Bioleaching of polymetallic sulphidic mining residues: influence of increasing solid concentration on microbial community dynamics and metal dissolution

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-01 DOI:10.1016/j.resmic.2023.104112
Catherine Joulian, Agathe Hubau, Douglas Pino-Herrera, Anne-Gwénaëlle Guezennec
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Abstract

Within the European research project NEMO, a bioleaching strategy was developed for efficient metal extraction from bioleach residue currently heap-leached at Sotkamo (Finland) that still contains sulphidic minerals and valuable metals (Ni, Zn, Co, Cu). The strategy of gradually increasing the solid content with 5% steps allowed the adaptation of the consortium up to 20% (w/w) solid content, with efficient metal dissolution and same dominant bacteria. Largest proportions of Sulfobacillus thermosulfidooxidans while Eh increased suggested it to be most involved in iron oxidation. Acidithiobacillus caldus was rather found when pH stabilized, in line with a production of protons from sulphur oxidation that maintained low pH. ‘Acidithiomicrobium’ P2 was favoured towards the end of the runs and at 20% (w/w) solids possibly due to its tolerance to Ni. The use of gene abundance to evaluate biomass in the pulp provided complementary results to classical cell counts in the liquid phase, and suggested a key role of bacteria associated to mineral particles in iron oxidation. Scaling-up in 21-L stirred-tank reactor at 20% (w/w) solids had no detrimental effect on bioleaching and confirmed metal extraction rates. ‘Acidithiomicrobium’ P2 and Sb. thermosulfidooxidans remained main actors. However, the biological activity was considerably reduced at 30% (w/w) solid concentration, which may be due to a too drastic environmental change for the bacteria to adapt to higher solid concentration. Efficient bioleaching of Sotkamo bioleaching residue at high solid concentration was demonstrated, as well as the robustness of the selected moderately thermophilic consortium, at laboratory and pilot scales.

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多金属硫化物采矿残留物的生物浸出:固体浓度增加对微生物群落动力学和金属溶解的影响。
在欧洲NEMO研究项目中,制定了一种生物浸出策略,用于从Sotkamo(芬兰)目前堆浸的生物残渣中有效提取金属,该残渣仍含有硫化物矿物和有价值金属(Ni、Zn、Co、Cu)。以5%的步骤逐渐增加固体含量的策略允许联盟适应高达20%(w/w)的固体含量,具有有效的金属溶解和相同的优势细菌。当Eh增加时,硫基二硫醚的比例最大,表明它与铁的氧化作用最为密切。当pH稳定时,发现了酸性硫杆菌,这与硫氧化产生的质子保持低pH一致。“酸性硫微生物”P2在运行接近尾声时和固体含量为20%(w/w)时受到青睐,可能是因为它对Ni的耐受性。利用基因丰度评估纸浆中的生物量为液相中的经典细胞计数提供了补充结果,并表明与矿物颗粒相关的细菌在铁氧化中发挥着关键作用。在21-L搅拌槽式反应器中,在20%(w/w)固体的条件下进行放大对生物浸出和已确认的金属提取率没有不利影响酸性硫代微生物‘P2’和Sb。热硫氧化物仍然是主要的参与者。然而,在30%(w/w)固体浓度下,生物活性显著降低,这可能是由于环境变化太剧烈,细菌无法适应更高的固体浓度。在实验室和中试规模上,证明了Sotkamo生物浸出残渣在高固体浓度下的有效生物浸出,以及所选中等嗜热菌群落的稳健性。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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