DETERMINATION OF PARAMETERS FOR TECHNOLOGY OF TAILING DUMPS CLEARING
- Details
- Parent Category: Geo-Technical Mechanics, 2013
- Category: Geo-Technical Mechanics, 2013, Issue 111
UDC 622’17.004.2:622.002.2
Medvedeva O.A., Ph.D. (Tech), Senior Researcher (IGTM NAS of Ukraine)
Abstract. Fields with tailing dumps are located on the ground surface in industrially developed regions, and rock mass in the dumps is, as a rule, in disintegrated state that sharply reduces costs of the field development. Therefore, mining of tailing dumps will allow simultaneous solution of a number of economic, social and environmental problems.
Tailing dumps were considered as man-caused fields. Their structure was studied, and parameters of tailing dump clearing technology were determined. As a result, associated extraction of a valuable component from adjacent to dump plots of a beach was offered together with technology of combined storage of cleaning rejects. This allows extracting a certain part of the valuable component, which was left in cleaning rejects at the stage of tailing dump filling.
Keywords: storages of waste of enrichment, man-caused fields.
References:
1. Blyuss, B.A. and Golovach, N.A. (1999), Sovershenstvovanie tekhnologiy predobogashcheniya ilmenitovyukh rud, [Improvement of technologies of preenrichment of ilmenite ores], Dnepropetrovsk, Ukraine.
2. Batanogov, A.P. (1984), Vodovozdushnoe khozyaystvo obogatitelnykh fabric, [Water air economy of concentrating factories], Nedra, Moscow, Russia.
3. Krill, S.I., Karasik, V.M. and Ocheretko, V.F. (1983), “Influence of small fractions of a polydisperse firm material on parameters of its transportation by a turbulent stream”, Conference works Institute of hydrodynamics of ChSSR, Praga, Chekhiya, pp. 88-90.
4. Dmitriev, G.P., Maharadze, L.I. and Gochitashvili, T.Sh. (1991), Napornye gidrotransportnye sistemy [Pressure head hydrotransport systems], Nedra, Moscow, Russia.
5. Dokukin,V.P. (2005), Povyushenie effektivnosti ekspluatatsii system truboprovodnogo gidrotransporta [Increase of efficiency of operation of systems of pipeline hydrotransport], SPGGI(TU), St. Petersburg, Russia.
6. Zvyagilskiy, E.L., Bljuss, B.A., Nazimko, E.I. and Semenenko, E.V. (2002), Sovershenstvovanie rezhimov raboty gidrotransportnykh ustanovok tekhnologiy ugleobogashcheniya [Improvement of operating modes of hydrotransport installations of technologies of coal preparation], Weber, Sevastopol, Ukraine.
7. Maharadze, L.I., Gochitashvili, T.Sh., Krill, S.I. and Smoylovskaya, L.A. (2006), Truboprovodnyu gidrotransport tverdykh sypuchikh materialov [Pipeline hydrotransport of firm bulks], Metsniereba, Tbilisi, Georgia.
8. Medvedeva, O.A. (2012), “Tailings dams of Krivbass, problem and feature of their operation”, Geotekhnicheskaya Mekhanika [Geo-Technical Mechanics], no. 103, pp. 279-285.
9. Nurok, G.A., Lutovinov, A.G. and Sherstyukov, A.D. (1977), Gidrootvaly na karerakh, [Hydrodumps on pits], Subsoil, Moscow, Russia.
10. Ermoshkin, V.V. (2006), “Experience and gidrootvaloobrazovaniye problems on cuts of Kuzbass”, Materials of the Fourth congress of hydromachine operators of Russia "Gidromekhanization – 2006", Moscow, Russia.
11. USSR State Committee for Construction (1975), RSN 275-75. Vremennye ukazaniya po tekhnologii vozvedeniya namyvnykh khvostokhranilishch gornoobogatitelnykh kombinatov [RSN 275-75. Temporary instructions on technology of construction of alluvial tailings dams of mining and processing integrated works], USSR State Committee for Construction, Kiev, Ukraine.
About the authors:
Medvedeva Olga Alekseevna, Candidate of Technical Sciences (Ph.D), Senior Researcher, Senior Researcher in Department of Geodynamic systems and Vibration Technologies, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM, NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .