigging and concentration on tables during the concentration of gold-containing raw materials. Gornyi Zhurnal. 2013. No. 12. pp. 59–62. 2. Evdokimov S. I., Artemov S. V., Panshin A. M. New mining technologies: theory and practical application. Ustoychivoe razvitie gornykh territoriy. 2011. No. 1 (7). pp. 61–70. 3. Panshin A. M., Evdokimov S. I., Solodenko A. A. Mineralurgy. In two volumes. Volume 1. Gold: theory and trade. Vladikavkaz, 2010. 960 p. 4. Evdokimov S. I., Panshin A. M., Solodenko A. A. Mineralurgy. In two volumes. Volume 2. Flotation successes. Vladikavkaz, 2010. 992 p. 5. Solodenko A. A., Evdokimov S. I. The new technologies and gold-ore raw material enrichment equipment use. Gornyy informatsionno-analiticheskiy byulleten. 2013. No. 10. pp. 121–127. 6. Algebraistova N. K., Makshanin A. V., Burdakova E. A., Samorodskiy P. N., Markova A. S. Development of stage gravity flowsheet for recovery of noble metals. Obogashchenie Rud. 2015. pp. 3–7. No. 2. DOI: 10.17580/or.2015.02.01 7. Evdokimov S. I., Datsiev M. S., Podkovyrov I. Yu. Gravitational separation in conditions of especially formed high metal content in source raw materials. Russian Journal of Non-Ferrous Metals. 2014. Vol. 55, No. 1. pp. 1–7. 8. Gul A., Kangal O., Sirkeci A. A., Onal G. Benefication of the gold bearing ore by gravity and flotation. International Journal of Minerals, Metallurgy and Materials. 2012. Vol. 19, No. 2. pp. 106–110. 9. Evdokimov S. I., Datsiev M. S., Podkovyrov I. Yu. Development of a new flowchart and the method for flotation of ores of the Olimpiadinskoe deposit. Russian Journal of Non-Ferrous Metals. 2014. Vol. 55, No. 2. pp. 105–113. 10. Faraz S., Hossna D., Rezgar B., Piroz Z. Improved recovery of a low-grade refractory gold ore using flotation-preoxidation-cyanidation methods. International Journal of Mining Science and Technology. 2014. Vol. 24, No. 4. pp. 537–542. 11. Abelhaffez G. S. Metallurgical amenability testing of Bir-Tawilah Gold Deposit it in Central Arabian Gold Region, Saudi Arabia. International Journal of Mining Science. 2016. Vol. 2, No. 2. pp. 1–7. 12. Panshin A. M., Evdokimov S. I., Artemov S. V. Investigations in the Field of Flotation with a Steam-Air Mixture. Russian Journal of Non-Ferrous Metals. 2012. Vol. 53, No. 1. pp. 1–7. 13. Panshin A. M., Evdokimov S. I., Artemov S. V. New Flotation Technology of Ores of the Urup Deposit. Russian Journal of Non-Ferrous Metals. 2011. Vol. 52, No. 5. pp. 399–405. 14. Yalcin E., Kelebek S. Flotation kinetics of a pyritic gold ore. International Journal of Mineral Processing. 2011. Vol. 98. pp. 48–54. 15. Karimi P., Abdollahi H., Amini A., Noaparast M., Shafael S. Z., Habashi F. Cyanidation of gold ores containing copper, silver, lead, arsenic and antimony. International Journal of Mineral Processing. 2010. Vol. 95. pp. 68–77. 16. Zhang J., Zhang Y., Richmond W., Wang H. Processing technologies for gold-telluride ores. International Journal of Minerals, Metallurgy and Materials. 2010. Vol. 17, No. 1. pp. 1–10. 17. Mohammadnejad S., Provis J. L., van Deventez S. J. The effect of grinding on the preg-robbing of gold quartz. International Journal of Mineral Processing. 2014. Vol. 128. pp. 1–5. 18. Klein B., Altun N. E. Gold losses by cementation and thermal reduction in the gold recovery circuits. International Journal of Mineral Processing. 2011. Vol. 98. pp. 24–29. 19. Feng D., van Deventer J. S. J. Oxidative pre-treatment in thiosulphate leaching of sulphide gold ores. International Journal of Mineral Processing. 2010. Vol. 94. pp. 28–34. 20. Tremolada J., Dzioba R., Bernardo-Sanchez A., Menendez-Agnado J. M. The preg-robbing of gold and silver by clays during cyanidation under agitation and heap leaching conditions. International Journal of Mineral Processing. 2010. Vol. 94. pp. 67–71. 21. Wang J., Yoon R.-H., Morris J. AFM surface force measurements conducted between gold surfaces treated in xanthate solutions. International Journal of Mineral Processing. 2013. Vol. 122. pp. 13–21. |