ArticleName |
Preservation and development of the mining-induced deposits of the Kola mining-industrial complex to enlarge the mineral raw material base of the region |
ArticleAuthorData |
The Establishment of RAS Mining Institute KSC RAS:
N. N. Melnikov, director, academician RAS, tel.: (81555) 7-43-42
G. V. Mitrofanova, senior researcher, Ph. D. (Eng.), e-mail: gera@goi.kolasc.net.ru
A. A. Petrov, software engineer, e-mail: Petrov@goi.kolasc.net.ru
“Kovdorsky GOK” JSC:
N. A. Ganza, executive director, e-mail: Nikolay_Ganza/Kovdor/Eurochem@eurochem.ru |
Abstract |
Some Mining institute developments in the field of formation of mining-induced deposits with optimum parameters, prediction and management of physical-chemical properties of the dumped raw materials in the process of storing, concerning the development of techniques of comprehensive recovery of valuable components, recycling the mineral raw materials in the industry, as well as preservation of mininginduced deposits for their subsequent use. |
keywords |
Mining-induced deposit, mineral raw materials, preservation, development, ore concentration wastes, classification, information system, data bases, e-mail |
References |
1. Report of the environmental protection and rational management of natural resources of Murmansk region in 2004. Murmansk, 2005 (in Russian). 2. Reshetnyak S. P., Arkhipov A. V., Krasnoselsky E. B. Data bank on mining-induced deposits in Murmansk region. Scientific foundations of the increase of technical level of complex development of mineral resources and underground space of the Northwest of Russia. Apatity: Mining Institute of KSC RAS Publ., 1997 (in Russian). 3. Leontyev A. A., Bessonov I. I. Resource saving geotechnologies in the underground ore mining. Apatity: KSC RAS Publ., 2003 (in Russian). 4. Leontyev A. A., Gurevich B. I., Bessonov I. I., Konokhov V. P. Binding substances from industrial waste for backfilling works in mines. A study of the technology and properties of construction and technical materials from natural and mining-induced raw materials. Apatity: KSC RAS Publ., 2002 (in Russian). 5. Krasnoselsky E. B., Arkhipov A. B. Principles of determination of technological parameters of the development of the fine structure mining-induced deposits. Issues of development of mineral deposits and underground space of the Northwest of Russia. Apatity: KSC RAS Publ., 2001 (in Russian). 6. Beloborodov V. I., Zakharova I. B., Andronov G. P., Filimonova N. M. Development of the dressing technology of fine-grain apatite-bearing mining-induced raw materials. Proceedings of international meeting “Plaksin readings”. Apatity: KSC RAS Publ., 2007 (in Russian). 7. Ivanova V. A., Kurkov A. V. Development of flotation reagents of directional effect for mineral raw materials processing. Proceedings of international meeting “Modern methods of complex ore processing and non-traditional mineral raw materials”, Apatity, 1–7 October 2007. Part 1. Apatity: KSC RAS Publ., 2007 (in Russian). 8. Melnikov N. N., Mesyats S. P. Preservation of mining-induced deposits as a reserve of Russian resource potential. From the book: Complex development of the subsoils: expanding prospects of Russian mineral raw materials base. Moscow, 2009 (in Russian). |