This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
‘Copper – A Metal for the Ages’, U.S. Geological Survey, Mineral Resources Program, https://pubs.usgs.gov/fs/2009/3031/FS2009-3031.pdf., pp.1–4, (accessed 24 May 2021).‘Copper – A Metal for the Ages’https://pubs.usgs.gov/fs/2009/3031/FS2009-3031.pdf.,14(accessed 24 May 2021).Search in Google Scholar
McHenry, C. (ed.), The New Encyclopedia Britannica 3, 15 edn., Chicago, Encyclopedia Britannica, Inc., 1992, pp.308–310.McHenryC.(ed.),15 edn.ChicagoEncyclopedia Britannica, Inc.1992308310Search in Google Scholar
‘Copper Prices Hit Highest Level Since 2011’, Eurometal, https://eurometal.net/copper-prices-hit-highest-level-since-2011/, (accessed 22 May 2021).‘Copper Prices Hit Highest Level Since 2011’https://eurometal.net/copper-prices-hit-highest-level-since-2011/, (accessed 22 May 2021).Search in Google Scholar
‘LME Copper Historical Price Graph’, London Metal Exchange, https://www.lme.com/en-GB/Metals/Non-ferrous/Copper#tabIndex=2, (accessed 24 May 2021).‘LME Copper Historical Price Graph’https://www.lme.com/en-GB/Metals/Non-ferrous/Copper#tabIndex=2, (accessed 24 May 2021).Search in Google Scholar
‘Total Copper Mine Production Worldwide from 2006 to 2020’, Statista, https://www.statista.com/statistics/254839/copper-production-by-country/, (accessed 26 May 2021).‘Total Copper Mine Production Worldwide from 2006 to 2020’https://www.statista.com/statistics/254839/copper-production-by-country/, (accessed 26 May 2021).Search in Google Scholar
‘World Production Trend of Copper’, U.S. Geological Survey, https://commons.wikimedia.org/wiki/File:Copper_-_world_production_trend.svg. (accessed 26 May 2021.)‘World Production Trend of Copper’https://commons.wikimedia.org/wiki/File:Copper_-_world_production_trend.svg. (accessed 26 May 2021.)Search in Google Scholar
Mackay, I. et al., ‘Dynamic Froth Stability of Copper Flotation Tailings’, Minerals Engineering, no. 124, DOI:10.1016/j.mineng.2018.05.0052018, pp. 103–107.MackayI.‘Dynamic Froth Stability of Copper Flotation Tailings’12410.1016/j.mineng.2018.05.0052018103107Open DOISearch in Google Scholar
Drobe, M. et al., ‘Processing Tests, Adjusted Cost Models and the Economies of Reprocessing Copper Mine Tailings in Chile’, Metals, vol. 11, no. 1, 2021, p. 103, DOI:10.3390/met11010103, (accessed 26 May 2021).DrobeM.‘Processing Tests, Adjusted Cost Models and the Economies of Reprocessing Copper Mine Tailings in Chile’111202110310.3390/met11010103(accessed 26 May 2021).Open DOISearch in Google Scholar
Figueiredo, J. et al., ‘Tailings Reprocessing from Cabeço do Pião Dam in Central Portugal: A Kinetic Approach of Experimental Data’, Journal of Sustainable Mining, no. 17, 2018, pp. 139–144, DOI:10.1016/j.jsm.2018.07.001, (accessed 28 May 2021).FigueiredoJ.‘Tailings Reprocessing from Cabeço do Pião Dam in Central Portugal: A Kinetic Approach of Experimental Data’17201813914410.1016/j.jsm.2018.07.001(accessed 28 May 2021).Open DOISearch in Google Scholar
Wills, B.A., Finch, J.A., Wills' Mineral Processing Technology: An Introduction to the Practical Aspects of Ore Treatment and Mineral Recovery, 8th edn. Oxford, Butterworth-Heinemann, 2016, pp. 1–23, DOI:10.1016/B978-0-08097053-0.00012-1 (accessed 27 May 2021).WillsB.A.FinchJ.A.8th ednOxfordButterworth-Heinemann201612310.1016/B978-0-08097053-0.00012-1(accessed 27 May 2021).Open DOISearch in Google Scholar
‘Processes: Copper Mining and Production’, European Copper Institute, https://copperalliance.eu/about-copper/copper-and-its-alloys/processes/, pp. 1–3, (accessed 25 May 2021).‘Processes: Copper Mining and Production’https://copperalliance.eu/about-copper/copper-and-its-alloys/processes/,13(accessed 25 May 2021).Search in Google Scholar
Wirth, P., Černič Mali, B., Fischer, W., Post-Mining Regions in Central Europe – Problems, Potentials, Possibilities, Munich, Oekom Verlag, 2012, pp. 104–118.WirthP.Černič MaliB.FischerW.MunichOekom Verlag2012104118Search in Google Scholar
Uekoetter, F., Mining in Central Europe – Perspectives from Environmental History, Munich, RCC Perspectives, 2012, DOI:10.5282/rcc/5600, pp. 21–38, (accessed 28 May 2021).UekoetterF.201210.5282/rcc/56002138(accessed 28 May 2021).Open DOISearch in Google Scholar
Kastivnik J., Venta A., Report on Processing Test, Ljubljana, Geološki Zavod, 2018, pp. 4–17.KastivnikJ.VentaA.LjubljanaGeološki Zavod2018417Search in Google Scholar
Stražišar, J., Mehanska Procesna Tehnika I. Ljubljana, Univerza v Ljubljani, 1996, pp. 27–30.StražišarJ.LjubljanaUniverza v Ljubljani19962730Search in Google Scholar
Stražišar, J., Knez, S., Vaje in Računski Primeri Iz Mehanske Procesne Tehnike, Ljubljana Univerza v Ljubljani:, 2001, pp. 23–29.StražišarJ.KnezS.Ljubljana Univerza v Ljubljani20012329Search in Google Scholar
Enhanced Gravity Separator 911mpe-c-902, 911 Metalurgy Coporation, https://www.911metallurgist.com/equipment/enhanced-gravity-separator/, pp. 1–20. (accessed 11 June 2021).Enhanced Gravity Separator 911mpe-c-902https://www.911metallurgist.com/equipment/enhanced-gravity-separator/,120(accessed 11 June 2021).Search in Google Scholar
Rao, G.V., Markandeya, R., Kumar, R. ‘Modeling and Optimization of Multi Gravity Separator for Recovery of Iron Values from Sub Grade Iron Ore Using Three Level Three Factor Box Behnken Design’, International Journal of Mineral Processing and Extractive Metallurgy, no. 2, 2017, pp. 46–56, DOI:10.11648/j.ijmpem.20170204.12. (accessed 28 May 2021).RaoG.V.MarkandeyaR.KumarR.‘Modeling and Optimization of Multi Gravity Separator for Recovery of Iron Values from Sub Grade Iron Ore Using Three Level Three Factor Box Behnken Design’22017465610.11648/j.ijmpem.20170204.12(accessed 28 May 2021).Open DOISearch in Google Scholar