Influence of indigenous mixotrophic bacteria on pyrite surface chemistry: Implications for bioflotation

E. Sanwani, Nuslia Bayangkara Lamandhi, Halimatul Husni, S. Chaerun, W. Astuti, F. R. Mufakhir
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引用次数: 4

Abstract

Given the low-cost and eco-friendly method, biotechnology has been widely utilized in industries as an alternative for physical and chemical processes, including in the biomining process (e.g., bioflotation and biobeneficiation). However, the use of biochemical reagent, which is selective for certain minerals, has not been well studied. This research was aimed to investigate the potential use of biosurfactant-producing mixotrophic bacteria as an alternative to chemical reagents during bioflotation and biobeneficiation process. Thirteen bacterial strains were investigated for their ability to produce biosurfactants and their effects on the surface properties of pyrite minerals. Bacteria-pyrite interaction experimental results showed that pyrite surface properties became more hydrophilic in the experimental systems inoculated with bacteria adapted with pyrite for 48 h than that without bacterial adaptation to pyrite, which was evidenced by the decrease in the contact angle of pyrite minerals by up to 50%. This evidence was also confirmed by the highest emulsifying index value (51.6%) attained during the bacteria-pyrite interaction. Hence, these bacteria can potentially be applied to selective flotation as pyrite depressants.
本地混合营养细菌对黄铁矿表面化学的影响:对生物浮选的影响
由于低成本和生态友好的方法,生物技术已广泛用于工业中作为物理和化学过程的替代方法,包括生物采矿过程(例如,生物浮选和生物选矿)。然而,对某些矿物具有选择性的生化试剂的使用还没有得到很好的研究。本研究旨在探讨生产生物表面活性剂的混合营养细菌作为化学试剂在生物浮选和生物净化过程中的潜在用途。研究了13株细菌产生生物表面活性剂的能力及其对黄铁矿矿物表面性质的影响。细菌-黄铁矿相互作用实验结果表明,在接种了黄铁矿适应菌48 h的实验体系中,黄铁矿的表面性质比不接种黄铁矿适应菌的实验体系更亲水,黄铁矿矿物的接触角降低了50%。细菌与黄铁矿相互作用的乳化指数值最高(51.6%)也证实了这一证据。因此,这些细菌有可能作为黄铁矿抑制剂应用于选择性浮选。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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