Журналы →  Горный журнал →  2024 →  №2 →  Назад

ПЕРЕРАБОТКА И КОМПЛЕКСНОЕ ИСПОЛЬЗОВАНИЕ МИНЕРАЛЬНОГО СЫРЬЯ
Название Влияние электролизных газов на характеристики двухфазной пены
DOI 10.17580/gzh.2024.02.09
Автор Интогарова Т. И., Морозов Ю. П., Упорова И. В.
Информация об авторе

Мирнинский политехнический институт (филиал) СВФУ им. М. К. Аммосова, Мирный, Россия

Интогарова Т. И., доцент, канд. техн. наук, tatyana.intogarova@mail.ru

 

Уральский государственный горный университет, Екатеринбург, Россия
Морозов Ю. П., проф., д-р техн. наук
Упорова И. В., инженер-исследователь

Реферат

Обоснована необходимость повышения качества флотационного концентрата на основе интенсификации вторичной концентрации минералов в пенном продукте с помощью орошения флотационной пены двухфазной пеной. Для оценки свойств двухфазной пены использован метод фотографирования. Установлено, что интенсификация вторичной концентрации минералов в пене достигается путем управления параметрами двухфазной пены на основе формирования пенной среды из пузырьков воздуха и электролизных газов.

Ключевые слова Двухфазная пена, пузырьки воздуха, электролизные газы, флотационная пена, орошение, дисперсность, устойчивость, вторичная концентрация минералов
Библиографический список

1. Uporova I. V., Intogarova T. I. Study of flotation gravitation of oxidized iron-containing enrichment tailings with enrichment of foam product in a narrowing trough. GIAB. 2022. No. 11-1. pp. 210–218.
2. Morozov Yu. P., Evgrafova E. L., Valieva O. S. Formation of foam products in noncontinuous flotation flowsheets. Theory and Practice of Ore and Manmade Material Processing : XX International Conference Proceedings. Yekaterinburg : Fort Dialog-Iset, 2015. pp. 147–150.
3. Morozov Yu. P., Bekchurina E. A., Morozov V. V. et al. Flotation classifier. Patent RF, No. 2690078. Applied: 04.06.2018. Published: 30.05.2019. Bulletin No. 16.
4. Chanturia V. A., Shadrunova I. V., Gorlova O. E. Innovative processes of deep and complex technogenic raw materials processing in the face of new economic challenges. The Effective Technologies of Non-Ferrous, Rare and Precious Metals Manufacturing : Proceedings of International Scientific and Practical Conference. Almaty, 2018. pp. 7–13.
5. 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.
6. Rahman Soltanpour, Mehdi Irannajad, Fardis Nakhaei. Investigation of effective operating parameters on carrying capacity in colu mn flotation of copper sulfide minerals. Particulate Science and Technology. 2019. Vol. 37, Iss. 6. pp. 677–684.
7. Morozov Yu. P., Bekchurina E. A. The laws of froth products beneficiation in tapered chutes. Proceedings of XXIX International Mineral Processing Congress. Moscow, 2018.
8. Kaya M., Laplante A. R. Froth washing technology in mechanical flotation machines. The 17th International Mineral Processing Congress. Dresden, 1991. Vol. 2. pp. 203–214.

9. Ireland P., Cunningham R., Jameson G. J. The behavior of wash water injected into a froth. International Journal of Mineral Processing. 2007. Vol. 84, Iss. 1-4. pp. 99–107.
10. Viduetskiy M. G., Garifulin I. F., Maltsev V. A., Purgin A. P. Pneumatic column flotation machines. Evolution. Yekaterinburg : AMK Den RA, 2020. 149 p.
11. Komogortsev B. V., Varenichev A. A. Technologies and equipment flotation of goldsulfide ores. GIAB. 2016. No. 10. pp. 222–235.
12. Swedburg K., Bennett C., Samuels M., Wells P. F. Application by stages flotation reactor technology in the new processing plant Afton. Proceedings of XXVIII International Mineral Processing Congress. Québec, 2016.
13. Lacouture B., Wilson B., Oliver J., Lumsden B. Increased extraction of thin sulfide minerals in operation Red Dog factory. Proceedings of XXVIII International Mineral Processing Congress. Québec, 2016.
14. Ledyan Yu. P., Shcherbakova M. K., Bessolova L. V. Current status and development of minerals secondary concentration in foam layer. Lands, Water and Climate in Siberia and in the Arctic in the 21st Century : Problems and Solutions. XVI International Conference Proceedings. Tyumen : TyumGASU, 2014. pp. 137–140.
15. Ledyan Yu. P., Shcherbakova M. K., Bessolova L. V. Experimental study for foam irrigation efficiency on secondary concentration at Belaruskali Public Corporation. Lands, Water and Climate in Siberia and in the Arctic in the 21st Century : Problems and Solutions. XVI International Conference Proceedings. Tyumen : TyumGASU, 2014. pp. 141–144.
16. Bekchurina E. A., Intogarova T. I. Secondary concentration of minerals in foam to improve performance of photoclassification. Theory and Practice of Ore and Manmade Material Processing : XXII International Conference Proceedings. Yekaterinburg : Fort Dialog-Iset, 2017. pp. 324–328.
17. Hassanzadeh A., Cagirici S., Ozturk Z. A Novel statistical insight to selection of the best flotation kinetic model. Proceedings of XXIX International Mineral Processing Congress. Moscow, 2018.
18. Tikhomirov V. K. Foams. Theory and practice of their receiving. 2nd revised edition. Moscow : Khimiya, 1983. 264 p.
19. Junchao Wang, Yijun Cao, Guosheng Li, Lijun Deng, Shulei Li. Effect of CTAB concentration on foam properties and discussion based on liquid content and bubble size in the foam. International Journal of Oil, Gas and Coal Engineering. 2018. Vol. 6, Iss. 1. pp. 18–24.
20. Abramov A. A. Flotation methods of concentration : Textbook. 3rd revised and enlarged edition. Moscow : Gornaya kniga, 2008. 710 p.
21. Kann K. B. Some features of foam synaeresis. Effusing. Colloid Journal of the USSR. 1978. Vol. 40, No. 5. p. 858.
22. Kruglyakov P. M., Kuznetsova L. L., Khristov Kh. I. et al. Foam synaeresis under high pressure difference in the Plateau–Gibbs channels. Colloid Journal of the USSR. 1979. Vol. 41, No. 3. pp. 445–451.
23. Valieva O. S. Improvement of flotation flowsheets for sulfide copper ore by separate concentration of different-quality foam products : Theses of Dissertation of Candidate of Engineering Sciences. Yekaterinburg, 2021. 19 p.
24. Balakirev A. A., Tikhomirov V. K. Variation of foam dispersivity. Russian Journal of Applied Chemistry. 1969. Vol. 42, No. 10. pp. 2354–2356.
25. Haoran Cui, Guoqiang Cao, Shuquan Zhu, Jiliang Mu, Xiaoxing Liu et al. Foaming performance evaluation of frother e mulsions in the slime flotation: Foamability, foam stability, and foam flow. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2022. Vol. 638. ID 128310.
26. Weimin Xie, Dongsheng He, Shuang Liu, Fei Chen, Hongqiang Li. Effect of pH and Dodecylamine Concentration on the Properties of Dodecylamine Two-Phase foam. Journal of the Chemical Society of Pakistan. 2020. Vol. 42, No. 4. pp. 495–503.

Language of full-text русский
Полный текст статьи Получить
Назад