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Название Development and testing of selective agents for complex gold ore flotation
DOI 10.17580/gzh.2023.10.02
Автор Matveeva T. N., Gromova N. K., Lantsova L. B., Poperechnikova O. Yu.
Информация об авторе

Academician Melnikov Research Institute of Comprehensive Exploitation of Mineral Resources—IPKON, Russian Academy of Sciences, Moscow, Russia

T. N. Matveeva, Deputy Director of Science, Doctor of Engineering Science, tmatveyeva@mail.ru
N. K. Gromova, Researcher
L. B. Lantsova, Researcher


RIVS Group, Saint-Petersburg, Russia
O. Yu. Poperechnikova, Deputy CEO of Science, Candidate of Engineering Sciences


Complex gold-bearing ore contains both a small amount of unbound gold and finely disseminated gold associated with pyrite, arsenopyrite or pyrrhotine. Such ore is a rebellious material and features low recoverability in cyanidation. It is not always that flotation enables production of concentrates rich in gold using traditional collecting and modifying agents, which necessitates development of new and efficient modes of flotation to ensure dissociation of gold-bearing minerals and gold-free iron sulphides. The article describes the experimental studies on development and testing of new selective agents and reagent regimes for fine gold flotation from complex gold-bearing ore using new complexing collectors from the class of dithiocarbamates—modified diethyl dithiocarbamate (DEDTC) and debutyl dithiocarbamate (DBDTC). The relevance of the new efficient domestic reagents lies in the potential complete recoverability of gold and other noble metals to concentrates at the reduced loss with processing tailings. The theoretical basis for the development of new reagent regimes for gold flotation is the ability of dithiocarbamates to form sustainable compounds with gold and the selective adsorbability of dithiocarbamates at the surface of gold-bearing sulphides, which ensure their transition to flotation concentrates with micro and nano gold particles. The lab-scale testing of new agents DEDTC and DBDTC shows that their joint application with butyl xanthate ensures production of higher quality concentrates in terms of the gold content at the increased gold recovery by 2–4.5 %.

Ключевые слова Gold-bearing ore, flotation, collecting agents, modified diethyl thiocarbamate, gold recovery
Библиографический список

1. Khrunina N. P. Improvement of a treatment processes of high-clayey gold-bearing placers. Eurasian Mining. 2020. No. 2. pp. 28–32.
2. Shekhirev D. V. Method for calculating material distribution by floatability. Obogashchenie Rud. 2022. No. 4. pp. 27–34.
3. Alekseev V. S., Seryy R. S., Sobolev A. A. Improving fine gold recovery in sluice boxes. Obogashchenie Rud. 2019. No. 5. pp. 13–18.
4. Ignatkina V. A., Bocharov V. A., Kayumov A. A. Scientific frameworks and use experience of sulfhydryl collectors in selective flotation flow charts for sulphides of rebellious base metal ores. Tsvetnaya metallurgiya. 2015. No. 5. pp. 9–14.
5. Yushina T. I., Purev B., D’Elia Yanes K. S., Malofeeva P. R. Improvement of porphyry copper flotation efficiency with auxiliary collecting agents based on acetylene alcohols. Eurasian Mining. 2019. No. 1. pp. 25–30.
6. Chanturiya V. A., Kondratiev S. A. Contemporary understanding and developments in the flotation theory of non-ferrous ores. Mineral Processing and Extractive Metallurgy Review. 2019. Vol. 40, Iss. 6. pp. 390–401.
7. Mitrofanova G. V., Chernousenko E. V., Bazarova Е. А., Tyukin A. P. The search for new complexing reagents for copper-nickel ore flotation. Tsvetnye Metally. 2019. No. 11. pp. 27–33.
8. Miki H., Hirajima T., Muta Y., Suyantara G. P. W., Sasaki K. Investigation of reagents for selective flotation on chalcopyrite and molybdenite. Proceedings of the 29th International Mineral Processing Congress. Moscow, 2019. pp. 1854–1861.
9. Tijsseling L.T., Dehaine Q., Rollinson G. K., Glass H. J. Flotation of mixed oxide sulphide copper-cobalt minerals using xanthate, dithiophosphate, thiocarbamate and blended collectors. Minerals Engineering. 2019. Vol. 138. pp. 246–256.
10. Dhar P., Thornhill M., Hanumantha Rao Kota. Investigation of copper recovery from a new copper deposit (Nussir) in Northern-Norway: Thionocarbamates and xanthate–thionocarbamate blend as collectors. Minerals. 2019. Vol. 9, Iss. 2. DOI: 10.3390/min9020118
11. Solozhenkin P. M. Development of principles of selection of reagents for flotation of antimony and bismuth minerals. Doklady Akademii nauk. 2016. Vol. 466, No. 5. pp. 599–562.
12. Chanturia V. A., Ivanova T. A., Getman V. V., Koporulina E. V. Methods of minerals modification by the micro- and nanoparticles of gold and platinum for the evaluation of the collectors selectivity at the flotation processing of noble metals from the fine ingrained ores. Mineral Processing and Extractive Metallurgy Review. 2015. Vol. 36, Iss. 5. pp. 288–304.
13. Ivanova T. A., Ryazantseva M. V., Zimbovskiy I. G. The effect of modifiers on the adsorption activity of diantipyrylmethane in flotation of sulfide minerals and cassiterite. Tsvetnye Metally. 2018. No 9. pp. 12–18.
14. Matveeva T. N., Chanturia V. A., Gromova N. K., Lantsova L. B. New compositions of agents for fine gold recovery from tailings. Gornyi Zhurnal. 2019. No. 12. pp. 48–51.
15. Matveeva T. N., Gromova N. K., Lantsova L. B. Developing a selective flotation process for antimony and arsenic sulfides in complex gold ore processing. Tsvetnye Metally. 2019. No. 4. pp. 6–12.
16. Chanturia V. A., Ivanova Т. А., Matveeva T. N. et al. Pat. 2397025 RF. Method for separation of pyrite and arsenic pyrite. Applied: 24.04.2009. Published: 20.08.2010, Bulletin No. 23.
17. Matveeva T. N. Flotation reagents for finely disseminated gold extraction from unenriched ores and technogenic products. Sustainable Development of Mountain Territories. 2021. Vol. 13, No. 2. pp. 201–207.
18. Byrko V. M. Dithiocarbamates. Moscow : Nauka, 1984.
19. Shumskaya E. I., Sizykh A. S. Increasing of gold extraction from polymetallic ore of Novoshirokinskoe deposit. Gornyi Zhurnal. 2014. No. 11. pp. 44–48.

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