The Methodology of Use of the Mobile Crushing-and-Sorting Radiometric Complex in the Iron-Ore Pit

Volodymyr Azaryan

doi:10.4028/www.scientific.net/SSP.277.90

Paper Titles

Influence of Dispersed Systems on Exploratory Well Drilling
p.44

Automated Monitoring of Physical Processes of Formation of Burden Material Surface and Gas Flow in Blast Furnace
p.54

Coal Seam Gasification in Faulting Zones (Heat and Mass Balance Study)
p.66

Physico-Mechanical and Chemical Characteristics of Amber
p.80

The Methodology of Use of the Mobile Crushing-and-Sorting Radiometric Complex in the Iron-Ore Pit
p.90

Substantiation of Mineral Extraction from Man-Made Deposits
p.100

Rock Mass Strength Estimation Using Structural Factor Based on Statistical Strength Theory
p.111

Technological Solutions for the Realization of NGH-Technology for Gas Transportation and Storage in Gas Hydrate Form
p.123

Examination of Phase Transition of Mine Methane to Gas Hydrates and their Sudden Failure – Percy Bridgman’s Effect
p.137

HomeSolid State PhenomenaSolid State Phenomena Vol. 277The Methodology of Use of the Mobile...

The Methodology of Use of the Mobile Crushing-and-Sorting Radiometric Complex in the Iron-Ore Pit

Abstract:

This paper justifies the use of the mobile crushing-and-sorting radiometric complexes (MCSRC) under conditions of iron-ore pits in order to increase the ore quality produced in the mine faces of the «ore-rock» contact zone and stabilize the content of the useful component in the general ore-flow. The patterns, which are used as a fundamental base of the radiometric sorting process, are given. The functional scheme of MCSRC is considered, the algorithm of operation is developed, and the main technological tasks of the complex are determined. The technological scheme of the face sloping using MCSRC and formation of the all-pit ore-flow is developed. The expected indicators from use of the mobile crushing-and-sorting radiometric complex in the form of the technological, economical, power-saving and ecological effect were considered.

You might also be interested in these eBooks

Non-Traditional Technologies in the Mining Industry

View Preview

Info:

Periodical:

Solid State Phenomena (Volume 277)

Pages:

90-99

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.277.90

Citation:

Cite this paper

Online since:

June 2018

Authors:

Volodymyr Azaryan*

Keywords:

Gamma-Radiation, Ore-Flow, Quality of Iron Ore, Radiometry

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Azaryan, A.A, Azaryan, V.A, Vilkul, Yu.G., & Kolosov, V.A. (2012). The quality of iron ore raw materials of underground and open mining as the basis of competitiveness of the mining industry of Ukraine. Metallurgical and Mining Industry, (5), 1-4.

Google Scholar

[2] Azaryan, V.A. (2013). Mobile crushing-and-sorting radiometric complex (MCSRC). Report. Proceedings of the 9th Congress of the concentrators of the CIS countries in Moscow, 47.

Google Scholar

[3] Babiy, E.V., & Sinenko, M.A. (2010). On the quality of the ore flow in the technology of ore pre-concentration in an open pit. Bulletin of KTU: Kryvyi Rih, (25), 3-8.

Google Scholar

[4] Fedorov, M.Yu. (2007).

Google Scholar

[5] Sotskiy, A.R., Tsybulevskiy, Yu.E, & Vasilenko, V.E. (1979). Device for multicomponent radiometric separation of mineral raw materials. Non-ferrous metals, (9), 99-100.

Google Scholar

[6] Azaryan, V.A. (2003). Technology for fore-enrichment of manganese ores. Ph.D. thesis.

Google Scholar

[7] Nazarenko, V.M. (2002). Complex sorting and enrichment of manganese ore. Mining of ore deposits : collection of scientific papers, (78). 77-80.

Google Scholar

[8] Byzov, V.F. (1988). Comparative analysis of chemical and gamma methods of ores quality control on the conveyor. Mining journal, (12), 47-49.

Google Scholar

[9] Azaryan, А.А. (2003). Fore-enrichment of Krivbass underground ore by radiometric separation methods. Metallurgical and Mining Industry, (5), 95-96.

Google Scholar

[10] The quality control system on the conveyors of the Mine administration of the underground mining of the Mining department of PJSC ArcelorMittal Kryvyi Rih" (2005). Project. Kryviy Rih: SE "Kryvbassproject.

DOI: 10.31721/2306-5435-2020-1-107-96-101

Google Scholar