生物浮选:细菌-矿物相互作用,实现生态友好和可持续的矿物加工☆

Edy Sanwani , SitiKhodijah Chaerun , RiriaZendy Mirahati , Tri Wahyuningsih
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引用次数: 28

摘要

在本研究中,研究了两种能够产生生物表面活性剂和氧化铁(Fe)和硫(S)的细菌,即杆状芽孢杆菌SKC-2和氧化亚铁酸盐芽孢杆菌SKC/SAA-2,研究了它们在硫化物生物浮选过程中具有生物捕收剂和抑制剂的双重功能。这两种菌株都能产生大量与黄铁矿相互作用的生物表面活性剂,这些生物表面活性剂对它们在黄铁矿表面的粘附以及黄铁矿表面性质的改变起着重要作用。在实验过程中,溶液的pH逐渐降低到~ 3,表明细菌对黄铁矿矿物进行了活性氧化。两种菌株的生长都导致了生物表面活性剂的产生,表现为溶液表面张力随时间的降低和黄铁矿表面接触角随时间的增加。而黄铁矿表面接触角在5 d后逐渐减小,30 d后实验终止。配备能量色散x射线能谱(SEM-EDS)和傅里叶变换红外(FTIR)分析的扫描电子显微镜也证实了这两种细菌菌株在改变黄铁矿表面性质方面的作用,根据培养时间的不同,黄铁矿表面性质更疏水或更亲水。这些结果表明,黄铁矿表面性质的变化明显是细菌作用的结果,可能同时作为生物捕收剂或生物起泡剂和抑制剂,非常适用于浮选过程。这些结果增加了我们对黄铁矿-细菌复合物相互作用的认识,对于硫化物生物浮选过程的研究来说,可能是一个非常有用的结果,具有真正的开发价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bioflotation: Bacteria-Mineral Interaction for Eco-friendly and Sustainable Mineral Processing

In the current study, the action of two bacteria capable of producing biosurfactants and oxidizing iron (Fe) and sulfur (S), namely Bacillus pumilus SKC-2 and Alicyclobacillus ferrooxydans SKC/SAA-2, was investigated with respect to their ability in possessing dual-function as either bio-collector or depressant for the development of sulfide bioflotation processes. Both bacterial strains were able to produce high amounts of biosurfactants interacted with pyrite that had an important role in their adhesion on the surface of pyrite as well as the change of pyrite surface properties. Over the course of the experiments, the pH of the solutions gradually decreased to ∼3, indicating the active oxidation of pyrite minerals by bacteria. The growth of both bacterial strains resulted in the generation of biosurfactants as represented by the decrease of the surface tension of the solutions and the increase of the contact angle of the pyrite surfaces as a function of time. However, the contact angle of pyrite surfaces gradually decreased after 5 days of incubation until the experiments terminated on 30 days. Scanning electron microscopy equipped with energy dispersive X-ray spectroscopy (SEM-EDS) and Fourier transform Infrared (FTIR) analyses also confirmed the role of both bacterial strains in changing the pyrite surface properties to be more hydrophobic or more hydrophilic depending on the time of incubation. These results indicate that the changes of pyrite surface properties are clearly as the results of bacterial action, likely serving as both bio-collector or bio-frother and depressant that would be very applicable for flotation processes. These results increase our knowledge on the interactions in pyrite-bacteria complexes and could potentially be a very useful result with real exploitable value for those working on sulfide bioflotation processes.

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