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BENEFICIATION TECHNOLOGY
ArticleName Coppernickel ore flotation technology improvement
ArticleAuthor Yevdokimov S. I., Yevdokimov V. S.
ArticleAuthorData

North-Caucasian Mining and Metallurgical Institute (State Technological University) (Russia):

Yevdokimov S. I., Associate Professor, Ph. D. in Engineering Sciences, eva-ser@mail.ru

Yevdokimov V. S., Bachelor, 19-Vadik-93@mail.ru

Abstract

The article presents a new approach to utilization of temperature rise positive effect upon flotation process: not the total volume of flotation pulp is heated, but thin (<2 micron) boundary layer of bubbles with altered structural-sensitive water properties, determining stability of wetting film. For this purpose, mixture of air with water steam was used as gaseous phase in flotation; decrease in heating steam consumption for the process was obvious. By means of experiments, modeling closed circuit, ore sample dressability was studied in jet flotation with rougher concentrate production in two stages: Stage I rougher concentrate was produced from half of feed material and mixed with the remaining half of feed material to produce final Stage II rougher concentrate, to be subjected to cleaning. The article describes the main factors (size of steam bubbles and oscillations of bubble's wall), as well as the main reasons for process efficiency: increase in particles' recovery by means of steam bubbles is caused through bubbles redistribution with regard to size toward smaller bubbles, probability of collisions with which is higher; bubble's wall oscillations are accompanied by liquid outflow from clearance between particle and bubble, clearance becomes smaller and probability of particle attachment to bubble increases; probability of flotocomplex retention is increased through surface tension depression growth; process selectivity is increased through rejection of insufficiently hydrophobic particles from surface of small bubbles.

keywords Copper-nickel ore, dump slags, flotation, steam-and-air mixture, jet flotation flowsheet, recovery increase, concentrate grade
References

1. Blatov I. A. Obogashcheniye mednonikelevykh rud (Benefication of coppernickel ores), Moscow, Izdatelskiy Dom (Publishing House) «Ruda i Metally», 1998, 224 p.
2. Portsevskiy A. K. Geomekhanicheskoye obosnovaniye vybora tekhnologii podzemnoy dobychi rudy s posleduyushchim ispolzovaniyem pustot (Geomechanical rationale for choosing of underground ore mining technology with later use of emptiness), Avtoreferat dissertatsii … doktora tekhnicheskikh nauk (Abstract of Dissertation … of Doctor of Engineering Sciences). Moscow, 2006, 58 p.
3. Kotenko Ye. A., Portsevskiy A. K. Kriterii effektivnosti vybora tekhnologii dobychi rudy s ispolzovaniyem podzemnykh vyrabotok kak georesursa (Effectiveness criterions of choice of ore mining technology with using of underground workings as georesources), Sbornik dokladov VII Mezhdunarodnoy konferentsii «Novyye idei o naukakh o Zemle» (Book of reports of VII Intern. conf. «New ideas of Earth sciences»), Moscow, RGGU, 2007, Vol. 6, pp. 216–219.
4. Panshin A. M., Yevdokimov S. I. Obogashchenie Rud, 2009, No. 5, pp. 6–11.
5. Panshin A. M., Yevdokimov S. I., Artemov S. V. Izvestiya VUZov. Tsvetnaya metallurgiya — Nonferrous metallurgy transaction. News of higher schools, 2012, No. 1, pp. 3–10.
6. Kanashvili M. Zh. Aerozolnaya kolonnaya flotatsiya Cu-Ni rud i rossypnogo zolota (Aerosol columned flotation of Cu-Ni ores and stream gold), Dissertatsiya … kandidata tekhnicheskikh nauk (Ph. D. thesis in Engineering Sciences), Vladikavkaz, 2006, 170 p.
7. Panshin A. M. Razrabotka i promyshlennoye osvoyeniye kombinirovannoy tekhnologii obogashcheniya svintsovotsinkovogo syrya (Development and industrialization of the combined leadzinc raw materials enrichment technology), Dissertatsiya … kandida ta tekhnicheskikh nauk (Ph. D. thesis in Engineering Sciences), Vladikavkaz, 2005, 186 p.

8. Artemov S. V. Sovershenstvovaniye tekhnologii izvlecheniya zolota i medi iz mednokolchedannykh rud (Improvement of technology of gold and copper extraction from coppersulphide ores), Dissertatsiya … kandidata tekhnicheskikh nauk (Ph. D. thesis in Engineering Sciences), Vladikavkaz, 2012, 161 p.
9. Melsitov A. N., Petushkov V. A. Matematicheskoye modelirovaniye — Mathematical modeling, 2000, Vol. 12, No. 12, pp. 35–54.
10. Lavrenenko A. A. Razvitiye teorii protsessa pnevmopulsatsionnoy flotatsii i sozdaniye vysokoproizvoditelnykh kolonnykh apparatov (Development of the pneumopulsation flotation process theory and highperformance columned devices creation), Avtoreferat dissertatsii doktora tekhnicheskikh nauk (Abstract of Dissertation … of Doctor of Engineering Sciences), Moscow, 2005, 36 p.
11. Blekhman I. I., Sorokin V. S. Obogashchenie Rud, 2007, No. 3, pp. 20–23.
12. Pisarev A. V. Issledovaniye selektivnoy flotatsii v rezonansnom pulsatsionnom apparate (Research of selective flotation in the resonant pulsation device), Dissertatsiya … kandidata tekhnicheskikh nauk (Ph. D. thesis in Engineering Sciences), St. Petersburg, 2009, 125 p.

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