| Название |
Continuous flow process technology of stockpiling of X-ray radiometric separation tailings in mined-out open pit mine at Primorsky Mining and Processing Integrated Works |
| Информация об авторе |
Uralmekhanobr, Ekaterinburg, Russia:
I. V. Zakharov, Head of a subdivision, Zaharov_iv@umbr.ru
A. G. Voroshilov, Principal Project Engineer
Yu. V. Terekhina, Principal Specialist, Candidate of Engineering Sciences |
| Реферат |
By now, mine waste dumps and processing tailings storages have accumulated immense amount of mineral resources capable to supply mining industry given the modern day advance in technology and equipment of mineral dressing. As against natural deposits, general reserves of useful components contained in mine waste and tailings as well as their averaged quality are known with high reliability. In terms of additional extraction of in-place tungsten ore reserves at Vostok-2 deposit, Primorsky Mining and Processing Integrated Works, using hybrid open pit/underground mining method, the authors describe THE original solutions and recommendations on recovery of useful residue from off-grade ore stockpiles and mine waste dumps with further placement of the rejects in minedout area of open pit mines. The conceptual project accomplished by Uralmekhanobr at a level of feasibility study represents sequence (phases) of excavating of WO<sub>3</sub>-bearing overburden and low-grade ore dumps, X-ray radiometric separation of waste material (prime dressing) and placement of XRS rejects in the bowl of an open pit mine. To this effect, it is recommended to use movable (portable) crushing-and-separation unit (CSU) and telescopic radial stacker conveyor THOR Т-150, which implement continuous flow process technology of WO<sub>3</sub>-bearing mining waste processing and XRC rejects placement in mined-out area of open pit mines. |
| Ключевые слова |
Tungsten ore deposit, open pit and underground mining, depletion of geological reserves, WO3-bearing overburden dumps, mining and X-ray radiometric separation (XRS), disposal of XRS rejects in open pit mine bowl, stacker conveyor. |
| Библиографический список |
1. 2013 Minerals Yearbook. TUNGSTEN [ADVANCE RELEASE]. U. S. Department of the Interior, U.S. Geological Survey. July 2015. 21 р.
2. Sporykhina L.V., Orlova N.I., Bykhovskiy L.Z. Mineralno-syrevaya baza tsvetnykh metallov: perspektivy razvitiya i osvoeniya (Mineral-resource base of non-ferrous metals: development and mastering prospects). Mineralnye resursy Rossii. Ekonomika i Upravlenie = Mineral Resources of Russia. Economics and Management Journal. 2013. No. 5. pp. 99–118.
3. O sostoyanii i ispolzovanii mineralno-syrevykh resursov Rossiyskoy Federatsii v 2013 godu : Gosudarstvennyy doklad (About the state and use of mineral resources of Russian Federation in 2013 : State report). Moscow : Ministry of Natural Resources and Ecology of Russian Federation, 2014. (in Russian)
4. Gvozdev V. I. Rudno-magmaticheskie sistemy skarnovo-sheelit-sulfidnykh mestorozhdeniy Vostoka Rossii (Ore-magmatic systems of skarn-scheelite-sulfide deposits of Russian East). Vladivostok : Dalnauka, 2010.
5. Kobzev A.S. Napravleniya razvitiya i problemy radiometricheskikh metodov obogashcheniya mineralnogo syrya (Trends of development and problems related to sensor-based mineral sorting). Obogashchenie Rud = Mineral processing. 2013. No. 1. pp. 13–17.
6. Samatova L. A., Shepeta E. D., Gvozdev V. I. Poor scheelite ores from Primorye deposits: Mineralogy and processing characteristics and dressing flowsheets. Journal of Mining Science. 2012. Vol. 48, Iss. 3. pp. 565–573.
7. Soloviev S. G., Krivoshchekov N. N. Vostok-2 gold-base-metal-tungsten skarn deposit, Central Sikhote-Alin, Russia. Geology of Ore Deposits. 2011.
8. Rasskazov Yu., Kursakin G. A., Freidin A. M., Potapchuk M. I.. Selection of deep level geotechnology in terms of the Vostok-2 orebody. Journal of Mining Science. 2012. Vol. 48, Iss. 1. pp. 114–122
9. Samatova L. A., Gvozdev V. I., Kienko L. A., Voronova O. V., Sorokina V. A. Mineralogotekhnologicheskie osobennosti rud sheelitovogo mestorozhdeniya Skrytoe i perspektivy ikh obogashcheniya (Mineralogical and technological peculiarities of scheelite deposit Skrytoe ores and their concentration prospects). Tikhookeanskaya geologiya = Russian Journal of Pacific Geology. 2011. Vol. 30, No. 6. pp. 84–96.
10. L. A. Samatova, V. I. Gvozdev, L. A. Kienko, O. V. Voronova, V. A. Sorokina. Mineralogicaltechnological peculiarities of the ores of the Skrytoe Scheelite deposit and prospects for their dressing. Russian Journal of Pacific Geology. 2011. Vol. 5, No. 6. p. 531.
11. Samatova L. A., Shepeta E. D. Innovatsionnaya tekhnologiya pererabotki zabalansovykh rud i gornoy massy karernykh otvalov (Innovation technologies of processing of poor and out of balance ores and mine dumps). Gornyi Zhurnal = Mining Journal. 2013. No. 10. pp. 53–56.
12. Ispolzovanie otvalov vskryshnykh porod ot otkrytoy razrabotki volframovogo mesto rozhdeniya Vostok-2 (Use of waste piles of overburden rocks of open-cast mining of Vostok-2 tungsten deposit). Ekaterinburg : JSC «Uralmekhanobr». 2013. (in Russian)
13. Available at: http://base.garant.ru/70691622/ (in Russian) |
