Development of a conceptual direct solvent extraction (DSX) route and a flowsheet to produce purified concentrated cobalt and nickel solutions representing sulfuric acid leach liquor of laterite

IF 4.8 2区材料科学 Q1 METALLURGY & METALLURGICAL ENGINEERING Hydrometallurgy Pub Date : 2024-04-23 DOI:10.1016/j.hydromet.2024.106321

Alexandre Silva Guimarães , Georgio Patrício de Souza Resende , Iranildes Daniel dos Santos , Marcelo Borges Mansur

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Abstract

Direct solvent extraction (DSX) was applied to produce purified concentrated Ni and Co solutions from a synthetic sulfuric liquor containing Ca, Cu, Mg, Mn, and Zn as impurities, which simulates the solution obtained by the sulfation-roasting-leaching process after precipitation of Fe, Al, and Cr. The commercial extractants Versatic 10, Cyanex 272, D2EHPA, TBP were used in 3 solvent extraction circuits. In the first circuit, operated at 40 °C, Versatic 10 (0.5 M) fully extracted Cu, Zn, Ni, and Co in 3 stages at O/A = 2:1, and pH 6.5, leaving remaining Mn (54% was extracted) and most of the Ca and Mg in the raffinate. The co-extracted Ca and Mg were fully scrubbed off the loaded Versatic 10 in 2 stages at O/A = 5:1, and pH 6.5. The other metals were stripped out of the Versatic 10 extract using a synthetic Ni spent electrolyte (60 g/L Ni, 2 M H₂SO₄) in 2 stages at O/A = 9:1. This loaded strip liquor was subjected to a second circuit with Cyanex 272 (0.64 M) operated at 50 °C. Three stages were required to fully extract Co, Cu, Mn, and Zn (O/A = 2:1, pH 4), whereas the raffinate containing 82 g/L Ni was deemed suitable for electrowinning. The co-extracted Ni(II) was fully scrubbed off the loaded Cyanex 272 in only 1 stage at O/A = 5:1, and pH 4. All Co, Cu, Mn, and Zn were stripped out from the scrubbed loaded Cyanex 272 in 2 stages at O/A = 10:1 using a synthetic Co spent electrolyte (45 g/L Co, 1 M H₂SO₄). The raffinate containing 58.4 g/L Co was submitted to a third circuit using a D2EHPA (0.6 M) + TBP (0.73 M) synergistic system operated at 50 °C. Zinc(II) was fully extracted by the D2EHPA + TBP system in 2 stages at pH 2 and O/A = 1:3, while Mn(II) and Cu(II) were fully extracted from the Zn-depleted raffinate in 2 stages at pH 3.5 and O/A = 2:1. The raffinate containing 58.3 g/L Co was deemed suitable for electrowinning. Copper(II), Mn(II), and Zn(II) were stripped out from the loaded D2EHPA + TBP in 3 stages at O/A = 2.5:1 using 1 M H₂SO₄. The real number of moles of extractants involved in the extractions and apparent equilibrium constants were estimated for all circuits. A flowsheet of the purification conceptual route is presented.

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开发概念性直接溶剂萃取（DSX）路线和流程图，以生产红土硫酸浸出液中的纯化浓缩钴和镍溶液

直接溶剂萃取（DSX）被用于从含有 Ca、Cu、Mg、Mn 和 Zn 等杂质的合成硫液中生产纯化的浓镍和浓钴溶液，该溶液模拟了硫化-焙烧-浸出过程中铁、铝和铬沉淀后得到的溶液。商用萃取剂 Versatic 10、Cyanex 272、D2EHPA 和 TBP 被用于 3 个溶剂萃取回路。在第一回路中，温度为 40 °C，在 O/A = 2:1 和 pH 值为 6.5 的条件下，Versatic 10（0.5 M）在 3 个阶段中完全萃取了铜、锌、镍和钴，剩余的锰（萃取了 54%）以及大部分的钙和镁留在了尾渣中。在 O/A = 5:1 和 pH 值为 6.5 的条件下，共萃取的 Ca 和 Mg 分 2 个阶段从负载的 Versatic 10 中完全洗脱。在 O/A = 9:1 的条件下，使用合成镍废电解液（60 g/L 镍，2 M H2SO4）分两个阶段从 Versatic 10 萃取液中剥离出其他金属。在 50 °C的条件下，使用Cyanex 272（0.64 M）对带液进行第二次循环。需要三个阶段才能完全萃取出钴、铜、锰和锌（O/A = 2:1，pH 值为 4），而含有 82 克/升镍的废液被认为适合电积。在 O/A = 5:1 和 pH 值为 4 的条件下，只需一个阶段就能将共萃取的 Ni(II) 从负载的 Cyanex 272 中完全洗脱出来。在 O/A = 10:1 的条件下，使用合成的 Co 废电解质（45 g/L Co，1 M H2SO4），分两个阶段从洗脱负载的 Cyanex 272 中剥离出所有的 Co、Cu、Mn 和 Zn。含有 58.4 g/L Co 的废液被送入第三回路，使用 D2EHPA（0.6 M）+ TBP（0.73 M）协同系统，在 50 °C 下运行。在 pH 值为 2 和 O/A = 1:3 的条件下，D2EHPA + TBP 系统分两个阶段完全萃取了锌（II），而在 pH 值为 3.5 和 O/A = 2:1 的条件下，分两个阶段完全萃取了贫锌废液中的锰（II）和铜（II）。含 58.3 g/L Co 的废液被认为适合电积。在 O/A = 2.5:1 的条件下，使用 1 M H2SO4 分 3 个阶段从负载的 D2EHPA + TBP 中剥离出铜（II）、锰（II）和锌（II）。对所有回路中萃取剂的实际摩尔数和表观平衡常数进行了估算。报告还提供了纯化概念路线的流程图。

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来源期刊

Hydrometallurgy 工程技术-冶金工程

CiteScore

9.50

自引率

6.40%

发文量

144

审稿时长

3.4 months

期刊介绍： Hydrometallurgy aims to compile studies on novel processes, process design, chemistry, modelling, control, economics and interfaces between unit operations, and to provide a forum for discussions on case histories and operational difficulties. Topics covered include: leaching of metal values by chemical reagents or bacterial action at ambient or elevated pressures and temperatures; separation of solids from leach liquors; removal of impurities and recovery of metal values by precipitation, ion exchange, solvent extraction, gaseous reduction, cementation, electro-winning and electro-refining; pre-treatment of ores by roasting or chemical treatments such as halogenation or reduction; recycling of reagents and treatment of effluents.