Журналы →  Горный журнал →  2017 →  №11 →  Назад

ИНСТИТУТ ПРОБЛЕМ КОМПЛЕКСНОГО ОСВОЕНИЯ НЕДР РАН – ФЛАГМАН ФУНДАМЕНТАЛЬНОЙ ГОРНОЙ НАУКИ РОССИИ
Название Научное обоснование и разработка инновационных процессов комплексной переработки минерального сырья
DOI 10.17580/gzh.2017.11.01
Автор Чантурия В. А.
Информация об авторе

Институт проблем комплексного освоения недр им. академика Н. В. Мельникова РАН, Москва, Россия:

Чантурия В. А., главный научный сотрудник, академик РАН, vohan@mail.ru

Реферат

В статье изложены новые методы и методики оценки вещественного, фазового состава, структурных свойств и дефектности тонкодисперсных минеральных частиц микро- и наноразмера применительно к новым видам труднообогатимого и нетрадиционного сырья, позволяющие дать научно обоснованный и достоверный прогноз обогащения и глубокой переработки руд сложного вещественного состава.

Ключевые слова Обогащение полезных ископаемых, технологическая минералогия, дезинтеграция, флотация, выщелачивание, водоподготовка, охрана окружающей среды
Библиографический список

1. Hao Ren, Mengqi Ren, Jing Ning, Zhen Li. Research on the Interaction between Sphalerite and Silica Particles with Different Calcium Ion Solutions. Journal of Minerals and Materials Characterization and Engineering. 2013. Vol. 1, No. 4. pp. 192–199.
2. McFadzeann B., Mhlanga S. S., O'Connor С. T. The effect of thiol collector mixtures on the flotation of pyrite and galena. Minerals Engineering. 2013. Vol. 50–51. pp. 121–129.
3. Karimian A., Rezaei B., Masoumi A. The effect of mixed collectors in the rougher flotation of sungun copper. Life Science Jornal. 2013. No. 10. pp. 268–272.
4. Nakhaei F., Irannajad M. Investigation of effective parameters for molybdenite recovere from porphyry copper ores in industrial flotation circuit. Physicochemical Problems of Mineral Processing. 2014. Vol. 50, No. 2. pp. 477–491.
5. Quast K., Connor J. N., Skinner W., Robinson D. J., Addai-Mensah J. Preconcentration strategies in the processing of nickel laterite ores. Part 1: Literature review. Minerals Engineering. 2015. Vol. 79. pp. 261–268.
6. Aiglsperger T., Proenza J. A., Lewis J. F., Labrador M., Svojtka M. et al. Critical metals (REE, Sc, PGE) in Ni laterites from Cuba and the Dominican Republic. Ore Geology Reviews. 2016. Vol. 73, Part 1. pp. 127–147.
7. Chanturiya B. A., Brylyakov Yu. E., Koporulina E. B., Ryazantseva M. V., Bunin I. Zh. et al. Up-to-date approaches to studying adsorption of fatty-acid collecting agents at apatite and shtaff elite ore minerals. Fiziko-tekhnicheskie problemy razrabotki poleznykh iskopaemykh. 2014. No. 4. pp. 136–149.
8. Chanturia V. A., Ivanova Т. 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, No. 5. pp. 288–304.
9. Chanturiya V. A., Bunin I. Zh. Non-traditional high-energetic methods of desintegration and opening of fine-disperse mineral complexes. Fiziko-tekhnicheskie problemy razrabotki poleznykh iskopaemykh. 2007. No. 3. pp. 107–128.
10. Vaysberg L. A., Kruppa P. I., Baranov V. F. Basic trends of development of the processes of ore disintegration in the XXI century. Obogashchenie Rud. 2002. No. 3. pp. 3–10.
11. Bunin I. Zh., Ivanova T. A., Lunin V. D. Influence of high-energy depositions on the process of dissolution of gold-bearing minerals. Gornyy informatsionno-analiticheskiy byulleten. 2002. No. 8. pp. 172–176.
12. Nedosekina T. V., Getman V. V., Gapchich A. O. Prospects of usage of modifyed diisobutyldithiophosphinate in the time of flotation of arsenic gold-containing ores. Gornyi Zhurnal. 2013. No. 10. pp. 88–91.
13. Matveeva T. N., Gromova N. K., Lantsova N. B. et al. Scientific rationales of use of vegetal modifiers for mineral flotation of noble metals made of refractory ores. X Congress of dressers of the CIS countries : collection of materials. Vol. 1. Moscow : MISiS, 2015. pp. 132–134.
14. Donato de Ph., Mustin С., Benoit R., Erre R. Spatial distribution of iron and sulfphur species on the surface of pyrite. Applied Surface Science. 1993. No. 68. pp. 81–93.
15. Chanturiya E. L. Theoretical aspects of electrochemical method of water preparation in the conditions of flotation of rare-metal raw materials. Complex processing of mineral raw materials : collection of scientific proceedings. Moscow : Nauka, 1992. pp. 165–174.
16. Dvoychenkova G. P. Mineral formations on natural diamond surface and their destruction using electrochemically modified mineralized water. Fiziko-tekhnicheskie problemy razrabotki poleznykh iskopaemykh. 2014. No. 4. pp. 159–171.
17. Crundwell F. K. The influence of the electronic structure of solids on the anodic dissolution and leaching of semiconducting sulphide minerals. Hydrometallurgy. 1988. Vol. 21, Iss. 2. pp. 155–190.
18. Samusev A. L., Minenko V. G. Productivity of chemical-electrochemical gold leaching from rebellious ore. Fiziko-tekhnicheskie problemy razrabotki poleznykh iskopaemykh. 2014. No. 1. pp. 171–175.
19. Minenko V. G. Justification and design of electrochemical recovery of saponite from recycled water. Fiziko-tekhnicheskie problemy razrabotki poleznykh iskopaemykh. 2014. No. 3. pp. 180–186.

Полный текст статьи Получить
Назад