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Potential for solar thermal energy in the heap bioleaching of chalcopyrite in Chilean copper mining Murray C, Platzer W, Petersen J Minerals Engineering, 100, 75, 2017 |
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Selection of thermophiles for base metal sulfide concentrate leaching, Part I: Effect of temperature on copper concentrate leaching and silver recovery Norris PR, Laigle L, Ogden TJ, Gould OJP Minerals Engineering, 106, 7, 2017 |
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Selection of thermophiles for base metal sulfide concentrate leaching, Part II: Nickel-copper and nickel concentrates Norris PR Minerals Engineering, 106, 13, 2017 |
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Lithium recovery from lithium-containing micas using sulfur oxidizing microorganisms Reichel S, Aubel T, Patzig A, Janneck E, Martin M Minerals Engineering, 106, 18, 2017 |
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Comparative study of S, Fe and Cu speciation transformation during. chalcopyrite bioleaching by mixed mesophiles and mixed thermophiles Liu HC, Xia JL, Nie ZY, Liu LZ, Wang L, Ma CY, Zheng L, Zhao YD, Wen W Minerals Engineering, 106, 22, 2017 |
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Sequential bioleaching of copper from brake pads residues using encapsulated bacteria Vermeulen F, Nicolay X Minerals Engineering, 106, 39, 2017 |
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Influence of dissolved oxygen on the bioleaching efficiency under oxygen enriched atmosphere Guezennec AG, Joulian C, Jacob J, Archane A, Ibarra D, de Buyer R, Bodenan F, d'Hugues P Minerals Engineering, 106, 64, 2017 |
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New approaches for extracting and recovering metals from mine tailings Falagan C, Grail BM, Johnson DB Minerals Engineering, 106, 71, 2017 |
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Reductive bioprocessing of cobalt-bearing limonitic laterites Smith SL, Grail BM, Johnson DB Minerals Engineering, 106, 86, 2017 |