Труды КНЦ вып.9 (ПРИКЛАДНАЯ ЭКОЛОГИЯ СЕВЕРА вып. 9/2018(9))

Halinen A-K., Rahunen N., Kaksonen A. H., Puhakka J. A. Heap bioleaching of a complex sulfide ore: Effect oftemperature on base metal extraction and bacterial compositions // Hydrometallurgy. 2009. Vol. 98. № 1-2. Part I. P. 92-100. Part II. P. 101-107. Makarov D., Suvorova O., Kumarova V., Manakova N., Melkonyan R. Building materials from mining and concentration wastes of the Murmansk region, Russia // Proceedings of the XVI Balkan Mineral Processing Congress. Belgrade, Serbia. 2015. Vol. 2. P. 869-874. Maley M., van Bronswijk W., Watling H. R. Leaching of a low-grade, copper- nickel sulfide ore 2. Impact of aeration and pH on Cu recovery during abiotic leaching // Hydrometallurgy. 2009а. Vol. 98. № 1-2. P. 66-72. Maley M., van Bronswijk W., Watling H. R. Leaching of a low-grade, copper- nickel sulfide ore 3. Interactions of Cu with selected sulfide minerals // Hydrometallurgy. 2009b. Vol. 98. № 1-2. P. 73-80. Masloboev V A., Makarov D. V., Baklanov A. A., Amosov P. V, Seleznev S. G. Methods to reduce the environmental hazards of mining and processing of minerals in the Arctic regions // IMPC 2016: XXVIII International Mineral Processing Congress Proceedings. [Электронный ресурс]. Quebec: Canadian Institute of Mining, Metallurgy and Petroleum, 2016. 11 p. CD:\Papers\impcPaper1001.pdf. Masloboev V. A., Makarov D. V., Nesterov D. P., Mazukhina S. I., Bocharova I. V., Menshikov Yu. P., Svetlov A. V. Geoecological validation of mechanisms and parameters of physical-chemical processes facilitating the in-depth processing of complex suphide ores and mining wastes // Proceeding of the Murmansk State Technical University. 2012. Vol. 15. № 2. P. 361-368. Monteiro S. N., Fontes V. C. M. On the production of fired clay bricks from waste materials: A critical update. // Construction and Building Materials. 2014. Vol. 6 8 . P. 599-610. Qin W., Zhen S., Yan Z., CampbellM., Wang J., Liu K., Zhang Y. Heap bioleaching of a low-grade nickel-bearing sulfide ore containing high levels of magnesium as olivine, chlorite and antigorite. // Hydrometallurgy. 2009. Vol. 98. № 1-2. P. 58-65. Raut S. P., Ralegaonkar R. V., Mandavgane S. A. Development of sustainable construction material using industrial and agricultural solid waste: A review of waste- create bricks. // Construction and Building Materials. 2011. Vol. 25. P. 4037-4042. Suvorova O. V., Kumarova V. А., Makarov D. V., Melkonyan R G., Masloboev V. A. Mining wastes in Murmansk region, Russia, as a source of ceramic building materials // Proceedings of the XV Balkan Mineral Processing Congress. Sozopol, Bulgaria. 2013. Vol. 2. P. 887-889. Svetlov A., Kravchenko E., Selivanova E., Seleznev E., Nesterov D., Makarov D., Masloboev V. Perspectives for heap leaching of non-ferrous metals (Murmansk Region, Russia) // Journal of the Polish Mineral Engineering Society (Inzynieria Mineralna). 2015. № 2(36). P. 231-236. Velasco P M., Morales M. P., Letelier V. G., Mendivil M. A. Fired clay bricks made by adding wastes: Assessment of the impact on physical, mechanical and thermal properties. // Construction and Building Materials. 2016. Vol. 125. P. 241-252. Velasco P. M., Ortiz M. P. M., Giro M. A. M., Velasco L. M. Fired clay bricks manufactured by adding wastes as sustainable construction material - A review // Construction and Building Materials. 2014. Vol .63. P. 97-107. Watling H. R. The bioleaching of sulphide minerals with emphasis on copper sulphides - A review // Hydrometallurgy. 2006. Vol. 84. № 1-2. P. 81-100. 158